Patent Application: US-41996903-A

Abstract:
the subject invention lies in the field of microorganism mutation and selection of the mutants . in particular , the invention is directed at obtaining metabolic mutants in a simple , direct and specific manner . in a preferred embodiment it is also possible to obtain desired mutants not comprising recombinant dna , thereby facilitating incorporation thereof in products for human consumption or application , due to shorter legislative procedures . the method according to the invention involves random mutation and specific selection of the desired metabolic mutant . knockout , mutants wherein a gene associated with metabolism is absent or inactivated and mutants with increased or decreased dna binding capacity are also claimed .

Description:
we have now achieved a system that can be used for shortening the length of time required for registration of mutant microorganisms capable of overproduction of particular desirable enzymes . the system overcomes the problem of multiple random inserts of “ foreign ” nucleic acid and in particular of the selection marker gene . it does not even require foreign nucleic acid to achieve the desired characteristic . the resulting mutant strain will not comprise heterologous nucleic acid . in addition the system according to the invention enables specific mutation of metabolism and prevents a large deal of experimentation leading to undesired phenotypes . the subject invention is directed at a nucleic acid cassette comprising a nucleic acid sequence encoding a bidirectional marker , said nucleic acid cassette further comprising a basic transcriptional unit operatively linked to the nucleic acid sequence encoding the bidirectional marker and said nucleic acid cassette further comprising an inducible enhancer or activator sequence linked to the basic transcription unit in such a manner that upon induction of the enhancer or activator sequence the bidirectional marker encoding nucleic acid sequence is expressed , said inducible enhancer or activator sequence being derived from a gene associated with activity of part of the metabolism , said inducible enhancer or activator sequence being derived from a gene associated with metabolism . a basic transcription unit comprises any elements required for transcription of the gene to which the transcription is linked . it can comprise the promoter with or without enhancer sequences . the basic transcription unit must be operative in the host organism . the basic transcription unit must be located such that it is operatively linked , to the bidirectional marker gene for transcription thereof to be possible . suitable examples are well known for a number of host cells such as e . g . aspergillus , trichoderma , penicillium , fusarium , saccharomyces , kluyvromyce and lactobacillus . in the examples the basic transcription unit tgox derived from the aspergillus niger goxc transcription unit ( whittington et al . 1990 ) is illustrated in an operable embodiment of the invention . the inducible enhancer or activator sequence is preferably normally involved in regulation of an enzyme cascade or involved in a part of metabolism involved with one or more feed back loops . in a further embodiment a nucleic acid cassette according to the invention comprises an inducible enhancer or activator sequence that is normally involved in carbon metabolism . suitable examples of inducible enhancer or activator sequence to be used in a nucleic acid cassette according to the invention are the upstream activating sequence ( uas ) as comprised on any of the following fragments of nucleic acid : a fragment originating from the promoters of the abfa , abfb and abna genes encoding respectively arabinofuranosidase a , arabinofuranosidase b and endoarabinase , a fragment originating from the glaa gene encoding glucoamylase . a fragment containing the atcr binding site such as on the alcr and alca promoter . a fragment originating from the cup1 gene . a fragment originating from the ph05 gene a fragment originating from the gal1 , gal7 or gal10 genes . a fragment originating from the xlna gene a fragment originating from the pgaii gene . by way of example these fragments can be derived from the following organisms as is described in the literature : a fragment originating from the promoters of the abfa , abfb and abn genes encoding respectively arabinofuranosidase a , arabinofuranosidase b and endoarabinase of aspergillus niger ( flipphi m . j . a . et al . 1994 ) a fragment originating from the glaa gene encoding glucoamylese of aspergillus niger , ( fowler t . et al 1990 ) a fragment containing the alcr binding site such as on the atcr promoter of aspergillus nidulans ( felenbok b . et al . 1994 ), a fragment originating from the cup1 gene of saccharomyces cerevisiae ( hinnen a . et al . 1995 ) a fragment originating from the yho5 gene of saccharomyces cerevisiae ( hinnen a . et al . 1995 ) a fragment originating from the gal1 , gal7 or gal10 genes of saccharomyces cerevisiae ( hinnen a . et al . 1995 ). a fragment originating from the xlna , xlnb , xlnc or xlnd genes of aspergillus nidulans , a fragment originating from the xlnb , xlnc or xlnd genes of aspergillus niger ( see elsewhere in this description ), a fragment originating from the xlna or xlnd genes of aspergillus tubigensis ( de graaff et al . 1994 ). a fragment originating from the pgaii gene of aspergillus niger ( see elsewhere in this document ). in the examples uas of xlna is illustrated in an operable embodiment of the invention . a bidirectional marker is an art recognised term . it comprises a selection marker that can be used to indicate presence or absence of expression on the basis of the selection conditions used . a preferred bidirectional marker will confer selectability on the basis of lethality or extreme reduction of growth . alternatively different colouring of colonies upon expression or lack of expression of the bidirectional marker gene is also a feasible embodiment . suitable examples of known bidirectional markers are to be found in the group consisting of the facb , the niad , the amds , the can1 , the ura3 , the vra4 and the pyra genes . we hereby point out that pyra homologues are also referred to in the literature as pyrg , vra3 , vra4 , pyr4 and pyr1 . these genes can be found in i . a . the following organisms the facb gene in aspergillus nidulans , the niad gene in aspergillus niger , the niad gene in aspergillus oryzae , the amds gene in aspergillus nidulans , the can1 gene in schizosaccharomyces pombe , the ura3 gene in saccharomyces cerevisiee , the ura4 gene in saccharomyces pombe and the pyra genes in aspergillus , trichoderms , penicillium , fusarium , saccharomyces and kluyveromyces . selection of facb mutants i . e . with a negative phenotype can occur on the basis of fluoro - acetate resistance . selection for fac b * i . e . a positive phenotype can occur on acetate as a carbon source ( katz , m . e . and hynes m . j . 1989 ). selection of niad mutants i . e . with a negative phenotype can occur on the basis of chlorate resistance . selection for nia d * i . e . a positive phenotype can occur on nitrate as a nitrogen source ( unkles s . e . et al . 1989a and 1989b ). selection of amds mutants i . e . with a negative phenotype can occur on the basis of fluor acetamide resistance . selection for amd s * i . e . a positive phenotype can occur on acetamide as a nitrogen source . as most fungi do not have a gene encoding an acetamidase function amd s is a dominant marker for such fungi . it has been used as such in aspergillus niger , aspergillus niger var ; tubigensis , aspergillus niger var . awamori , aspergillus foetidus , aspergillus oryzae , aspergillus sydowii , aspergillus japonicus aspergillus aculeatus , penicillium species . trichoderma species among others ( kelly and hynes 1985 and bailey et al . 1991 ). selection of can1 mutants i . e . with a negative phenotype can occur on the basis of canavanine resistance , wherein canavanine is an arginine analogue . selection for can 1 * i . e . a positive phenotype can occur on arginine ( ekwall k . 1991 ). the gene encoding orothidine 5 ′- β - decarboxylase is known as pyra , pyrg or ura3 . it has been found for various organisms e . g . aspergillus , trichoderma , penicillium , fusarium , saccharomyces and kluyveromyces . selection of pyra mutants i . e . with a negative phenotype , also described as pyrg or ura3 can occur on the basis of fluoro orotic acid resistance . selection for pyr a + and homologues thereof i . e . a positive phenotype can be done on the basis of uridine or uracil prototrophy . in the examples pyra from aspergillus niger ( wilson et al . 1988 ) is illustrated in an operable embodiment of the invention . other examples are known to a person skilled in the art and can be readily found in the literature . the selection marker to be used will depend on the host organism to be mutated and other secondary considerations such as ease of selectability , reliability and cost of substrates to be used amongst others . the nucleic acid cassette incorporated in a transformation or ( expression vector is also included in the scope of the invention . also included is the application of such nucleic acid cassette or vector in transformation and selection methods . in particular in methods for producing mutants exhibiting overexpression of an enzyme involved in a predetermined part of metabolism , methods for producing mutants exhibiting reduced or inhibited expression of an enzyme involved in a predetermined part of metabolism and methods for determining and isolating regulatory genes involved in predetermined parts of metabolism . thus a method for preparing and selecting a mutant strain of microorganism , said mutation enhancing a predetermined part of metabolism in comparison to the non mutated strain , said method comprising introducing into a host a nucleic acid cassette according to any of the preceding claims . said host not exhibiting the phenotype associated with expression of the bidirectional marker prior to introduction of the nucleic acid cassette , culturing a resulting microorganism under conditions wherein the enhancer or activator sequence comprised on the nucleic acid cassette is normally active and under conditions wherein the bidirectional marker is expressed and wherein preferably expression of said bidirectional marker will lead to growth and non expression to non growth . selecting a transformant that exhibits the phenotype corresponding to the expression of the bidirectional marker gene under the aforementioned culturing conditions , subjecting the selected transformant to mutagenesis in a manner known per se , culturing the resulting strain under conditions acceptable for a strain with a phenotype corresponding to the expression of the bidirectional marker and under conditions that in the non mutated parent comprising the nucleic acid cassette result in non - expression of the bidirectional marker and in the presence of a metabolisable substrate for the predetermined part of metabolism , selecting a strain resulting from the cultivation step following mutagenesis that exhibits a phenotype corresponding to the expression of the bidirectional marker gene under selection conditions that for the non mutated parent comprising the nucleic acid cassette result in non - expression of the bidirectional marker falls within the scope of the invention . the inducible enhancer or activator sequence is the upstream activating sequence ( uas ) derived from the gene xlna , the predetermined part of the metabolism is the xylanolytic part of carbon metabolism , the culturing step wherein the resulting microorganisms are cultivated under conditions wherein the enhancer or activator sequence is normally active and wherein the bidirectional marker is expressed comprises cultivation in the presence of inducer of uas and absence of repressor of uas and a metabolisable source of carbon . the selecting of a transformant that exhibits the phenotype corresponding to the expression of the bidirectional marker gene occurs under the aforementioned culturing conditions , the culturing step after mutagenesis of the selected transformant occurs under conditions acceptable for a strain with a phenotype corresponding to the expression of the bidirectional marker and under conditions that in the non mutated parent comprising the nucleic acid cassette result in non - expression of the bidirectional marker i . e . in the presence of repressor of uas and in the presence of a metabolisable source of carbon and optionally also in the presence of inducer of uas , the selection of a strain resulting from the cultivation step following mutagenesis of a strain that exhibits a phenotype corresponding to the expression of the bidirectional marker gene occurs under selection conditions that for the non mutated parent comprising the nucleic acid cassette result in non - expression of the bidirectional marker . the nucleic acid cassette comprises a nucleic acid sequence encoding the bidirectional marker pyra . the host does not exhibit the pyra + phenotype associated with expression of the bidirectional marker prior to introduction of the nucleic acid cassette , the culturing step wherein the resulting microorganisms are cultivated under conditions wherein the enhancer or activator sequence is normally active and wherein the bidirectional marker is expressed comprises cultivation under conditions wherein the enhancer or activator is normally active i . e . in the presence of inducer of the enhancer or activator and in the absence of repressor of the enhancer or activator and under conditions wherein the bidirectional marker is expressed . the selecting of a transformant that exhibits the phenotype corresponding to the expression of the bidirectional marker gene occurs under the aforementioned culturing conditions , the culturing step after mutagenesis of the selected transformant occurs under conditions acceptable for a strain with a phenotype corresponding to the expression of the bidirectional marker and under conditions that in the non mutated parent comprising the nucleic acid cassette result in non - expression of the bidirectional marker i . e . in the absence of inducer of the enhancer or activator or in the presence of repressor of the enhancer or activator and in the presence of a metabolisable substrate for the predetermined part of metabolism . the selection of a strain resulting from the cultivation step following mutagenesis of a strain that exhibits a phenotype corresponding to the expression of the bidirectional marker gene occurs under selection conditions that for the non mutated parent comprising the nucleic acid cassette result in non - expression of the bidirectional marker i . e . in the absence of inducer of the enhancer or activator or the presence of repressor of the enhancer or activator . the nucleic acid cassette comprising a nucleic acid sequence encoding the bidirectional marker pyra . the host not exhibiting the pyra + phenotype associated with expression of the bidirectional marker prior to introduction of the nucleic acid cassette , the inducible enhancer or activator sequence being the uas derived from the gene xlna , the culturing step wherein the resulting microorganisms are cultivated under conditions wherein the enhancer or activator sequence is normally active and wherein the bidirectional marker is expressed comprising cultivation under conditions wherein uas is normally active i . e . in the presence of inducer of uas such as xylose or xylan and in the absence of repressor of uas i . e . absence of glucose and under conditions wherein the bidirectional marker is expressed , the selecting of a transformant that exhibits the phenotype corresponding to the expression of the bidirectional marker gene occurs under the aforementioned culturing conditions , the culturing step after mutagenesis of the selected transformant occurring under conditions acceptable for a strain with a phenotype corresponding to the expression of the bidirectional marker and under conditions that in the non mutated parent comprising the nucleic acid cassette result in non - expression of the bidirectional marker i . e . in the absence of inducer of uas such as xylose or xylan or in the presence of repressor of uas i . e . in the presence of glucose and in the presence of a metabolisable source of carbon . the selection of a strain resulting from the cultivation step following mutagenesis of a strain that exhibits a phenotype corresponding to the expression of the bidirectional marker gene occurring under selection conditions that for the non mutated parent comprising the nucleic acid cassette result in non - expression of the bidirectional marker i . e . in the absence of inducer of uas such as , xylose or xylan or the presence of repressor of uas i . e . in the presence of glucose . in addition a method for preparing and selecting a non recombinant mutant strain of microorganism , said mutation enhancing a predetermined part of metabolism in comparison to the non mutated strain falls within the preferred scope of the invention . this method comprising carrying out the steps of the method according to the invention as described in the preceding paragraphs followed by crossing out in a manner known per se the nucleic acid of the introduced nucleic acid cassette . as indicated previously a method for preparing and selecting a mutant strain of microorganism , said mutation inhibiting a predetermined part of the carbon metabolism in comparison to the non mutated strain , said method comprising introducing into a host a nucleic acid cassette according to the invention as described above said host not exhibiting the phenotype associated with expression of the bidirectional marker prior to introduction of the nucleic acid cassette and said host exhibiting activity of the type characterising the predetermined part of metabolism to be reduced or inhibited . culturing a resulting microorganism under conditions wherein the enhancer or activator sequence of the nucleic acid cassette is normally active and wherein non expression of the bidirectional marker of the nucleic acid cassette will result in growth and detection of the resulting microorganism and wherein expression of said bidirectional marker will preferably be lethal or strongly inhibit growth , selecting a transformant that exhibits the phenotype corresponding to the expression of the bidirectional marker gene under the aforementioned culturing conditions subjecting the selected transformant to mutagenesis in a manner known per se , culturing the strain resulting from the mutagenesis under conditions acceptable for growth of a strain with a phenotype corresponding to the non expression of the bidirectional marker and in the presence of a metabolisable substrate and under conditions that illustrate the reduced or inhibited activity of the predetermined part of metabolism in comparison to the non mutated host either with or without the nucleic acid cassette , selecting a strain resulting from the cultivation step following mutagenesis that exhibits a phenotype corresponding to the reduced or inhibited activity of the predetermined part of the metabolism under selection conditions that illustrate the reduced or inhibited activity of the predetermined part of metabolism in comparison to the non mutated host with or without nucleic acid cassette such as a reduced zone of clearing upon growth on a substrate which serves as a substrate for the part of metabolism for which the activity is to be reduced or inhibited . the inducible enhancer or activator sequence is the upstream activating sequence ( uas ) derived from the gene xlna the predetermined part of the metabolism is the xylanolytic part of carbon metabolism , the culturing step wherein the resulting microorganisms are cultivated under conditions wherein the enhancer or activator sequence is normally active and wherein the bidirectional marker is expressed comprises cultivation in the absence of repressor of the uas of the nucleic acid cassette , in the presence of a metabolisable source of carbon and preferably also in the presence of inducer of the uas . the selecting of a transformant that exhibits the phenotype corresponding to the expression of the bidirectional marker gene occurs under the aforementioned culturing conditions . the culturing step after mutagenesis of the selected transformant occurs under conditions acceptable for growth and detection of a strain with a phenotype corresponding to the non expression of the bidirectional marker , under conditions that are unacceptable for growth and detection of a strain with a phenotype corresponding to the expression of the bidirectional marker i . e . in the presence of uridine and fluoro - orotic acid and under conditions that in the non mutated parent comprising the nucleic acid cassette result in activity of the predetermined part of the carbon metabolism i . e . in the presence of inducer of the uas and a metabolisaole carbon source and the absence of repressor of the uas for example the presence of sorbitol or an alternative non repressing source of carbon in combination with an inducer like xylan or d - xylose . the selection of a strain resulting from the cultivation step following mutagenesis that exhibits a phenotype corresponding to the reduced or inhibited activity of the predetermined part of the carbon metabolism occurs under selection conditions that illustrate the reduced or inhibited activity of the predetermined part of carbon metabolism in comparison to the non mutated host either with or without the nucleic acid casette such as a reduced zone of clearing upon growth on xylan . an example of the method according to the preceding paragraph is provided , wherein the nucleic acid cassette comprises a nucleic acid sequence encoding the bidirectional marker pyra . the host does not exhibit the pyra + phenotype associated with expression of the bidirectional marker prior to introduction of the nucleic acid cassette . the culturing step wherein the resulting microorganisms are cultivated under conditions wherein the enhancer or activator sequence is normally active and wherein the bidirectional marker pyra is expressed i . e . comprises cultivation in the presence of inducer of the enhancer or activator and in the absence of repressor of the enhancer or activator and under conditions wherein the bidirectional marker pyra is expressed , the selecting of a transformant that exhibits the phenotype corresponding to the expression of the bidirectional marker gene pyra occurs under the aforementioned culturing conditions , the culturing step after mutagenesis of the selected transformant occurs under conditions acceptable for growth and detection of a strain with a phenotype corresponding to the non expression of the bidirectional marker i . e . pyra - phenotype , under conditions that are unacceptable for growth and detection of a strain with a pyra + phenotype , such a phenotype corresponding to the expression of the bidirectional marker i . e . such conditions comprising the presence of uridine and fluoro - orotic acid and under conditions that in the non mutated parent comprising the nucleic acid cassette result in activity of the predetermined part of the metabolism i . e . in the presence of inducer of the enhancer or activator and a metabolisoble substrate and the absence of repressor of the activator or enhancer or an alternative non repressing substrate in combination with an inducer . in a preferred embodiment the method according to the preceding 2 paragraphs is a method , wherein furthermore the nucleic acid cassette comprises a nucleic acid sequence encoding the bidirectional marker pyra . the host does not exhibit the pyra + phenotype associated with expression of the bidirectional marker prior to introduction of the nucleic acid cassette , the inducible enhancer or activator sequence is the uas derived from the gene xlna the culturing step wherein the resulting microorganisms are cultivated under conditions wherein the enhancer or activator sequence is normally active and wherein the bidirectional marker pyra is expressed comprises cultivation under conditions wherein the uas is normally active i . e . in the presence of inducer of the uas such as xylose or xylan and in the absence of repressor of the uas i . e . absence of glucose and under conditions wherein the bidirectional marker pyra is expressed . the selecting of a transformant that exhibits the phenotype corresponding to the expression of the bidirectional marker gene pyra occurs under the aforementioned culturing conditions . the culturing step after mutagenesis of the selected transformant occurs under conditions acceptable for growth and detection of a strain with a phenotype corresponding to the non expression of the bidirectional marker i . e . pyra - phenotype , under conditions that are unacceptable for growth and detection of a strain with a pyra * phenotype , such a phenotype corresponding to the expression of the bidirectional marker i . e . such conditions comprising the presence of uridine and fluoro - orotic acid and under conditions that in the non mutated parent comprising the nucleic acid cassette result in activity of the predetermined part of the carbon metabolism i . e . in the presence of inducer of the uas and a metabolisable carbon source and the absence of repressor of the uas for example the presence of sorbitol or an alternative non repressing source of carbon in combination with an inducer like xylan , or d - xylose . the selection of a strain resulting from the cultivation step following mutagenesis that exhibits a phenotype corresponding to the reduced or inhibited activity of the predetermined part of the carbon metabolism occurs under selection conditions that illustrate the reduced or inhibited activity of the predetermined part of carbon metabolism in comparison to the non mutated host either with or without the nucleic acid cassette such as a reduced zone of clearing upon growth on xylan . the methods described above can advantageously be carried out with a host characterised in that prior to introduction of the nucleic acid cassette it comprises nucleic acid corresponding at least in part to the nucleic acid sequence encoding the bidirectional marker , said correspondence being to a degree sufficient to allow homologous recombination in the chromosome of the bidirectional marker encoding nucleic acid comprised on the nucleic acid cassette . this aspect ensures the integration of the nucleic acid cassette at a predefined location . in a further preferred embodiment the nucleic acid cassette will be incorporated in multiple copies to ensure that the mutagenesis step does not inactivate the bidirectional marker as this would result in incorrect results when detecting marker negative phenotypes and a decrease in the number of marker positive phenotypes . in preferred embodiments of the invention a nucleic acid cassette has been constructed which can be used in a method for producing mutants exhibiting overexpression of an enzyme involved in a predetermined part of metabolism , a method for producing mutants exhibiting reduced or inhibited expression of an enzyme involved in a predetermined part of metabolism and a method for determining and isolating regulatory genes involved in predetermined parts of metabolism . in particular we illustrate the system as used for mutants in carbon metabolism . in the examples mutants with altered xylanolytic characteristics are described as well as arabinase and polygalacturonase mutants leading to mutants in the arabinolytic and pectinolytic pathways . in the examples aspergillus is used as the strain to be mutated , however any other industrially acceptable microorganism will suffice . examples of such organisms are saccharomyces e . g . saccharomyces cerevisiae , saccharomyces pombe , aspergillus e . g . aspergillus nidulans , trichoderma , penicillium , fusarium kluyveromyces and lactobacillus . other examples will be obvious to a person skilled in the art and a number are also mentioned elsewhere in the description . an overexpressing or nulexpressing strain for a predetermined part of the metabolism can now be produced . we can also determine the identity and nucleic acid sequence of the activating regulator of an inducible enhancer or activator sequence . in particular when such activating regulator is involved in metabolism , more specifically when such activating regulator is involved in a part of metabolism with an enzyme cascade or feed back loop or multiple feed back loops . the nucleic acid sequence of such a regulatory gene can subsequently be used to enhance expression of target genes . said target gene being a gene that is regulated by the regulatory gene . in a preferred embodiment such a target gene will have a binding site for the expression product of the regulator gene . combination of a promoter normally associated with a target gene of the regulator with the regulatory gene in an expression cassette said promoter being operably linked to a homologous or heterologous sequence encoding a homologous or heterologous protein or peptide to be expressed can lead to an expression cassette extremely useful for expression of homologous and even heterologous proteins or peptides . the regulator encoding gene can be under control of its native promoter or any other promoter that can be expressed in the host cell of choice . the promoter can be constitutive or inducible , whatever is most desirable for the particular production process . such a combination expression cassette falls within the scope of the invention as does a vector or a plasmid comprising such a cassette . the degree of expression is no longer restricted by the presence of too small an amount of regulator and thus the degree of expression of the gene to be expressed is much higher than in a corresponding host cell where the gene is expressed under control of the same promoter but without the additional presence of the regulator gene . such increased expression is preferably achieved in cells of organisms normally comprising components of the part of the metabolic pathway to be influenced . suitable host cells are filamentous fungi cells . the incorporation of a combined expression cassette of the type just described above in a host cell comprising a target gene of the regulator can lead to increased expression of the target gene or to increased expression of the target genes if multiple target genes are present . preferably the target gene will be endogenous to the host cell . a host cell comprising the combination expression cassette falls within the scope of the invention . in the examples the nucleic acid sequence xlnr of the regulator of the xylanolytic pathway xylr is provided . the target genes for this regulator have been found to comprise the genes xlna , xlnb , xlnc and xlnd as well as axea . the increase in xylanase a expression is illustrated and can serve to indicate the general applicability of the xylr action on a target gene of the xylr regulator . a number of sequences are known in the state of the art comprising the xlna , b , c and d genes mentioned and the axea gene and such information is readily available to a person skilled in the art and is to be considered incorporated herein . the promoters of preferred interest to be used in combination with xlnr nucleic acid can be selected from xlna , xlnb , xlnc and xlnd . the use of the axea promoter also forms a suitable embodiment of the invention . the promoters are known in the state of the art to the person skilled in the art , and are considered to be incorporated herein . the xlna promoter is described in de graaff et al 1994 . the xlnb promoter has been described by kinoshita et al 1995 ). the xlnd promoter has been described in ep 952107 . 7 and is included in the sequence listing in the sequence of sequence id no 8 of this document . the promoter sequences can either be readily synthesized on the basis of known sequences or be derived from organisms or vectors comprising them in standard manners known per se . where the term promoter , enhancer or regulator is used naturally a fragment comprising the promoter , enhancer or regulator can be employed as long as the operability of such is not impaired . it is not necessary in the constructs according to the invention to merely incorporate the relevant sequence , any flanking non interfering sequences can be present . not only is the nucleic acid sequence xlnr encoding the expression product xylr covered by the subject invention but also sequences encoding equivalent expression products and mutant expression products as well as the expression products themselves of the nucleic acid sequences according to the invention . any application of xylr or xylr encoding sequences (= xlnr ) disclosed herein is also applicable to the mutants and the nucleic acid sequences encoding such mutants and is to be considered incorporated mutatis mutandi . examples of suitable fungal cells to be used for expression of nucleic acid sequences and cassettes according to the invention are aspergillus such as aspergillus niger , aspergillus tubigensis , aspergillus aculeatus , aspergillus awamori , aspergillus oryzae , aspergillus nidulans , aspergillus carbonarius , aspergillus foetidus , aspergillus terreus , aspergillus sydowii , aspergillus kawachii , aspergillus japonicus and species of the genus trichoderma , penicillium and fusarium . other cells such as plant cells are also feasible host cells and elsewhere in the description alternative host cells are also described . genes of particular interest for expressing using the expression cassette according to the invention or in combination with a nucleic acid sequence according to the invention are those encoding enzymes . suitable genes for expressing are genes encoding xylanases , glucanases , oxidoreductases such as hexose oxidase , α - glucuronidase , lipase , esterase , ferulic acid esterase and proteases . these are non limiting examples of desirable expression products . a number of sequences are known in the state of the art comprising the genes mentioned and such information is readily available to the person skilled in the art and is to be considered incorporated herein . the genes can either be readily , synthesized on the basis of known sequences in the literature or databases or be derived from organisms or vectors comprising them in a standard manner known per se and are considered to be knowledge readily available to the person skilled in the art not requiring further elucidation . an expression product exhibiting 80 %- 100 % identity with the amino acid sequence of xylr according to sequence id no . 9 or as encoded by the nucleic acid sequence of xlnr of sequence id . no . 9 ( from nucleotide 948 ) is considered to be an equivalent expression product of the xylanase regulator ( xylr ) according to the invention and thus falls within the scope of the invention . the equivalent expression product should possess dna binding activity . preferably such dna binding activity should be such that the expression product binds to the nucleic acid of the target gene to the same degree or better than the expression product binds with the amino acid sequence provided in sequence id no 9 . the preferred target genes for determining binding activity are those encoding xyla , xylb , xylc and xyld i . e . the xlna , xlnb , xlnc and xlnd genes . mutants of the xlnr gene expression product xylr and the encoding nucleic acid sequence xlnr according to sequence id no 9 at least maintaining the same degree of target binding activity are also claimed . mutants considered to fall within the definition of equivalent expression products comprise in particular mutants with amino acid changes in comparison to the amino acid sequence of sequence id no 9 . such equivalents are considered suitable embodiments of the invention as are the nucleic acid sequences encoding them . mutants with 1 - 15 amino acid substitutions are suitable and substitutions of for example 1 - 5 amino acids are also considered to form particularly suitable embodiments of the invention that form equivalent expression products . it is common knowledge to the person skilled in the art that substitutions of particular amino acids with other amino acids of the same type will not seriously influence the peptide activity . on the basis of hydrapathy profiles a person skilled in the art will realise which substitutions can be carried out . replacement of hydrophobic amino acids by other hydrophobic amino acids and replacement of hydrophilic amino acids by other hydrophilic amino acids e . g . will result in an expression product that is a suitable embodiment of the invention . such substitutions are considered to be covered by the scope of the invention under the term equivalents . point mutations in the encoding nucleic acid sequence according to sequence id no 9 are considered to result in nucleic acid sequences that fall within the scope of the invention . such point mutations can result in silent mutations at amino acid level or in substitution mutants as described above . substitution mutants wherein the substitutions can be of any type are also covered by the invention . preferably the identity of the mutant will be 85 - 100 %, more preferably 90 - 100 %, most preferably 95 - 100 % in comparison to the amino acid sequence of sequence id no 9 . as already claimed above amino acid sequences exhibiting 80 - 100 % identity with the amino acid sequence of sequence id no 9 are covered by the term equivalent so that deletions and / or substitutions of up to 20 % of the amino acid sequence , preferably of less than 15 % and more preferably less than 10 % most preferably of less than 5 % of the amino acid sequence according to the invention are covered . such a mutant may comprise the deletion and / or substitution in one or more parts of the amino acid sequence . such a deletion and / or substitution mutant will however comprise an amino acid sequence corresponding to a zn finger binding region and an amino acid sequence corresponding to the rrrlww motif ( seq id no : 12 ). deletion mutants of 1 - 5 amino acids are considered to fall within the scope of the invention . deletion mutants with larger deletions than 5 amino acids and / or with more than 5 substitutions and / or point mutations can also maintain the dna binding activity . such larger number of deletions and / or substitutions and / or point mutations will preferably occur in the n terminal half of the amino acid sequence and the corresponding part of the encoding nucleic acid sequence . the most important regions considered to be involved in regulation and activation are present in the c terminal half of the amino acid sequence from the zinc finger binding region and as such the deletion mutants will preferably comprise at least this portion of the amino acid sequence . preferably no mutation will be present in the zinc finger binding region corresponding to that encoded in sequence id no 9 from nucleotides at position 1110 to 1260 . if a mutation is present preferably it should not involve the sparing between the 6 cysteines coordinating the zinc and most preferably any mutation should not involve any of the 6 cysteines themselves . in addition preferably no mutation is present in the rrrlww motif ( seq id no : 12 ) present in the amino acid sequence of sequence id no 9 . a deletion may occur in one or more fragments of the amino acid sequence . such a deletion mutant will however comprise an amino acid sequence corresponding to a zn finger binding region and an amino acid sequence corresponding to the rrrlww motif ( seq id no : 12 ). deletions of 1 - 15 amino acids , preferably of 1 - 10 amino acids and most preferably 1 - 5 amino acids are suitable embodiments to ensure equivalence . embodiments of equivalent nucleic acid sequences are a nucleic acid sequence which encodes an expression product having the same amino acid sequence as xylr of sequence id no . 9 or as encoded by the nucleic acid sequence of xlnr of sequence id . no . 9 . a nucleic acid sequence encoding an expression product exhibiting 80 %- 100 % identity with the amino acid sequence of xylr according to sequence id no 9 or as encoded by the nucleic acid sequence encoding xylr of sequence id no 9 is also considered to be an equivalent nucleic acid sequence of xlnr and falls within the scope of the invention . another embodiment of an equivalent nucleic acid sequence according to the invention is a nucleic acid sequence capable of hybridising under specific minimum stringency conditions as defined in the examples to primers or probes derived from nucleic acid sequence id no 9 , said primers or probes being derived from the non zinc finger binding region and said primers or probes being at least 20 nucleotides in length . generally suitable lengths for probes and primers are between 20 - 60 nucleotides , preferably 25 - 60 . preferably a probe or primer will be derived from the c - terminal encoding half of the sequence of id no 9 from the zinc finger binding region . a preferred embodiment of a nucleic acid sequence according to the invention will be capable of hybridising under specific conditions of at least the stringency illustrated in the examples to the nucleic acid sequence of id no 9 . an equivalent nucleic acid sequence will be derivable from other organisms by e . g . pcr using primers based on the nucleic acid sequence id no 9 as defined above . an expression product of an equivalent nucleic acid sequence as just defined is also considered to fall within the scope of the invention . vice versa a nucleic acid sequence encoding an equivalent amino acid sequence according to the invention is also considered to fall within the scope of the term equivalent nucleic acid sequence . in particular equivalent nucleic acid sequences and the expression products of such sequences derivable from filamentous fungi and plants are preferred embodiments of the invention . preferably an equivalent nucleic acid sequence will comprise a nucleic acid sequence encoding a zinc finger binding region corresponding to that encoded in sequence id no 9 from nucleotides from position 1110 to 1260 . in a preferred embodiment the equivalent nucleic acid sequence should encode the 6 cysteines coordinating the zinc . in a further embodiment the spacing between the cysteines should correspond to that of sequence id no 9 . embodiments comprising combinations of the characteristics of the various embodiments of the equivalent nucleic acid sequences and expression products , described above also fall within the scope of the invention . mutants with mutation in the zinc finger binding domain are also claimed as these could exhibit increased dna binding . mutants exhibiting decreased dna binding are also considered to fall within the scope of the invention . such mutants may possess a mutation in the zinc finger binding domain . in particular mutants of the amino acid sequence provided in sequence id no 9 are claimed . fragments of the nucleic acid sequence according to sequence id no 9 of at least 15 nucleotides also fall within the scope of the subject invention . such fragments can be used as probes or primers for detecting and isolating equivalent sequences . in particular a combination of two or more such fragments can be useful in a kit for detecting and / or isolating such equivalent sequences . preferably a fragment will be derived from the c terminal half of the amino acid sequence of sequence id no 9 . in a suitable embodiment of the kit one fragment will not comprise a part of the nucleic acid sequence forming the zinc finger domain . in the examples a suitable combination of fragments to be used as primers is illustrated . any sequence obtainable through pcr as illustrated in the examples with these primers is considered to fall within the scope of the invention . the hybridisation conditions used in the examples provide the minimum stringency required for selectivity . more stringent conditions can be applied such as the stringent hybridisation conditions described by sambrook et al for increased homology of the obtained sequences with the sequence id no 9 . a lower salt concentration generally means more stringent conditions . any fragment of the sequence according to sequence id no 9 being or encoding a polypeptide exhibiting the target gene binding activity of the complete sequence is also included within the scope of the invention as are equivalent nucleic acid sequences or amino acid sequences thereof , with equivalent being defined as defined above with regard to hybridisation and / or mutation and / or degeneracy of the genetic code for the complete sequence . a vector or plasmid comprising the nucleic acid sequence encoding xylr or an equivalent sequence thereof as defined above also falls within the scope of the invention , as do a vector or plasmid comprising such a sequence and a host cell comprising such an additional sequence . a transformed host cell such as a microorganism or a plant cell carrying at least one additional copy of an encoding nucleic acid sequence according to sequence id no 9 or an equivalent thereof falls within the scope of the invention . preferably the various embodiments are organised such that the sequence can be expressed in the vector , plasmid or host cell . the regulatory gene can comprise the complete sequence of id no 9 or merely the encoding sequence thereof in combination with an alternative promoter that is operable in the host cell . suitable examples of host cells have been provided elsewhere in the description . suitable operable promoters for the various host cells that can be incorporated with the encoding sequence of sequence id no 9 will be clear to a person skilled in the art . in particular for the host cells explicitly mentioned in the description constitutive promoters or inducible promoters are known and available to work the invention without undue burden . a process for production of homologous or heterologous proteins or peptides is provided , said process comprising expression of a nucleic acid sequence encoding the homologous protein or peptide in a host cell , said host cell further comprising an additional copy of a nucleic acid sequence encoding a regulatory gene such as xlnr or an equivalent thereof which is also expressed . a process as just described is preferably carried out with a combination nucleic acid expression cassette comprising the regulatory gene operably linked to a first promoter and said cassette further comprising a second promoter , said second promoter normally being associated with a target gene of the regulator , said target gene promoter being operably linked to the nucleic acid sequence encoding the homologous or even heterologous protein or peptide to be expressed . the first promoter can be the promoter natively associated with the regulator gene but may also be a promoter of choice that is operable in the host cell . the degree of expression is no longer restricted by the presence of too small an amount of regulator and thus the degree of expression of the gene to be expressed is much higher than in a corresponding host cell where the gene is expressed without the additional presence of the regulator gene . such increased expression is preferably achieved in cells of organisms normally comprising components of the part of the metabolic pathway to be influenced . suitable host cells are a plant cell or a microorganism , suitably the microorganism can be a fungus in particular it can be a filamentous fungus . examples of suitable host cells have been given elsewhere in the description and may be considered to be incorporated here . the incorporation of a combined expression cassette of the type just described above in a host cell comprising a target gene of the regulator can lead to increased expression of the target gene or to increased expression of the target genes if multiple target genes are present . preferably the tar et gene will be native to the regulator . preferably such a target gent will be endogenous to the host cell . in the examples the nucleic acid sequence of the regulator of the xylanolytic pathway xlnr is provided . the native target genes for this regulator have been found to comprise the genes xlna , xlnb , xlnc and xlnd as well as axea and as such these genes are preferred target genes . other targets exist and are considered to be included in the term target gene . various embodiments of the host cells according to the invention are covered in the claims . if both regulator sequence and target gene are natively present in the host cell the regulator sequence will be present in multiple copies . such a microorganism will over express the gene regulated by the target gene promoter in comparison to the native microorganism . because now the sequence for the xylanase regulator is known it has become possible to knock out the xylanase regulator . the creation of a knockout host cell once the nucleic acid sequence of the gene to be knocked out is known is standard technology . this method can be carried out analogously to that described in berka et al ( 1990 ) and example 11 of ep 95201707 . 7 , which is a copending european patent application of which a copy has been included upon filing the subject document and the example itself has also been copied into this document in the examples . such a knockout renders a host cell which can be free of xylanolytic activities . a host cell free of xylanolytic activity due to knocking out the xlnr gene can be used to produce homologous or heterologous expression products of choice free of xylanolytic activity . a host cell with a knocked out xlnr gene falls within the scope of the invention . such a host cell is preferably a plant cell or a filamentous fungus . such a filamentous fungus is preferably an aspergillus . examples have been provided elsewhere in the description of numerous suitable host cells . a host cell with a mutation in the regulator gene which can be arrived at using the selection and mutation method of the invention can be subjected to complementation with a regular active copy of the regulator gene . such a complemented strain will subsequently express the products of any target genes that are regulated by the regulator . these target gene products will be absent in the case of the non complemented regulator negative mutant . upon comparison of protein bands obtained in a manner known per se from both of the strains it will become apparent what target products are regulated by the regulator and subsequently the corresponding novel target genes can be determined in a manner known per se once its expression product has been determined . in this manner other target genes than those already known can be found for the xylanase regulator xylr in the instant examples . the selection plasmid pim130 was constructed as depicted in fig1 . in pcr1 a fragment was generated from the plasmid pim120 ( de graaff et al . 1994 ) using oligonucleotide 1 ( seq id no : 1 ) oligonucleotide 1 was derived from the aspergillus tubigensis xlna promoter ( de graaff et al . 1994 ) positions 600 - 619 ( seq id no : 5 ) to which 10 nucleotides containing a nsii site were added . the 3 ′ end of oligonucleotide a was derived from the aspergillus niger goxc transcription unit ( whittington et al ., 1990 ) ending just before the translation initiation site ( positions 708 - 723 )( seq id no : 6 ), while the 5 ′ end was derived from the coding region of the a . niger pyra gene ( wilson et al ., 1988 ) ( starting at the translation initiation site ( positions 341 to 359 . seq id no : 7 ). fragment a was generated by a pcr containing 10 μl 10 * reaction buffer ( 100 mm tris - hcl , ph 8 . 3 , 500 mm kcl . 15 mm mgcl 2 , 0 . 01 % gelatin ). 16 μl 1 . 25 mm of each of the four deoxynucleotide triphosphates , 1 ng of the plasmid pim120 dna and 1 μg of each of the oligonucleotides 1 and a in a final volume of 100 μl . this reaction mixture was mixed and 1 μl taq polymerase ( 5 u / μl ) ( life technologies ) was added . the dna was denatured by incubation for 3 min at 92 ° c . followed by 25 cycli of 1 min 92 ° c . 1 min 48 ° c . and 1 min 72 ° c . after these 25 cycli the mixture was incubated for 5 min at 72 ° c . analysis of the reaction products by agarose electrophoresis revealed a fragment of about 250 bp , which corresponds to the size expected based on the sequence of the genes . in pcr2 a fragment was generated from the plasmid pgw635 ( goosen et al ., 1987 ) using oligonucleotide 2 ( seq id no : 3 ) the 5 ′ end of oligonucleotide b was derived from the a . niger goxc basic transcription unit ( positions 708 - 723 , seq id no : 6 )( whittington et al ., 1990 ) 3 while the 3 ′ end was derived from the coding region of the a . niger pyra gene starting at the translation initiation site . oligonucleotide 2 was derived from the pyra coding region ( positions 339 - 359 . seq id no : 7 ) and is spanning an ecorv restriction site at position 602 ( seq id no : 7 ). fragment b was generated in an identical manner as fragment a except that in this case the reaction mixture contained 1 μg each of oligonucleotide 2 and b and 1 ng of plasmid pgw635 dna . analysis of the reaction products by agarose electrophoresis revealed a fragment of about 250 bp , which corresponds to the size expected based on the sequence of the pyra gene . fragments a and b were isolated from agarose gel after electrophoresis . the fragments were cut from the agarose gel , after which they were recovered from the piece of agarose by electro - elution using isco cups . both on the large and the small container of this cup a dialysis membrane was mounted , the cup was filled with 0 . 005 × tae ( 50 × tae buffer per 1000 ml : 242 . 0 g trizma base ( sigma ). 7 . 1 ml glacial acetic acid , 100 ml 0 . 5 m edta ph 8 . 0 ) and the piece of agarose was placed in the large container of the cup . subsequently the cup was placed in the electro - elution apparatus , with the large container in the cathode chamber containing 1 * tae and the small container at the anode chamber containing 1 * tae / 3 m naac . the fragments were electro - eluted at 100 v during 1 h . after this period the cup was taken from the electro - elution apparatus and the buffer was removed from the large container , while from the small container the buffer was only removed from the upper part . the remaining buffer ( 200 μl ) containing the dna fragment was dialyzed in the cup against distilled water during 30 min . finally the dna was precipitated by the addition of 0 . 1 vol . 3 m naac , ph 5 . 6 and 2 vol . cold (− 20 ° c .) ethanol . the dna was collected by centrifugation ( eppendorf centrifuge ) for 30 min . at 14 , 000 × g . at 4 ° c . after removal of the supernatant the dna pellet was dried using a savant speedvac vacuum centrifuge . the dna was dissolved in 10 μl te buffer ( te : 10 mm tris / hcl ph 7 . 2 , 1 mm edta ph 8 . 0 ) and the concentration was determined by agarose gel electrophoresis , using lambda dna with a known concentration as a reference and ethidiumbromide staining to detect the dna . fragments a and b were fused in pcr3 which was identical to pcr1 except that in this case the reaction mixture contained 1 μg of each of the oligonucleotides 1 and 2 and approximately 50 ng of each of the fragments a and b . analysis of the reaction products by agaoste gel electrophoresis revealed a fragment of about 500 bp , which corresponds to the size expected based on the sequences of the genes . the resulting fragment c was isolated from agarose gel as described and subsequently digested using the restriction enzymes nsii and ecorv . the dna was digested for 3 h . at 37 ° c . in a reaction mixture composed of the following solutions ; 5 μl (≈ 0 . 5 μg ) dna solution ; 2 μl of the appropriate 10 × react buffer ( life technologies ); 10 u restriction enzyme ( life technologies ) and sterile distilled water to give a final volume of 20 μl . after digestion the dna fragment was analysed by agarose gel electrophoresis and subsequently isolated from the gel as described . for the final construction of pim1305 μg of the plasmid pgw635 was digested as described using 50 u of the restriction enzymes ecorv and xbai in a final volume of 500 μl . after separation of the products a 2 . 2 kb ecorv / xbai fragment ( fragment d ) was isolated from the agarose gel by electro - election . analogously 1 μg vector pgem - 7zf (+) ( promega ) was prepared by digestion with the restriction enzymes nsi / xbai , which was after digestion electrophoresed and isolated from the agarose gel by electro - elution . the plasmid pim 130 was constructed by the following ligation reaction : 100 ng pgem - 7zf (+) nsii / xbai fragment was mixed with 50 ng fragment c and 50 ng fragment d and 4 μl 5 * ligation buffer ( composition ; 500 mm tris - hcl , ph 7 . 6 ; 100 mm mgcl 2 ; 10 mm atp ; 10 mm dithiotreitol ; 25 % peg - 6000 ) and 1 μl ( 1 . 2 u / μl ) t 4 dna ligase ( life technologies ) was added to this mixture in a final volume of 20 μl . after incubation for 16 h at 14 ° c . the mixture was diluted to 100 μl with sterile water . 10 μl of the diluted mixture was used to transform e . coli dh5α competent cells , prepared as described by sambrook et al . 1989 . two of the resulting colonies were grown overnight in lb medium ( lb medium per 1000 ml : 10 g trypticase peptone ( bbl ), 5 g yeast extract ( bbl ), 10 g nacl , 0 . 5 mm tris - hcl ph 7 . 5 ) containing 100 μg / ml ampicillin . from the cultures plasmid dna was isolated by the alkaline lysis method as described by maniatis et al . ( 1982 ), which was used in restriction analysis to select a clone harbouring the desired plasmid pim130 . plasmid dna was isolated on a large scale from 500 ml cultures e . coli dh5α containing pim130 grown in lb medium containing 100 μg / ml ampicillin ( maniatis et al ., 1982 ) the plasmid was purified by cscl centrifugation , phenolyzed , ethanol precipitated and dissolved in 400 μl te . the yield was approximately 500 μg . from the plasmid pim120 a second plasmid was constructed which contains the goxc basic transcription unit fused to the pyra coding region and termination region . in pcr4 a fragment was generated from the plasmid pim120 using oligonucleotide 3 , 5 ′- cacaatgcatcgtataagtaacctcgttcg - 3 ′ ( formula 5 ) ( seq id no : 10 ) which was derived from the goxc basic transcriptional unit ( positions 640 - 660 , seq id no : 6 ) to which 10 nucleotides containing a nsii site were added , and oligonucleotide 2 ( formula 3 ). the fragment generated was isolated from gel , digested with nsii and ecorv and cloned together with the 2 . 2 kb ecorv / xbal fragment of pgw635 in the plasmid pgem - 7zf (+), which was digested with xbai / nsii , as described in example 1 . 1 ., resulting in the plasmid pim135 . the plasmid pim135 can be used as construction vehicle for preparing vectors according to the invention with any desirable inducible enhancer or activator sequence , a uas of a gene involved in metabolism . pim135 comprises a basic transcription unit ( tgox ) operatively linked to a bidirectional marker gene ( pyra ). 250 ml of culture medium , which consists of aspergillus minimal medium ( mm )( contains per liter : 6 . 0 g pano 3 . 1 . 5 g kh 2 po 4 , 0 . 5 g mgso 4 . 7h 2 o , 0 . 5 g kcl , carbon source as indicated , ph 6 . 0 and 1 ml vishniac solution ( contains per liter 10 g edta . 4 . 4 g znso 4 . 7h 2 o , 1 . 0 g mncl 2 . 4h 2 o , 0 . 32 g cocl 2 o . 6h 2 o , 0 . 32 g cuso 4 . 5h 2 o , 0 . 22 g ( nh 4 ) 6 m 7 o 24 . 4h 2 o . 1 . 47 g cacl 2 . 2h 2 o , 1 . 0 g feso 4 . 7h 2 o , ph 4 . 0 ) supplemented with 2 % glucose . 0 . 5 % yeast extract , 0 . 2 % casamino acids ( vitamin free ). 10 mm l - arginin . 10 μm nicotinamide , 10 mm uridine , was inoculated with 1 * 10 6 spores per ml of strain nw205 ( cspa1 , pyra6 , nica1 , argb13 ) and mycelium was grown for 16 - 18 hours at 30 ° c . and 250 rpm in a orbital new brunswick shaker . the toycelium was harvested on myracloth ( nylon gauze ) using a büchner funnel and mild suction and was washed several times with sp6 ( sp6 : 0 . 8 % nacle 10 mm na - phosphate buffer ph 6 . 0 ). 150 mg novozyme 234 was dissolved in 20 ml smc ( smc : 1 . 33 m sorbitol . 50 mm cacl 2 , 20 mm mes buffer , ph 5 - 8 ) to which 1 g ( wet weight ) mycelium was added and which was carefully resuspended . this suspension was incubated gently shaking for 1 - 2 hours at 30 ° c . every 30 minutes the mycelium was carefully resuspended and a sample was taken to monitor protoplast formation using a haemocytometer to count the protoplasts . when sufficient protoplasts were present ( more then 1 * 10 8 ) these were carefully resuspended and the mycelial debris was removed by filtration over a sterile glasswool plug . the protoplasts were collected by 10 minutes centrifugation at 3000 rpm and 4 ° c . in a bench centrifuge and were carefully resuspended in 5 ml stc ( stc : 1 . 33 m sorbitol , 50 mm cacl 2 , 10 mm tris / hcl , ph 7 . 5 ). this wash step was repeated twice and the protoplasts were finally resuspended in stc at a density of 1 * 10 8 per ml . the transformation was performed by adding 1 μg of pim130 dna ( dissolved in a 10 - 20 μl te to 200 μl of protoplast suspension together with 50 μl of peg buffer ( peg buffer : 25 % peg - 6000 , 50 mm cacl 2 , 10 mm tris / hcl ph 7 . 2 ), mixed gently by pipetting up and down a few times , and incubated at room temperature for 20 minutes . after this period 2 ml peg buffer was added , the solution was mixed gently and incubated at room temperature for another 5 minutes and subsequently 4 ml of stc was added and mixed gently on a vortex mixer . this was also done using 5 μg pim130 and 1 and 5 μg of plasmid pgw635 dna . as a negative control 20 μl of te was added to the protoplasts . one ml portions of this suspension were then added to 4 ml of osmotically stabilised top agar and poured on plates ( swirl gently to cover plate with top agar ) containing mms having either 100 mm d - glucose or 100 mm d - xylose as a carbon source . these media ( mms ) were osmotically stabilised using 0 . 8 m kcl or by using 1 . 33 m sorbitol . to determine the percentage regeneration serial dilutions of the protoplasts were prepared before transformation ( untreated protoplasts , kept on ice ) and , after transformation ( obtained from the negative control ). 100 μl of the 10 − 3 , 10 − 4 , 10 − 5 and 10 − 6 dilutions were plated in duplicate on 10 mm uridine supplemented mms plates . for the positive control , in which the fungus was transformed using the plasmid pgw635 , colonies were found on all plates . however , the transformation frequency was much lower ( 1 - 10 transformants per μg plasmid dna ) on kcl stabilised medium than on sorbitol stabilised medium ( 100 - 1000 transformants per μg plasmid dna ). this was due to the much higher regeneration frequency on the latter medium , which was about 90z in comparison to 2 - 5 % on the kcl stabilised medium . in case of the transformations using the plasmid pim130 transformants were found on the medium containing d - xylose as a carbon source but not on medium containing d - glucose . the frequency on sorbitol stabilised medium was about 100 per μg of plasmid dna while the frequency on the kcl stabilised medium was less than one per μg of dna . the transformants from pim130 obtained in example 2 were analysed phenotypically by plating on mm containing 100 mm d - glucose , 100 mm d - glucose / 1 % oat spelt xylan ( sigma # x0627 ) and 1 % oat spelt xylan . a selection of the transformants were replica plated to these media and incubated at 30 ° c . about 75 % of the transformants were growing on xylan containing medium , while no growth was found on media containing d - glucose . the remaining 25 % of the colonies grew on all three media tested . a selection of five transformants having the expected phenotype ( growth on xylan containing medium , non - growth on d - glucose containing media ) was analysed by southern analysis . fungal dna was isolated by a modified procedure used to isolate plant rna essentially as described by de graaff et al ., 1988 ). mycelium , which was grown overnight in culture medium , was harvested , washed with cold saline , frozen in liquid nitrogen and stored at − 80 ° c . nucleic acids were isolated by disrupting 0 . 5 g frozen mycelium using a microdismembrator ( braun ). the mycelial powder obtained was extracted with freshly prepared extraction buffer . the extraction buffer was prepared as follows : 1 ml tri - isopropylnaphtalene sulfonic acid ( tns ) ( 20 mg / ml ) was thoroughly mixed with 1 ml p - aminosalicylic acid ( pas ) ( 120 mg / ml ) and 0 . 5 ml 5 × rnb buffer was added ( 5 × rnb contains 121 . 10 g tris , 73 . 04 g nacl and 95 . 10 g e = ta in 1 μl , ph 8 . 5 ). after the addition of 1 . 5 ml phenol , the extraction buffer was equilibrated for 10 min . at 55 ° c . the warm buffer was then added to the mycelial powder , and the suspension was thoroughly mixed for 1 min . using a vortex mixer . after addition of 1 ml chloroform the suspension was remixed for 1 min . after centrifugation at 10 4 × g for 10 min . using a sorvall high speed centrifuge , the aqueous phase was extracted once more with an equal volume of phenol / chloroform ( 1 : 1 ) and was then extracted twice with chloroform . dna was isolated from the aqueous phase using the following procedure ; the dna was immediately precipitated from the aqueous phase with 2 vol . ethanol at room temperature and subsequently collected by centrifugation using a sorvall high speed centrifuge at 10 4 × g for 10 min . and washed twice by redissolving the dna in distilled , sterile water and precipitating it again with ethanol . rna was removed by adding rnase a ( 20 g μg / ml ) to the final solution . high molecular weight dna ( 1 - 2 μg ) isolated from a . niger n402 ( cspa1 ) as a wild - type and five pim130 transformants as described wa digested with rpal ( life technologies ) according to the manufactors instructions . the resulting fragments were separated by agarose gel electrophoresis , and transferred to high - bond n membrane as described by maniatis et al . ( 1982 ). hybridisation using a 32 p - labelled 3 . 8 kb xbai fragment , prepared as described by sambrook et al ., 1989 , containing the a . niger pyra gene as a probe was done according to the following procedure ( sambrook et al . ; prehybridization in 6 × ssc ( 20 × ssc per 1000 ml : 175 . 3 g nacl . 107 . 1 g sodium citrate . 5 . 5h 2 o , ph 7 . 0 ), 0 . 1 % sds , 0 . 05 % sodium pyrophosphate . 5 * denhardt &# 39 ; s solution ( 100 × denhardts solution per 500 ml : 10 g ficoll - 400 , 10 g polyvinylpyrrolidone . 10 g bovine serum albumin ( pentax fraction v ) and 20 μg / ml denatured herring sperm dna at 68 ° c . for 3 - 5 hrs and hybridization in an identical buffer which contained the denatured radiolabelled probe at 68 ° c . for 15 - 18 hrs . followed by two washes in 3 × ssc . 0 . 1 % sds at 68 ° c . and two washes in 0 . 2 × ssc , 0 . 1 % sds at 68 ° c . the membrane was covered with saran wrap and autoradiographed overnight at − 70 ° c . using konica x - ray films and kodak x - omatic cassettes with regular intensifying screens . as a result a 10 kb hybridising band is found in the n402 lane , while this band is missing in the transformants nw205 :: 130 # 1 . nw205 :: 130 # 2 and nw205 :: 130 # 3 . in the transformants nw205 :: 130 # 1 and nw205 :: 130 # 3 a 15 kb hybridising fragment is found , while in nw205 :: 130 # 2 a 20 kb band is found . these results correspond respectively to a single and a double copy integration at the homologous pyra locus . in the transformants nw205 :: 130 # 4 and nw205 :: 130 # 5 the plasmid was integrated at a non - homologous locus . transformant nw205 :: 130 # 2 was selected for mutagenesis . the uas fragment of pim130 comprises the binding site required for the positive regulator to exhibit the stimulatory activity of the uas . thus inhibition of xlnr in the host cell comprising pim130 will result in negative expression of the bidirectional marker present on pim130 . expression of xlnr is induced by xylan or xylose . thus the presence of such substrates should result in expression of the bidirectional marker of pim130 if the host possesses xlnr . the uas fragment of pim130 does not comprise the site required for inhibitory activity of crea that is present on the native uas of the aspergillus niger xlna gene . thus the presence of glucose which renders a . niger cre a + and subsequently inhibits the uas of xlna and the other xylanolytic enzyme encoding genes such as xlnd and axea and also inhibits the xlnr gene encoding the activator of the uas of the aforementioned xylanolytic enzyme encoding genes i . e . represses xylanolytic enzyme expression which results in negative expression of pim130 . spores of nw205 :: 130n2 were harvested in 5 ml st ( st : 0 . 8 % nacle 0 . 05 % tween 20 ), shaken at high frequency and mycelial debris was removed by filtration over a sterile glasswool plug . the spores were collected by centrifugation for 10 minutes at 3000 rpm at room temperature in a bench centrifuge and were resuspended in 5 ml saline . this wash step was repeated twice and the spores were finally resuspended in saline at a density of 1 * 10 7 per ml . 10 ml of the spore suspension was dispensed in a glass petridish and was irradiated using uv at a dosage of 18 erg / mm 2 / min for 2 min . after mutagenesis 105 and 106 spores were plated ( 10 plates each ) on mm + 10 mm l - arginine + 10 μm nicotinamide containing 3 % d - glucose and on plates containing 3 % d - glucose / 3 % oat spelts xylan ( sigma # x0627 ). after 4 - 7 days 5 - 10 mutant colonies per plate ( 106 spores inoculated ) were found which on basis of their morphology could be divided into three classes ; large , well sporulating colonies , intermediate sized , well sporulating colonies and small poorly sporulating colonies . a random selection of 20 of these mutants was made and the selected mutants were tested on media containing different carbon sources or substrates . the mutant colonies were found to be able to grow on media containing d - glucose . d - glucose / xylan and xylan , while the parental strain nw205 :: 130 # 2 only was able to grow on medium containing xylan as a carbon source . in addition these mutants were tested on different chromogenic substrates ; 4 - methylumbelliferyl - β - d - xyloside ( β - xylosidases , endoxylanases ) ( sigma # m7008 ). 4 - methylumbelliferyl acetate ( acetyl - xylan esterases )( sigma # m0883 ). 4 - methylumbelliferyl - α - l - arabinofuranoside ( arabinofuranosidases ) ( sigma im9519 ) and on remazol brilliant blue modified xylan ( endo - xylanases )( sigma # m5019 ). the methylumbelliferyl derivatives were added in a 1 mm final concentration to media containing d - glucose . d - glucose / xylan and xylan , while the rbb - xylan was added in a concentration of 1 mg / ml to media containing d - glucose / xylan and xylan , for all these substrates tested enzyme activity was found in the mutants after growth on d - glucose containing media , while no expression was found in the parental strain nw205 :: pim130 # 2 . on media containing xylan an , increased expression of these enzymes was found in comparison to nw205 :: pim130 . of the mutants tested mutant 5 b had the highest expression levels . in the instant case selection occurred on a substrate normally active as inhibitor of xylanolysis i . e . glucose . to be certain that expression could occur in the absence of repression an inducer of xylanolytic genes xylan was also included . such a control test is preferably included in a method according to the invention . the mutant clearly exhibited derepression . for the comparison of the activity levels produced , both a . niger n402 and mutant 5b were cultured on mm containing 1 . 5 % crude wheat arabinoxylan as a carbon source . samples were taken at 24 , 42 , 72 and 96 hrs and the activities of α - l - arabinofuranosidase , endo - xylanase and β - xylosidase were measured . the results ( fig2 a , b , c ) indicated an increase in activity for the mutant strain for all three enzymes . α - l - arabinofuranosidase and endo - xylanase activity was most strongly increased . spores of strain nw205 :: 130 # 2 were harvested and mutated as described in example 4 . 1 and subsequently plated on mm containing 100 mm d - xylose supplemented with 10 mm uridine , 10 mm l - arginin and 0 . 8 mg / ml 5 - fluoroorotic acid ( sigma # f5013 ). these plates were incubated for 4 - 7 days at 30 ° c . 64 of the growing colonies , having a pyr − phenotype , were analysed for xylanase expression by plating on mm containing 1 % xylan + 10 mm uridine + 10 nm l - arginin + 10 μm nicotinamide . of these 64 mutants tested 10 gave a reduced zone of clearing on these xylan containing plates and had potential reduced xylanase levels . the phenotype of these mutants was verified on d - glucose , d - glucose / xylan and xylan containing media in the presence and absence of uridine . all 10 mutants did not grow on media without uridine . for further analysis these mutants were precultured 18 hrs at 30 ° c . on mm containing 50 mm fructose + 10 mm uridine + 10 mm l - arginin + 10 μm nicotinamide after which the mycelium was harvested and 1 g wet mycelium was transferred to mm containing 1 % xylan and to mm containing 10 mm d - xylose + 10 mm uridine + 10 mm l - arginine + 10 vm nicotinamide . after 5 . 5 hrs incubation at 30 ° c . both the mycelium and the culture filtrate were harvested . the culture filtrate was dialysed against 1 mm nap i ph 5 . 6 after which the xylanese ( bailey et al . ( 1991 )) was determined and β - xylosidase activities were determined ( table 1 ). both the xylanase as well as the β - xylosidase expression levels were found to be strongly reduced in these selected mutants . for the construction of a plasmid library 10 μg of genomic dna of a . niger nw128 ( cspa1 , nica1 , pyra6 , goxc17 ), isolated as described in example 3 , was partially digested for 30 min at 37 ° c . according to the manufactors instructions using 3 . 5 u sau3a ( life - technologies ) in a final volume of 100 μl . after separation of the fragments by agarose electrophoresis , fragments ranging in size from 6 . 7 kb to 9 . 4 kb were cut from the low melting point agarose gel and were isolated as described in sambrook et al ., ( 1989 ). from totally 6 digestions 4 μg of fragments were isolated in a final concentration of 100 ng / μl . 600 ng of the resulting fragments were ligated in 100 ng bamhi digested puc18 ( pharmacia # 27526201 ) according to the manufacturers instructions . after ligation 4 μl of the resulting ligation mixture was used to transform 100 μl e . coli dh5α max efficiency competent cells ( life technologies # 18258 - 012 ) according to the manufactors instructions . six subsequent transformation experiments resulted in about 5 * 104 colonies . after resuspension of these colonies and growth for 3 hrs at 37 ° c . in ty medium ( medium per 100 ml : 16 g select peptone 140 ( life technologies ), 10 g nacl and 10 g yeast extract ) containing 100 μg / ml ampicillin , plasmid dna was isolated and purified by cscl centrifugation . for the complementation in non - expressing mutants a selection of three mutants , nw205 :: 130 ac1 - 4 , nw205 :: 130 ac1 - 15 and nw205 :: 130 ac4 - 4 , protoplasts were prepared of these strains and transformed as described in example 2 . in these transformation experiments 108 protoplasts were used and combined with ; 20 μg dna of the a . niger plasmid library as described in example 5 . 1 , and with 10 μg dna of the plasmid library combined with 10 μg dna of the autonomouly replicating plasmid phel1 ( gems and clutterbuck , 1993 ) and with 20 μg dna of the plasmid library combined with 10 μg dna of the autonomously replicating plasmid phe1 . as a positive control 2 μg pgw635 was used . after the transformation procedure the mixtures were plated on mm stabilised with 1 . 33 m sorbitol containing 50 mm d - xylose as a carbon source supplemented with 10 μm nicotinamide and 10 mm l - arginin . after about 4 days colonies appeared on the positive control plates and were counted , while after 6 days colonies could be picked from the complementation plates . the resulting transformant colonies were analysed by plating on medium containing 1 % oat spelt xylan . 1 mm 4 - methylumbellyferyl - β - d - xyloside , 10 μm nicotinamide and 10 mm l - arginin . after 6 - 7 hrs incubation at 30 ° c . xx fluorescent colonies were detected . after 2 - 3 days a clearing of the xylan around these colonies appeared . the a . niger xlnr gene was isolated from transformants obtained and selected as described in example 5 . 2 . from 13 transformants obtained from nw205 :: 130 ac 1 - 4 . nw205 :: 130 ac 1 - 15 and nw205 :: 130 ac 4 - 4 total dna was isolated , as described by de graaff et al ., 1988 . after mycelium was cultured under selective ( i . e . inducing ) conditions for pyra and xylanolytic expression on 1 . 5 % crude wheat arabino - xylan as c source from which free replicating plasmids were isolated using nucleobond ax100 columns ( macherey & amp ; nagel ). 200 μg of total dna dissolved in 400 μl of sterile water was mixed with 2 ml of s1 buffer ( 50 mm tris - hcl ph 8 . 0 , 10 mm edta , 100 μg rnase a ), 2 ml of s2 ( 200 mm naoh . 1 % sds ), followed by an incubation at room temperature for 5 minutes , and 2 ml of s3 ( 2 . 60 m kac , ph 5 . 2 ), followed by an incubation on ice for 5 minutes . after clearing of the suspension at 15 . 000 g for 30 minutes adsorption , washing , elution and precipitation of the plasmids was done all according to the manufacturers &# 39 ; instructions for “ working procedure for the purification of plasmids and cosmids ” ( 5 . 3 modified alkaline / sds lysis ). 20 μl of the resulting plasmid dna , dissolved in 150 μl sterile water was used in e . coli dh5α transformation . ( sambrook et al ., 1989 ). 12 e . coli colonies resulting from each of these plasmid preparations were grown for 9 - 12 hrs at 37 ° c . in 250 ml lb medium containing 50 μg / ml ampicillin , after which a miniprep plasmid dna isolation was performed on 1 . 5 ml of the culture as described for the boiling lysis protocol by sambrook et al ., 1989 and the cells were pelleted by centrifugation and stored at − 20 ° c . analysis of these dna preparations , after hindiii digestion , by agarose electrophoresis revealed three classes of plasmids ; phelp1 type plasmids , genomic library type plasmids and large complex type plasmids . from colonies containing the latter type of plasmids , a large scale plasmid isolation , using nucleobond ax100 columns according to the manufacturers &# 39 ; instructions for the modified alkaline / sds lysis ( macherey - nagel ) was performed on the frozen pellet of the 250 ml culture . this resulted in the isolation of two plasmid types . a and b , complementant a and b respectively . both these plasmids were digested , using sali , psti , ecor 19 hindiii , and after agarose electrophoresis , the fragments were analysed in triplicate by southern analysis using denatured radiolabelled phelp1 , plasmid a and plasmid b . this showed that both plasmids a and b , besides the phelp part shared the same genomic region . based upon the differences between the hybridisation signals found using the phelp plasmid , showing the vector and ama1 sequences , and the plasmid a and b signals , fragments hybridising with both plasmid a and b , but not with phelp1 , were identified and subcloned . a 4 kb ecori fragment and a 6 . 5 kb hindiii fragment of plasmid b , and a 3 kb psti fragment of plasmid a were found to hybridise with both plasmids a and b and were subcloned in pgem7 / ecori , pge97 / hindiii and pbluescript / psti , resulting in plasmid pnp1 , 2 and 3 respectively . after propagation and purification these plasmids were used in complementation experiments using the mutant nw205 :: 130 ac 4 - 4 as described in example 5 . 2 . in these experiments the mutant was directly transformed without using phelp1 . in these experiments the plasmid pnp2 , containing the 6 . 5 kb hindiii fragment gave rise to complementation of the mutation . further subcloning and transformation of pnp2 - derived plasmids revealed a 5 kb bamhi - xbai fragment , subcloned in pbluescript and resulting in plasmid pnp8 , giving rise to complementation of strain nw205 :: 130 ac 4 - 4 for the subcloning of the xlnr gene , the a . niger genomic library , constructed as described by harmsen et al ., 1990 , was screened for phages containing the xlnr region by using the 4 kb ecori fragment of pnp1 as probe . 3 × 10 3 pfu per plate were plated in nzycm top - agarose containing 0 . 7 % agarose on five 85 - mm - diameter nzycm ( 1 . 5 % agar ) plates as described ( maniatis et al ., 1982 ) using e . coli le392 as plating bacteria . after overnight incubation of the plates at 37 ° c . two replicas of each plate were made on hybondn * filters ( amersham ) as described in maniatis et al . ( 1982 ). after wetting the filters in 3 × ssc the filters were washed for 60 min . at room temperature in 3 × ssc , hybridisation using the 32 p - labelled 4 kb ecori fragment , prepared as described by sambrook et al ., 1989 , was done according the following procedure ( sambrook et al ., 1989 ); prehybridisation in 6 × ssc ( 20 × ssc per 1000 ml : 175 . 3 g nacl . 107 . 1 g sodium citrate . 5 . 5h 2 o , ph 7 . 0 ). 0 . 1 % sds . 0 . 05 % sodium pyrophosphate , 5 * denhardt &# 39 ; s solution ( 100 × denhardts solution per 500 ml 10 g ficoll - 400 , 10 g polyvinylpyrrolidone . 10 g bovine serum albumin ( pentax fraction v ) and 20 μg / ml denatured herring sperm dna at 68 ° c ., for 3 - 5 hrs and hybridisation in an identical buffer which contained the denatured radiolabelled probe at 68 ° c . for 15 - 18 hrs . followed by two washes in 2 × ssc , 0 . 1 % sds at 68 ° c . and two washes in 0 . 2 × ssc , 0 . 1 % sds at 68 ° c . the membrane was covered with saran wrap and autoradiographed overnight at − 70 ° c . using konica x - ray films and kodak x - omatic cassettes with regular intensifying screens . this screening resulted in about 12 positive phages , of which eight were purified . each positive plaque was picked from the plate using a pasteur pipette and the phages were eluted from the agar plug in 1 ml of sm buffer containing 20 μl chloroform , as described in maniatis et al . ( 1982 ). the phages obtained were purified by repeating the procedure described above using filter replicas from plates containing 50 - 100 plaques of the isolated phages . after purification the phages were propagated by plating 5 × 10 phages on nzycm medium . after overnight incubation at 37 ° c . confluent plates were obtained , from which the phages were eluted by adding 5 ml sm buffer and storing the plate for 2 h . at 4 ° c . with intermittent shaking . after collection of the supernatant using a pipette , the bacteria were removed from the solution by centrifugation at 4 , 000 × g for 10 min . at 4 ° c . to the supernatant 0 . 3 % chloroform was added and the number of pfu is determined . these phage stocks ( a - r / h - r ) contain approximately 109 pfu / ml . dna of five selected phages , a - r , b - r , c - r , e - r , f - r , isolated as described in sambrook et al . ( 1989 ), was analysed by southern analysis . the dna was digested for 5 h . at 37 ° c . in a reaction mixture composed of the following solutions ; 5 μl (≅ 1 μg ) dna solution ; 2 μl of the appropriate 10 × react buffer ( life technologies ); 10 u restriction enzyme ( life technologies ) and sterile distilled water to give a final volume of 20 μl . the samples were incubated for 10 min . at 65 ° c . and rapidly cooled on ice , before loading on a 0 . 6 % agarose gel in 1 * tae buffer . the dna fragments were separated by electrophoresis at 25 v for 15 - 18 h . after electrophoresis the dna was transferred and denatured by alkaline vacuum blotting ( vacugene xl . pharmacia lib ) to nylon membrane ( hybond n . amersham ) as described in the vacugene xl instruction manual ( pp . 25 - 26 ) and subsequently prehybridised and hybridised using the denatured radiolabelled 5 kb bamhi - xbai fragment of plasmid pnp8 with hybridisation conditions as described . the hybridisation pattern was obtained by exposure of kodak xar - 5 x - ray film for 18 h . at − 70 ° c . using a regular intensifying screen . in all 5 clones , fragments originating from the same genomic region were found , for which a restriction pattern was constructed . based on the restriction map a 5 kb bamhi - xbai fragment was selected for subcloning . 100 ng pbluescript bamhi - xbai digested vector was mixed with 250 ng 5 kb bamhi - xbai dna of phage b - r and 4 μl 5 * ligation buffer ( composition ; 500 mm tris - hcl , ph 7 . 6 ; 100 mm mgcl 2 ; 10 mm atp ; 10 mm dithiotreitol ; 25 % peg - 6000 ), and 1 μl ( 1 . 2 u / μl ) t 4 dna ligase ( life technologies ) was added to this mixture in a final volume of 20 μl . after incubation for 16 h at 14 ° c . the mixture was diluted to 100 μl with sterile water . 10 μl of the diluted mixture was used to transform e . coli dh5α competent cells , prepared as described by sambrook et al . ( 1989 ). six of the resulting colonies were grown overnight in lb medium ( lb medium per 1000 ml : 10 g trypticase peptone ( bbl ) 9 5 g yeast extract ( bbl ), 10 g nacl . 0 . 5 mm tris - hcl ph 7 . 5 ) containing 100 μg / ml ampicillin . from the cultures plasmid dna was isolated by the boiling lysis method as described by maniatis et al . ( 1982 ), which was used in restriction analysis to select a clone harbouring the desired plasmid pim230 . plasmid dna was isolated on a large scale from 500 ml cultures en coli dh5α containing pim230 grown in lb medium containing 100 μg / ml ampicillin ( maniatis et al ., 1982 ) the plasmid was purified by cscl centrifugation , ethanol precipitated and dissolved in 400 μl te . the yield was approximately 500 μg . e . coli containing pir230 was deposited at the cbs under the conditions of the treaty of budapest on june 1996 under the accession number cbs 678 . 96 to obtain a cdna clone of part of the zinc finger regio of the xlnr gene , a reverse transcriptase and second strand synthesis reaction were carried out on 1 μg of polya + rna from an a . niger n402 wild - type strain grown on xylan for 30 hrs with an oligonucleotide starting at position 1476 - 1496 ( seq id no 9 ), in analogy to the method as described in the zap ™- cdna synthesis kit ( stratagene ). an aliquot ( 1 / 50 ) of the second strand reaction was used as template in pcr with primer r026 and r025 ( derived from positions 946 - 970 of seq id no 9 ) in 35 cycles of 60 seconds of subsequent 95 ° c ., 58 ° c . and 72 ° c . followed by an incubation of 5 minutes at 72 ° c . the resulting fragment of 500 bp was subcloned in the pgem - t vector ( promega ) and sequenced . the sequence of the a . niger xlnr gene , its promoter / regulation region , the structural part of the gene and the termination region , was determined by subcloning fragments from both pnp8 as pim230 , in combination with the use of specific oligonucleotides as primers in the sequencing reactions . for nucleotide sequence analysis restriction fragments were isolated and were then cloned in pembl , puc , pbluescript , pgem dna vectors , digested with the appropriate restriction enzymes . the nucleotide sequences were determined by the dideoxynucleotide chain - termination procedure ( sanger et al . 1977 ) using the pharmacia alf express automated sequencer and the thermosequenase sequencing kit ( amersham ). in the case of gene specific oligonucleotides the pharmacia cy5 internal labelling kit was used in combination with the t7 dna polymerase sequencing kit ( pharmacia ). the reactions and the electrophoresis was performed according to the manufacturers &# 39 ; instructions . computer analysis was done using the pc / gene programme ( intelligenetics ). the sequence determined is given in seq id no : 9 . the sequence as given in seq id no : 9 , comprising the xlnr structural gene , is preceded by a 947 nucleotide long upstream region . in the upstream non - coding region ct - enriched sequences are found but no tataa box . the structural part of the xlnr gene ranges from position 948 till position 3690 , interrupted by two introns . the intron at position 1174 till 1237 was certified by sequencing the genomic fragment in pim230 , described in example 6 . 2 and part of the cdna , as described in example 6 . 3 . a second intron is indicated from position 3496 till position 3549 . the second intron sequences follow the conserved intron sequences , normally found in fungi , for splice junctions and lariat sequence . the xlnr gene encodes a protein of 875 amino acids in length . the derived polypeptide contains a typical n - terminal zinc binuclear cluster domain encoded by nucleotides from position 1110 till position 1260 , with typical six cysteines coordinating the zinc . in this region furthermore a number of similarities with other fungal regulatory proteins are shown as listed in e . g . fig1 of kraulis et al . ( 1992 ) which is herein incorporated by reference . a typical rrrlww motif ( seq id no : 12 ) is found from position 2623 till position 2649 , this motif is found , with slight variations , in a number of binuclear zinc cluster regulatory proteins as noted by suarez et al . ( 1995 ). to determine whether the mutation , in the case of the a . niger mutants which do not express the xylanolytic system , as described in example 4 . 2 , is located in xlnr , the sequence of the xlnr gene of these mutants was determined . for this a library enriched for 5 . 5 kb bamhi xlnr containing fragments was made for each of the nw205 :: 130 ac mutants . for the construction of this xlnr enriched library . 5 . 5 kb fragments of bamhi , hindiii , xhoi , ssti and kpni digested genomic dnas were isolated for each strain . these fragments were mixed with bamhi digested , dephosphorylated puc18 vector ( ready - to - got puc18 bamhi / bap + ligase . pharmacia ) and ligated . the ligation mixture was used to transform e . coli dh5α ( max efficiency dh5α ™ competent cells , gibco - brl ) for amp resistance according to the manufacturers &# 39 ; protocol , which resulted in a primary library of 5 * 10 2 - 10 3 colonies . these a . niger xlnr enriched libraries , after replating the primary library on master plates , were screened by colony filter hybridisation according to standard protocol ( sambrook et al . 1989 ), with the use of the denatured radiolabelled bamhi - xbai insert of pim230 as a probe . for each mutant strain , positive colonies were picked from the master plate with a toothpick and were grown for 15 - 18 hrs at 37 ° c . in 5 ml lb medium containing 100 μg / ml ampicillin , after which a miniprep plasmid dna isolation was performed as described for boiling lysis by sambrook et al . ( 1989 ). analysis of these dna preparations by agarose electrophoresis and comparing digestion patterns with xlnr specific patterns revealed colonies containing the correct 5 . 5 kb bamhi xlnr fragment . the sequence of the a . niger mutants was determined with the use of specific xlnr oligonucleotides as primers in the sequencing reactions as described in example 7 . 2 . for mutant nw205 :: 130 ac 1 - 15 a single basepair substitution was determined at position 3479 , resulting in the change of the leucine at position 823 of seq id no : 9 into a serine . for mutant nw205 :: 130 ac 2 - 5 a single basepair substitution was determined at position 3655 , resulting in the change of the tyrosine at position 864 of seq id no : 9 into an aspartic acid . these mutations identify both mutants as xlnr mutants . for the complementation in all non - expressing mutants all ten nw205 :: 130 ac mutants , as described in example 4 , were transformed as described in example 2 of this document by combining protoplasts and pgw635 as a control for transformation frequency and pim230 dna for testing the complementation ability of pir230 . the resulting transformant colonies were analysed for xylanolytic activity and compared with their parental mutant strain , by plating them on appropriate medium containing 1 % oat spelts xylan as c source , and after 2 - 3 days a clearing of the xylan around the transformant colonies , but not the parental mutant strain , appeared for all ten , thereby showing the restoration of xylanolytic activity . effect of xlnr gene dosage on the expression of the a . niger xylanolytic system to study the potential use of the xlnr gene for strain improvement for an increased xylanolytic expression , the strain n902 :: 200 - 18 , harbouring multiple copies ( about 6 ) of the a . niger xlnd gene encoding β - xylosidase , was transformed to arginine prototrophy in a co - transformation experiment , as described in example 2 of this document using 19 μg of the xlnr harbouring plasmid pim230 and 2 μg of the plasmid pim650 harbouring the a . nidulans argb gene ( johnstone et al . 1985 ). the transformants obtained were screened for increased endo - xylanase expression , on mm plates containing 1 % oat spelts xylan . four colonies , having the fastest and largest halo formation , were selected to determine xlnr copy numbers . for this dna of these transformants and the recipient strain , was isolated and serial dilutions were spotted onto hybond n membrane . the copy number was estimated from the signals found after hybridisation , using a radiolabelled 4 . 5 kb smai / xbai fragment spanning the coding sequence of the xlnr gene . based on comparison to the recipient strain the xlnr copy number was determined to be 8 in n902 :: 200 - 18 - r14 and 32 in n902 :: 200 - 18 - r16 . for both these transformants the effect of the increased gene dosage of xlnr was analysed by northern analysis after strains were grown in liquid culture . this was done in a transfer experiment into 2 % oat spelts xylan as a carbon source , after a preculture in 1 % fructose for 18 h . mycelial samples were taken 8 and 24 hrs after transfer , from which total rna was isolated using trizol ( life technologies ) according to the manufacturers instructions and analysed by northern blot analysis ( sambrook et al . 1989 ). xylanase b expression levels were strongly increased in these transformants in comparison to the recipient strain , as detected after hybridisation using the radiolabelled 1 kb ecori / xhoi fragment of a . niger xlnb ( kinoshita et al ., 1995 ). to further study the potential use of the xlnr gene for strain improvement for an increased endo - xylanase expression . a . niger was transformed , as described in example 2 of this document according to the following scheme ; 1 . pgw635 ( pyra ) ( positive control ). 2 . pdb - k ( xa ). 3 pdb - k ( xa )+ pir230 ) and 4 pgw6354 pim230 . the plasmid pdb - k ( xa ) contains both the a . niger pyra gene and the a . niger xylanase a gene from a . tubigensis in the vector pembl18 . transformants were obtained for all conditions used , strains overexpressing endo - xylanases were selected by halo size in a plate screening on oat spelts xylan ( 20 transformants from each group were tested ). from each group one transformant was selected and grown for activity assays . the strains were pregrown for 18 hrs on medium containing fructose , after which the mycelium ( 2 . 5 g wet weight in 50 ml ) was transferred to medium containing 1 . 4 % crude arabino xylan . all cultures were performed in shake flasks . incubations were done for 40 hrs at 30 ° c . and the xylanase a levels were determined by hplc analysis , while f - xylosidase and endo - xylanase activities were determined for both . chromatography was carried out on standard pharmacia - lkb hplc equipment ( uppsala . sweden ) running a source 15 q . hr 5 / 5 - column at 1 . 5 ml / min . buffer a = 20 mm tris - buffer , ph 7 . 5 and buffer b 20 mm tris - buffer , ph 7 . 5 with 1m nacl . gradient from 0 - 50 % buffer b over 30 min . detection at 280 nm , pharmacia - lkb uv - mii , absorbance range at 0 . 1 - 0 . 2 , see fig3 . 100 μl culture media was diluted with 1000 μl 20 mm tris - buffer , ph 7 . 5 and 1000 μl diluted sample was applied to the column . the xylanase a activity is then seen as a peak eluting at approx . 30 % b - buffer . from each group of transformants the one showing the highest xylanase a activity / peak in the hplc analysis is shown in fig3 . the endo - xylanase activity was determined by measuring the release of dyed fragments from azurine - dyed cross - linked wheat arabinoxylan ( xylazyme tablets ) from megazyme , warriewood , australia . the xylanase activity was calculated by comparing with an internal standard enzyme of 100 xu / gram ( xylanase - unit ) at 40 ° c . in 0 . 1m acetate buffer , ph 3 . 4 . the same four transformants were assayed on water insoluble arabinoxylan at a ph were only xylanase a contributes to the endoxylanase activity , the results of this analysis is given in table 2 . from the results shown in fig3 and table 2 it is clear that transformation with the xylanase a encoding gene as expected gives a large increase in the xylanase a enzyme activity . more surprisingly , also after transformation using the activator gene xlnr , also a large increase in the level of xylanase a is found . this indicates a limitation in the level of activator xyl r (= xlnr gene product ) in the untransformed parent . therefore , it is expected that in a pdb - k ( xa ) multicopy transformant the amount of transacting regulatory factor will be even more limiting . this is confirmed by the result for the pdb - k ( xa )/ pim230 transformant , which has a xylanase a level twice as high as the pdb - k ( xa ) multicopy transformant . to analyse whether it is possible to isolate the xlnr counterpart from other fungi by heterologous hybridisation , using the 4 . 5 kb smai / xbai fragment of the xlnr gene as a probe . dna was isolated from the following strains ; a . niger n902 ( argb15 , cspa1 , fwna1 , metb10 , pyra5 ), a . tubingensis nw184 ( cspa1 , fwna1 , pyra22 ), a . nidulans wg096 ( pabaa1 , ya2 ) of fgsc 187 , a . aculeatus nw240 ( pyra3 ) of cbs 101 . 43 , a . aculeatus nw217 ( fwna1 , cspa1 , pyra4 , lysa1 ) of cbs 115 . 80 , a . foetidus ( awamori ) nw183 ( cspa1 , fwna1 , pyra13 , lysa1 ) of cbs 115 . 52 , a . japonicus cbs 114 . 51 and trichoderma reesei qm9414 . 1 - 2 μg dna was digested with bamhi or with xhoi and subsequently analysed by southern analysis as described in example 3 . the hybridisation conditions used were : hybridisation in 6 × ssc ( 20 × ssc per 1000 ml : 175 . 3 g nacl , 107 . 1 g sodium citrate . 5 . 5h 2 o , ph 7 . 0 ), 0 . 1 % sds , 0 . 05 % sodium pyrophosphate , 5 * denhardt &# 39 ; s solution ( 100 × denhardt &# 39 ; s solution per 500 ml : 10 g ficoll - 400 , 10 g polyvinylpyrrolidone , 10 g bovine serum albumin ( pentax fraction v ) and 20 μg / ml denatured herring sperm dna at 56 ° c . for 18 - 24 hrs followed by two 30 min , washes in 5 × ssc , 0 . 1 % sds at 68 ° c . and two 30 min , washes in 2 × ssc , 0 . 1 % sds at 56 ° c . after hybridisation the membrane was covered with saran wrap and autoradiographed overnight at − 70 ° c . using konica x - ray films and kodak x - omatic cassettes with regular intensifying screens . as a result hybridising fragments were found for all fungi analysed , very strong hybridisation signals were found in a . niger , a . tubigensis , a . foetidus , while in the other strains investigated clear hybridisation signals were found . plasmids were constructed containing promoter fragments from the a . niger abfa gene ( flipphi et al . 1994 ) and the a . niger abfb gene ( flipphi et al ., 1993 ). for the construction containing the abfa promoter fragment , a 1 . 4 kb xhoi / psti fragment from pim900 ( flipphi et al . 1994 ) was ligated in sali / psti digested palter ( promega ), as described in example 1 . using the altered sites ii in vitro mutagenesis system ( promega ) a xhoi restriction site was created at positions − 83 till − 88 relative to the translation initiation site ( flipphi et al . 1994 ). from the resulting plasmid a 953 bp ssti / xhoi fragment was isolated . this fragment and a 1 . 5 kb xhoi fragment from pim130 were ligated into pbluescript ( stratagene ) digested with ssti / xhoi . plasmids containing the correct orientation of the 1 . 5 xhoi fragment were identified by a digestion using bgiii . the resulting plasmid is pap8 . analogously a 910 bp psti fragment from the abab promoter was isolated from pim991 ( flipphi et al ., 1993 ) and ligated in psti digested pembl19 . the resulting plasmid was digested using saii and was ligated with the 1 . 5 kb xhoi fragment from plasmid pim130 . plasmids obtaining both fragments in the correct orientation were identified by a digestion using bamhi . the resulting plasmid is pim132 . a third plasmid containing a fragment from the a . niger pgaii was constructed by cloning a 1450 bp xbai / xhoi fragment into the vector palter . using the altered sites ii in vitro mutagenesis system ( promega ) a xhoi restriction site was created at positions − 107 till − 112 relative to the translation initiation site ( bussink et al . 1991 ). from the resulting plasmid a 1 . 2 kb xbai / xhoi fragment was isolated . this fragment and a 1 . 5 kb xhoi fragment from pim130 were ligated into pbluescript ( stratagene ) digested with xbai / xhoi . plasmids containing the correct orientation of the 1 . 5 xhoi fragment were identified by a digestion using hindiii . the resulting plasmid is piip7 . from the same pgaii gene a 223 bp hindiii / psti fragment ( bussink et al ., 1992 ) was isolated and ligated in hindiii / psti digested pembl19 . the resulting plasmid was digested using salii and was ligated with the 1 . 5 kb xhoi fragment from plasmid pim130 . plasmids containing both fragments in the correct orientation were identified by a digestion using hindiii . the resulting plasmid is phpii . all four plasmids were introduced in a . niger nw219 by transformation as described in example 2 , using 10 mm l - arabitol as an inducer in transfomation experiments using the constructs having the abf promoter fragments ( plasmids ap8 and pim132 ) and 1 % polygalacturonic acid ( usb chemicals ) in the case of the plasmids harbouring the pgaii fragments . while for the plasmids ap8 and pim132 transformants were found at high frequency , for the transformation experiment using the pgaii promoter fragment containing plasmids piip7 and phpii only 5 and 7 transformants were found respectively . the transformants resulting from the transformation experiment using the plasmids pap8 and pim132 ( abf promoter fragments were analysed phenotypically as described in example 3 using mm containing 10 mm l - arabitol / 50 mm sorbitol , 10 mm l - arabitol / 50 mm d - glucose and 50 mm d - glucose . the expected phenotype ; growth on 10 mm l - arabitol / 50 mm sorbitol , non - growth on 10 mm l - arabitol / 50 mm d - glucose and 50 mm d - glucose , was found for 10 out of 29 transformants resulting from plasmid pap8 and 13 out of 30 transformants resulting from plasmid pim132 . the transformants resulting the plasmids piip7 and phpii were tested on mm containing 1 % polygalacturonic acid , 1 % polygalacturonic acid / 50 mm d - glucose and 50 mm d - glucose . both classes of transformants however , did not show the expected phenotype , all transformants were able to grow on all three media . this suggests that these transformants result from a double cross - over at the pyra locus . based on the results for the pgaii promoter fragment containing plasmids , we have tested whether we could improve transformation frequency by improving induction . we assumed that transformation more or less failed due to lack of inducer , since no monomeric inducer for polygalacturonases was available and thus the polymer needs to be degraded to release inducer to give expression . we tested whether supplementation of the medium using a small amount of uridin could overcome this problem . for this the nw219 and a transformant nw219 :: pim132 # 30 were tested on media containing 1 % oat spelts xylan , giving induction of abfb , in combination with an increasing amount of uridin ; respectively 0 , 0 . 001 , 0 . 005 , 0 . 01 , 0 . 1 , 1 , 5 and 10 mm . in this experiment the recipient strain nw219 did not grow on media containing less then 0 . 01 mm uridin , while the nw219 :: pim132 # 30 transformant strain grew under all conditions used . however , the degree of sporulation and colony morphology varied , the lowest uridin concentration giving wild - type - like sporulation being around 0 . 01 mm uridin . based on these results a . niger nw219 transformation using the plasmids piip7 and phpii was repeated using mms as described in example 2 containing 1 % lemon pectin ( degree of esterification 45 %)( copenhagen pectin factory ) and two conditions for uridin supplementation 0 . 01 mm and 0 . 005 mm respectively . this resulted in an increased number of transformants found . these transformants were tested on media containing 1 % lemon pectin as described above . 1 % lemon pectin / 50 mm d - glucose and 50 mm d - glucose , for which the expected phenotype is respectively growth , non - growth and non - growth . for the piip7 resulting transformants 10 out of 30 transformants and for the phpii 9 out 30 transformants the expected phenotype was found . a selection of the transformants showing the expected phenotype were analysed by southern analysis . dna was isolated and analysed as described in example 3 . for the transformants resulting from the abfa promoter fragment containing plasmid pap8 the dna was digested using clai , for pim132 ( abfb ) resulting transformants using clai and for the transformants resulting from pgaii plasmids piip7 and phpii using clai . based on the autoradiograph obtained after hybridisation using the following radiolabelled fragments ; the 3 . 8 kb xbai and the 1 : 2 kb cloa fragment of the pyra gene , transformants were selected based on estimated copy number . the following transformants were selected ; ap8 / 16 ( abfa ), nw219 :: 132 # 8 ( 2 copies ) and nw219 :: 132 # 30 ( 3 - 4 copies )( abfb ). nw219 :: piip7 # 3 ( 2 copies ) and nw219 :: phpiip # 9 ( 2 copies )( pgaii ) the selected transformants were subjected to mutagenesis as described in example 4 . arabinofuranosidase derepressed mutants were selected on mm + 50 mm d - glucose and on mm + 10 mm l - arabitol / 50 mm d - glucose , while polygalacturonase derepressed mutants were selected on mm + 50 mm d - glucose and on mm + 1 % lemon pectin / 50 mm d - glucose . after 4 - 7 days 5 - 10 mutant colonies per plate were found , which on basis of their morphology could be divided into three classes ; large , well sporulating colonies , intermediate sized , well sporulating colonies and small poorly sporulating colonies . a random selection of 20 of these mutants was made and the selected mutants were tested on media containing different carbon sources or substrates . the arabinofuranosidase mutant colonies were found to be able to grow on media containing d - glucose , d - glucose / l - arabitol and l - arabitol , while the parental strains only were able to grow on medium containing l - arabitol as a carbon source . analogously the polygalacturonase mutants also were able to grow on mm + 50 mm d - glucose and on mm 41 % lemon pectin / 50 mm d - glucose and mm + 1 % lemon pectin . the parental strains could only grow on mm + 1 % lemon pectin . in addition the arabinofuranosidase mutants ( 20 of each ) were tested on the chromogenic substrate methylumbelliferyl - α - l - arabinofuranoside as described in example 4 . while the parental strains did not show any arabinofuranosidase expression of d - glucose / l - arabitol containing media , as detected by fluorescence of the substrate , the mutants showed variable levels of expression , the highest levels were found in mutants selected on the d - glucose medium . the polygalacturonase mutants were tested on mm + 0 . 1 % lemon pectin / 50 mm glucose , two and three days after inoculation of the plates polygalacturonase activity was visualized by staining as described by ried and collmer ( 1985 ). in this case for the parental strain a small halo was found , while in the mutants various degrees on increased halo formation was detected . according to example 4 also non - expressing mutants were selected on media containing foa . for this strains nw219 :: 132 # 30 ( abfb ) were mutated and plated on mm + 10 mm l - arabitol + 1 mg / ml foa + 10 mm uridin . after 7 - 10 days mutants were selected and plated to mm containing 10 mm l - arabitol / 50 mm sorbitol , 10 mm uridin and having a top agar containing 0 . 5 % azcl - arabinan ( megazyme , sydney , australia ) for the detection of endo - arabinan expression . two of the 30 transfodrants tested , 132 / 30 f12 and f26 , were not able to release the dye from the substrate , an indication for the absence of endo - arabinan activity . upon cultivation of these transformants in liquid mm containing 10 mm l - arabitol and 10 mm uridin and subsequent measurement of arabinofuranosidase activity in the culture filtrates , an at least 4 - fold decrease in activity was found . the strain nw219 :: piip7 # 3 was mutated and plated on mm containing 1 % lemon pectin / 50 mm sorbitol . 10 mm uridin and 1 mg / ml foa . after incubation of the plates for 6 - 10 days mutants were picked and screened for polygalacturonase activity as described above . of 65 mutants selected three mutants were found to have a decreased haloformation after polygalacturonase activity staining , indicating a decrease in polygalacturonase expression . examples 7 , 8 and 11 of ep 95201707 . 7 , which is a copending european patent application of which a copy has been included upon filing the subject document and which examples have also been copied into this document . example 7 of ep 95201707 . 7 : transformation of a . niger using the plasmid pim200 250 ml of culture medium , which consists of mm supplemented with 2 % glucose , 0 . 5 % yeast extract , 0 . 2 % casamino acids ( vitamin free ), 2 mm leucine , 10 μm nicotinamide , 10 mm uridine , was inoculated with 1 * 10 6 spores per ml of strain nw155 ( cspa1 , argb13 , pyra6 , nica1 , leua1 , prtf28 ) ( derived from nw228 , van den hombergh et al , 1995 ) and mycelium was grown for 16 - 18 hours at 30 ° c . and 250 rpm in a orbital new brunswick shaker . the mycelium was harvested on myracloth ( nylon gauze ) using a bachner funnel and mild suction and was washed several times with sp6 ( sp6 : 0 . 8 % nacl , 10 mm na - phosphate buffer ph 6 . 0 ). 150 mg novozyme 234 was dissolved in 20 ml smc ( smc : 1 . 33 m sorbitol , 50 mm cacl 2 , 20 mm mes buffer , ph 5 . 8 ) to which 1 g ( wet weight ) mycelium was added and which was carefully resuspended . this suspension was incubated gently shaking for 1 - 2 hours at 30 ° c ., every 30 minutes the mycelium was carefully resuspended and a sample was taken to monitor protoplast formation using a haemocytometer to count the protoplasts . when sufficient protoplasts were present ( more then 1 * 10 8 ) these were carefully resuspended and the mycelial debris was removed by filtration over a sterile glasswool plug . the protoplasts were collected by 10 minutes centrifugation at 3000 rpm and 4 ° c . in a bench centrifuge , the supernatant was removed and the pellet was carefully resuspended in 5 ml stc ( stc : 1 . 33 m sorbitol , 50 mm cacl 24 10 mm tris / hcl , ph 7 . 5 ). this wash step was repeated twice and the protoplasts were finally resuspended in stc at a density of 1 * 10 8 per ml . the transformation was performed by adding 20 μg of pim200 dna and 5 μg pgw635 , containing the a . niger pyra gene ( dissolved in a 10 - 20 μl te ), to 200 μl of protoplast suspension together with 50 pi of peg buffer ( pfg buffer : 25 % peg - 6000 , 50 mm cacl 2 , 10 mm tris / hcl ph 7 . 2 ), mixed gently by pipetting up and down a few times , and incubated at room temperature for 20 minutes . after this period 2 ml peg buffer was added , the solution was mixed gently and incubated at room temperature for another 5 minutes and subsequently 4 ml of stc was added and mixed gently on a vortex mixer . one ml portions of this suspension were then added to 4 ml of 0 . 95 m sucrose osmotically stabilised top agar and poured on osmotically stabilised plates . as a control a . niger was also transformed using pgw635 . the transformants from pim200 obtained in example 7 were analysed phenotypically by plating on mm containing 1 % oat spelt xylan and 1 mm 4 - methylumbelliferyl - β - d - xyloside . of the 26 transformants tested , five had an increased fluorescence . these transformants , together with a pyr + transformant as a reference , were grown on mm containing 1 % oat spelt xylan for 20 , 27 and 42 hrs , after which the β - xylosidase activity towards pnp - x was measured . the results are summarised in table c . an increased level of β - xylosidase activity was found in all five transformants selected , the highest level being more then 30 times the wild - type activity . these results were confirmed by western blot analysis , using the anti β - xylosidase antibody , prepared as described in example 3 of the ep 95201707 . 7 , and the bio - rad immun - blot gar - ap assay kit following the suppliers instructions . the gene disruption plasmids pim203 and pim204 were constructed by generating an internal fragment of the xlnd gene by pcr . the fragment was generated using the oligonucleotides derived from the xlnd sequence ( sea id no : 8 ). xylos001 was derived from positions 1157 till 1176 and xylos004 was derived from positions 3147 till 3164 . the fragment was generated by pcr containing 10 μl 10 * reaction buffer ( 100 mm tris - hcl , ph 8 . 3 , 500 mm kcl . 15 mm mgcl 2 , 0 . 01 % gelatine ). 16 μl 1 . 25 mm of each of the four deoxynucleotide triphosphates , 1 ng of the plasmid pim200 dna and 1 μg of each of the oligonucleotides in a final volume of 100 μl . this reaction mixture was mixed and 1 μl taq polymerase ( 5 u / μl ) ( life technologies ) was added . the dna was denatured by incubation for 3 min at 92 ° c . followed by 25 cycli of 1 min 92 ° c . 1 . 5 min 52 ° c . and 1 . 5 min 72 ° c . after these 25 cycli the mixture was incubated for 5 min at 72 ° c . analysis of the reaction products by agarose electrophoresis revealed a fragment of about 2000 bp . which corresponds to the size expected , based on the sequence of the gene . the resulting fragment was subcloned in the vector pgem - t ( promega ) resulting in the plasmid pim202 . plasmid pim203 was constructed by ligation of a smai / psti fragment of pilj16 ( johnstone et al ., 1985 ), containing the a . nidulans argb gene ( upshall et al ., 1986 ), in the ecorv / pst1 digested pim202 vector . plasmid pim204 was constructed by ligation of the nsfl / xbal fragment of pim130 ( this document . ep 95202346 . 3 ), containing the pyra gene under the control of the uas of the xlna promoter of a . tubigensis , in the spel / nsil digested pim202 vector . the plasmids containing the xlnd internal fragment as well as the argb gene ( pim203 ) or the pyra gene ( pim204 ), as described in example 11 . 1 of the copending ep application , as a selection marker in transformation , were used to disrupt the a . niger xlnd gene . for this a . niger n902 ( argb15 , cspa1 , fwna1 , metb10 , pyra5 ) was transformed , as described in example 2 of this document , using the plasmids pim203 and pim204 selecting for arginine or uridine prototrophy respectively . the resulting transformants were screened for activity on methylumbelliferyl - β - d - xyloside on a 1 % xylan plate as described in example 8 of the copending ep application . for both groups of transformants twenty were screened . of these transformants one of each group had a severe decreased level of mux activity after 24 h of growth . southern analysis of the selected transformants , as described in example 3 of the copending application , demonstrated for the pim203 transformant a multicopy integration at the homologous xlnd locus . in case of the pim204 transformant a single homologous integration at the xlnd locus had occurred . analysis for pnp - x activity , as described in example 8 of the copending ep application , of these transformants revealed an at least 100 - fold decrease in d - xylosidase activity . effect of overexpression and inactivation of xlnd gene on the expression of xylanolytic system of a . niger to determine the effect of xlnd expression on the expression of the xylanolytic spectrum . a . niger n902 two xlnd multicopy transformants in n902 and the xlnd gene disruption strains were grown in liquid culture . this was done in a transfer experiment into 2 % oat spelts xylan or 3 % d - xylose as a carbon source , after a preculture in 1 % fructose for 18 h . beta - xylosidase activity was determined as pnp - x activity in the culture filtrate . with both c sources a clear overexpression could be seen for the pim200 transformants against an almost absence of pnp - x activity for both ( pim203 and pim204 ) inactivation transformants . the xlnd gene disruption transformants showed an initial decreased level of endo - xylanase expression , which however increased in time finally after 16 hrs resulting in increased activity levels in comparison to the a . niger wild - type . thus resulting in xylanase preparations free of β - xylosidase . the culture filtrates were subsequently analysed by hplc analysis , using a dionex system and pulsed amperometric detection . for this 1 ml of culture filtrate was boiled immediately after harvesting , to inactivate the xylanolytic enzymes , after which the sample was centrifuged for 10 min . 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