Datasets:

monsoon-nlp

/

greenbeing-proteins

like 2

RR4_DAUCA

Daucus carota

MSRYRGPRFKKIRRLGALPGLTNKRPRAGSDLRNQSRSGKKSQYRIRLEEKQKLRFHYGLTERQLLKYVRIAGKAKGSTGQVLLQLLEMRLDNILFRLGMATTIPGARQLVNHRHILVNGRIVDIPSYRCKPRDIITARDEQNSRALIQNSFNSPSQDEMPKHLTLQPFQYKGLVNQIIDSKWVGLKINELLVVEYYSRQT

One of the primary rRNA binding proteins, it binds directly to 16S rRNA where it nucleates assembly of the body of the 30S subunit. With S5 and S12 plays an important role in translational accuracy. Subcellular locations: Plastid, Chloroplast

SUS2_DAUCA

Daucus carota

MAQPLLSLRQRFESTFSSHRQEIFMFLSRIQSLGNGILKPHQLFSEFQAISKIDRLKLEDSALVQLLNSAQEAIVCSPWIALAIRLRPGVWEYVRLNVHQLVVEELTVPDYLYLKEELVNASSNGNFVLELDFAPFTASIPRPTLTKSIGNGVEFLNRHLSAKMFQDKDSMHPLLDFLRLHHHNGRTLMLNNRVQTVNGLQDILRIAGEYLSKLPSDTPYSDFEHKFQEIGFERGWGDTAEHVSEMFHMLLDLLEAPDACTLETFLGKIPMIFNVVILSPHGYFAQENVLGYPDTGGQVVYILDQVPAMEREMTKRIKEQGLDIIPRILIVTRLLPDAVGTTCNLRLEKVFGAEHSHILRVPFRTEKGILRKWISRFEVWPYMETFTEDVAKEIALELKAKPDLIIGNYSEGNLVASLLANKLGVTQCTIAHALEKTKYPDSDIYWEKFDKKYHFSSQFTADLIAMNHTDFIITSTFQEIAGSKDTVGQYESHTAFTMPGLYRVVHGIDVFDPKFNIVSPGADTSVYYPYTEKKRRLTALHPEIEDLLFSSVENKEHICVLKDRYKPILFTMARLDNVKNLTGIVEWYAKNPKLRELVNLVVVGGDRRKESKDLEEQAQMKKMYGLIDTYKLNGQFRWISAQKNRVRNGELYRCIADTKGAFVQPAFYEAFGLTVIEAMTCGLPTFATIHGGPAEIIVHGTSGFHIDPYHGEKAAELIVNFFERCKTEPSHWETISAGGLKRIQEKYTWQIYSERLLTLGGVYGFWKHVSKLDRIEIRRYLEMFCALKYRNLAESVPLAVD

Sucrose-cleaving enzyme that provides UDP-glucose and fructose for various metabolic pathways. Exclusively expressed in flowers.

TBB1_DAUCA

Daucus carota

FQVCHSLGGGTGSGMGTLLISKIREEYPDRMMLTFSVFPSPKVSDTVVEPYNATLSVHQLVENADVCMVLDNEALYDICFRTLKLTTPSFGDLNHLISATMSGVTCSLRFPGQLNSDLRKLAVILIPFPRLHFFMVGFAPLTSRGSQQYRSLSVPELTQQMWDSKNMMCAADPRHGRYLTASAMFREKMSTKDLDEQMINVQNKNSSYFVEWIPNNVKSTVCDIPPTGLKMASTFIGNSTSIQEMFRRVSEQFTAMFRRKAFLHWYTGEGMDEMEFTEAESNMNDLVSEYQQYQDATADEEEYYEDEEEEEAQGM

Tubulin is the major constituent of microtubules, a cylinder consisting of laterally associated linear protofilaments composed of alpha- and beta-tubulin heterodimers. Microtubules grow by the addition of GTP-tubulin dimers to the microtubule end, where a stabilizing cap forms. Below the cap, tubulin dimers are in GDP-bound state, owing to GTPase activity of alpha-tubulin. Subcellular locations: Cytoplasm, Cytoskeleton

XYNB_PRUPE

Prunus persica

ADAIKAGLDLDCGPFLAIHTEAAVRRGLVSQLEINWALANTMTVQMRLGMFDGEPSAHQYGNLGPRDVCTPAHQQLALEAARQGIVLLENRGRSLPLSTRRHRTVAVIGPNSDVTVTMIGNYAGVACGYTTPLQGIGRYTRTIHQAGCTDVHCNGNQLFGAAEAAARQADATVLVMGLDQSIEAEFVDRAGLLLPGHQQELVSRVARASRGPTILVLMSGGPIDVTFAKNDPRISAIIWVGYPGQAGGTAIANVLFGTANPGGKLPMTWYPQNYVTHLPMTDMAMRADPARGYPGRTYRFYIGPVVFPFGLGLSYTTFAHNLAHGPTLVSVPLTSLKATANSTMLSKTVRVSHPDCNALSPLDVHVDVKNTGSMDGTHTLLVFTSPPDGKWASSKQLMGFHKIHIATGSEKRVRIAVHVCKHLSVVDRFGIRRIPLGEHKLQIGDLSHHVSLQTNLGEIKV

May be involved in cell wall metabolism, related to senescence. Equally expressed in the abscission zone and surrounding tissues of both fruitlets and leaves.

YCF2_DAUCA

Daucus carota

MKGHQFKFWIFELREILREIKNSHYFLDSWTQFNSVGSFIHIFFHQEHFIKLFDPRIWSILLSRNSQGSTSNRYFTIKGVVILFVVAVLIYRINSRNMVERKNLYLIGLLPIPMNSIGPRNDTLEESVGSSNINRLIVSLLYLPKGKKISESCFLNPKESTWVLPITKKCSMPESNWGSRWWRNWIGKKRDSSQLKGSSDQSRDPLDSISNEDSEYHTLINQRKIQQLKERSILWDPSFLQTERTEIESDRFPKSLSGYSSMSRLFTEREKQVINHLLPEEIEEFLGNPTRSVRSFFSDRWSELHLGSNPTERSTRDHKLLKKQQDLSFVPSRRSEKKEMVNIFKIITYLQNTVSIHPISSYPGCDMVPKDEPDMDSSNKISFLNKNPFLDLFHLFHDRNMGGYTLHHDFESEERFQEMADLFTLSITEPDLVYHKGFAFSIDSYGLDQKQFLNEVFNSRDESKKKSLLALPPFFYEENESFYRRIIKKWVRISCGNDLEDPKPKKMVFASNNLNVLNRFFLMNRSDRNFEYGIQRDQIGKDTLNHRTRMKYMINQHLSNLKKSQKRWFDPLILISRTERSTNRDPDAYRYKWSNGSNNFQEHLDHFVSERKSRFRVVFDRLRINQYSIDWSEVIDKKGLSKPFRFFLSKSLLFLSKSLLFLSKFLFFLSNSLPFFFVSFGNIPIHRSEIYIYELKGPNDQLCNQLLESIGLQIVHLKKLKPFLLDDHDTSQKSKFLINGGTISPFLFNKIPKWMIYSFHTRNNRRKSFANTDSYFSTIFHDQDYWLNPVKPFHRSSLISSFYKANQLRFLNNPHHFCFYCNKRFPFYVEKARINNSDFTYGQFLNILFIHNKIFSLCVGKKKHAFWGRDTISPIESRVSNIFIPNDFPQGGGDETYNLYKSSHFPSRSDPFVRRAIYSIADISGTPLTEGQIVNFERTYCQPLSDLNLSDSEGKNSHQYLNFNSNMGLIHTPCSEKYLPSEKRKNRSLFLKKYVEKGQMYRTFQRDSAFSTLSKWNLFQTYIPWFLTSTGHKYLNWIFLDTFSGLLPIHLLPIHRLPILSSSQKFVSIFHDIMHVLDISWRILQKKLGLPQRNPIRKISSKCLHNLLLSEEMIHRNNESPLISTHLRSPNVREFLYSILFLLLVAGYLVRTHLIFVSRASSELQIEFEKVKSLMISSYMIELRKLLDRYPTSEPNSFWLKNLFLVALEQLGDSLEEIWGFASGGNMLLGGDSAYGVKSIRSKKKYLNINLIDLISIIPNPISRITFSKNTRHLSHTSKEIYSLIRKRKNVNGDWIDDKIESWVANSDSIDDEEREFLVQLSTLTTEKRIDQILLSLTHSDHLSKNDSGYQMIEQRGAIYLRYLVDIHKKYLMNYEFNTSCLAERRIFLAHYQTITYSQTSCGANSFHLPSHGKPFSLRLALSPSRGILVIGSIGTGRSYLVKYLATNSYVPFITVFLNKFLDNLSEDIDASEDIDASEDIDASEDIDASDDIDRDLHTELELLTMDMMSEKDRFYITLQFELAKAMSPCIIWIPNIHDLDVNESNYFSLGLLVNHLSRDCERCSTRNILVIASTHIPQKVDPALIAPNKLNTCIKIRRLLIPQQRKHFFTLSYTRGFRLEKKMFHTNGFGSITMGSNARDLVALTNEALSISITQKKSIIDTNTIRSAFHRQTWDLRSQVRSVQDHGILFYQIGRAVAQNVLLSNCPIDPISIYIKKKSCNEGDSYLYKWYFELGTSMKKLTILLYLLSCSAGSVAQDLWSLPGPDERNGITSYGLVENDSDLVHGLLQVEGALVGSSRTEKDCSQFDNDRVTLLLRPEPRNPLDMMQNGSCSILDQRFLYEKNESEFEEGEGALDPQQIEEDLFNHIVWAPRIWHPWGILFDCIERPNELGFPYWSRSFRGKRILYDEEDELQENDSEFLQSGTMQYQTRDRSSKEQGFFRISQFIWDPADPLFVLFKDQSSVSVFSHRELFADEEMSKGLLTSQTDPPTSIYKRWFIKKTQEKHFELLINRQRWFRTTSSLSNGSFRSNTLSESYQYLSNLFLSNGTLLDQMTKTLLRKRWLFPDEMKIGFMEQEKDFPFLSRKVMWP

Probable ATPase of unknown function. Its presence in a non-photosynthetic plant (Epifagus virginiana) and experiments in tobacco indicate that it has an essential function which is probably not related to photosynthesis. Subcellular locations: Plastid, Chloroplast stroma

21KD_DAUCA

Daucus carota

MKLSKSTLVFSALLVILAAASAAPANQFIKTSCTLTTYPAVCEQSLSAYAKTIQNNPQELASTALQVSLTRTQQAQTFMKRLNKFKGLKARQYAAIHDCLEEVEDSLDRVSRSCDEMKNLSHAKGNDFTFRMSNVETWVSAALTDETTCMDGFAGKGMDGKIKESVRAQVVAVARVTSNALALVNNFAAKHKH

AB19A_PRUPE

Prunus persica

MIFPIFFTFFLLLSSSHASVQDFCVADYKAPDGPAGYSCKKPAKVTINDFVYSGLGIAGNTTNIIKAAVTPAFAAQFPGVNGLGISLARLDLGPGGVIPFHTHPGASEVLLVVQGTIIAGFVASDNTPYLKTLKKGDIMVFPQGLLHFQVNGGGTPALAFPSFSSPSPGLQILDFALFKNDLPTELIAQTTFLDAAQIKKLKGVLGGTN

Probable receptor for the plant growth-promoting hormone auxin. Subcellular locations: Secreted, Extracellular space, Apoplast, Secreted, Cell wall

AB19B_PRUPE

Prunus persica

MIFPIFFTFFLLLSTSHASVQDFCVADYKAPDGPAGYSCKKPAIVTVNDFVYSGLGIAGNTTNIFKAAVTPAFAAQFPGVNGLGISLARLDLGPGGVVPFHTHPGASEVLLVVQGTIIAGFVASDNTPYLKTLKKGDIIVFPQGLLHFQVNGGDTPAIAFPSFSSPSPGLQIVDFALFKNDLATELIAQTTLLDAPQIKKLKGVLGGTN

Probable receptor for the plant growth-promoting hormone auxin. Subcellular locations: Secreted, Extracellular space, Apoplast, Secreted, Cell wall

ACT2_DAUCA

Daucus carota

MADGGEDIQPLVCDNGTGMVKAGFAGDDAPRAVFPSIVVGRPRHTGVMVGMGQKDAYVGDEAQSKRGILTLKYPIEHGIVSNWDDMEKISHHTFYNELRVAPEEHPVLLTEAPLNPKANREKMTQIMFETFNVPAMYVLSRLRSCLSLYASGRTTGIVLDSGDGVSHTVPIYEGYALPHAILRLDLAGRDLTDGLMKILTERGYMFTTTATGMSYMKEKLAYVALVMSKSWRLPRARLLVEKNYELPDGQVITIGAVRGSGCPEVLFQPSMIGMESAGIHETTYNSIMKCDVDIRKDLYGNIVLSGGSTMFPGSCYASMSKEITALAPSSMKIKVVAPPERKYSVWIGGSILASLSTFQQMWISKGEYDESGPSIVHRKCF

Actins are highly conserved proteins that are involved in various types of cell motility and are ubiquitously expressed in all eukaryotic cells. Essential component of cell cytoskeleton; plays an important role in cytoplasmic streaming, cell shape determination, cell division, organelle movement and extension growth. Subcellular locations: Cytoplasm, Cytoskeleton

ATPB_DAUCA

Daucus carota

MKINPTNSSSLTSTLEKKNLGNITQIIGPVLDVAFPPGKMPNIYNALVVKGRDTAGQQINVTCEVQQLLGNNRVRAVAMSATDGLTRGMEVMDTGAPLSVPVGGTTLGRIFNVLGEPVDNLGPVDTRTTSPIHRSAPAFIQLDTKLSIFETGIKVVDLLAPYRRGGKIGLFGGAGVGKTVLIMELINNIAKAHGGVSVFGGVGERTREGNDLYMEMKESGVINEENIAESKVALVYGQMNEPPGARMRVGLTALTMAEYFRDVNEQDVLLFIDNIFRFVQAGSEVSALLGRMPSAVGYQPTLSTEMGTLQERITSTKEGSITSIQAVYVPADDLTDPAPATTFAHLDATTVLSRGLAAKGIYPAVDPLDSTSTMLQPRIVGEDHYETAQKVKQTLQRYKELQDIIAILGLDELSEEDRLTVARARKIERFLSQPFFVAEVFTGSPGKYVGLSETIRGFRLILSGELDSLPEQAFYLVGNIDEATAKAMNLEMESNSNK

Produces ATP from ADP in the presence of a proton gradient across the membrane. The catalytic sites are hosted primarily by the beta subunits. Subcellular locations: Plastid, Chloroplast thylakoid membrane

ATPF_DAUCA

Daucus carota

MKNVTDSFVSLGHWPSAGSFGFNTDILATNLINLSVVLGVLVFFGKGVLSDLLDNRKQRILNTIRNSEELRGGAIEQLEKARTRLRKVEMEADQFRVNGYSEIERERLNFINSTSKTLKQLENYKNETINFEQQRAINQVRQLVFQQALQGALGTLSSCLNNELHLRTIRANIGMLGAITD

F(1)F(0) ATP synthase produces ATP from ADP in the presence of a proton or sodium gradient. F-type ATPases consist of two structural domains, F(1) containing the extramembraneous catalytic core and F(0) containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. During catalysis, ATP synthesis in the catalytic domain of F(1) is coupled via a rotary mechanism of the central stalk subunits to proton translocation. Component of the F(0) channel, it forms part of the peripheral stalk, linking F(1) to F(0). Subcellular locations: Plastid, Chloroplast thylakoid membrane

C7113_PRUMU

Prunus mume

MYSVLVQETPMALLQLLKEHSSLFAFSLLILLLKFIYKDKSRKRRVKLPPSPPKLPVIGNLHQLGNKPHLSLRCLAEKYGPIIYLQLGEIPTVVVSSARLAKEVLKTHDLALSSRPQIFSAKHLFYNCTDVVFSPYGAYWRHIRKICILELLSAKRVQSFSHVREEEVARLVRRVAEFYPGTTNLTKMLGLYANDVLCRVAFGRGFSEGGDYDRHGFQKMLEEYQELLGGFSIGDFFPSMEFIHSLTGMKSRLQETFRRFDELFDQMVTDHLSPKREKEEHKDLVDVLLDIQKKESTEMPLTMDNVKAIILDMFAAGTDTTFITLDWGMTELLMNRKVLERAQAEVRGVVGERRVVLESDLPQLDYMKAVIKEIFRLHPPAPVLVPRESMEDVTIDGYDILAKTRIFVNAWAIGRDPESWEDPEAFEPERFIGSTIDFKGQDFELIPFGAGRRGCPAVTFGTATIELALAQLLHTFDWELPLDTAAKDLDMTEVFGITMHRIANLIVVARPRFP

Subcellular locations: Membrane Expressed in fruit kernel, seedlings, leaves and stems.

C7124_PRUMU

Prunus mume

MALLTLFNQIWQEGQLQSSTSSFNIFLVPILCLSIFILFSLTRSSSPSEKNRKLKLPPSPPRLPWIGNLHQLGSFPHRSLRALSKKYGDVMFMHFGKVPTLIVSSAEMAKDVMKTQDIVFCSRPQTTAPSILFYDGHDIAFAPYGEYWRQVRRICVLELLSLKRVHQFQYARVEEVAELVSKIRKASASANGAPINLGELLVSTSNNIICRCILGQKFEDKEDNWFGETTKELMTQVMSFSFGDFFPSLKWIDRARGYLAYLKSIWLEFDKFFDKLIDEHKAAQKEGKPRKKDIVDILLDVQNDGSLDFELTTSNVKAILQDMFVGGSDTSWTAAIWLMSELSQNPRVMKKVQEEVRRVAGKRGYVEESDINEMKYLTCVIKENLRLHPPAPLLLPREAMSDVKLGGFDIPAKTQVFVNAYAVQRDPKVWDKPDEFMPERFEENNVGFVGQDFELIPFGAGRRVCPGLAFGVASAQYVLANMLYWFDWKLPSGGSKLAETLDMSEVYGLTVHKKSPLYLVPTPYSP

Involved in L-phenylalanine-derived cyanogenic glycoside biosynthesis, including prunasin and amygdalin defensive agents . Catalyzes the conversion of phenylacetaldoxime (PAOx) and phenylacetonitrile (PAN) into mandelonitrile (MAN) . To a lower extent, can convert various aromatic aldoximes and nitriles; mediates the transformation of 4-hydroxyphenylacetaldoxime, 4-hydroxyphenylacetonitrile, indole-3-acetal-doxime and indole-3-acetonitrile into the corresponding hydroxynitriles, but cannot use the aliphatic compounds 2-methylpropanaloxime and 2-methylpropanenitrile as substrates . Subcellular locations: Membrane Expressed in seedlings and leaves.

C7150_PRUMU

Prunus mume

MVWIWATIGLLALVHILQAWWKNKKKRLPPGPRGFPIFGSLHLLGEFPNKDLHRLARKYGDIMYMRLGLMPTIVISSPEAAELFLKTHDLVFASRPPHEGSKHISFGQKNLIFSEYGAYWRDTRKMCTIELLSNHKINSFKSMRREEVSLCVESIRAAANNRGVAVDLSDKVSSLSVDMSCRMVLGKKYRDEEFDERGFKSVVREAIQLASAPNLGDYIRFIAPLDLQGFTKRMKSVNKAFDNLFEKIIEEHLQPNDGERTMDFVDVMVGFMGSEESEYRIERPHIKAIMLDMLVASMDTSATTIEWALSELMRHPKAMKKVQKELENVVGLDKMVEESDLEKLDYLNMVVKETFRLHPVAPLLIPHASIEDCTVNGYHIPKKSRVLINVWAIGRDPNAWTDAEKFIPERFEGSSVDVRGNHFQLIPFGSGRRRCPGIQLGLTVVQLVLAQLVHCFDWELPNNMLPEELDMTEEFGLTVPRAKHLLAIPSYRLRKSA

Subcellular locations: Membrane Expressed in fruit kernel, seedlings, leaves and stems.

CHS1_DAUCA

Daucus carota

MVTVNEFRKAQRAEGPATVLAIGTATPPNCVDQSAYADYYFRITNSEDKPELKEKFRRMCEKSMINTRYMHLTEDLLKQNPSFCEYMASSLDARQDIVVNEVPKLGKEAALRAIKEWGQPKSKITHLIFCTTSGVDMPGADFRLTKLLGLRPSVKRFMMYQQGCFAGGTVLRLAKDLAENNKNARVLVVCSEITVITFRGPNDTHLDSLVGQALFGDGAGAVIVGSDPVIGIEKPLFEIVSAAQTILPDSDGAIDGHLREVGLTFHLLKDVPGLISKNIRKSLVEAFKPLGISDWNSIFWIAHPGGPAILDQVETELSLKPEKLKSTRQVLRDYGNMSSACVLFILDEMRKASAKDGHRTTGEGLDWGVLFGFGPGLTVETVVLHSVPP

The primary product of this enzyme is 4,2',4',6'-tetrahydroxychalcone (also termed naringenin-chalcone or chalcone) which can under specific conditions spontaneously isomerize into naringenin.

CISY_DAUCA

Daucus carota

MVFFRSVSLLNKLRSRAVQQSNLSNTVRWFQVQTSASDLDLRSQLKELIPEQQERIKKLKAEHGKVQLGNITVDMVLGGMRGMTGLLWETSLLDPEEGIRFRGLSIPECQKLLPGAKPGGEPLPEGLLWLLLTGKVPTKEQVDALSAELRSRAAVPEHVYKTIDALPVTAHPMTQFATGVMALQVQSEFQKAYEKGIHKTKYWEPTYEDSITLIAQLPVVAAYIYRRMYKNGQSISTDDSLDYGANFAHMLGYDSPSMQELMRLYVTIHTDHEGGNVSAHTGHLVASALSDPYLSFAAALNGLAGPLHGLANQEVLLWIKSVVSECGENVTKEQLKDYIWKTLNSGKVVPGYGHGVLRNTDPRYICQREFALKHLPDDPLFQLVSNLFEVVPPILTELGKVKNPWPNVDAHSGVLLNHYGLTEARYYTVLFGVSRAIGICSQLVWDRALGLPLERPKSVTMEWLENHCKKSS

Subcellular locations: Mitochondrion matrix

CWP01_DAUCA

Daucus carota

GPLNAQHQS

Subcellular locations: Secreted, Cell wall

ECP40_DAUCA

Daucus carota

MADLRDEKGNPIQLTDQHGNPVQLTDEYGNPVHITGVATTGATTGHHDHGVGGASHGGVGSTGLGGVAGAAGLAGATAAAATHGGSHGGTGTHGVGPTGVGAAHGGTGTTTGLGTGTGTTGQTHGMGPTGIGGTHGVGSTGIGGAHGGTGVLGQTHGMGPTGTGAAHGGLGTGQSGLGSSYATHGGLGTGIGTGSAPASAGSHSHAPEKKTALGEQLHRSNSSSSSSEDDGQGGRRKKGFTTKIKEKLGGGKHKKDEHTTVATTKTTTAAHPGGAAVAVEHHEHEKKSMLDKIKDKLPGHHSPTSH

ECP44_DAUCA

Daucus carota

MASDDSVPQHSVEKTTEYESSDRGLFDFMKKEEKDETKVIATEFEEKVQVSEPEPKYEDCKVVEEEEEKAAKPSLLEKLHRSGSSSSSSSSDEEVEEGGEKKKKKEKKGLKEKIEEKIHHKEEDTSVPVEVVTEPEKKKGFMEKIKEKLPGGGKKVEEETVAPPPPPAAAPVDCAVEGDPAKKGILEKIKEKIPGYHPKTSTEEEKKDNDCASAKLIIRCLDRMFDYYYYASFSCGVGLILCFDPLLWGPLISFGTSG

Phosphorylation of ECCP44 protein is thought to be involved in the acquisition of embryogenic competence. Unlike other dehydrins, it is not thought to function as an environmental stress tolerant.

GRP1_DAUCA

Daucus carota

MAEVEYRCFVGGLAWATNDESLEQAFSQFGDITDSKIINDRETGRSRGFGFVTFKDEKSMRDAIEGMNGQELDGRNITVNEAQSRGSGGGGGRREGGGGGYGGGGGYGGRREGGGGGGYGGRREGGGGGYGGGGGGYGGRREGGDGGYGGGGGGSRW

May play a role in the biosynthesis and processing of heterogeneous nuclear RNA and in the maturation of specific mRNAs in response to wounding.

GUN2_PERAE

Persea americana

ASCGSTTVTAKNLISLAKKQVDYILGENPAKMSYMVGFGERYPQHVHHRGSSLPSVHAHPNPIPCNAGFQYLYSSSPNPNILVGAILGGPDSRDSFSDDRNNYQQSEPATYINAPLVGALAFFAANPVAN

Involved in ripening fruit process.

HPPD_DAUCA

Daucus carota

MGKKQSEAEILSSNSSNTSPATFKLVGFNNFVRANPKSDHFAVKRFHHIEFWCGDATNTSRRFSWGLGMPLVAKSDLSTGNSVHASYLVRSANLSFVFTAPYSPSTTTSSGSAAIPSFSASGFHSFAAKHGLAVRAIALEVADVAAAFEASVARGARPASAPVELDDQAWLAEVELYGDVVLRFVSFGREEGLFLPGFEAVEGTASFPDLDYGIRRLDHAVGNVTELGPVVEYIKGFTGFHEFAEFTAEDVGTLESGLNSVVLANNEEMVLLPLNEPVYGTKRKSQIQTYLEHNEGAGVQHLALVSEDIFRTLREMRKRSCLGGFEFMPSPPPTYYKNLKNRVGDVLSDEQIKECEDLGILVDRDDQGTLLQIFTKPVGDRPTLFIEIIQRVGCMLKDDAGQMYQKGGCGGFGKGNFSELFKSIEEYEKTLEAKQITGSAAA

Subcellular locations: Cytoplasm

METK_LITCN

Litchi chinensis

METFLFTSESVNEGHPDKLCDQVSDAVLDACLAQDPDSKVACETCTRTNMVMVFGEITTKANVDYEQIVRDTCRSIGFTSDDVGLDADNCKVLVNIEQQSPDIAQGVHGHLTKKPEEIGAGDQGHMFGYATDETPELMPLSHVLATKLGARLTEVRKNGTCAWLRPDGKTQVTVEYYNGNGAMVPVRVHTVLISTQHDETVTNDEIAADLKQHVIKPVIPEKYLDEKTIFHLNPSGRFVIGGPHGDAGLTGRKIIIDTYGGWGAHGGGAFSGKDPTKVDRSGAYIVRQAAKSIVASGLARRCIVQVSYAIGVPEPLSVFVDSYGTGKIPDREILKIVKENFDFRPGMISVNLDLKRGGNGRFLKTAAYGHFGREDPDFTWEVVKPLKWDKVQA

Catalyzes the formation of S-adenosylmethionine from methionine and ATP. The reaction comprises two steps that are both catalyzed by the same enzyme: formation of S-adenosylmethionine (AdoMet) and triphosphate, and subsequent hydrolysis of the triphosphate. Subcellular locations: Cytoplasm

NLTP2_PRUAR

Prunus armeniaca

VTCSPVQLSPCLGPINSGAPSPTTCCQKLREQRPCLCGYLKNPSLRQYVNSPNARKLASNCGVPVPQC

Plant non-specific lipid-transfer proteins transfer phospholipids as well as galactolipids across membranes. May play a role in wax or cutin deposition in the cell walls of expanding epidermal cells and certain secretory tissues (By similarity).

PER3_DAUCA

Daucus carota

CTMLNVLTGTQEGLR

Removal of H(2)O(2), oxidation of toxic reductants, biosynthesis and degradation of lignin, suberization, auxin catabolism, response to environmental stresses such as wounding, pathogen attack and oxidative stress. These functions might be dependent on each isozyme/isoform in each plant tissue.

PMGI_PRUDU

Prunus dulcis

LPTEDDMGNSEVGHNALGAGRIFAQGAKLVDSALETGKLYEGEGFKYIKESFPTNTLHLIGLLSDGGVHSRLDQLLLLVKGASERGAKRIRVHILTDGRDVLDGSSVGFAETLENYLAQLREKGVDAQIASGGGRMYVTMDRYENDWGVVKRGWDAQVLGEAPHKFKNAVEAIKTLRQEPNTSDQYLPPFVIVDENGKPVGPIVDGDAVVTFNFRADRMVMIAKALEYADFDKFDRVRFPKIRYAGMLQYDGELKLPSKYLVEPPEIDRTSGEYLTYNGVRTFACSETVKFGHVTFFWNGNRSGYFNPQMEEYVEIPSDSGITFNVQPKMKAVEIAEKGRGAILSKKFEQVRVNLPNSDMVGHTSSIEATVVACKAADEAVKIIIDAIEQVGGIYVVTADHGNAEDMVKRNKKGQPLLDKNGNIQILTSHTLQPVPIAIGGPGLAPGVQFRKDVPNGGLANVAATVMNLHGFEAPADYETTLIEVVDN

Catalyzes the interconversion of 2-phosphoglycerate and 3-phosphoglycerate. Subcellular locations: Cytoplasm

PNAA_PRUDU

Prunus dulcis

EPTPLHDTPPTVFFEVTKPIEVPKTKPCSQLILQHDFAYTYGQAPVFANYTPPSDCPSQTFSTIVLEWKATCRRRQFDRIFGVWLGGVEILRSCTAEPRPNGIVWTVEKDITRYYSLLKSNQTLAVYLGNLIDKTYTGIYHVNISLHFYPAKEKLNSFQQKLDNLASGYHSWADLILPISRNLPLNDGLWFEVQNSNDTELKEFKIPQNAYRAVLEVYVSFHENDEFWYSNLPNEYIAANNLSGTPGNGPFREVVVSLDGEVVGAVWPFTVIFTGGINPLLWRPITAIGSFDLPTYDIEITPFLGKILDGKSHKFGFNVTNALNVWYVDANLHLWLDKQSTKTEGKLSKHSSLPLVVSLVSDFKGLNGTFLTRTSRSVSSTGWVKSSYGNITTRSIQDFYYSNSMVLGKDGNMQIVNQKIIFNDSVYINLPSSYVHSLTSHKTFPLYLYTDFLGQGNGTYLLITNVDLGFIEKKSGLGFSNSSLRNLRSAEGNMVVKNNLVVSGLESTQQIYRYDGGKFCYFRNISSSNYTILYDKVGSKCNKKSLSNLDFVLSRLWPFGARMNFAGLRFT

PSAB_DAUCA

Daucus carota

MALRFPRFSQGLAQDPTTRRIWFGIATAHDFESHDDITEERLYQNIFASHFGQLAIIFLWTSGNLFHVAWQGNFESWVQDPLHVRPIAHAIWDPHFGQPAVEAFTRGGALGPVNIAYSGVYQWWYTIGLRTNEDLYTGALFLLFLSAISLIAGWLHLQPKWKPSVSWFKNAESRLNHHLSGLFGVSSLAWTGHLVHVAIPASRGEYVRWNNLLDVLPHPQGLGPLFTGQWNLYAQNPDSSSHLFGTSQGAGTAILTLLGGFHPQTQSLWLTDMAHHHLAIAFIFLVAGHMYRTNFGIGHSMKDLLDAHIPPGGRLGRGHKGLYDTINNSLHFQLGLALASLGVITSLVAQHMYSLPAYAFIAQDFTTQAALYTHHQYIAGFIMTGAFAHGAIFFIRDYSPEQNEDNVLARMLDHKEAIISHLSWASLFLGFHTLGLYVHNDVMLAFGTPEKQILIEPIFAQWIQSAHGKTSYGFDVLLSSTNGPAFNAGRSIWLPGWLNAVNETSNSLFLTIGPGDFLVHHAIALGLHTTTLILVKGALDARGSKLMPDKKDFGYSFPCDGPGRGGTCDISAWDAFYLAVFWMLNTIGWVTFYWHWKHITLWQGNVSQFNESSTYLMGWLRDYLWLNSSQLINGYNPFGMNSLSVWAWMFLFGHLVWATGFMFLISWRGYWQELIETLAWAHERTPLANLIRWRDKPVALSIVQARLVGLAHFSVGYIFTYAAFLIASTSGKFG

PsaA and PsaB bind P700, the primary electron donor of photosystem I (PSI), as well as the electron acceptors A0, A1 and FX. PSI is a plastocyanin-ferredoxin oxidoreductase, converting photonic excitation into a charge separation, which transfers an electron from the donor P700 chlorophyll pair to the spectroscopically characterized acceptors A0, A1, FX, FA and FB in turn. Oxidized P700 is reduced on the lumenal side of the thylakoid membrane by plastocyanin. Subcellular locations: Plastid, Chloroplast thylakoid membrane

PSBT_DAUCA

Daucus carota

MEALVYTFLLVSTLGIIFFAIFFREPPKVPTKK

Found at the monomer-monomer interface of the photosystem II (PS II) dimer, plays a role in assembly and dimerization of PSII. PSII is a light-driven water plastoquinone oxidoreductase, using light energy to abstract electrons from H(2)O, generating a proton gradient subsequently used for ATP formation. Subcellular locations: Plastid, Chloroplast thylakoid membrane

PSY_DAUCA

Daucus carota

MACNFAVRVIYYPKEIHGVSVLNTNRSRKSRFSCRVMKLSTGVSAVAANPVRTSEERVYEVVLKQAALVREEKRSSRGLCLDTKRTGSKSFDKSENDDAGMKSWNLLNEAYDRCGEVCAEYAKTFYLGTLLMTPERRRAVWAIYVWCRRTDELVDGPNASHITPKALDRWEKRLNDLFDGQPYDMYDAALADTVSTYPVDIQPFKDMIDGMRMDLKKSRYQTFDELYLYCYYVAGTVGLMSVPVMGIAPESKATTESVYSAALALGIANQLTNILRDVGEDARRGRIYLPQEELKLAGITPEYIFKGKVTDKWRSFMKGQIKRARMFFDEAEKGVAELSSASRWPVWASLLLYKQILDAIEANDYDNFTKRAYVGKAKKLVSLPLAYSRALFAPSTVR

Catalyzes the reaction from prephytoene diphosphate to phytoene. Subcellular locations: Plastid, Chloroplast

RAB7_PRUAR

Prunus armeniaca

MASRRRMLLKVIILGDSGVGKTSLMNQYVNRKFSNQYKATIGADFLTKEVQFEDRLFTLQIWDTAGQERFQSLGVAFYRGADCCVLVYDVNVMKSFENLNNWREEFLIQATPSDPENFPFVVLGNKIDVDGGNSRVVSEKKAKAWCASKGNIPYFETSAKEGFNVDDAFQCIAKNALNNEPEEEIYLPDTIDVAGGGRQQRSSGCEC

Protein transport. Probably involved in vesicular traffic (By similarity). Subcellular locations: Cell membrane

RK16_DAUCA

Daucus carota

MLSPKRTRFRKQHRGRMKGISYRGNHISFGKYALQALEPAWITSRQIEAGRRAMTRNARRGGKIWVRIFPDKPVTVRPAETRMGSGKGSPEYWVAVVKPGRILYEMGGVTENIARRAISIASSKMPIRTQFIISG

Subcellular locations: Plastid, Chloroplast

RK36_DAUCA

Daucus carota

MKIRASVRKICEKCRLIRRRGRIIVICSNPRHKQRQG

Subcellular locations: Plastid, Chloroplast

RR12_DAUCA

Daucus carota

MPTIKQLIRNTRQPIRNVTKSPALRGCPQRRGTCTRVYTITPKKPNSALRKVARVRLTSGFEITAYIPGIGHNSQEHSVVLVRGGRVKDLPGVRYHIVRGTLDAVGVKDRQQGRSKYGVKKPK

With S4 and S5 plays an important role in translational accuracy. Located at the interface of the 30S and 50S subunits (By similarity). Subcellular locations: Plastid, Chloroplast

RR19_MANES

Manihot esculenta

MTRSLKKNPFVANHLLKKINKLNNKAEKEIIVTWSRASTIIPTMIGHTIAIHNGKEHLPIYITDRMVGHKLGEFAPTLNFRGHAKNDNKSRR

Protein S19 forms a complex with S13 that binds strongly to the 16S ribosomal RNA. Subcellular locations: Plastid, Chloroplast

RR8_DAUCA

Daucus carota

MGRDIIADIITSIRNADMDRKRAVRIASTNITENIVKILLREGFIENVRKHKETKKDFLVLTLRHRRNRKRSYRNFLNLKRISRPGLRIYSNYQRIPRILGGMGIVIISTSRGIMTDREARLERIGGEVLCYIW

One of the primary rRNA binding proteins, it binds directly to 16S rRNA central domain where it helps coordinate assembly of the platform of the 30S subunit. Subcellular locations: Plastid, Chloroplast

UFOG1_MANES

Manihot esculenta

MGHLVSAVETAKLLLSRCHSLSITVLIFNNSVVTSKVHNYVDSQIASSSNRLRFIYLPRDETGISSFSSLIEKQKPHVKESVMKITEFGSSVESPRLVGFIVDMFCTAMIDVANEFGVPSYIFYTSGAAFLNFMLHVQKIHDEENFNPTEFNASDGELQVPGLVNSFPSKAMPTAILSKQWFPPLLENTRRYGEAKGVIINTFFELESHAIESFKDPPIYPVGPILDVRSNGRNTNQEIMQWLDDQPPSSVVFLCFGSNGSFSKDQVKEIACALEDSGHRFLWSLADHRAPGFLESPSDYEDLQEVLPEGFLERTSGIEKVIGWAPQVAVLAHPATGGLVSHSGWNSILESIWFGVPVATWPMYAEQQFNAFQMVIELGLAVEIKMDYRNDSGEIVKCDQIERGIRCLMKHDSDRRKKVKEMSEKSRGALMEGGSSYCWLDNLIKDMIK

In the presence of other necessary color factors, this glycosylation reaction allows the accumulation of anthocyanin pigments. Expressed in cotyledons and roots, but not in leaves.

UFOG2_MANES

Manihot esculenta

FCTPMMDLADEFGIPSYIFFASGGGFLGFMLYVQKIHDEENFNPIEFKDSDTELIVPSLVNPFPTRILPSSILNKERFGQLLAIAKKFRQAKGIIVNTFLELESRAIESFKVPPLYHVGPILDVKSDGRNTHPEIMQWLDDQPEGSVVFLCFGSMGSFSEDQLKEIAYALENSGHRFLWSIRRPPPPDKIASPTDYEDPRDVLPEGFLERTVAVGKVIGWAPQVAVLAHPAIGGFVSHCGWNSVLESLWFGVPIATWPMYAEQQFNAFEMVVELGLGVEIDMGYRKESGIIVNSDKIERAIRKLMENSDEKRKKVKEMREKSKMALIDGGSSFISLGDFIKDAMEG

In the presence of other necessary color factors, this glycosylation reaction allows the accumulation of anthocyanin pigments. Expressed in cotyledons, roots and leaves.

UFOG4_MANES

Manihot esculenta

CNKLKLDKAERGDKASVDNTELLKWLDLWEPGSVIYACLGSISGLTSWQLAELGLGLESTNQPFIWVIREGEKSEGLEKWILEEGYEERKRKREDFWIRGWSPQVLILSHPAIGAFFTHCGWNSTLEGISAGVPIVACPLFAEQFYNEKLVVEVLGIGVSVGVEAAVTWGLEDKCGAVMKKEQVKKAIEIVMDKGKEGEERRRRAREIGEMAKRTIEEGGSSYLDMEMLIQYVSERSPSRA

In the presence of other necessary color factors, this glycosylation reaction allows the accumulation of anthocyanin pigments. Faintly expressed in cotyledons, roots and leaves.

UFOG5_MANES

Manihot esculenta

MGSTDLNSKPHIVLLSSPGLGHLIPVLELGKRIVTLCNFDVTIFMVGSDTSAAEPQVLRSAMTPKLCEIIQLPPPNISCLIDPEATVCTRLFVLMREIRPAFRAAVSALKFRPAAIIVDLFGTESLEVAKELGIAKYVYIASNAWFLALTIYVPILDKEVEGEFVLQKEPMKIPGCRPVRTEEVVDPMLDRTNQQYSEYFRLGIEIPTADGILMNTWEALEPTTFGALRDVKFLGRVAKVPVFPIGPLRRQAGPCGSNCELLDWLDQQPKESVVYVSFGSGGTLSLEQMIELAWGLERSQQRFIWVVRQPTVKTGDAAFFTQGDGADDMSGYFPEGFLTRIQNVGLVVPQWSPQIHIMSHPSVGVFLSHCGWNSVLESITAGVPIIAWPIYAEQRMNATLLTEELGVAVRPKNLPAKEVVKREEIERMIRRIMVDEEGSEIRKRVRELKDSGEKALNEGGSSFNYMSALGNEWEKSWKTQRSERSLW

In the presence of other necessary color factors, this glycosylation reaction allows the accumulation of anthocyanin pigments. Faintly expressed in cotyledons.

UFOG6_MANES

Manihot esculenta

DDFKDLGFIDKQKAHVKEAVSKLTARSDSSLAGFVLDMFCTSMIDVAKELGVPYYIFFTSGAAFLGFLFYVQLIHDEQDADLTQFKDSDAELSVPSLANSLPARVLPASMLVKDRFYAFIRIIRGLREAKGIMVNTFMELESHALNSLKDDQSKIPPIYPVGPILKLSNQENDVGPEGSEIIEWLDDQPPSSVVFLCFGSMGGFDMDQAKEIACALEQSRHRFLWSLRRPPPKGKIETSTDYENLQEILPVGFSERTAGMGKVVGWAPQVAILEHPAIGGFVSHCGWNSILESIWFSVPIATWPLYAEQQFNAFTMVTELGLAVEIKMDYKKESEIILSADDIERGIKCVMEHHSEIRKRVKEMSDKSRKALMDDESSSFWLDRLIEDVINNLS

In the presence of other necessary color factors, this glycosylation reaction allows the accumulation of anthocyanin pigments (By similarity). May be involved in glycosylation of unstable cyanohydrins to produce stable cyanoglucosides. Expressed in cotyledons and leaves.

UFOG7_MANES

Manihot esculenta

TLNLIPGMSKIQIRDLPEGVLFGNLESLFSQMLHNMGRMLPRAAAVLMNSFEELDPTIVSDLNSKFNNILCIGPFNLVSPPPPVPDTYGCMAWLDKQKPASVAYISFGSVATPPPHELVALAEALEASKVPFLWSLKDHSKVHLPNGFLDRTKSHGIVLSWAPQVEILEHAALGVFVTHCGWNSILESIVGGVPMICRPFFGDQRLNGRMVEDVWEIGLLMDGGVLTKNGAIDGLNQILLQGKGKKMRENIKRLKELAKGATEPKGSSSKSFTELANLVRSRGSYEN

In the presence of other necessary color factors, this glycosylation reaction allows the accumulation of anthocyanin pigments. Expressed in cotyledons, hypocotyls, roots and leaves.

ABA2_PRUAR

Prunus armeniaca

MASTLFYNSMNLSAAVFSRTHFPIPINKDFPLEFSPCIHTDYHLRSRTRSGQKKCLTEVRATVASPTEVPSAPASTQPKKLRILVAGGGIGGLVFALAAKKKGFDVVVFEKDLSAVRGEGQYRGPIQIQSNALAALEAIDMDVAEEVMRVGCVTGDRINGLVDGVSGTWYVKFDTFTPAVERGLPVTRVISRIALQQILARAVGEEIIINDSNVVNFEDLGDKVNVILENGQRYEGDMLVGADGIWSKVRKNLFGLNEAVYSGYTCYTGIADFVPADINSVGYRVFLGHKQYFVSSDVGGGKMQWYAFHKESPGGVDSPNGKKERLLKIFEGWCDNVIDLLLATEEDAILRRDIYDRTPILTWGKGHVTLLGDSVHAMQPNMGQGGCMAIEDGYQLALELDKAWKKSSETGTPVDVASSLRSYENSRRLRVAIIHGMARMAALMASTYKAYLGVGLGPLSFLTKFRIPHPGRVGGRVFIDKAMPLMLSWVLGGNSSKLEGRSPSCRLSDKASDQLRNWFEDDDALERAIDGEWYLIPCGQDNDASQLICLNRDEKNPCIIGSAPHGDVSGISIAIPKPQVSEMHARISYKDGAFYLTDLRSEHGTWIADIEGKRYRVPPNFPARFRPSDAIEIGSQKVAFRVKVMKSSPGSVEKEGILQAA

Converts zeaxanthin into antheraxanthin and subsequently violaxanthin. Involved in the epoxidation of zeaxanthin. Subcellular locations: Plastid, Chloroplast

AKH_DAUCA

Daucus carota

SLSSAISPSSYAAIAAAYSARTPIFNKKKTAAVLSPLSLFHQSPSLSKTGIFLHRGRKESSSKFYIAASVTTAVPSLDDSVEKVHLPRGAMWSIHKFGGTCVGSSERIRNVAEIVVEDDSERKLVVVSAMSKVTDMMYDLIYKAQSRDDSYESALDAVMEKHKLTAFDLLDEDDLARFLTRLQHDVITLKAMLRAIYIAGHATESFSDFVVGHGELWSAQLLSFVIRKNGGDCNWMDTRDVLVVNPAGSNQVDPDYLESEKRLEKWFSSNQCQTIVATGFIASTPQNIPTTLKRDGSDFSAAIMGALLRAGQVTIWTDVNGVYSADPRKVSEAVVLKTLSYQEAWEMSYFGANVLHPRTINPVMRYDIPIVIRNIFNLSAPGTMICRESVGETEDGLKLESHVKGFATIDNLALINVEGTGMAGVPGTATAIFGAVKDVGANVIMISQASSEHSICFAVPESEVKAVAKALEARFRQALDAGRLSQVANNPNCSILATVGQKMASTPGVSATLFNALAKANINVRAIAQGCTEYNITVVLSREDCVRALKAVHSRFYLSRTTIAVGIVGPGLIGATLLDQLRDQAAILKENSKIDLRVMGITGSRTMLLSETGIDLSRWREVQKEKGQTAGLEKFVQHVRGNHFIPSTVIVDCTADSEVASHYHDWLCRGIHVITPNKKANSGPLDQYLKLRALQRRSYTHYFYEATVVAGLPIITTLQGLLETGDKILRIEGIFSGTLSYIFNNFKSTTPFSEVVSEAKAAGYTEPDPRDDLAGTDVARKVIILARGSGLKLELSDIPVQSLVPEPLRGIASAEEFLLQLPQFDSDMTRKREDAENAGEVLRYVGVVDAVNQKGVVELKRYKKEHPFAQLSGSDNINAFTTERYNKQPPIIRGPGAGAEVTAGGVFSDILRLASYLGAPS

Subcellular locations: Plastid, Chloroplast

ATPF_MANES

Manihot esculenta

MKNITDSFVSLGHWPSAGSFGFNTDILATNLINLSVVLGVLIFFGKGVLSDLLDNRKQRILDTIRNSEKLREGAIEQLEKARARLRKVEIEADQFRTNGYSEIEREKLNLINSTYKTLEQLENYKNETIHFEQQRTINQVRQRVFQQALQGALGTLNSCLTNELHLRTINANLGMFGAIKEITD

F(1)F(0) ATP synthase produces ATP from ADP in the presence of a proton or sodium gradient. F-type ATPases consist of two structural domains, F(1) containing the extramembraneous catalytic core and F(0) containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. During catalysis, ATP synthesis in the catalytic domain of F(1) is coupled via a rotary mechanism of the central stalk subunits to proton translocation. Component of the F(0) channel, it forms part of the peripheral stalk, linking F(1) to F(0). Subcellular locations: Plastid, Chloroplast thylakoid membrane

CALM1_DAUCA

Daucus carota

MADQLTDDQISEFKEAFSLFDKDGDGCITTKELGTVMRSLGQNPTEAELQDMINEVDADGNGTIDFPEFLNLMARKMKDTDSEEELKEAFRVFDKDQNGFISAAELRHVMTNLGEKLTDEEVDEMIREADVDGDGQINYEEFVKVMMAK

Calmodulin mediates the control of a large number of enzymes, ion channels and other proteins by Ca(2+). Among the enzymes to be stimulated by the calmodulin-Ca(2+) complex are a number of protein kinases and phosphatases.

CEMA_MANES

Manihot esculenta

MKKWKKKTFIPLLYLTSIVFLPWWVSFLFNKSLESWIINCCNTSKSETFLNDIQEKSILEKFMELEDLVRLNEIIKEYPETHLQKFRIGIHKETIQLIKMHNEDRIHTILHFSTNIICFIILSGYSILSNEELIILNSWVQEFLYNLSDTIKAFSILLLTDLCIGFHSPHGWELMIGSVYKDFGFAHNDQIISGLVSTFPVILDTIFKYWIFRYLNRVSPSLVVIYHSMND

Contributes to K(+)/H(+) antiport activity by supporting proton efflux to control proton extrusion and homeostasis in chloroplasts in a light-dependent manner to modulate photosynthesis. Prevents excessive induction of non-photochemical quenching (NPQ) under continuous-light conditions. Indirectly promotes efficient inorganic carbon uptake into chloroplasts. Subcellular locations: Plastid, Chloroplast inner membrane

CHIT_PERAE

Persea americana

MVYCTASLPLLLLLLVGLLAGEAFAEQCGRQAGGALCPGGLCCSQFGWCGSTSDYCGPTCQSQCGGVTPSPGGGVASLISQSVFNQMLKHRNDAACQAKGFYTYNAFIAAANSFNGFASVGDTATRKREIAAFLAQTSHETTGGWATAPDGPYAWGYCFLKEQGNPPDYCVPTAQWPCAPGKKYYGRGPIQISYNYNYGPAGRAIGYDLINNPDAVATDPVISFKTALWFWMTPQSPKPSCHNVITGRWTPSAADRAAGRLPGYGVITNIINGGIECGKGFNDKVADRIGFYKRYCDLLGVSYGSNLDCYNQRSFGVSTNPLAASS

Defense against chitin-containing fungal pathogens. Has in vitro antifungal activity against F.oxysporum inhibiting its growth and the branching of its hyphae. Has endochitinase activity, but no exochitinase or lysozyme activities. Expressed in the pulp of the fruit (at protein level) ( ). Expressed in mesocarp (at protein level) .

CHS9_DAUCA

Daucus carota

MVTVNEFRKAQRAEGPATVLAIGTATPPNCVDQSAYADYYFRITNSEDKPELKEKFRRMCEKSMINTRYMHLTEDLLKQNPSFCEYMASSLDARQDIVVNEVPKLGKEAALRAIKEWGRPKSKITHLIFCTTSGVDMPGADFRLTKLLGLRPSVKRFMMYQQGCFAGGTVLRLAKDLAENNKNARVLVVCSEITVITFRGPNDTHLDSLVGQALFGDGAGAVIVGSDPVIGIEKPLFEIVSAAQTILPDSDGAIDGHLREVGLTFHLLKDVPGLISKNIRKSLVEAFKPLGISDWNSIFWIAHPGGPAILDQVETELSLKPDKLKSTRQVLRDYGNMSSACVLFILDEMRNASAKDGHRTTGEGLDWGVLFGFGPGLTVETVVLHSVPT

The primary product of this enzyme is 4,2',4',6'-tetrahydroxychalcone (also termed naringenin-chalcone or chalcone) which can under specific conditions spontaneously isomerize into naringenin.

CWP07_DAUCA

Daucus carota

AHSDAVTPLPARSKV

Subcellular locations: Secreted, Cell wall

CWP08_DAUCA

Daucus carota

SQEDTPL

Subcellular locations: Secreted, Cell wall

CWP09_DAUCA

Daucus carota

ATNPSGQ

Subcellular locations: Secreted, Cell wall

CYB6_DAUCA

Daucus carota

MSKVYDWFEERLEIQAIADDITSKYVPPHVNIFYCLGGITLTCFLVQVATGFAMTFYYRPTVTDAFASVQYIMTEANFGWLIRSVHRWSASMMVLMMILHVFRVYLTGGFKKPRELTWVTGVVLAVLTASFGVTGYSLPRDQIGYWAVKIVTGVPEAIPVIGSPLVELLRGSASVGQSTLTRFYSLHTFVLPLLTAVFMLMHFPMIRKQGISGPL

Component of the cytochrome b6-f complex, which mediates electron transfer between photosystem II (PSII) and photosystem I (PSI), cyclic electron flow around PSI, and state transitions. Subcellular locations: Plastid, Chloroplast thylakoid membrane

DCAM_DAUCA

Daucus carota

MSSEVSAIGFEGFEKRLEISFFEPSFFADPEGKGLRVLSKNQLDEFLGPAECTIVASLSNEHVDSYVLSESSLFVYAYKIIIKTCGTTKLLKSIPPILKLADSLSLTVRSVRYTRGCFIFPGAQSYPHRSFSEEVSVLDNYFGKLGSGSKAYIMGGSDKQQKWHVYSACAASTRTLDPVYTMEMCMTSLNRDKASVFYKTNSSSATSVTDNSGLRDILPNSRICDFEFDPCGYSMNAVEGPAVSTIHITPEDGFSYSSFEAVGYDPKSVNLSDLVARVLNCFQPGEFSIALQADIASELLEKTSSVHVKGYRVEEKTCEELGMDGSIVYQKFVKTTERCESPRSVLKCCWKEEEKEEKEYQ

EF1G_PRUAV

Prunus avium

MALVLHAGKTNKNAFKTLIVAEYTGVKVELAPDFEMGVTNKTPEYLKLNPIGKVPLLETPDGPIFESNAIARYVARLKADNPLIGSSLIDYAHIEQWIDFGSLEIDANIISWFRPRFGYAVYLPPAEEAAISALKRALGALNTHLASNTYLVGHFVTLADIIVTCNLFFGFTKLMIKSFTSEFPHVERYFWTLVNQPKFKKVLGDVKQTESVPPVPSAKKPSQPKETKSKAKEEPKKEAKKEPAKPKAEAAEEVEEAPKPKPKNPLDLLPPSNMVLDDWKRLYSNTKTNFREVAIKGFWDMYDPEGYSLWFCEYKYNDENTVSFVTLNKVGGFLQRMDLARKYAFGKMLVIGSEPPFKVKGLWLFRGQEIPPFVMEECYDMELYNWTKVDLSDENQKERVNQVIEDQEPFEGEALLDAKCFK

Probably plays a role in anchoring the complex to other cellular components.

GRP3_DAUCA

Daucus carota

MGGGDGHNDQDKGLFSNLAGGLAGGGHYPPGQYPPAAGGYPPQGYPPAGGGYPPQGYPPAGGGYPPQGYPPAGGGYPPQGYPPAGHHSGSSAPHHSGHGGVAGMVAGGRAAAAAAYGVHHMTQGHGSHGGHGGYAHGAMGMMPGMGAMAMASSSTVSTVMESLSRESTGRARSTDTRSGSNLSFSISSRTFWATK

HNL_MANES

Manihot esculenta

MVTAHFVLIHTICHGAWIWHKLKPALERAGHKVTALDMAASGIDPRQIEQINSFDEYSEPLLTFLEKLPQGEKVIIVGESCAGLNIAIAADRYVDKIAAGVFHNSLLPDTVHSPSYTVEKLLESFPDWRDTEYFTFTNITGETITTMKLGFVLLRENLFTKCTDGEYELAKMVMRKGSLFQNVLAQRPKFTEKGYGSIKKVYIWTDQDKIFLPDFQRWQIANYKPDKVYQVQGGDHKLQLTKTEEVAHILQEVADAYA

Involved in cyanogenesis, the release of HCN from cyanogenic glycosides in injured tissues; the release of toxic HCN is believed to play a central role in the defense mechanism of plants against herbivores and microbial attack (Probable). Decomposes a variety of cyanohydrins (alpha-hydroxynitriles) into HCN and the corresponding aldehydes or ketones; two natural substrates are 2-hydroxy-2-methylpropanenitrile (acetone cyanohydrin) and 2-hydroxy-2-methylbutanenitrile (2-butanone cyanohydrin), but in vitro can also act on 2-hydroxy-2-methylpentanenitrile (2-pentanone cyanohydrin) and mandelonitrile ( , ). Is also able to catalyze the reverse reaction in vitro, leading to the stereospecific synthesis of aliphatic, aromatic, and heterocyclic cyanohydrins, important intermediates in the production of various agrochemicals or pharmaceuticals (Ref.2).

IFI4E_PRUDO

Prunus domestica

MATEVAAAVPPPQLDAEENSGLEAAAAEAKIQPSSGPHKLERKWTFWFDNQSKPKQGAAWGSSLRKAYTFETVQEFWCLYDQVFKPSKFPPNADFHLFRAGVEPKWEDPECANGGKWTVTSRSKASLDTMWLETLMALIGEQFDEADEICGVVASVRQRQDKLALWTRNAANEAAQMGIGRKWKEIIDVTDKITYSFHDDSKRERSAKPRYNV

Component of the protein complex eIF4F, which is involved in the recognition of the mRNA cap, ATP-dependent unwinding of 5'-terminal secondary structure and recruitment of mRNA to the ribosome (By similarity). Recognizes and binds the 7-methylguanosine-containing mRNA cap during an early step in the initiation of protein synthesis and facilitates ribosome binding by inducing the unwinding of the mRNAs secondary structures (By similarity). Key component of recessive resistance to potyviruses such as the plum pox virus (PPV) strain D . (Microbial infection) Susceptibility host factor required for viral infection by recruiting viral RNAs to the host ribosomal complex via an interaction with viral genome-linked protein (VPg). Subcellular locations: Cytoplasm, Nucleus (Microbial infection) Binds to potyvirus viral genome-linked protein (VPg) in cytoplasm and nucleus. Mostly expressed in leaves, flower buds, leaf buds and anthers, to a lower extent in roots, stems and green immature fruit, and, at low levels, in petals.

LE14B_PRUAR

Prunus armeniaca

MSYRTRFGKDNSACDSGNAVEGSGSSKGPNEVSNDFDHEIAQLTKHRSRPHQLLSQDMPGKSRLLVSTMKMLVGRESNHSGRGRFSSADGCHVLSRYLPINGPWGVDQSTSPAYVSQFSNDGLFFVAGFQGGHIRIYNVDKGWKVQKDILTKSLRWTITDTSLSPDQRYLVYASMTPIVNIVNVGSSMTESLANVTEIHEGLDFSVGGDEDEFGIFSVRFSTDGRELVAASRDASIYVYDLQANKVNLRIPAHSSDVNTVCFADETGHLIYSGSDDNLCKVWDRRCFNHKGQPAGVLMGHLEGVTFIDSRGDGRYFISNGKDQTTQLWDIRKMSSRAMYSPRLRDHDWDYRWMEYPAHAKTLKHPNDQSLATYRGHGVLRTLIRCYLSPAYSTGQKYIYTGSSDHCVYIYDLVTGAQVARLNHHEGPVRDCSWHPLYPMLVSSSWDGTIARWEFPGDDQVPTLERPRARRKERLL

MATK_PERAE

Persea americana

MEELQGYLEMDGFRQQYFLYPFLFQEYIYALAHGHALNGSILYEPVENLDHDNKSSSLIVKRLITRMHQQNRLIISVNDSNQNRFVGHNNHFDSQMISEGFAVVVEIPFSLRLVSSLEEKEIAKSHNLRSIHSIFPFFEDKLSHLNHVSDILIPHPIHLEILVQTLHSWIQDTPSLHLLRLSLYEYWNSNSLITSKNSISLFSKENQRFFLFLSNSHVYECEFIFIFLRKQPFHLRSKSFGSFLERTHFYAKIEYLVVVLCNDFQKTLGLFKDPFMHYVRYQGKSILASRGAHLLIKKWKSHLVNFWQCHFDLWSQPARIHIKQLYNHPFYFLGYLSSVRLNSSVIRSQMLENSFRIDTAIKKFETVVPIIPLIGSLAKAKFCNVSGHPISKPFRADLSDSEILNRFGRICRNLSHYHSGSSKKQSLYRIKYILRLSCARTLSRKHKSTIRAFLKRLGSEFLEEFFTEEEQALSLIFPTTSSPSHRSHRERIWYLDIIRINDLVSHL

Usually encoded in the trnK tRNA gene intron. Probably assists in splicing its own and other chloroplast group II introns. Subcellular locations: Plastid, Chloroplast

MDL1_PRUDU

Prunus dulcis

MEKSTMSVILFVLHLLVLHLQYSEVHSLANTSAHDFSYLKFVYNATDTSLEGSYDYIVIGGGTSGCPLAATLSEKYKVLLLERGTIATEYPNTLTADGFAYNLQQQDDGKTPVERFVSEDGIDNVRARILGGTTIINAGVYARANISFYSQTGIEWDLDLVNKTYEWVEDAIVVKPNNQSWQSVIGEGFLEAGILPDNGFSLDHEAGTRLTGSTFDNNGTRHAADELLNKGDPNNLLVAVQASVEKILFSSNTSNLSAIGVIYTDSDGNSHQAFVRGNGEVIVSAGTIGTPQLLLLSGVGPESYLSSLNITVVQPNPYVGQFLYNNPRNFINNFPPNPIEASVVTVLGIRSDYYQVSLSSLPFSTPPFSLFPTTSYPLPNSTFAHIVSQVPGPLSHGSVTLNSSSDVRIAPNIKFNYYSNSTDLANCVSGMKKLGDLLRTKALEPYKARDVLGIDGFNYLGVPLPENQTDDASFETFCLDNVASYWHYHGGSLVGKVLDDSFRVMGIKALRVVDASTFPYEPNSHPQGFYLMLGRYVGLQILQERSIRLEAIHNIQESM

Involved in cyanogenesis, the release of HCN from injured tissues. Catalyzes the stereospecific addition of HCN to a variety of aldehydes in vitro. It is a major seed constituent, and could have the additional role of a storage form for reduced nitrogen (By similarity).

MDL1_PRUSE

Prunus serotina

MEKSTMSAILLVLHLFVLLLQYSEVHSLATTSNHDFSYLRFAYDATDLELEGSYDYVIVGGGTSGCPLAATLSEKYKVLVLERGSLPTAYPNVLTADGFVYNLQQEDDGKTPVERFVSEDGIDNVRGRVLGGTSMINAGVYARANTSIYSASGVDWDMDLVNKTYEWVEDTIVFKPNYQPWQSVTGTAFLEAGVDPNHGFSLDHEAGTRITGSTFDNKGTRHAADELLNKGNSNNLRVGVHASVEKIIFSNAPGLTATGVIYRDSNGTPHRAFVRSKGEVIVSAGTIGTPQLLLLSGVGPESYLSSLNIPVVLSHPYVGQFLHDNPRNFINILPPNPIEPTIVTVLGISNDFYQCSFSSLPFTTPPFSFFPSTSYPLPNSTFAHFASKVAGPLSYGSLTLKSSSNVRVSPNVKFNYYSNPTDLSHCVSGMKKIGELLSTDALKPYKVEDLPGIEGFNILGIPLPKDQTDDAAFETFCRESVASYWHYHGGCLVGKVLDGDFRVTGIDALRVVDGSTFPYTPASHPQGFYLMLGRYVGIKILQERSASDLKILDSLKSAASLVL

Involved in cyanogenesis, the release of HCN from injured tissues. Catalyzes the stereospecific addition of HCN to a variety of aldehydes in vitro. It is a major seed constituent, and could have the additional role of a storage form for reduced nitrogen. Subcellular locations: Vacuole, Aleurone grain Primarily found within protein bodies of the cotyledonary parenchyma cells, with lesser amounts within the procambium. Seeds. Localized within cotyledonary parenchyma cells.

NLTP_PRUAV

Prunus avium

MACSAMTKLALVVALCMVVSVPIAQALTCGQVSSNLAPCIAYVRGGGAVPPACCNGIRNINNLAKTTADRQTACNCLKQLSASVPGVNANNAAALPGKCGVNVPYKISPSTNCATVK

Plant non-specific lipid-transfer proteins transfer phospholipids as well as galactolipids across membranes. May play a role in wax or cutin deposition in the cell walls of expanding epidermal cells and certain secretory tissues (By similarity).

NU1C_DAUCA

Daucus carota

MIIDTTEVQAINSFFRLESLKEVYDIIWMLVPILTLVLGITIGVLVIVWLEREISAGIQQRIGPEYAGPLGILQALADGTKLLFKENLLPSRGDTRLFSIGPSIAVTSILLSYLVIPFGYRLVLADVSIGVFLWIAISSIAPVGLLMSGYGSNNKYSFLGGLRAAAQSISYEIPLTLCVLSISLLSNSSSTVDIVEAQSKYGFWGWNLWRQPIGFIVFLISSLAECERLPFDLPEAEEELVAGYQTEYSGIKFGLFYVASYLNLLVSSLFVTVLYLGGWNLSLPHIALPFFFEINKAGRVFGTIIGIFITLAKTYLFLFIAITTRWTLPRLRMDQLLNLGWKFLLPISLGNLLLTTSSQLLSL

NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient. Subcellular locations: Plastid, Chloroplast thylakoid membrane

PER2_DAUCA

Daucus carota

SPPFTSDQDLYTDSR

Removal of H(2)O(2), oxidation of toxic reductants, biosynthesis and degradation of lignin, suberization, auxin catabolism, response to environmental stresses such as wounding, pathogen attack and oxidative stress. These functions might be dependent on each isozyme/isoform in each plant tissue.

PETD_DAUCA

Daucus carota

MGVTKKPDLNDPVLRAKLAKGMGHNYYGEPAWPNDLLYIFPVVILGTIACNVGLAVLEPSMIGEPADPFATPLEILPEWYFFPVFQILRTVPNKLLGVLLMVSVPVGLLTVPFLENVNKFQNPFRRPVATTVFLIGTAVALWLGIGATLPIDKSLTLGLF

Component of the cytochrome b6-f complex, which mediates electron transfer between photosystem II (PSII) and photosystem I (PSI), cyclic electron flow around PSI, and state transitions. Subcellular locations: Plastid, Chloroplast thylakoid membrane

PETG_MANES

Manihot esculenta

MIEVFLFGIVLGLIPITLAGLFVTAYLQYRRGDQLDL

Component of the cytochrome b6-f complex, which mediates electron transfer between photosystem II (PSII) and photosystem I (PSI), cyclic electron flow around PSI, and state transitions. PetG is required for either the stability or assembly of the cytochrome b6-f complex. Subcellular locations: Plastid, Chloroplast thylakoid membrane

PH1_PRUSE

Prunus serotina

TYPPVVXATLXRTH

PH2_PRUSE

Prunus serotina

AGTYPPVVXATLXRTH

PR4_PRUPE

Prunus persica

QNINWDLRTASVFCATWDADKPLSWRSKYGWTAFCGPVGPTGQDSCGKCLLVTNTGTGAKVTVRIVDQCSNGGLDLDVNVFNQIDTNGQGNAQGHLIVNYDFVDCGD

May be involved in protecting plant tissues from pathogen infection. Subcellular locations: Secreted, Cell wall Preferentially expressed in the tissue surrounding the abscission zone of fruitlets.

PROF_DAUCA

Daucus carota

MSWQTYVDDHLMCEVDGNPGQQLSAAAIIGHDGSVWAQSSTFPKFKPEEITGIMKNFDEPGHLAPTGLYLGGTKYMVIQGEPIAVIRGKKGSGGVTIKKTGQALVFGVYDEPVTPGQCNLIVERLGDYLIEQGL

Binds to actin and affects the structure of the cytoskeleton. At high concentrations, profilin prevents the polymerization of actin, whereas it enhances it at low concentrations. By binding to PIP2, it inhibits the formation of IP3 and DG (By similarity). Subcellular locations: Cytoplasm, Cytoskeleton

PRP33_DAUCA

Daucus carota

AILGVAIFAAPSLADFHSHPPIHKPPVYTPPVHKPPIHKPPVYTPPVHKPPVYTPPVHKPPSEYKPPVEATNSVTEDHYPIHKPPVYKPPVQKPAPEHKPPVHKPPIHKPPVHNTPSVTDDHYPAHPIHKPQPIHRPPVHKPPTEHKPPVHEPATEHKPSPVYQPPKTEKPVPEHKPPHLPPIVVRPPPTHKPNPPYGHHPRHPPVENTGN

Subcellular locations: Secreted, Cell wall

PSBF_DAUCA

Daucus carota

MTIDRTYPIFTVRWLAVHGLAVPTVSFLGSISAMQFIQR

This b-type cytochrome is tightly associated with the reaction center of photosystem II (PSII). PSII is a light-driven water:plastoquinone oxidoreductase that uses light energy to abstract electrons from H(2)O, generating O(2) and a proton gradient subsequently used for ATP formation. It consists of a core antenna complex that captures photons, and an electron transfer chain that converts photonic excitation into a charge separation. Subcellular locations: Plastid, Chloroplast thylakoid membrane

PSBL_MANES

Manihot esculenta

MTQSNPNEQNVELNRTSLYWGLLLIFVLAVLFSNYFFN

One of the components of the core complex of photosystem II (PSII). PSII is a light-driven water:plastoquinone oxidoreductase that uses light energy to abstract electrons from H(2)O, generating O(2) and a proton gradient subsequently used for ATP formation. It consists of a core antenna complex that captures photons, and an electron transfer chain that converts photonic excitation into a charge separation. This subunit is found at the monomer-monomer interface and is required for correct PSII assembly and/or dimerization. Subcellular locations: Plastid, Chloroplast thylakoid membrane

RK14_MANES

Manihot esculenta

MIQSQTHLNVADNSGARELMCIRIIGTSNRRYAHIGDVIVAVIKEAAPNSPLERSEVIRAVIVRTCKELKRDNGMIIRYDDNAAVVIDQEGNPKGTRIFGAIARELRQLNFTKIVSLAPEVL

Binds to 23S rRNA. Subcellular locations: Plastid, Chloroplast

RK23_PRUPE

Prunus persica

MDGIKYAVFTDKSIRLLGKNQYTSNVESGSTRTEIKHWFELFFGVKVIAMNSHRLPGRGRRMGPIMGHTMHYRRMIITLQPGYSIPPLRKKRT

Binds to 23S rRNA. Subcellular locations: Plastid, Chloroplast

RK33_MANES

Manihot esculenta

MAKGKDIRIRVILECTTCTRNSVNKKSTGISRYITQKNRHNTPSRLELRKFCRYCYKHTIHGEIKK

Subcellular locations: Plastid, Chloroplast

RR16_DAUCA

Daucus carota

MVKLRLKRCGRKQRAVYRIVAIDVRSRREGRDLRNVGFYDPIKNQSYLNVPAILYFLEKGAQPTGTVRDLLKKAEVFK

Subcellular locations: Plastid, Chloroplast

RT13_DAUCA

Daucus carota

MLYISGARLVADKQVRIALTKMYGIGPKKAIQVCYRLGISGNIKIKELTKYQIDQMEQMIGQDHVVHWELKRGERADIERFISISCYRGIRHQDGLPLRGQRTHTNARTCRKQIRK

Located at the top of the head of the small subunit, it contacts several helices of the 18S rRNA. Subcellular locations: Mitochondrion

TI214_DAUCA

Daucus carota

MILKSFLLGNLVSLCMKIINSVVVVGLYYGFLTTFSIGPSYLFLLRAQVMEEGEEGTEKKVSATTGFITGQLMMFISIYYAPLHLALGRPHTITVLALPYLLFHFFWKNHKNFFDYGSTTRNSMRNLSIQCVFLNNLIFQLFNHFILPSSMLARLVNIYMFRCNNKMLFVTSSFVGWLIGHILFMKWVGLVLVWIRQNNSIRSNKYIRSNKSELINYMARIFSILLFITCVYYLGRIPSPIFTKKLNPQTEEGWESEEETDVEIETASETKGTKQEQEGSTEEDPSPSLFSEEKEDPDKIDETEEIRVNGKEKTKDEFHFTEIRYNNSPVYKGLFWFEKPLLTFLFDYKRWNRPLRYIKNNRFERTTRKEMSQYFFYTCRSDGKERISFTYPPSLSTFGEMIQRRMSLPTLEKLSSAELYNHWVYTNQHKNNNLNNEFLNRIEALDTGFFSLDILEKSTRLCNDKTRKYYLPKMYDPILNGLYRGTIQKKISPSIINKISLENFIETLEINKIHSLLLPDTDYQEFEQKIDQFDKKTFSTENRHLFTLISKLDRESGSRKGLSLFSEKEQGGVGSKKRDKFYKFLLNTILTSPNDQKTKQKFVIKEISKKVPRWSYKLITELEFLSGTAHEGLPLDYQIRSRKRDGIIIYRPTKRSRNASIKNWMSFRDYSEESDFRREFIKGSMRVQRRKTVIWKLFQANAHSPLFLDRIKKYPLFSFNIPERMKSFFRNCMGKGSGLKDYTEEQEDKIKEKASIKIAEAWDFIPYPQATRSLILIIQSIFRKYILLPSLIIVKNIGRILLSQPPEWTEDFDEWNREKHIICTYNGVQVSEFELPKNWFKDGIQIKIVFPFYLKPWHRSKLRTSFSSYKDLKKEEQPKFYFLTAWGAQTTLNFGSIPPKPSFFKPILKELKKKMQKTKNNNLKVLRVLKERTKDFLQDSKEPKEVIIKNVLFLFIKRIKKELFKIHPTRLFILKKVYESGETNKKKDYIIRNQQIHDSFIKIKSTDNKNDSLRDKKIKNLTDRTSTIRTKTKGLMKEKNSNAKKRGSPNKTSFNRKKKSPNILLKILKIKRRSTRLIYKFYLFITIFIKRIYIDIFVCIIHIARISTQLLLESINFCFDKYIYIYNNKTNKTNYNNKTNQEIKKKKEINFISTIKSALYNIQNSKRNSRLFFDLSSLSQAYVFYKLSQTPIIHFYKLRDIFEYNGTPFFLKTAMKNYFLTQGIFHSELRHTKLSSYETNQWKSWLRGHYQYNLSQIRWSGLIPKKWRTTINEGGMTPNKDLTKCNSYEKDRLLYHKKQKDFKVYPLPNQKDNFLKYYIYDLFSYKSINSEIKKSSYIFFGSPSELKNNQKIAFNYNKKKQNLSENLEEIPINHYLETGDIMYMKKNPDRKYFDWTILNFFIRQKIDIEAWTKMDYNSNINTKLGNTNYHKIYKMDKNAILSLTIHQDLERNPINDKKIFFDWMEMNEEILNPISTNLKLTFFPEFVPLYNVYKTKPWIIPSKLLLLNLNKKKNINENKKFHFFRPSNEKIYYELMNRNQEEKKTAGRRGLRSYAQNQDKMKKKYKIRNKMRREIIFLRKHYLLFQWIIDDGLIPKLTERMINNIKIYCYLLGLRNPRDTTISSIQRKELNLDIMVIRQKLTPIELNKKGIFFLDPTRLSVKNDGYFIIYQTVGISLVHKSKYQTPQRYREQRYINKKKLDESIPRYQIILRKRDKKHYDFVVPENILSSRRRRELRILLSFNSKNLNSVDKNPVFCNKKNIKRRNPFLDQKKHLDRDKNELIKLKLFLWPNYRLEDLACMNRYWFNTNNGSRFSILRIYPQFKIG

Involved in protein precursor import into chloroplasts. May be part of an intermediate translocation complex acting as a protein-conducting channel at the inner envelope. Subcellular locations: Plastid, Chloroplast inner membrane

ATPA_DAUCA

Daucus carota

MVTIRADEISKIIRERIEEYNREVKIVNTGTVLQVGDGIARIHGLDEVMAGELVEFQEGTVGIALNLESTNVGVVLMGDGLLIQEGSSVKATGRIAQIPVSEAYLGRVVNALAKPIDGRGEISASEYRLIESPAPGIISRRSVYEPLQTGLIAIDSMIPIGRGQRELIIGDRQTGKTAVATDTILNQQGQNVICVYVAIGQKASSVAQVVTNFQERGAMEYTIVVAETADSPATLQYLAPYTGAALAEFFMYRKRHTLIIYDDPSKQAQAYRQMSLLLRRPPGREAYPGDVFYLHSRLLERAAKLGSLLGEGSMTALPIVETQSGDVSAYIPTNVISITDGQIFLSADLFNAGIRPAINVGISVSRVGSAAQIKAMKQVAGKLKLELAQFAELEAFAQFASDLDKATQNQLARGQRLRELLKQSQSAPLAVEEQIMTIYTGTNGYLDSLEIGQVRKFLVELRTYLKTNKPQFQEIISSTKIFTEEAEALLKEAIQEQMERFILQEQV

Produces ATP from ADP in the presence of a proton gradient across the membrane. The alpha chain is a regulatory subunit. Subcellular locations: Plastid, Chloroplast thylakoid membrane

ATPBM_DAUCA

Daucus carota

MASRRLLSSFLRSSTRRSLRPSFSNPRPSFLTSYCSSPASILRRYATAAPAKEPAASKPAGTAGTGKGTITDEKTGAGAIGQVCQIIGAVVDVKFEEGLPPIMTALEVIDFEIRLVLEVAPSLGENTVRTIAMDGTEGLVRGQKVLNTGAPITIPVGRATLGRIINVIGEPIDHRGEIKTDQYLPIHREAPTFVDQATEQQILVTGIKVVDLLAPYQKGGKIGLFGGDWVGKTVLIMELINNVAKAHAVFAGVGERTREGNDLYKEMMESGVIKLGDQQAESKCALVYGQMNEPPGSRARVGLTGLTVAEHFRDAEGEDVLLFVDKRFRFTQANSEVSALLGRIPSAVGYQPTLATDLGGLQERITTTKKGSITSVQAIYVPADDLTDPAPATTFAHLDATTVLSRQISELGIYPAVDPLDSTSRMLTPESGEEHYNTARGVQKVLQNYKNLQDIIAILGMDELSEDDKLTVARARKIQRFLSQPFHVAEIFTGAPGKYVELKECVTSFQGVLDGKYDDLPEQSFYMLGGIEEVIAKAEKMAKENPQ

Mitochondrial membrane ATP synthase (F(1)F(0) ATP synthase or Complex V) produces ATP from ADP in the presence of a proton gradient across the membrane which is generated by electron transport complexes of the respiratory chain. F-type ATPases consist of two structural domains, F(1) - containing the extramembraneous catalytic core, and F(0) - containing the membrane proton channel, linked together by a central stalk and a peripheral stalk. During catalysis, ATP synthesis in the catalytic domain of F(1) is coupled via a rotary mechanism of the central stalk subunits to proton translocation. Subunits alpha and beta form the catalytic core in F(1). Rotation of the central stalk against the surrounding alpha(3)beta(3) subunits leads to hydrolysis of ATP in three separate catalytic sites on the beta subunits. Subcellular locations: Mitochondrion, Mitochondrion inner membrane Peripheral membrane protein.

C71A1_PERAE

Persea americana

MAILVSLLFLAIALTFFLLKLNEKREKKPNLPPSPPNLPIIGNLHQLGNLPHRSLRSLANELGPLILLHLGHIPTLIVSTAEIAEEILKTHDLIFASRPSTTAARRIFYDCTDVAFSPYGEYWRQVRKICVLELLSIKRVNSYRSIREEEVGLMMERISQSCSTGEAVNLSELLLLLSSGTITRVAFGKKYEGEEERKNKFADLATELTTLMGAFFVGDYFPSFAWVDVLTGMDARLKRNHGELDAFVDHVIDDHLLSRKANGSDGVEQKDLVDVLLHLQKDSSLGVHLNRNNLKAVILDMFSGGTDTTAVTLEWAMAELIKHPDVMEKAQQEVRRVVGKKAKVEEEDLHQLHYLKLIIKETLRLHPVAPLLVPRESTRDVVIRGYHIPAKTRVFINAWAIGRDPKSWENAEEFLPERFVNNSVDFKGQDFQLIPFGAGRRGCPGIAFGISSVEISLANLLYWFNWELPGDLTKEDLDMSEAVGITVHMKFPLQLVAKRHLS

Involved in the metabolism of compounds associated with the development of flavor in the ripening fruit process, possibly by acting as trans-cinnamic acid 4-hydrolase. Subcellular locations: Microsome membrane, Endoplasmic reticulum membrane Mesocarp.

CCSA_MANES

Manihot esculenta

MIFSTLEHILTHISFSVVSIVITIHLITLLADEFVELYDSSEKGMITTFFCITGLLVTRWIFLGHLPLSDLYESLIFLSWSFSIIHMVPYFKKHKNFLSAITAPSTFFTQGFATSGLLTDMHQSEILVPALQSQWLMMHVSMMILGYAALLCGSLFSVAFLVITFRKIIRIFDKSNNLLNNSFFFSEIQYMAERKNVLRNISFLSSRNYYRFQLIQQLDDWGYRIISIGFIFLTIGILSGAVWANEAWGSYWNWDPKETWAFITWTIFAIYFHIRTNKKLEGFHSAIVASIGFLLIWICYFGVNLLGIGLHSYGSFTLTISI

Required during biogenesis of c-type cytochromes (cytochrome c6 and cytochrome f) at the step of heme attachment. Subcellular locations: Plastid, Chloroplast thylakoid membrane

CHS2_DAUCA

Daucus carota

MANHNAEIEEIRKRQRAQGPANILAIGTATPSNCVYQADYPDYYFRITNSEHMSDLKLKFKRMCEKSMIRKRYMHITEEYLKENPNVCAYEAPSLDARQDLVVVEVPRLGKEAAAKAIKEWGHPKSKITHLIFCTTSGVDMPGADYQLTKLLGLRPSVKRFMMYQQGCFAGGTVLRLAKDLAENNTGARVLVVCSEITAVTFRGPSDSHLDSLVGQALFGDGAAAVIVGSDPDLSVERPLFQLISAAQTILPDSDGAIDGHLREVGLTFHLLKDVPGLISKNIEKSLKEAFGPIGISDWNSLFWIAHPGGPAILDQVELKLGLKEEKMRATRQVLSDYGNMSSACVLFILDEMRKKSIEEGKATTGDGLDWGVLFGFGPGLTVETVVLHSVPATITH

The primary product of this enzyme is 4,2',4',6'-tetrahydroxychalcone (also termed naringenin-chalcone or chalcone) which can under specific conditions spontaneously isomerize into naringenin.

CRK_DAUCA

Daucus carota

MGICVSKPSPEPDLHNHHTSIPVNDTSLPPQDNSIPPKDIAIPAQDNNKPPGKKSPFLPFYSPSPAHFLFSKKSPAVGSPAAGSSNSTPKRLFPFPPPSPAKHIKAAWARRHGSVKPNEAAIPENNEVDGGAGLDKSFGFSKKFGSKFEVGEEVGRGHFGYTCRAKFKKGEFKGQDVAVKVIPKAKMTTAIAIEDVRREVKILRALTGHNNLVQFYDAFEDHTNVYVVMELCEGGELLDRILSRGGKYTEDDAKAVMIQILNVVAFCHLQGVVHRDLKPENFLFKSKDEDSQLKAIDFGLSDYVKPDERLNDIVGSAYYVAPEVLHRSYSTEADVWSIGVISYILLCGSRPFWARTESGIFRAVLKANLSFDEPPWPSVSSEAKDFVKRLLNKDPRKRMTAAQALCHSWIKNSNDIKFPLDILVFKLMKVYMRSSPLRKAALRALSKTLTVDELFYLKEQFVLLEPTKNGTISLENIKQALMRNSTDAMKDSRVLDLLVSLNALQYRRMDFEEFCAAALSVHQLEALDRWEQHARCAYDLFEKDGNRAIMIEELASELGLGPSIPVHAVLHDWIRHTDGKLSFLGYVKLLHGVSTRAIAKAQ

CYF_MANES

Manihot esculenta

MQTRKTFSWIKEEITRSISVLLMIYIITWASISNAYPIFAQQGYENPREATGRIVCANCHLANKPVDIEVPQAVLPDTVFEAVVRIPYDMQLKQVLANGKKGALNVGAVLILPEGFELAPPDRISPEMKEKMGNLSFQSYRPTKKNILVIGPVPGQKYSEITFPILSPDPAAKKDVHFLKYPIYVGGNRGRGQIYPDGSKSNNTVYNATAAGIVSKIIRKEKGGYEITITDASEGRQVIDIIPPGPELLVSEGESIKLDQPLTSNPNVGGFGQGDAEIVLQDPLRVQGLLFFLASVILAQIFLVLKKKQFEKVQLSEMNF

Component of the cytochrome b6-f complex, which mediates electron transfer between photosystem II (PSII) and photosystem I (PSI), cyclic electron flow around PSI, and state transitions. Subcellular locations: Plastid, Chloroplast thylakoid membrane

ETR1_PRUPE

Prunus persica

MEACNCIEPQWPADELLMKYQYISDFFIALAYFSIPLELIYFVKKSAVFPYRWVLVQFGAFIVLCGATHLINLWTFSMHSRTVAIVMTTAKVLTAVVSCATALMLVHIIPDLLSVKTRELFLKNKAAELDREMGLIRTQEETGRHVRMLTHEIRSTLDRHTILKTTLVELGRTLALEECALWMPTRTGLELQLSYTLRQQNPVGYTVPIHLPVINQVFSSNRALKISPNSPVARMRPLAGKHMPGEVVAVRVPLLHLSNFQINDWPELSTKRYALMVLMLPSDSARQWHVHELELVEVVADQVAVALSHAAILEESMRARDLLMEQNIALDLARREAETAIRARNDFLAVMNHEMRTPMHAIIALSSLLQETELTPEQRLMVETILKSSHLLATLINDVLDLSRLEDGSLQLEIATFNLHSVFREVHNLIKPVASVKKLSVSLNLAADLPVQAVGDEKRLMQIVLNVVGNAVKFSKEGSISITAFVAKSESLRDFRAPEFFPAQSDNHFYLRVQVKDSGSGINPQDIPKLFTKFAQTQSLATRNSGGSGLGLAICKRFVNLMEGHIWIESEGPGKGCTAIFIVKLGFAERSNESKLPFLTKVQANHVQTNFPGLKVLVMDDNGSVTKGLLVHLGCDVTTVSSIDEFLHVISQEHKVVFMDVCMPGIDGYELAVRIHEKFTKRHERPVLVALTGNIDKMTKENCMRVGMDGVILKPVSVDKMRSVLSELLEHRVLFEAM

May act early in the ethylene signal transduction pathway, possibly as an ethylene receptor, or as a regulator of the pathway. Subcellular locations: Endoplasmic reticulum membrane

GUN1_PERAE

Persea americana

MDCSSPLSLFHLLLVCTVMVKCCSASDLHYSDALEKSILFFEGQRSGKLPTNQRLTWRGDSGLSDGSSYHVDLVGGYYDAGDNLKFGLPMAFTTTMLAWGIIEFGCLMPEQVENARAALRWSTDYLLKASTATSNSLYVQVGEPNADHRCWERPEDMDTPRNVYKVSTQNPGSDVAAETAAALAAASIVFGDSDSSYSTKLLHTAVKVFEFADQYRGSYSDSLGSVVCPFYCSYSGYNDELLWGASWLHRASQNASYMTYIQSNGHTLGADDDDYSFSWDDKRVGTKVLLSKGFLQDRIEELQLYKVHTDNYICSLIPGTSSFQAQYTPGGLLYKGSASNLQYVTSTAFLLLTYANYLNSSGGHASCGTTTVTAKNLISLAKKQVDYILGQNPAKMSYMVGFGERYPQHVHHRGSSLPSVQVHPNSIPCNAGFQYLYSSPPNPNILVGAILGGPDNRDSFSDDRNNYQQSEPATYINAPLVGALAFFAANPVTE

Involved in ripening fruit process.

IF4E1_PRUDO

Prunus domestica

MVVEDALKTSASEDQAKTETNPKPREEDDEPEEGEIVGDEESASKPSKGIAPESHALEHSWTFWFDSPAAKSAKTKQEDWGSSIRPIYTFSTVEEFWSIYNNIRHPSKLAIGTDFHCFKYKIEPKWEDPVCANGGKWTVTLPKGKSDTSWLYTLLGMIGEQFDHGDEICGAVVNVRNRQEKISIWTKNAINEAAQLSIGKQWKGLLDYNETIGFIFHEDAMRHERSAKNKYVV

Component of the protein complex eIF4F, which is involved in the recognition of the mRNA cap, ATP-dependent unwinding of 5'-terminal secondary structure and recruitment of mRNA to the ribosome (By similarity). Recognizes and binds the 7-methylguanosine-containing mRNA cap during an early step in the initiation of protein synthesis and facilitates ribosome binding by inducing the unwinding of the mRNAs secondary structures (By similarity). (Microbial infection) Not involved in the plum pox virus (PPV) strain D infection process. Subcellular locations: Nucleus, Cytoplasm Mostly expressed in leaves, flower buds, leaf buds and anthers, to a lower extent in roots, stems and green immature fruit, and, at low levels, in petals.

INV1_DAUCA

Daucus carota

MGVTIRNRNYDHGSLPFLQSLLAILLVTTTTLHINGVEAFHEIHYNLQSVGAENVKQVHRTGYHFQPKQNWINDPNGPMYYKGVYHLFYQYNPKGAVWGNIVWAHSVSTDLINWTPLEPAIFPSKPFDKYGCRSGSATILPGNKPVILYTGIVEGPPKNVQVQNYAIPANLSDPYLRKWIKPDNNPLVVANNGENATAFRDPTTAWLDKSGHWKMLVGSKRNRRGIAYLYRSKDFIKWTKAKHPIHSQANTGMWECPDFFPVSLKGLNGLDTSVTGESVKHVLKVSLDLTRYEYYTVGTYLTDKDRYIPDNTSVDGWAGLRYDYGNFYASKTFFDPSKNRRILWGWANESDSTAHDVAKGWAGIQLIPRTLWLDPSGKQLMQWPIEELETLRGSKVKFSRKQDLSKGILVEVKGITAAQADVEVTFSFKSLAKREPFDPKWLEYDAEKICSLKGSTVQGGVGPFGLLTLASEKLEEYTPVFFRVFKAQNTHKVLMCSDATRSSLKEGLYRPSFAGFVDVDLATDKKISLRSLIDNSVVESFGAKGKTCISSRVYPTLAVYENAHLYVFNNGSETITVENLDAWSMKKPLRMN

May play an important role in phloem unloading and in stress response. Subcellular locations: Secreted, Cell wall Ionically bound to the cell wall. In leaves and roots of young plants.

METK1_DAUCA

Daucus carota

MDTFLYTSESVNEGHPDKLCDQISDAVLDACLEQDPDSKVACETCSKTNMVMVFGEITTKANVDYEKIVHKTCRDIGFVSDDVGLDADNCKVLVQIEQQSPDIAQGVHGHLTKRPEDIGAGDQGHMFGYATDETPELMPLSHVLATKLGAKLTEVRKNGTCPWLRPDGKTQVTVEYYNDKGAMVPIRVHTVLISTQHDETVTNDEIAADLKEHVIKPIIPAKYLDEKTIFHLNPSGRFVIGGPHGDAGLTGRKIIIDTYGGWGAHGGGAFSGKDPTKVDRSGAYIVRQAAKSIVASGLARRCIVQVSYAIGVPEPLSVFVDSYGTGKIPDREILQIVKETFDFRPGMISINLDLKRGGNGRFLKTAAYGHFGTGKIPDREILKIVKETFDFRPGMISINLDLKRGGNGRFLKTAAYGHFGRDDPDFTWEVVKPLKWEKPQA

Catalyzes the formation of S-adenosylmethionine from methionine and ATP. The reaction comprises two steps that are both catalyzed by the same enzyme: formation of S-adenosylmethionine (AdoMet) and triphosphate, and subsequent hydrolysis of the triphosphate. Subcellular locations: Cytoplasm

NU5C_MANES

Manihot esculenta

MEHIYQYSWIIPFVTLPVPMLIGAGLLLFPAATKKLRRMWAFPSVFLLSIVMIFSIDLSIQQINSSFIYQYIWSWTINNDFSLEFGHLIDPLTSILSVLITTVGILVLFYSDNYMSHDQGYLRFFAYMSFFTTSMLGLVTSSNLIQIYIFWELVGVCSYLLIGFWFTRPIASNACQKAFVTNRVGDFGLLLGILGLYWITGSFEFRDLFKIFNNLIYNNQVNFLFVTLCAVLLFSGAIAKSAQFPLHVWLPDAMEGPTPISALIHAATMVAAGIFLVARLFPLFVIIPFIMNLIALIGIITVFLGATLALAQKDIKRSLAYSTMSQLGYMMLALGMGSYRAALFHLITHAYSKALLFLGSGSIIHSMEAILGYSPDKSQNMVLMGGLTKHIPITKTAFLLGTLSLCGIPPFACFWSKDEILNDSWLYSPIFAIIACFTAGLTAFYMFRVYLLTFDGHFNAHFQSYSGKKNSSFYSISLWGKEGSKMLNKNLRLLALLTMNNKERASFFWKNTYQIDGNVRNMTWPFITIQNFNTKRIFSYPHESDNTMLFPMLILVLFTLFIGAIGIPFNQFNQEGMLLDIDILSKLLTPSLNLLHQNPENSVDWYEFVTNATFSASIAFFGIFIASFLYKPVYSSLQNLNFFNSFAKKGPKRILWDKIINVIYNWSSNRGYIDAFYAISFIGGIRKLAELIHFFDKQIIDGTPNGVGVTSFFVGEGIKNVGSGRISFYLLFYLFYALIFLLIYYSVYKFII

NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient (By similarity). Subcellular locations: Plastid, Chloroplast thylakoid membrane

NU6C_DAUCA

Daucus carota

MDLPGPIHDFLLVFLGSGLILGGLGVVLLPNPIYSAFSLGLVLVCTSLFYILSNSHFVAAAQLLIYVGAINVLIIFAVMFMNGSEYYKDFHLWTVGDGVTSMVCTSIFVSLITTIPDTSWYGIIWTTKSNQIVEQDLISNSQQIGIHLSTDFFLPFELISIILLVSLIGAITVARQ

NDH shuttles electrons from NAD(P)H:plastoquinone, via FMN and iron-sulfur (Fe-S) centers, to quinones in the photosynthetic chain and possibly in a chloroplast respiratory chain. The immediate electron acceptor for the enzyme in this species is believed to be plastoquinone. Couples the redox reaction to proton translocation, and thus conserves the redox energy in a proton gradient (By similarity). Subcellular locations: Plastid, Chloroplast thylakoid membrane

PCNA1_DAUCA

Daucus carota

MLELRLVQGSLLKKVMDSIKDLVNDANFDCSATGFSLQAMDSSHVALVAVLLRSEGFEHYRCDRNISMGMNLGNMAKMLKCAGNDDIITIKADDGSDTVTFMFESPTQDKIADFEMKLMDIDSEHLGIPEAEYHAIVRMPSAEFARICKDLSSIGDTVVISVTKEGVKFSTRGDIGTANIVCRQNTTVDKPEEATVIEMNEPVSLTFALRYMNSFTKASPLSSTVTISLSSELPVVVEYKIAEMGYIRFYLAPKIEEEEDESKP

This protein is an auxiliary protein of DNA polymerase delta and is involved in the control of eukaryotic DNA replication by increasing the polymerase's processibility during elongation of the leading strand. Subcellular locations: Nucleus

PER10_DAUCA

Daucus carota

QGLFTSDQDLYTDSR

Removal of H(2)O(2), oxidation of toxic reductants, biosynthesis and degradation of lignin, suberization, auxin catabolism, response to environmental stresses such as wounding, pathogen attack and oxidative stress. These functions might be dependent on each isozyme/isoform in each plant tissue.

PME_DAUCA

Daucus carota

QSSTVTPNVVVAADGSGDYKTVSEAVAAAPEDSKTRYVIRIKAGVYRENVDVPKKKKNIMFLGDGRTSTIITASKNVQDGSTTFNSATVAAVGAGFLARDITFQNTAGAAKHQAVALRVGSDLSAFYRCDILAYQDSLYVHSNRQFFINCFIAGTVDFIFGNAAVVLQDCDIHARRPGSGQKNMVTAQGRTDPNQNTGIVIQKSRIGATSDLQPVQSSFPTYLGRPWKEYSRTVVMQSSITNVINPAGWFPWDGNFALDTLYYGEYQNTGAGAATSGRVTWKGFKVITSSTEAQGFTPGSFIAGGSWLKATTFPFSLGL

Catalyzes the deesterification of methyl-esterified D-galactosiduronic acid units in pectic compounds. It participates in modulating cell wall during fruit ripening, cell wall extension during pollen germination, and in defense mechanisms against pathogens. Subcellular locations: Secreted, Cell wall

PME_PRUPE

Prunus persica

MPYLLMASHNPLPAGKQLLLLVLLCAFFSSSFIPFASCSITDDLQTQCLKVSATEFAGSLKDTIDAVQQVASILSQFANAFGDFRLANAISDCLDLLDFSADELNWSLSASQNQKGKNNSTGKLSSDLRTWLSAALVNQDTCSNGFEGTNSIVQGLISAGLGQVTSLVQELLTQVHPNSNQQGPNGQIPSWVKTKDRKLLQADGVSVDAIVAQDGTGNFTNVTDAVLAAPDYSMRRYVIYIKRGTYKENVEIKKKKWNLMMIGDGMDATIISGNRSFVDGWTTFRSATFAVSGRGFIARDITFENTAGPEKHQAVALRSDSDLSVFYRCNIRGYQDTLYTHTMRQFYRDCKISGTVDFIFGDATVVFQNCQILAKKGLPNQKNSITAQGRKDPNEPTGISIQFCNITADSDLEAASVNSTPTYLGRPWKLYSRTVIMQSFLSNVIRPEGWLEWNGDFALNSLFYGEYMNYGPGAGLGSRVKWPGYQVFNESTQAKNYTVAQFIEGNLWLPSTGVKYTAEFGV

May have roles in the deposition of pectin in developing tissues and in the wall loosening and cell separation that occurs in cell expansion, fruit ripening and abscission. Subcellular locations: Secreted, Cell wall

PPO_PRUAR

Prunus armeniaca

MATAPSPTTMGTYSSLISTNSFSTFLPNKSQLSLSGKSKHYVARRSSISCKATNNNNSNNQNEQQEESSRLLGKLDRRNILIGLGGLYGATTLDRKPFAFADPIAPPDLTTCKPAEITPGGSETVPCCPPVTTKIKTFKPDLSIPLRTSPAAHQVTDEYLAKFKKAQAAMRALPDDDPRSMVQQAKVHCAYCNGAYPQVGFTDNDIQVHFSWLFFPFHRMYLYFYERILGKLIDDPTFALPYWNWDSPVGFPIPDIYTDTSSPLYDQYRNADHQPPVLVDLSYGGKDDDVDEQTRIDENLAIMYRQMVSGAKTPDLFFGHAYRAGNLNTGKYPGTIENMPHNNIHIWVGDPSQTHQEDMGNFYSAGRDPLFYAHHANVDRMWNIWKTLGGKRKDITDTDWLDAEFLFYDENAELVRVKVRDSLEPEKQLRYNYEPVSLPWLFTKPTARKTKNKTKAKVAATQLTSKFPATLVEVTTVEVARPKPRKRSKKEKVDEEELLIIKDIEFEGTEAVKFDVFINDDAESLSRRDKSEFAGSFVHVPQGKTTKAKTKTNLKLGITDLLEDLGAEDDSSVLVTLVPRVSNSPITIGGFKIEYSS

Catalyzes the oxidation of mono- and o-diphenols to o-diquinones. Uses preferentially 4-methylcatechol and chlorogenic acid as substrates, followed by caffeic acid, pyrogallol, and catechol, but barely active toward dopamine and L-dopa. No activity detected with monophenols (e.g. phenol and tyramine). Subcellular locations: Plastid, Chloroplast thylakoid lumen Expressed in immature-green fruit.

PSAC_DAUCA

Daucus carota

MSHSVKIYDTCIGCTQCVRACPTDVLEMIPWDGCKAKQIASAPRTEDCVGCKRCESACPTDFLSVRVSLWNETTRSMGLAY

Apoprotein for the two 4Fe-4S centers FA and FB of photosystem I (PSI); essential for photochemical activity. FB is the terminal electron acceptor of PSI, donating electrons to ferredoxin. The C-terminus interacts with PsaA/B/D and helps assemble the protein into the PSI complex. Required for binding of PsaD and PsaE to PSI. PSI is a plastocyanin-ferredoxin oxidoreductase, converting photonic excitation into a charge separation, which transfers an electron from the donor P700 chlorophyll pair to the spectroscopically characterized acceptors A0, A1, FX, FA and FB in turn. Subcellular locations: Plastid, Chloroplast thylakoid membrane