Abstract:
Selected endophytes of the genus Neotyphodium (formerly Acremonium) form stable synthetic combinations with tall fescue hosts (Festuca arundinacea). The combinations have improved resistance to invertebrate pests as compared to tall fescue cultivars not containing such endophytes. The particular combinations of the invention have reduced toxicity to livestock as compared to naturally occurring endophyte/tall fescue combinations. The seven preferred endophytes are AR501, AR502, AR510, AR542, AR572, AR577 and AR584.

Description:
CROSS REFERENCE TO RELATED APPLICATIONS 
     This application claims priority from New Zealand Patent Application No. 314925 filed May 27, 1997. 
     STATEMENT RE FEDERALLY SPONSORED RESEARCH AND DEVELOPMENT 
     Not applicable. 
     BACKGROUND OF THE INVENTION 
     It is known from New Zealand patent specification 233,083 that synthetic combinations of endophyte/herbage cultivars can be made which are resistant to pests and can be less toxic to grazing animals than naturally occurring combinations. The desired properties were achieved by selecting synthetic combinations which produced relatively high levels of peramine and relatively low levels of or no lolitrem B in ryegrass. 
     It has been found that the ergopeptine alkaloid, ergovaline, was produced in a synthetic endophyte/perennial tall fescue combination and that livestock grazing on the combination had an adverse physiological reaction to ergovaline under specific conditions. 
     Naturally occurring endophytes in populations of tall fescue cultivars in the United States of America (for example, Kentucky 31 tall fescue) generally have high levels of toxicity in the warm seasons. We have screened many such combinations but have been unable to locate any which produce levels of ergovaline sufficiently low to be candidate selections for making acceptable synthetic endophyte/tall fescue combinations. We have been able to find a few strains from Mediterranean locations which are able to meet the primary selection criteria of effective absence of ergovaline and a satisfactory level of peramine, an insect resistance factor. 
     It is an object of this invention to go some way towards avoiding the above mentioned disadvantages and achieving the aforementioned desiderata or at least to offer the public a useful choice. 
     SUMMARY OF THE INVENTION 
     This invention relates to selected endophytes in the genus Neotyphodium (formerly Acremonium) which form stable synthetic combinations with tall fescue hosts (cultivars and selected breeding lines of Festuca arundinacea) and which combinations have improved resistance to invertebrate pests in comparison to the same grasses lacking endophyte and which have reduced toxicity to livestock as compared to naturally occurring endophyte/tall fescue combinations. 
     For the purposes of this specification the expression &#34;synthetic endophyte/tall fescue combination&#34; means the combination of an endophyte and a culturally improved tall fescue variety each of which has been isolated from nature, but the combination of which does not exist in nature. 
     Accordingly, in a first aspect, the invention may be said broadly to consist in an axenic culture of an endophyte which in synthetic combination with a tall fescue cultivar produces levels of peramine in excess of 5 ppm in aggregates of herbage cut above about 1 cm above soil level and levels of ergovaline of less than 0.1 ppm in herbage cut at or above about 1 cm above soil level and less than 0.5 ppm ergovaline in crowns below about 1 cm above soil level, excluding roots. 
     In another embodiment the invention may be said broadly to consist in a synthetic combination of an endophyte as defined immediately above with a tall fescue cultivar. 
     In another embodiment, the invention may be said broadly to consist of an axenic culture of an endophyte selected from the group consisting of AR501, AR502, AR510, AR542, AR572, AR577 and AR584, AGAL deposit nos. NM98/04681, NM98/04677, NM98/04678, NM98/04675, NM98/04679, NM98/04680 and NM98/04676, respectively, dated May 12, 1998. 
     In another embodiment the invention may be said broadly to consist in a synthetic combination of tall fescue and an endophyte selected from AR501, AR502, AR510, AR542, AR572, AR577 and AR584. 
     Preferably the tall fescue cultivar is a temperate European type tall fescue cultivar. 
     Preferably said tall fescue cultivar is selected from the group consisting of Grasslands Roa, Grasslands Advance, Kentucky 31, Georgia 5, Jesup, Jackal and Quantum. 
     Preferably said synthetic combination is made by inoculating a said tall fescue cultivar with a said axenic culture of a said endophyte. 
     In another alternative said synthetic combination is made by crossing a said synthetic endophyte/tall fescue combination with an endophyte free tall fescue cultivar to form a new tall fescue cultivar infected with said endophyte. 
     The invention may also be said broadly to consist in seeds of said synthetic combination. Preferably said seeds are harvested from tall fescue plants inoculated with said endophyte. Alternatively, said seeds are harvested from plants of said synthetic endophytes/tall fescue combination grown from seeds harvested from tall fescue plants inoculated with said endophyte. 
    
    
     DETAILED DESCRIPTION OF THE INVENTION 
     The invention consists in the foregoing and also envisages constructions of which the following gives examples. 
     EXAMPLE 1 
     Selected Endophytes 
     The seven preferred Neotyphodium endophyte strains according to this invention belong to two taxonomic groups. The first group consists of strains AR501, AR502, AR510, AR572 and AR577. They form colonies on potato dextrose agar (PDA) which are slow grow ing (radial growth &lt;0.15 mm/day at 20° C.), raised, brain-like, white, cottony with the underside brown in colour. Conidia (5-8 μm in length) are sparsely produced in colonies of AR501, AR502, AR572 and AR577, but readily produced in colonies of AR510. 
     The second group comprises strains AR542 and AR584 which conform to the species description for Neotyphodium coenophialum (=Acremonium coenophialum) (Morgan-Jones and Gams, 1982). Colonies on PDA are white, cottony, hyphae sometimes aggregated into ropes, radial growth rate is 0.2-0.25 mm/day at 20° C. and the underside of the colony is pale brown. Conidia are readily produced in culture and are 8-14 μm in length. 
     (a) Endophytes AR501 and AR502 
     These endophytes are strains of a Neotyphodium spp. from a collection of seed from Southern Spain. The endophytes are held in a culture collection at the Grasslands site in Palmerston North of the New Zealand Pastoral Agriculture Research Institute Limited (AgResearch). The cultures are also deposited at the Australian Government Analytical Laboratories (AGAL) in Sydney, Australia under deposit nos. NM98/04681 and NM98/04677 dated May 12, 1998. 
     (b) AR510 
     This strain was isolated from a seed collection from Algeria and is a Neotyphodium spp. A specimen of this strain is held at Palmerston North and in the AGAL under deposit no. NM98/04678 dated May 12, 1998. 
     (c) AR542 and AR584 
     These two strains were isolated from tall fescue originating from Morocco and are of the species Neotyphodium coenophialum. Specimens of these strains are held at Palmerston North and in the AGAL under deposit nos. NM98/04675 and NM98/04676 dated May 12, 1998. 
     (d) AR572 and AR577 
     These strains have been isolated from seed collections from Southern Spain and Southern Portugal respectively. They are of Neotyphodium spp. which rarely produce spores under standard cultural conditions. These strains are held at Palmerston North and in the AGAL under deposit nos. NM98/04679 and NM98/04680 dated May 12, 1998. 
     EXAMPLE 2 
     Identification of Endophytes by Polymorphic DNA Microsatellite Analysis 
     The endophytes AR501, AR502, AR510, AR572 and AR577 are representatives of one group, and AR542 and AR584 are representatives of another group. They are distinguished from all other known groups of Neotyphodium endophytes occurring naturally in cultivars of tall fescue by the characterisation of alleles at one or more polymorphic genetic loci. The distinguishing characteristics are the number of distinct and the size of microsatellite sequences amplified by the polymerase chain reaction (PCR) technique using selected amplification primers. 
     Five sets of PCR primer pairs, one of each pair labelled with a fluorescent dye phosphoramidite at the 5&#39;-end for detection purposes, have been selected to define the microsatellite loci for characterisations of endophyte in planta. The fluorescent dye labels are 6-carboxyfluorescein (6-FAM), 4,7,2&#39;,7&#39;-tetrachloro-6-carboxyfluorescein (TET) and 4,7,2&#39;,4&#39;,5&#39;,7&#39;-hexachloro-6-carboxyfluorescein (HEX). The primer sequence pairs are given in Table 1. 
     
                                           TABLE 1__________________________________________________________________________Primer Sequence Pairs for Defining Microsatellite  Loci of Endophytes in plantaLocus    Primers     Primer Sequences     5&#39;-Dye__________________________________________________________________________B4  B4.1 (SEQ ID NO:1)           5&#39;-TGG ACT CGA CTT GCC CTC TCT CAG                                6-FAM   -  B4.2 (SEQ ID NO:2) 5&#39;-TGC GAG CAG CGT TTG CGT GTG CGT   - B6 B6.1 (SEQ ID NO:3) 5&#39;-GGC ATG GTA TGG GCA ATG AGT GTC 6-FAM                                  -  B6.2 (SEQ ID NO:4) 5&#39;-CTG CTG                                CGA TGT TTT GTA CTG TGG   - B9 B9.1 (SEQ ID NO:5) 5&#39;-AAT CGT TGT GCG AGC CAT TCT GGC TET                                  -  B9.4 (SEQ ID NO:6) 5&#39;-GCC CCG                                TCA TGC ATT ATC TCC TTG   - B10 B10.1 (SEQ ID NO:7) 5&#39;-CGC TCA GGG CTA CAT ACA CCA TGG TET                                  -  B10.2 (SEQ ID NO:8) 5&#39;-CTC ATC                                GAG TAA CGC AGG CGA CG   - B11 B11.1 (SEQ ID NO:9) 5&#39;-CAT GGA TGG ACA AGA GAT TGC ACG HEX                                  -  B11.4 (SEQ ID NO:10) 5&#39;-TTC ACT                                GCT ACA ATT CTG TGG AGC__________________________________________________________________________ 
    
     To characterise each endophyte a sample of genomic DNA is prepared from 100 mg to 200 mg fresh weight of pseudo-stems of endophyte-infected grass plants by the FastDNA Kit method for plant tissue (Bio 101, Inc., Vista Calif., USA). The DNA is used for PCR amplification with the primer pairs either individually or combinations of primers pairs for loci B4 with B6, B9 with B10 and B11 alone. 
     The polymerase chain reactions are prepared in 1 2.5 μl volumes containing mM Tris-HCl, 1.5 mM MgCl 2 , 50 mM KCl, pH 8.3 in the presence of 50 μM of each deoxynucleotide triphosphate, 200 nM of each primer, 0.08 U μl -1  Taq DNA polymerase (Boehringer Mannheim GmbH), and approximately 400 pg μl -1  total genomic DNA. The PCR is conducted for 30 cycles with temperature steps of 1 min at 94°, 2 min at 65°, and 1 min at 72° followed by a final extension of 10 min at 72° with a PC-960 or FTS-960 thermocycler (Corbett Research, Mortlake, Australia). 
     No PCR amplification product is observed when genomic DNA from plants lacking endophyte is used in PCR with the selected primer pairs. 
     Appropriate portions from the PCR amplifications for each endophyte sample, mixed together with GS-500 TAMRA as an internal size standard, are analysed by polyacrylamide gel electrophoresis (4.25%) on the ABI Prism 377 DNA Sequencer (Perkin-Elmer Corp., Foster City, Calif., USA). The size of the products is measured using GeneScan Analysis 2.1 software (Perkin-Elmer Corp.). 
     The use of a fluorescent dye on just one primer of each primer pair gives the size measurement of only one of the strands of the amplified DNA sequences of each allele. This simplifies the interpretation of results. The use of different dyes for loci where amplification products might occur in overlapping size ranges means that a single combination of PCR products can be analysed for each endophyte. 
     The results for individual endophyte PCR microsatellite loci size analysis are considered in conjunction with information from other endophytes and interpreted bearing in mind that the PCR reaction using Taq polymerase tends to add a single additional adenine to amplification products. This gives a proportion of product one base higher in length than the actual sequence being amplified. The length of the PCR product, considered for the purposes of comparing endophytes, is the best estimate of the size actually amplified and may be one base less than the size reported by the GeneScan Analysis system. On occasions both the actual size and a size one unit greater may be resolved by the instrument and reported. For the purposes of comparing estimated sizes a tolerance of ±0.5 of a size unit may be accepted as being within a single size range after allowance has been made for the possibility of the PCR product being recorded as of one additional length unit in size. 
     The endophytes AR501, AR502, AR510, AR572 or AR577 can be distinguished from other endophytes by their particular pattern of microsatellites. The endophytes AR542 and AR584can also be distinguished from other endophytes by their particular pattern of microsatellites, which is different from the pattern seen with the typical Neotyphodium coenophialum endophytes of tall fescue which accumulate both ergovaline and peramine. These three distinct typical patterns are detailed in Table 2. 
     
                       TABLE 2______________________________________Summary of Microsatellite Data for Distinguishing the Endophytes     Allele size(s)   AR501, AR502,  Allele size(s)   AR510 Allele size(s) Common  Locus AR572 &amp; AR577 AR542 &amp; AR584 N. coenophialum______________________________________B4    119.9       102.4 and/or 103.7                          100.0 &amp; 102.4  B6 172.6 192.7 193.7  B9 absent 271.9 271.9  B10 172.1 &amp; 180.8 163.4 &amp; 172.1 163.5, 172.1 &amp; 180.8  B11 128.6 182.0 &amp; 192.7 149.8 &amp; 192.7______________________________________ 
    
     Some variation, notably for the B4 locus, may apply with a single allele apparently absent or undetected or of a different size but with sufficient commonality of pattern to characterise the endophyte as part of its respective group. Two groups of endophytes infecting tall fescue, typically accumulating peramine but not ergovaline, can thus be distinguished by polymorphic DNA microsatellite analysis as different from any other grouping or classification of known N. coenophialum endophytes. 
     EXAMPLE 3 
     Extraction of Endophytes from their Natural Host 
     (a) From plants 
     Leaf sheath tissue of tall fescue plants containing natural endophytes was removed from the plant and surface sterilized by dipping it into 70% ethanol for 5 seconds before placing it in a 10% solution of sodium hypochlorite (0.5% available chlorine) and shaking for 5 minutes. The tissue was then rinsed in sterile water and cut into 2-3 mm pieces. 
     (b) From seed 
     Seeds containing endophyte were surface sterilized by soaking for 20 minutes in 50% sulphuric acid followed by rinsing several times in sterile water, soaking in 10% sodium hypochlorite solution for 20 minutes and rinsing again in sterile water. 
     All surface sterilized tissues were placed on potato dextrose agar containing antibiotics (100 μg/ml streptomycin+100 μg/ml penicillin) in Petri dishes and incubated at 20° C. for 4-5 weeks. By this time colonies of endophytes had sufficient growth to enable them to be used for inoculating grass seedlings. 
     EXAMPLE 4 
     Inoculation of Seedlings 
     a) Growing of Seedlings for Inoculation 
     Inoculation of seedlings is done in a sterile environment so it is necessary to surface sterilize the seeds before they are germinated. The seeds are soaked for 20 minutes in a 50% solution of sulphuric acid in water, washed in sterile water, soaked for 20 minutes in a 20% solution of a chlorine based bleach sold under the trade mark &#34;Janola&#34; and then washed in sterile water. The seeds are then dried on sterile filter paper in a laminar flow cabinet. These dried seeds are placed 10/plate on the surface of 4% water agar in Petri plates and incubated in the dark at 20° C. for 5-7 days. The plates are examined daily for contaminant fungi not killed by surface sterilization and contaminated seedlings are removed with a scalpel. 
     (a) Inoculation of Seedlings 
     Colonies of endophyte are grown on Potato Dextrose Agar in Petri plates at 20° C. Seedlings which are 5-7 days old are inoculated with endophyte mycelium by making a longitudinal slit with a scalpel in the meristematic region of the seedling stem. Mycelium is introduced into the slit with a needle or scalpel. The Petri plates are sealed with tape and incubated in the dark at 20° C. for 2-4 days. The plates are then removed and placed on a bench in the light or in an illuminated incubator for 3-4 days prior to planting the seedlings in compost-filled root-trainers. 
     EXAMPLE 5 
     Growing of Seedlings, Harvesting of Seeds 
     Infected seedlings, after testing for verification of infection with the candidate endophyte and for compliance with the criteria noted in Table 1, were naturally vernalised through the winter and placed in isolation with other tall fescue plants of the same cultivar (so that pollen from tall fescue not of the same cultivar was excluded). When seed was set, the originally infected isolated plants were harvested individually. A sample of seed from each infected isolated plant was tested to verify the presence and identity of endophyte within the seed. A sample of seed from each infected isolated plant was sown to verify that progeny plants conformed to the description of the original inoculated cultivar. Plants originally infected with the same endophyte strain, and for which seed passed the above two tests, were defined as the &#34;infected parent plants&#34; for that strain. The seed from the different infected parent plants was bulked (the same weight from each infected parent plant) to form a seed lot which was subsequently multiplied under normal seed certification procedures, with the frequency of endophyte infection of each harvest verified by seed squash. 
     EXAMPLE 6 
     Measurement of Alkaloids 
     The levels of alkaloids for each of the various defined synthetic endophyte/tall fescue combinations determined by the methods of Barker et a. (1993) are set out in Table 3. 
     
                       TABLE 3______________________________________Alkaloid Levels          Ergovaline                   Peramine______________________________________Herbage.sup.1  &lt;0.1 ppm &gt;5 ppm  Crown.sup.2 &lt;0.5 ppm______________________________________ .sup.1 Herbage aggregates above 1 cm from soil level. .sup.2 Cut below about 1 cm from soil level and excluding roots. 
    
     EXAMPLE 7 
     Agronomic Trials 
     Preliminary results from trials in Georgia, USA, with tall fescue cultivars Georgia 5 and Jesup infected with a selection of endophytes averaged a 53% increase in yield in comparison with endophyte-free controls as set out in Table 4. Row length was 1.2 m and the trial was carried out during 1996-97 at Eatonton. These data also show the synthetic endophyte/tall fescue combinations were not significantly different from the wild type in yield but always out-yielded endophyte-free controls. 
     
                       TABLE 4______________________________________Dry Matter Yield (gm per row) Endophyte      Georgia 5                         Jesup______________________________________Wildtype         576      439  Endophyte free 364 340  AR501 483 499  AR502 --  424  AR510 -- 637  AR542 573 616______________________________________ 
    
     EXAMPLE 8 
     Grazing Trial 
     Separate pastures were sown at an AgResearch campus near Lincoln, New Zealand with Kentucky 31 tall fescue containing wild type endophyte, Kentucky 31 which was endophyte-free, and Kentucky 31 which was infected with AR501. The pastures were grazed with Coopworth sheep (first grazing with adult ewes, and the second with 5 month old lambs). The various animal responses are set out below in Table 5. 
     Serum prolactin is very sensitive to low levels of ergovaline. It was used in the trials as an indicator of intoxication with ergopeptine alkaloids in the grazing animals. 
     For all animal responses in each of the two grazing periods the AR501 and endophyte-free treatments were significantly different from the wild type endophyte treatment. In all cases there was no difference between AR501 and endophyte-free treatments. 
     
                       TABLE 5______________________________________Summary of animal performance on Kentucky 31 tall fescue: without endophyte, with its natural endophyte or with AR501  Liveweight change   Liveweight change (gm/head/day)                       1st grazing                               2nd grazing______________________________________Kentucky 31 wild-type                86       -36  Kentucky 31 endophyte-free 245 79  Kentucky 31 AR501 254 86Respiration rate  1st grazing  Respiration/30 sec               4/10/96  10/12/96                                23/12/96______________________________________  Kentucky 31 wild-type 80 112  106  Kentucky 31 endophyte-type 60 81 70  Kentucky 31 AR501 64 84 722nd grazingRespiration/30 sec 13/2/97 26/2/97______________________________________  Kentucky 31 wild-type 80 116  Kentucky 31 endophyte-free 63 88  Kentucky 31 AR501 62 91Body Temperature  1st grazing  Body Temperature °C.               4/10/96  10/12/96                                23/12/96______________________________________  Kentucky 31 wildtype 39.7 40.3 40.1  Kentucky 31 endophyte-free 39.3 39.7 39.3  Kentucky 31 AR501 39.4 39.8 39.52nd grazingBody temperature °C.                   23/2/97 25/2/97______________________________________  Kentucky 31 wild-type 40.4 40.9  Kentucky 31 endophyte-free 39.9 40.4  Kentucky 31 AR501 40.0 40.6Serum Prolactin  1st grazingProlactin ng/ml    4/12/96 10/12/96______________________________________  Kentucky 31 wild-type  10  22  Kentucky 31 endophyte-free 138 327  Kentucky 31 AR501 132 277______________________________________ 
    
     Further grazings of the trial set up in 1996 were carried out in 1997/98 and a summary of the results from this trial is presented in Table 6. 
     
                       TABLE 6______________________________________Summary of Animal Performance in 1997/98 on Kentucky 31 Tall Fescue, without Endophyte, with its Natural Endophyte or with AR501          Live weight                    Temper-  Respiration  gain gm/day ature °C. Breaths/30 sec______________________________________Spring  Kentucky 31 Wild-type              91        40.3   110  Kentucky 31 Endophyte-free 115 39.9 94  Kentucky 31 AR501 130 40.0 92Summer  Kentucky 31 Wild-type              -77       40.5   103  Kentucky 31 Endophyte-free 29 39.9 63  Kentucky 31 AR501 32 39.9 59______________________________________ 
    
     The data from the second year of the trial supports the findings from the first year and shows that sheep grazing Kentucky 31 tall fescue infected with wild-type endophytes had significantly less weight gain, higher body temperatures and greater respiration rates than did the sheep on endophyte-free and AR501 infected pastures. The summer of 1997/98 was the hottest on record at the trial site. The negative weight gain of the sheep grazing wild-type tall fescue is likely to be linked to the severity and duration of heat stress during the period. 
     EXAMPLE 9 
     Effect on Insects 
     Argentine Stem Weevil 
     Tall fescue is not a favoured host of this insect and so reductions in adult feeding and larval damage due to the presence of endophytes is small. In a trial at two sites at Lincoln, New Zealand with Advance tall fescue infected with the endophytes AR501, AR502 and with endophyte-free plants, observations were carried out on the incidence of Argentine stem weevils and the damage they caused. The results are presented in Table 7. 
     
                       TABLE 7______________________________________Incidence and Damage caused by Argentine Stem Weevils on Advance  Tall Fescue Infected with AR501, AR502 or Endophyte-Free at Two Sites    Site 1          Site 2               % tillers         % tillers   Adult feeding with larval Adult feeding with larval  Endophyte score/tiller damage score/tiller damage______________________________________AR501    0.30       4        0.75     0  AR502 0.24 1 0.49 2  Endophyte-free 0.30 3 0.97 1______________________________________ 
    
     The only significant difference in insect damage at these two sites was that at site 2 there was less feeding on the plants infected with AR502 than on the endophyte-free plants. Observations on Argentine stem weevil feeding and tiller damage were made on an amenity tall fescue trial at Palmerston North, New Zealand in the summers of 1996/97 and 1997/98. The results are given in Table 8 below. 
     
                       TABLE 8______________________________________Incidence and Damage caused by Argentine Stem Weevil to an Amenity Tall Fescue Infected with AR501, AR542 or Endophyte-Free over Two Summers    1997            1998               % tillers         % tillers   Adult feeding with larval Adult feeding with larval  Endophyte score/tiller damage score/tiller damage______________________________________AR501    0.9        0.5      0.15     0  AR542 1.0 1.0 0.19 0  Endophyte-free 1.1 2.5 0.16 0______________________________________ 
    
     Porina 
     In a choice bioassay with 3 month old larvae the endophyte in Kentucky 31 tall fescue reduced feeding by 30% when compared with the endophyte-free control. 
     REFERENCES 
     Barker, D. J.; Davies, E.; Lane, G. A.; Latch, G. C. M.; Nott, H. M. and Tapper, B. A. 1993. Effect of water deficit on alkaloid concentrations in perennial ryegrass endophyte associations. Hume, D. E.; Latch, G. C. M. and Easton, H. S. (eds). Proc. Second International Symposium on Acremonium/Grass Interactions, pp. 76-76. AgResearch, Palmerston North, New Zealand 
     Morgan-Jones, G. and Gams, W. 1982. Notes on Hyphomycetes. XLI. An endophyte of Festuca arundinaceae and the anamorph of Epichloe typhina, a new taxa in one of two new sections of Acremonium. Mycotaxon 15: 311-318. 
     
         __________________________________________________________________________#             SEQUENCE LISTING   - -  - - (1) GENERAL INFORMATION:   - -    (iii) NUMBER OF SEQUENCES: 10   - -  - - (2) INFORMATION FOR SEQ ID NO:1:   - -      (i) SEQUENCE CHARACTERISTICS:       (A) LENGTH: 24 base - #pairs       (B) TYPE: nucleic acid       (C) STRANDEDNESS: single       (D) TOPOLOGY: linear   - -     (ii) MOLECULE TYPE: other nucleic acid       (A) DESCRIPTION: /desc - #= &#34;oligonucleotide&#34;   - -    (iii) HYPOTHETICAL: NO   - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO:1:   - - TGGACTCGAC TTGCCCTCTC TCAG          - #                  - #    24  - -  - - (2) INFORMATION FOR SEQ ID NO:2:  - -      (i) SEQUENCE CHARACTERISTICS:      (A) LENGTH: 24 base - #pairs      (B) TYPE: nucleic acid      (C) STRANDEDNESS: single      (D) TOPOLOGY: linear  - -     (ii) MOLECULE TYPE: other nucleic acid      (A) DESCRIPTION: /desc - #= &#34;oligonucleotide&#34;  - -    (iii) HYPOTHETICAL: NO  - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO:2:  - - TGCGAGCAGC GTTTGCGTGT GCGT          - #                  - #   24  - -  - - (2) INFORMATION FOR SEQ ID NO:3:  - -      (i) SEQUENCE CHARACTERISTICS:      (A) LENGTH: 24 base - #pairs      (B) TYPE: nucleic acid      (C) STRANDEDNESS: single      (D) TOPOLOGY: linear  - -     (ii) MOLECULE TYPE: other nucleic acid      (A) DESCRIPTION: /desc - #= &#34;oligonucleotide&#34;  - -    (iii) HYPOTHETICAL: NO  - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO:3:  - - GGCATGGTAT GGGCAATGAG TGTC          - #                  - #   24  - -  - - (2) INFORMATION FOR SEQ ID NO:4:  - -      (i) SEQUENCE CHARACTERISTICS:      (A) LENGTH: 24 base - #pairs      (B) TYPE: nucleic acid      (C) STRANDEDNESS: single      (D) TOPOLOGY: linear  - -     (ii) MOLECULE TYPE: other nucleic acid      (A) DESCRIPTION: /desc - #= &#34;oligonucleotide&#34;  - -    (iii) HYPOTHETICAL: NO  - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO:4:  - - CTGCTGCGAT GTTTTGTACT GTGG          - #                  - #   24  - -  - - (2) INFORMATION FOR SEQ ID NO:5:  - -      (i) SEQUENCE CHARACTERISTICS:      (A) LENGTH: 24 base - #pairs      (B) TYPE: nucleic acid      (C) STRANDEDNESS: single      (D) TOPOLOGY: linear  - -     (ii) MOLECULE TYPE: other nucleic acid      (A) DESCRIPTION: /desc - #= &#34;oligonucleotide&#34;  - -    (iii) HYPOTHETICAL: NO  - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO:5:  - - AATCGTTGTG CGAGCCATTC TGGC          - #                  - #   24  - -  - - (2) INFORMATION FOR SEQ ID NO:6:  - -      (i) SEQUENCE CHARACTERISTICS:      (A) LENGTH: 24 base - #pairs      (B) TYPE: nucleic acid      (C) STRANDEDNESS: single      (D) TOPOLOGY: linear  - -     (ii) MOLECULE TYPE: other nucleic acid      (A) DESCRIPTION: /desc - #= &#34;oligonucleotide&#34;  - -    (iii) HYPOTHETICAL: NO  - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO:6:  - - GCCCCGTCAT GCATTATCTC CTTG          - #                  - #   24  - -  - - (2) INFORMATION FOR SEQ ID NO:7:  - -      (i) SEQUENCE CHARACTERISTICS:      (A) LENGTH: 24 base - #pairs      (B) TYPE: nucleic acid      (C) STRANDEDNESS: single      (D) TOPOLOGY: linear  - -     (ii) MOLECULE TYPE: other nucleic acid      (A) DESCRIPTION: /desc - #= &#34;oligonucleotide&#34;  - -    (iii) HYPOTHETICAL: NO  - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO:7:  - - CGCTCAGGGC TACATACACC ATGG          - #                  - #   24  - -  - - (2) INFORMATION FOR SEQ ID NO:8:  - -      (i) SEQUENCE CHARACTERISTICS:      (A) LENGTH: 23 base - #pairs      (B) TYPE: nucleic acid      (C) STRANDEDNESS: single      (D) TOPOLOGY: linear  - -     (ii) MOLECULE TYPE: other nucleic acid      (A) DESCRIPTION: /desc - #= &#34;oligonucleotide&#34;  - -    (iii) HYPOTHETICAL: NO  - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO:8:  - - CTCATCGAGT AACGCAGGCG ACG           - #                  - #   23  - -  - - (2) INFORMATION FOR SEQ ID NO:9:  - -      (i) SEQUENCE CHARACTERISTICS:      (A) LENGTH: 24 base - #pairs      (B) TYPE: nucleic acid      (C) STRANDEDNESS: single      (D) TOPOLOGY: linear  - -     (ii) MOLECULE TYPE: other nucleic acid      (A) DESCRIPTION: /desc - #= &#34;oligonucleotide&#34;  - -    (iii) HYPOTHETICAL: NO  - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO:9:  - - CATGGATGGA CAAGAGATTG CACG          - #                  - #   24  - -  - - (2) INFORMATION FOR SEQ ID NO:10:  - -      (i) SEQUENCE CHARACTERISTICS:      (A) LENGTH: 24 base - #pairs      (B) TYPE: nucleic acid      (C) STRANDEDNESS: single      (D) TOPOLOGY: linear  - -     (ii) MOLECULE TYPE: other nucleic acid      (A) DESCRIPTION: /desc - #= &#34;oligonucleotide&#34;  - -    (iii) HYPOTHETICAL: NO  - -     (xi) SEQUENCE DESCRIPTION: SEQ ID NO:10:  - - TTCACTGCTA CAATTCTGTG GAGC          - #                  - #   24__________________________________________________________________________