protein_name
stringlengths
6
11
species
stringclasses
299 values
sequence
stringlengths
5
4.97k
annotation
stringlengths
5
2.1k
QSOX1_ORYSJ
Oryza sativa subsp. japonica
MAAAAVARRVVLVLVLAAASLAAAPRGAAARSLGGREGPGEVDADAAVDLNATNFDAFLKASLEPWAVVEFFAHWCPACRNYKPHYEKVAKLFNGRDAAHPGLILMARVDCASKVNIDLCNRFSVDHYPFLLWGPPTKFASAKWDPKQENNEIKLIDDGRTAERLLKWINNQMKSSFSLEDKKYENENMLPKNASDPEQIVQAIYDVEEATAQALQIILERKTIKPKNRDSLIRFLQILVARHPSKRCRRGSAELLINFDDHWSSNLSLSSQEGSKLLESVAEENHWICGKEVPRGYWLFCRGSKSETRGFSCGLWVLMHSLTVRIGDGESQSTFTSICDFIHNFFICEECRKHFYEMCSSVSAPFRTARELSLWLWSTHNKVNMRLMKEEKDMGTGDPLFPKVTWPPNQLCPSCYRSSKVTDGAVDWNEDAVYQFLVNYYGKKLVSSYKETYMESLQQQEKKIVSEDSSISNAASVPIGAALGVAIASCTFGALACFWRAQQKNRKQRKNWN
Catalyzes the oxidation of sulfhydryl groups in peptide and protein thiols to disulfides with the reduction of oxygen to hydrogen peroxide. May contribute to disulfide bond formation in a variety of secreted proteins (By similarity). Subcellular locations: Secreted
R10A_ORYSI
Oryza sativa subsp. indica
MSKLQSEVLKEAISQVVGESKEKGRKFTETVELQIGLKNYDPQKDKRFSGSVKLPHIPRPKMKVCMLGDAQHVEEAEKIGLDYMDVEALKKMNKNKKLVKKLAKKYHAFLASEAIIKQIPRLLGPGLNKAGKFPTLVTHQESLESKVNETKATVKFQLKKVLCMGVAVGNLSMEEKQIQQNIQMSVNFLVSLLKKNWQNVRCLYIKSTMGKPIRVF
null
R10A_ORYSJ
Oryza sativa subsp. japonica
MSKLQSEVLKEAISQVVGESKEKGRKFTETVELQIGLKNYDPQKDKRFSGSVKLPHIPRPKMKVCMLGDAQHVEEAEKIGLDYMDVEALKKMNKNKKLVKKLAKKYHAFLASEAIIKQIPRLLGPGLNKAGKFPTLVTHQESLESKVNETKATVKFQLKKVLCMGVAVGNLSMEEKQIQQNIQMSVNFLVSLLKKNWQNVRCLYIKSTMGKPIRVF
null
RAD23_ORYSJ
Oryza sativa subsp. japonica
MKISVKTLKGSTFQIEVDSAQKVADVKRIIETTQGQHIYPAEQQMLIHQGKVLKDDTTLDENKVLENSFLVIMLRQGKGSSSSAPATSKAPSNQAPPTQTVPAAPASQAPVAPATTVPVTVSAPTPTATASPAPAVAVSSEADNYGQATSNLVAGSNLEATIQSILEMGGGIWDRDIVLHALSAAFNNPERAVEYLYSGVPEQMDIPVPPPSIQPANPTQASQATQPAAPSILSSGPNASPLDLFPQALPNASTDAAGLGNLDALRNNAQFRTLLSLVQANPQILQPLLQELGKQNPQILQLIQENQAEFLHLINEPAEGDDEENLLDQFPEAMPQTIAVTPEENEAILRLEAMGFDRALVLDVFFACNKDEQLAANYLLDHMNEFDDEGPP
May be involved in nucleotide excision repair (By similarity). Binds and presumably selects ubiquitin-conjugates for destruction. Prefers multiubiquitin chains rather than single ubiquitins, with a binding affinity for 'Lys-48'-linked ubiquitin chains. Acts as a ubiquitin receptor that associates with the 26S proteasomal docking subunit RPN10 for the indirect recognition of ubiquitinated substrates of ubiquitin/26S proteasome-mediated proteolysis (UPP) (By similarity). Subcellular locations: Nucleus Mostly expressed in vegetative tissues.
RAG2_ORYSJ
Oryza sativa subsp. japonica
MASNKVVFSALLLIIVSVLAATATMADHHKDQVVYSLGERCQPGMGYPMYSLPRCRAVVKRQCVGHGAPGGAVDEQLRQDCCRQLAAVDDSWCRCSALNHMVGGIYRELGATDVGHPMAEVFPGCRRGDLERAAASLPAFCNVDIPNGTGGVCYWLGYPRTPRTGH
Seed storage protein. Subcellular locations: Secreted
RB2BV_BETVU
Beta vulgaris
MANRVDHEYDYLFKIVLIGDSGVGKSNILSRFTRNEFCLESKSTIGVEFATRTLQVEGKTVKAQIWDTAGQERYRAITSAYYRGAVGALLVYDITKRQTFDNVQRWLRELRDHADSNIVIMMAGNKSDLKHLRAVSEEDGQALAEKEGLSFLETSALEAVNIEKAFQTILTEIYHIISKKALAAQEASSNLPGQGTTINVADASANQRRSCCST
Subcellular locations: Cell membrane
RBL_PEA
Pisum sativum
MSPQTETKAKVGFKAGVKDYKLTYYTPDYQTKDTDILAAFRVTPQPGVPPEEAGAAVAAESSTGTWTTVWTDGLTSLDRYKGRCYEIEPVPGEDNQFIAYVAYPLDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPYAYVKTFQGPPHGIQVERDKLNKYGRPLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENVNSQPFMRWRDRFLFCAEAIYKSQAETGEIKGHYLNATAGTCEEMLKRAVFARELGVPIVMHDYLTGGFTANTTLSHYCRDNGLLLHIHRAMHAVIDRQKNHGMHFRVLAKALRLSGGDHIHAGTVVGKLEGEREITLGFVDLLRDDYIKKDRSRGIYFTQDWVSLPGVIPVASGGIHVWHMPALTEIFGDDSVLQFGGGTLGHPWGNAPGAVANRVALEACVQARNEGRDLAREGNAIIREACKWSPELAAACEVWKEIKFEFPAMDTL
RuBisCO catalyzes two reactions: the carboxylation of D-ribulose 1,5-bisphosphate, the primary event in carbon dioxide fixation, as well as the oxidative fragmentation of the pentose substrate in the photorespiration process. Both reactions occur simultaneously and in competition at the same active site (Probable). Binds to abscisic acid (ABA); only half of the possible binding sites are occupied in the crystal and there are indications this is a low affinity site . Subcellular locations: Plastid, Chloroplast
RBL_PHAVU
Phaseolus vulgaris
MSPQTETKASVGFKAGVKDYKLTYYTPDYETKDTDILAAFRVTPQPGVPPEEAGAAVAAESSTGTWTTVWTDGLTSLDRYKGRCYHIEPVAGEENQFIAYVAYPLDLFEEGSVTNMFTSIVGNVFGFKALRALRLEDLRIPTAYIKTFQGPPHGIQVERDKLNKYGRPLLGCTIKPKLGLSAKNYGRAVYECLRGGLDFTKDDENVNSQPFMRWRDRFLFCAEAIYKAQAETGEIKGHYLNATAGTCEEMIKRAVFARELGVPIVMHDYLTGGFTANTSLAHYCRDNGLLLHIHRAMHAVIDRQKNHGMHFRVLAKALRLSGGDHVHSGTVVGKLEGEREITLGFVDLLRDDFIEKDRSRGIYFTQDWVSLPGVLPVASGGIHVWHMPALTEIFGDDSVLQFGGGTLGHPWGNAPGAVANRVALEACVQARNEGRDLAREGNEIIREASKWSPELAAACEVWKEIKFEFEAMDTLD
RuBisCO catalyzes two reactions: the carboxylation of D-ribulose 1,5-bisphosphate, the primary event in carbon dioxide fixation, as well as the oxidative fragmentation of the pentose substrate in the photorespiration process. Both reactions occur simultaneously and in competition at the same active site. Subcellular locations: Plastid, Chloroplast
RBR1_MAIZE
Zea mays
MSSLDPSPATSTQQQKQLESLVNLLTQGSRFYRKAYNELFSGVTTEQDPDSSTNIPEYMLFGWHLFLMLHLRSPELFKDLVSCIHGLVAVLAILLIHVPAKFRSFTIEGSSHLIKQTEKGVDLIASLCHNYHTSEERLKEMLHKSHNAIEDIFHMKALSASECKPENLDKIDTDDLMYFKGLIDMECFQSNLEKMEKLCNSNSCKGELDFKSILINNDYIPYDENSTGDSTNLGHSKCAFETLASPTKTIKNMLTVPSSPLSPATGGSVKIVQMTPVTSAMTTAKWLREVISSLPDKPSSKLQQFLSSCDRDLTNAVTERVSIVLEAIFPTKSSANRGVSLGLNCANAFDIPWAEARKVEASKLYYRVLEAICRAELQNSNVNNLTPLLSNERFHRCLIACSADLVLATHKTVIMMFPAVLESTGLTAFDLSKIIENFVRHEETLPRELKRHLNSLEEQLLESMAWEKGSSLYNSLIVARPSVASEINRLGLLAEPMPSLDDLVSRQNVRIEGLPATPSKKRAAGPDDNADPRSPKRSCNESRNTVVERNLQTPPPKQSHMVSTSLKAKCHPLQSTFASPTVCNPVGGNEKCADVTIHIFFSKILKLAAIRIRNLCERVQCVEQTERVYNVFKQILEQQTTLFFNRHIDQLILCCLYGVAKVCQLELTFREILNNYKREAQCKPEVFSSIYIGSTNRNGVLVSRHVGIITFYNEVFVPAAKPFLVSLISSGTHPEDKKNASGQIPGSPKPSPFPNLPDMSPKKVSASHNVYVSPLRQTKLDLLLSPSSRSFYACIGEGTHAYQSPSKDLAAINSRLNYNGRKVNSRLNFDMVSDSVVAGSLGQINGGSTSDPAAAFSPLSKKRETDT
Regulator of biological processes that recruits a histone deacetylase to control gene transcription. May play a role in the entry into mitosis, negatively regulating the cell proliferation. Formation of stable complexes with geminiviridae replication-associated proteins may create a cellular environment which favors viral DNA replication. Subcellular locations: Nucleus Ubiquitous.
RBR1_ORYSI
Oryza sativa subsp. indica
MEGAAPPASSGSEVTGAGSGKVDAGGGAAMEERFADLCKSKLGLDESITRQAMQLFKESKSILLSSMSSLGSGSPEEIERFWSAFVLYCVSRLGKAGKGKEDGGISLCQILRAFSLNIVDFFKEMPQFCIKVGSVLAGLYGSDWEKRLELKELQANVVHLSLLSRYYKRAYQELFLLNDAKPPENSAEPNAQASDYYRFGWLLFLVLRIQTFSRFKDLVTSTNGLVSVLAVLIVHIPVRLRNFNIKESSSFAKKSDKGVNLIASLCEKYHTSEDELSKAIEKTNTLIVDILKKKPCPAASECQQDRLSFIDPEGLTYFKNLLEEDSLKLSLLMLEKEYENAINTKGELDERMFANDEDSLLGSGSLSGGAINLPGTKRKYDVMASPAKSITSPSPMSPPRFCASPTGNGYCSSKMAPITPVSTAMTTAKWLRSTISPLPSKPSGELLRFFSACDKDVTDDITRRAGIILGAIFTSSSFGERICTSVRSTNRIDAIWTEQRKMEALKLYYRVLESMCRAETQILSGNNLTSLLSNERFHRCMIACSAELVLATHKTVTMMFPAVLEKTGITAFDLSKVIESFVRHEDTLPRELKRHLNSLEERLLESMAWEKGSSMYNSLIVARPTLSAEINRLGLLAEPMPSLDAIAAHHNISLEGLPPLPFQKQEHSPDKDEVRSPKRACTERRNVLVDNNSFRSPVKDTLKSKLPPLQSAFLSPTRPNPAAGGELCAETGIGVFLSKIAKLAAIRIRGLCERLQLSQQVLERVYSLVQQIIIQQTALFFNRHIDQIILCSIYGVAKISQLALTFKEIIFGYRKQSQCKPQVFRSVYVHWASRSRNGKTGEDHVDIITFYNEVFIPTVKPLLVELGSGTSPNKKNEEKCAADGPYPESPRLSRFPNLPDMSPKKVSAAHNVYVSPLRTSKMDTLLSPSSKSYYACVGESTHAFQSPSKDLKVINNRLNSGKKVSGRLNFDVVSDLVVARSLSDQNSASAAATTADITTKTPVKLEQPDC
Regulator of biological processes that recruits a histone deacetylase to control gene transcription. May play a role in the entry into mitosis, negatively regulating the cell proliferation. Formation of stable complexes with geminiviridae replication-associated proteins may create a cellular environment which favors viral DNA replication (By similarity). Subcellular locations: Nucleus
RBR1_ORYSJ
Oryza sativa subsp. japonica
MEGAAPPASSGSEVTGAGSGKVDAGGGAAMEERFADLCKSKLGLDESITRQAMQLFKESKSILLSSMSSLGSGSPEEIERFWSAFVLYCVSRLGKAGKGKEDGGISLCQILRAFSLNIVDFFKEMPQFCIKVGSVLAGLYGSDWEKRLELKELQANVVHLSLLSRYYKRAYQELFLLNDAKPPENSAEPNAQASDYYRFGWLLFLVLRIQTFSRFKDLVTSTNGLVSVLAVLIVHIPVRLRNFNIKESSSFAKKSDKGVNLIASLCEKYHTSEDELSKAIEKTNTLIVDILKKKPCPAASECQQDRLSFIDPEGLTYFKNLLEEDSLKLSLLMLEKEYENAINTKGELDERMFANDEDSLLGSGSLSGGAINLPGTKRKYDVMASPAKSITSPSPMSPPRFCASPTGNGYCSSKMAPITPVSTAMTTAKWLRSTISPLPSKPSGELLRFFSACDKDVTDDITRRAGIILGAIFTSSSFGERICTSVRSTNRIDAIWTEQRKMEALKLYYRVLESMCRAETQILSGNNLTSLLSNERFHRCMIACSAELVLATHKTVTMMFPAVLEKTGITAFDLSKVIESFVRHEDTLPRELKRHLNSLEERLLESMAWEKGSSMYNSLIVARPTLSAEINRLGLLAEPMPSLDAIAAHHNISLEGLPPLPFQKQEHSPDKDEVRSPKRACTERRNVLVDNNSFRSPVKDTLKSKLPPLQSAFLSPTRPNPAAGGELCAETGIGVFLSKIAKLAAIRIRGLCERLQLSQQVLERVYSLVQQIIIQQTALFFNRHIDQIILCSIYGVAKISQLALTFKEIIFGYRKQSQCKPQVFRSVYVHWASRSRNGKTGEDHVDIITFYNEVFIPTVKPLLVELGSGTSPNKKNEEKCAADGPYPESPRLSRFPNLPDMSPKKVSAAHNVYVSPLRTSKMDTLLSPSSKSYYACVGESTHAFQSPSKDLKVINNRLNSGKKVSGRLNFDVVSDLVVARSLSDQNSASAAATTADIATKTPVKLEQPDC
Regulator of biological processes that recruits a histone deacetylase to control gene transcription. May play a role in the entry into mitosis, negatively regulating the cell proliferation. Formation of stable complexes with geminiviridae replication-associated proteins may create a cellular environment which favors viral DNA replication (By similarity). Subcellular locations: Nucleus
RBR1_PEA
Pisum sativum
MSLPAETDMEDTKPSVVMVDNGDQAQFRFAEFSKNELALDEKSCKEAMDLFGETKHLLVANVLSMGNGTTEEAERNWFAFILYSIKKLAQKNEEIQKDEIENTGLTLCRILRAAKLNIAEFFKELPQFVVKAGPILSNLYGPDWENKLEAKEMHANTIHLKILSKYYKRVFEEFFVSTDANVENNSSVTNRVSEYHRFGWLLFLALRVHAFSRFKDLVTCTNGLISILAILIIHVPARFRSFNIHDSSRFVKKSANGVDLLASLCNLYNTSEDELRKTIEQANNLVADILKKKPCLASECETENLENFDRDGLTYFKDLMEESSLPSSLSVLENDYDHMTRNNGELDERLFINEDDSLLASGSLSRGSVSAGGVKRKIDLMTSPTKMITSPLSPHRSPASHANGIPSSATPMIAATPVSTAMTTAKWLRTVISPLPSKPSQELERFLTSCDKDITSDVIRRAQIILQAIFPSSPLGDRCVTGSLQSANLMDNIWAEQRRLEALKLYYRVLATMCRAEAQILGNNLTSLLTNERFHRCMLACSAELVLATHKTVTMLFPAVLERTGITAFDLSKVIESFIRYEESLPRELRRHLNSLEERLLESLVWEKGSSMYNSLAVARPALSVEINRLGLLAEPMRSLDEIAMDINFSCGGLPPVPSLPKPEPMSAQNGDPRSPKRPCTEHRNVLAERNSFTSPVKDRLLHLSNLKSKLLPPPLQSAFASPTKPNPGGGGETCAETGISVFFSKIVKLGAVRISGMVERLQLSQQIRENVYCLFQRILNQWTSLFFNRHIDQIILCCFYGVAKISQLNLTFREIIYNYRKQPQCKPEVFRSVFVDWSSARRNGSCKQRTGQEHIDIISFYNEVFIPSVKPLLVEIGPGGATTRNDRIPEANNKNDGHLAQCPGSPRISPFPSLPDMSPKKVSATHNVYVSPLRSSKMDALISHSSKSYYACVGESTHAYQSPSKDLTAINNRLNGNRKVRGPLNFDDVDVGLVSDSMVANSLYLQNGSSASSSGAPLKSEQPDS
Regulator of biological processes that recruits a histone deacetylase to control gene transcription. May play a role in the entry into mitosis, negatively regulating the cell proliferation. Formation of stable complexes with geminiviridae replication-associated proteins may create a cellular environment which favors viral DNA replication (By similarity). Subcellular locations: Nucleus
RFC5_ORYSJ
Oryza sativa subsp. japonica
MLWVDKYRPKTLDKVTVHDQVAQNLKKLVAEQDCPHLLFYGPSGSGKKTLVMALIKQMFGAGADKVKMENKTWKIDTGSRNIEIELAMLSSAHHVEMNPSDAGFQDRYVVQEVIKEMAKNRPIDAKGKRAFKVLVLNEVDKLSREAQHSLRRTMEKYSASCRLILCCNSSSKVTEAVRSRCLNVRVNAPSEDQIVQVLEFIGKKENLQLPFGFAARIAAQSNRNLRRAILFFETCKVQQYPFTSNQVAPPLDWEQYVSEIAADIMKEQSPKRLFAVRQKFYELLVNCIPPESILKKLLAELLKKLDSDLKHEICHWAAHYEHKMRLGSKAIFHLEAFVAKFMSIYKEFLVSTFG
May be involved in DNA replication and thus regulate cell proliferation. Subcellular locations: Nucleus Expressed in roots, leaves, shoot apical meristem (SAM), flag leaves and panicles.
RGA1_SOLBU
Solanum bulbocastanum
MAEAFIQVVLDNLTSFLKGELVLLFGFQDEFQRLSSMFSTIQAVLEDAQEKQLNDKPLENWLQKLNAATYEVDDILDEYKTKATRFLQSEYGRYHPKVIPFRHKVGKRMDQVMKKLNAIAEERKKFHLQEKIIERQAATRETGSVLTEPQVYGRDKEKDEIVKILINTASDAQKLSVLPILGMGGLGKTTLSQMVFNDQRVTERFYPKIWICISDDFNEKRLIKAIVESIEGKSLSDMDLAPLQKKLQELLNGKRYFLVLDDVWNEDQHKWANLRAVLKVGASGAFVLTTTRLEKVGSIMGTLQPYELSNLSPEDCWFLFMQRAFGHQEEINPNLMAIGKEIVKKCGGVPLAAKTLGGILRFKREEREWEHVRDSPIWNLPQDESSILPALRLSYHHLPLDLRQCFVYCAVFPKDTKMAKENLIAFWMAHGFLLSKGNLELEDVGNEVWNELYLRSFFQEIEVESGKTYFKMHDLIHDLATSLFSANTSSSNIREINANYDGYMMSIGFAEVVSSYSPSLLQKFVSLRVLNLRNSNLNQLPSSIGDLVHLRYLDLSGNFRIRNLPKRLCKLQNLQTLDLHYCDSLSCLPKQTSKLGSLRNLLLDGCSLTSTPPRIGLLTCLKSLSCFVIGKRKGHQLGELKNLNLYGSISITKLDRVKKDTDAKEANLSAKANLHSLCLSWDLDGKHRYDSEVLEALKPHSNLKYLEINGFGGIRLPDWMNQSVLKNVVSIRIRGCENCSCLPPFGELPCLESLELHTGSADVEYVEDNVHPGRFPSLRKLVIWDFSNLKGLLKMEGEKQFPVLEEMTFYWCPMFVIPTLSSVKTLKVIVTDATVLRSISNLRALTSLDISDNVEATSLPEEMFKSLANLKYLKISFFRNLKELPTSLASLNALKSLKFEFCDALESLPEEGVKGLTSLTELSVSNCMMLKCLPEGLQHLTALTTLTITQCPIVFKRCERGIGEDWHKIAHIPYLTLYE
Disease resistance protein. Resistance proteins guard the plant against pathogens that contain an appropriate avirulence protein via a direct or indirect interaction with this avirulence protein. That triggers a defense system which restricts the pathogen growth.
RGP3_ORYSJ
Oryza sativa subsp. japonica
MASSDAAAAQAATPLLKDELDIVIPTIRNLDFLEMWRPFFQPYHLIIVQDGDPKKTIRVPEGFDYELYNRDDINRILGPRASCISFKDSACRCFGYMVSKKKYIYTIDDDCFVAKDPSGKDINALEQHIKNLLNPSTPFFFNTLYDPYRDGADFVRGYPFSLREGAPTAVSHGLWLNIPDYDAPTQLVKPLERNSRYVDAVMTIPKGTLFPMCGMNLAFDRDLIGPAMYFGLMGDGQPIGRYDDMWAGWCTKVITDHLGLGVKTGLPYIWHSKASNPFVNLKKEYNGIFWQEELIPFFQSASLPKEADTVQKCYLELAKQVRAKLGKVDGYFNKLADSMVTWIEAWDQLNPPKGAVATANGTAKSK
UDP-L-arabinose mutase involved in the biosynthesis of cell wall non-cellulosic polysaccharides. Catalyzes the interconvertion of UDP-L-arabinopyranose (UDP-Arap) and UDP-L-arabinofuranose (UDP-Araf). Preferentially catalyzes the formation of UDP-Arap from UDP-Araf. At thermodynamic equilibrium in vitro the ratio of the pyranose form over the furanose form is 90:10. Is probably active as heteromer in vivo. Subcellular locations: Golgi apparatus
RH36_ORYSJ
Oryza sativa subsp. japonica
MEVDGEARPFLLFSKPKSSKKKPKQEAEPQVHTQPEEPPNPSPSPAIEPDLRDSDEAPAAAVTEHAGDDAAAAAVPSTFAELGLSQWLVDVCDSLGMRVPTAVQRRCIPRALEGRDVLGIAETGSGKTAAFALPILHRLGEDPYGVAALALAPTRELAAQLAEQFRALGAPLGLRCLAAIGGFDSLGQAKGLARRPHVVVATPGRIATLINDDPDLAKVFARTKFLVLDEADRVLDINFEEDLRVIFGSLPKKRQTFLFSATISDNLRSLLELSGNNSYFFEAYEGFKTVDTLKQLYIHVPPDAKELYLFYLLSKMNEDNIRSVIVFVSTCRTCQYLDFLLEELGHPAVSLHSHKPQSRRLAALHNFKSSKVPVLLATDVASRGLDIQTVDLVINYDVPRYPRDYIHRVGRTARATRGGLSISFITTQRDIRLLHEIEDVVGKQLGAYDGEMRDVNKDATKVFKARRLANMKMADEGHEDKVQARKEQKKRAQERKRKHDE
null
RH37_ORYSJ
Oryza sativa subsp. japonica
MRSSWADSVANAEESAPATGAAPTPVANHQNSRPTRSAYVPPHLRGQAPTTTAAPAPAPGPAAVQPSASVQPSGYAAIVGGSRWAGPASGDGTGAVGGPRQSVGGRGGGGGGGGGWNSRPGWDRRDREPNPFANSEAEEATEVDFDTANTGINFDAYEDIPVETSGHDVPPPVNTFAEIDLGDALNENIRRCKYVKPTPVQRYAIPISIAGRDLMACAQTGSGKTAAFCFPIISGIMSSRPPQRPRGSRTAYPLALILSPTRELSVQIHEEARKFAYQTGVRVVVAYGGAPIHQQLRELERGVEILVATPGRLMDLLERARVSLQMVKYLALDEADRMLDMGFEPQIRKIVEQMDMPPRGVRQTMLFSATFPKEIQRMASDFLADYIFLAVGRVGSSTDLIAQRVEFVLEADKRSYLMDLLHAQKANGTHGKQALTLVFVETKRGADALENWLYTNGFPATSIHGDRTQQEREYALRSFKSGATPILVATDVAARGLDIPHVAHVINFDLPNDIDDYVHRIGRTGRAGKSGLATAFFNEGNLSLARPLCELMQEANQEVPQWLERYSARSSFGGGGGRNRRSGGARFGGRDFRRDNRGGGGGGYGGGGGGYGGGGYGGGGGYGGGYGGGQGSTSSWD
null
RH38_ORYSJ
Oryza sativa subsp. japonica
MADGGKPPTPEKKSWADVEEEEEAKAKAAAAAEAASSSSSNEPAVDAQAKQIEALSLSVPEEHGGSGGGGDDQGPPLLDDSDESQIQAVTSGGTVYESAAAFEDLKLTPELLKGLHDEMGFSRPSKIQAVTLPMILTPPYKDLIAQAHNGSGKTTCFVLGMLSRVDPNRKVTQAICICPTRELAQQNKSVLMRMGKFTGITCACAIPPAQKDYVPIAKMPKITDQVVIGTSGTLMKWINHKKILTNDIKILVFDEADHMLAEDGFRSDSERIMRDIQRSAGGCQVLLFSATFNERVKDFVTRVIKDGNQIFVKKEELTLEKVKQYKVQVPDERAKIAVIKDKIFEFGQKVGQVIIFVRTKQSTKDVHNALTLEDYVCSSIQGSLDQSEREKIIQEFKNGYTKVLISTDVLARGFDQAQVNLVINYDMPIKFGTRDEPDYEVYLHRIGRAGRFGRKGAVFNLLCGETDNTVMRKIETYFQHNVPEVRNWQSEEDFERALKDAGLVE
ATP-dependent RNA helicase essential for mRNA export from the nucleus. Plays an important role in the positive regulation of CBF/DREB transcription factors (By similarity). Subcellular locations: Cytoplasm, Nucleus
RH39_ORYSJ
Oryza sativa subsp. japonica
MAMAGAAGRCLMLTRPSPLLRLRLLRAALATTTTTTTAAGASAVTAPTEPETTAREAPSRHELLLERLRQRHLKGVPAATPRPAQREKGRGGGGGGAQELQQKRRVEVVDSFEELGLGEEVMAALGEMGISKPTEIQCVGVPAVLAGTSVVLGSHTGSGKTLAYLLPLVQLLRRDEAMLGMSMKPRRPRAVVLCPTRELTEQVFRVAKSISHHARFRSTMVSGGSRIRPQEDSLNMPVDMVVGTPGRILDHIKDGNMVYGDIKYLVLDEADTMFDQGFGPDIRKFLAPLKNRAAKPGDQGFQTVLVTATMTKAVQKLIDEEFEGIVHLRTTTFQKRVATARHDFIKLSGSENKLEALLQVLEPSLAKGNKVMVFCNTLNSSRAVDHFLTENQISTVNYHGEVPAEERVENLNKFRNEEGDCPTLVCTDLAARGLDLDVDHVIMFDFPSNSIDYLHRTGRTARMGAKGKVTSLVAKKDVTLATRIEEAMKKNESLEALTTNNVRRAAVNPQYTSTKGRPSALKVVNQKGRRGVALQTKSSRIVKDTTSSRRRSPIRSQPRSKSTSSGKAKPVRSAKPSKSSSPSPKVAKSRPRPEGRKGDALNKLGSKLSVVGFRGRSSGKSAQAS
null
RH3A_MAIZE
Zea mays
MASLVTLPAIAFSNPATASGAVRLRAAAFRCWALRRRGWAVAAAVASPNSVLSEHAFKRLQLGSDDEDEEGPYGSDADEGFQGDEEELAIARLGLPDELVATLEKRGITHLFPIQRAVLIPALGGRDLIARAKTGTGKTLAFGIPMIKQLMEQDDGRSTRRGRTPRVLVLAPTRELAKQVEKEIKESAPKLGTVCVYGGVSYNVQQNALSRGVDVVVGTPGRIIDLINGGSLQLGEVQYLVLDEADQMLAVGFEEDVETILQQLPADRQSMLFSATMPSWVKKLSRRYLNNPLTIDLVGDQDEKLAEGIKLHAIPLTATSKRTILSDLITVYAKGGKTIVFTRTKKDADEVSLALTTSIASEALHGDISQHQRERTLNGFRQGKFTVLVATDVAARGLDIPNVDLIIHYELPNDPETFVHRSGRTGRAGKAGTAILMFTSSQKRTVMSLERDVGCKFEFISPPSIEEVLESSAEHVIATLRGVHPESTQYFLGAAEKLTEELGPHALASALAHLSGFSQPPSSRSLISYEQGWVTLQLTREPGYGRGFFSPRSVTGFLSDVCSAAADEVGKIYITADENVQGAVFDLPEEIAKDLLTMEVPPGNTLTKISKLPALQDDSPATDSYGRFSNDRGSRNRRSRGGGASRGRGGWDTDSEDRYRRGGRSLRSDNDSWSDDDWSGGGRKSNRSSSSFGGRSSSYGSRGSPSPSFGVRSSSLGGRESSRSFSGACFNCGESGHRASDCPNK
Nuclear genome-encoded factor involved in ribosome biogenesis in chloroplasts. Binds specific group II introns in chloroplasts and facilitates their splicing. Required for normal development of chloroplasts. Subcellular locations: Plastid, Chloroplast
RH3B_MAIZE
Zea mays
MASLTLPALALALSNPGAVRLRAAAFRCWALRRRGWAAAGALASPNSVLSEHAFKRLQLGSDDEDGEGPYGSDADEGFEAGEGDNEELAIARLGLPDELVATLEKRGITHLFPIQRAVLIPALEGRDLIARAKTGTGKTLAFGIPMIKQLIEQDDGRITRRGRTPRVLVLAPTRELAKQVEKEIKESAPKLGTVCVYGGVSYNVQQNALSRGVDVVVGTPGRIIDLINGGSLQLGEVQYLVLDEADQMLAVGFEEDVETILQQLPAGRQSMLFSATMPSWVKKLSRRYLNNPLTIDLVGDQDEKLAEGIKLYAIPLTTTSKRTVLSDLITVYAKGGKTIVFTRTKKDADEVSLALTNSIASEALHGDISQHQRERTLNGFRQGKFTVLVATDVAARGLDIPNVDLIIHYELPNDPETFVHRSGRTGRAGKAGTAILMFTSSQKRTVKSLERDVGCNFEFISPPSIEEVLESSAEHVIATLRGVHPESTKYFLGAAEKLTEELGPHALASALAHLSGFSQPPSSRSLISHEQGWVTLQLTREQGFGRGFFSPRSVTGFLSDVCSAAADEVGKIYLTADENVQGAVFDLPEEIAKDLLTMELPPGNTLTKISKLPALQDDGPATDSYGRFSNDRGSRNNRRSRGGGASRGRGGWDTDGEDRFRRGGRSLRSDNDSWSDDDWSGGGRKSNRSSSFGSRSSSYSSRGSPSFGGRSSSFGGRESNRSFSGACFNCGESGHRATDCPNK
Nuclear genome-encoded factor involved in ribosome biogenesis in chloroplasts. Binds specific group II introns in chloroplasts and facilitates their splicing. Is required for rRNA maturation in plastids and may contribute to the assembly of the large (50S) ribosomal subunit. Required for normal development of chloroplasts. Subcellular locations: Plastid, Chloroplast stroma
RH3_ORYSJ
Oryza sativa subsp. japonica
MASLLTLPSLSLSNPSASAAAAGAGAAPSLRLRAAFRCWALRRAGGGRWAAAGAIASPNSVLSEHAFKRLQLSDEEEEEEEGAYGSDEEGVEAVGGGEGDEDELAIARLGLPEQLVSTLEKRGITHLFPIQRAVLIPALDGRDLIARAKTGTGKTLAFGIPMIKQLMEEDDGRSVRRGRIPRVLVLAPTRELAKQVEKEIKESAPKLSTVCVYGGVSYNVQQNALSRGVDVVVGTPGRIIDLINGGSLQLGEVKYLVLDEADQMLAVGFEEDVETILQQLPAERQSMLFSATMPGWVKKLSRRYLNNPLTIDLVGDQDEKLAEGIKLYAIPLTSTSKRTVLSDLITVYAKGGKTIVFTKTKRDADEVSLALTNSIASEALHGDISQHQRERTLNGFRQGKFTVLVATDVAARGLDIPNVDLIIHYELPNDPETFVHRSGRTGRAGKAGTAILMFTNSQRRTVRSLERDVGCRFDFISPPAIEDVLESSAEHVIATLRGVHTESIQYFIPAAERLQEELGPNALASALAHLSGFSQPPSSRSLISHEQGWVTLQLTRDPGYGRGFFSPRSVTGFLSDVSSAAADEVGKIFLTADEKVQGAVFDLPEEIARDLLSMELPPGNTITKVTKLPALQDDGPATDSYGRFSNSDRGFRNRRSRGGGSRGGRGGWDSDGEDRFRRGGRSFRSDNDSWSDDDFGGGRRSNRSSSFGGRGSSYGSRSSSSFGGRSSSFGSRDSSRSFSGACFNCGESGHRASDCPNK
Nuclear genome-encoded factor involved in ribosome biogenesis in chloroplasts. Binds specific group II introns in chloroplasts and facilitates their splicing. Required for normal development of chloroplasts. Subcellular locations: Plastid, Chloroplast
RH40_ORYSJ
Oryza sativa subsp. japonica
MSAGTAPAAPRYAPDDPSLPKPWRGLVDGTTGYLYYWNPETNITQYEKPLPPEDQLPPPPPLPPPPPRSGRGDRDRDRRDRSRSRTPPRRDHRDRDRDRDRRHDDHRSAPSHHHPLPAAAAIAADDPSTEAYRHRHEITVVGDNVPAPITSFETGGFPPEILKEIQRAGFSSPTPIQAQSWPIALQCQDVVAIAKTGSGKTLGYLLPGFMHIKRLQNNPRSGPTVLVLAPTRELATQILEEAVKFGRSSRISSTCLYGGAPKGPQLRDLDRGVDVVVATPGRLNDILEMRRISLKQVSYLVLDEADRMLDMGFEPQIRKIVKEIPPRRQTLMYTATWPKEVRRIAEDLLVHPVQVTIGSVDELVANSAITQNVELITPSEKLRRLEQILRSQDSGSKVLIFCTTKRMCDQLARTLTRQFGASAIHGDKSQSEREKVLSHFRSGRSPILVATDVAARGLDIKDIRVVINYDFPTGIEDYVHRIGRTGRAGATGVAYTFFCDQDSKYAADLIKILEGANQRVPRDLADMASRGGRGGRKRNRWATRSDRGGSHSELDSRYGGRDGLSGSSGRLDSSRSSRRHDYGDDGRSRRSGRGRSRSRSRSDSDRYSRSPKRSRRHSRSRTRSRSRSRSRSYTRNRRASRSRSRSPGASRRHERSATGSGSALPDSGHGERKRTPEADPSRNHTNHSDPKDDRHPEDGKVGKVDLDRSPTPQDKSGPYSPAYNGKTSRSVSPGNQVEGNNKAAEVSKNPDPSSPPHHGKTREDEEEGMIDEDGEIADDPRANATVQNGGDN
ATP-dependent RNA helicase involved nonsense-mediated mRNA decay and ribosome biogenesis through rRNA processing. Subcellular locations: Nucleus
RH41_ORYSJ
Oryza sativa subsp. japonica
MEQEENHSADHLSAQPGNGNELEESSVKERCFEQREALVGEPRCVICGRYGEYICDQTDDDICSVECKTILLSKLSAETRPVVKAAKRVNLPVGDESFCIRDENFPKIPSMHDGQIASLRSKLDICVKGEDVPDPIMCFSSSGLPEKLVLNLEAAGYVMPTPVQMQVIPSSICNRSLLVSADTGSGKTASFLVPIIAHCSHVRSERCTDKQGPLAIVLAPTRELCLQVEEQAKVLGKGLPFKTALVVGGDPLAQQIYRIENGIELIVGTPGRLIDLLMKHNVDLNKVDVFVLDEVDCLLERGFRDQVMQIFQALSHPQVMMFSATVNSEVEKMSNSLAKNAIHISCGNPSRPNKSVKQVVIWVESKQKKQKIFEIMTSKQHFKPPAVVFVSSRIGADLLSEAITVATGLKVVSIHGDKTMNERRESLRRFLTGEVSVVVCTGVLGRGMDLLKVRQVILFDMPNSIDEYVHQVGRASRMGVEGMAIVFVNEEDRNLFRELVQILKTAGAPIPRELANSKYTTGIPLGGGKKRKLKSR
null
RK10_SPIOL
Spinacia oleracea
MESTLFLSKPLPTTIKTTTHSLSSVYPNPFKPNNLTFPRTTHKHPTTTTITAAISRTKKEETVETVQKHLENCYLLAAINYKGFTVKQFQDLRKALPENTTLIVAKNTLVEKAVQDTQWAAIKPCMKGMNAWLFVHSEEIPIAIKPYRTFQKERKLEDNDFTGACFEGKFYGPGEVKRLETMPSKAEIFAKLLGSLKSPGSALVGTLQAPARDLVFLLKAYIKKLEDEQQQG
Component of the chloroplast ribosome (chloro-ribosome), a dedicated translation machinery responsible for the synthesis of chloroplast genome-encoded proteins, including proteins of the transcription and translation machinery and components of the photosynthetic apparatus. Subcellular locations: Plastid, Chloroplast
RK11_SPIOL
Spinacia oleracea
MAQPLVAAPSSSSITSPIPRKLCSSLLTPSSLSLSSNPRNSLQFLNSKLFLSPPSTSHRRLSIVAMAPKPGKAKKVIGVIKLALEAGKATPAPPVGPALGSKGVNIMAFCKDYNARTADKPGFVIPVEITVFDDKSFTFILKTPPASVLLLKASGAEKGSKDPQMEKVGKITIDQLRGIATEKLPDLNCTTIESAMRIIAGTAANMGIDIDPPILVKKKKEVIF
Component of the chloroplast ribosome (chloro-ribosome), a dedicated translation machinery responsible for the synthesis of chloroplast genome-encoded proteins, including proteins of the transcription and translation machinery and components of the photosynthetic apparatus. Subcellular locations: Plastid, Chloroplast
RK22_ORYNI
Oryza nivara
MTSFKLVKYTPRIKKKKSGLRKLARKVPTDRLLKFERVFKAQKRIHMSVFKVQRVLDEIRWRYYEETVMILNLMPYRASYPILKLVYSAAANATHYRDFDKANLFITKAEVSRSTIMNKFRPRARGRSSPIKKTMCHITIVLNIVKKSK
This protein binds specifically to 23S rRNA. The globular domain of the protein is located near the polypeptide exit tunnel on the outside of the subunit, while an extended beta-hairpin is found that lines the wall of the exit tunnel in the center of the 70S ribosome. Subcellular locations: Plastid, Chloroplast
RK22_ORYSA
Oryza sativa
MTSFKLVKYTPRIKKKKSGLRKLARKVPTDRLLKFERVFKAQKRIHMSVFKVQRVLDEIRWRYYEETVMILNLMPYRASYPILKLVYSAAANATHYRDFDKANLFITKAEVSRSTIMNKFRPRARGRSSPIKKTMCHITIVLNIVKKSK
This protein binds specifically to 23S rRNA. The globular domain of the protein is located near the polypeptide exit tunnel on the outside of the subunit, while an extended beta-hairpin is found that lines the wall of the exit tunnel in the center of the 70S ribosome. Subcellular locations: Plastid, Chloroplast
RK22_ORYSI
Oryza sativa subsp. indica
MTSFKLVKYTPRIKKKKSGLRKLARKVPTDRLLKFERVFKAQKRIHMSVFKVQRVLDEIRWRYYEETVMILNLMPYRASYPILKLVYSAAANATHYRDFDKANLFITKAEVSRSTIMNKFRPRARGRSSPIKKTMCHITIVLNIVKKSK
This protein binds specifically to 23S rRNA. The globular domain of the protein is located near the polypeptide exit tunnel on the outside of the subunit, while an extended beta-hairpin is found that lines the wall of the exit tunnel in the center of the 70S ribosome. Subcellular locations: Plastid, Chloroplast
RK22_ORYSJ
Oryza sativa subsp. japonica
MTSFKLVKYTPRIKKKKSGLRKLARKVPTDRLLKFERVFKAQKRIHMSVFKVQRVLDEIRWRYYEETVMILNLMPYRASYPILKLVYSAAANATHYRDFDKANLFITKAEVSRSTIMNKFRPRARGRSSPIKKTMCHITIVLNIVKKSK
This protein binds specifically to 23S rRNA. The globular domain of the protein is located near the polypeptide exit tunnel on the outside of the subunit, while an extended beta-hairpin is found that lines the wall of the exit tunnel in the center of the 70S ribosome. Subcellular locations: Plastid, Chloroplast
RK22_PEA
Pisum sativum
MALSLAINVPPVRDNLLRPQPFQSQFRPNLLKFPIPSSARIRCSSSSSFNDISLKTVTPDNKNSFVCRFNATQLEVQETNQPYAETYAVGRHIRMSADKARRVVDQIRGRPYEASLMVLELMPYRACEAIIKIVFSAGANASHNLGLSKSSLFISKAEVNEGKTLKRVRARAQGRANQILKRTCHITITVRGLPDESDKEENSS
This protein binds specifically to 23S rRNA. The globular domain of the protein is located near the polypeptide exit tunnel on the outside of the subunit, while an extended beta-hairpin is found that lines the wall of the exit tunnel in the center of the 70S ribosome. Subcellular locations: Plastid, Chloroplast
RK27_ORYSJ
Oryza sativa subsp. japonica
MASMAFTLVGAFKGMSLSSPCHSSSSASFLRADRVSLSVGGGVGMGVPMTMPVRRLTIQMAHKKGAGSTKNGRDSPGQRLGVKIYGDQVAKPGAIIIRQRGTRVYPGNNVGMGKDHTLFSLIDGLVKFEKYGPDKKKVSVYPYEKQPENPNSYRARKREYFRMQRERKKARAEGIVEVQLVLAAADESPEVNADC
Subcellular locations: Plastid, Chloroplast
RK27_SPIOL
Spinacia oleracea
MAVTTSMSFNLMASFRGMSLSSSSSSSFFKGEFGPSSLRLPNKSPLSVSPFPLTIESAHKKGAGSTKNGRDSKGQRLGVKIYGDQVAKPGAIIIRQRGTKFHPGKNVGIGKDHTIFALIDGLVKFEKYGPDKKKVSVYPREIQPENPNSYRARKRENFRLQREKKKARREGYSFQPQLILASAATDNADESAVC
Component of the chloroplast ribosome (chloro-ribosome), a dedicated translation machinery responsible for the synthesis of chloroplast genome-encoded proteins, including proteins of the transcription and translation machinery and components of the photosynthetic apparatus. Subcellular locations: Plastid, Chloroplast
RK28_SPIOL
Spinacia oleracea
MAASGMLISNPSNVCFRKPQFSCSLKPKATVSELGFLTSQLSGIQISPSPLFPIISKPISAPLKPSLQPVARRICPFTGKKSNKANRVSHSNHKTKRLQFVNLQYKRVWWEAGKRFVKLRLSTKALKTIEKNGLDAVAKKAGIDLRKE
Component of the chloroplast ribosome (chloro-ribosome), a dedicated translation machinery responsible for the synthesis of chloroplast genome-encoded proteins, including proteins of the transcription and translation machinery and components of the photosynthetic apparatus. Subcellular locations: Plastid, Chloroplast
RK32_HORVU
Hordeum vulgare
MAVPKKRTSMSKKRIRKNIWKKKTYFSIVQSYSLVKSRSFSSGNEHPKPKGFSGQQTNK
Subcellular locations: Plastid, Chloroplast
RK32_LACSA
Lactuca sativa
MAVPKKRTSISKKRIRKNIWKRKGYWAALKALSLGKSLSTGNSKSFFVRQTNKS
Subcellular locations: Plastid, Chloroplast
RK32_LOTJA
Lotus japonicus
MAVPKKRTSISKKLIRKNFWKKRGYWTALKAFSLAQSIFTGNSKSFFCNK
Subcellular locations: Plastid, Chloroplast
RK32_MAIZE
Zea mays
MAVPKKRTSMSKKRIRKNLWKKKTYFSIVQSYSLAKSRSFSRGNEHPKPKGFSGQQANK
Subcellular locations: Plastid, Chloroplast
RK33_ORYSI
Oryza sativa subsp. indica
MAKGKDVRIRVILQCVSCVRKGANEESAGISRYSTQKNRHNTPGQLELRKFCRYCRKHTIHAEIKK
Subcellular locations: Plastid, Chloroplast
RK33_ORYSJ
Oryza sativa subsp. japonica
MAKGKDVRIRVILQCVSCVRKGANEESAGISRYSTQKNRHNTPGQLELRKFCRYCRKHTIHAEIKK
Subcellular locations: Plastid, Chloroplast
RK33_PEA
Pisum sativum
SRGISRYITKKNRHNTPSRLELRKFCPFCCKHMIHAEIKK
Subcellular locations: Plastid, Chloroplast
RK36_WHEAT
Triticum aestivum
MKIRASVRKICTKCRLIRRRGRIRVICSNPKHKQRQG
Subcellular locations: Plastid, Chloroplast
RL19_MAIZE
Zea mays
LKLQKRLAASYLKCGKGKVWLDPNEVSEISMANSRQNIRKLVKDGFIIKKPHKIHSRSRCKK
null
RL24_HORVU
Hordeum vulgare
MVLKTELCRFSGQKIYPGKGIRFIRSDSQVFLFANSKCKRYFHNRLKPAKLCWTAMYRKQHKKDIHAEAAKKRRRTTKKPYSRSIVGATLEVIQKKRAEKPEVRDAAREAALREIKERIKKTKDEKKAKKAEVTKSQKSQGGKGAVQKGSKGPKLGGGGGKR
Subcellular locations: Cytoplasm
RL30_WHEAT
Triticum aestivum
MAPTKKAKKSGENINNKLQLVMKSGKYTLGYKTVLKTLRSSLGKLIILANNCPPLRKSEIETYAMLAKISVHHFHGNNVDLGTACGKYYRVCCLSILDPGDSDIISTTTTTQ
Expressed in roots and leaves.
RLA0_LUPLU
Lupinus luteus
MAPKATKAEKKIVYDGKLCQLLDEYTQILVVNADNVGSKQLQNIRQGLRGDSVVLMGKNTMMKRSVRIHAEKTGNQAFLNLIPLLIGNVGLIFTKGYLKEVSEEVAKYKVGAPACVGLVAPIDVVVPPGNTGLDPSQTSFFQVLNIPTKINKGTVEIITPVELIKKGDKVGSSEAALLAKLGIRPFSYGLVVLSVYDNGSVFKPEVLDLTEDDLLEKFAIGVSQCYFSDTSHFIPNPSAAPHVFINAYKNVLAVAVATEYSFPQADEVKEYLKDPSKFAAVAAAAAPAADSGAAPAAAAKAEKEEEPAEESDDEMGFGLFDE
Ribosomal protein P0 is the functional equivalent of E.coli protein L10.
RLA0_MAIZE
Zea mays
MAIKRTKAEKKIAYDKKLCSLLDEYTKVLIALADNVGSKQLQDIRRGLRGDSVVLMGKNTLIRRCIKVYAEKTGNHTFDPLMDLLVGNVGLIFTKGDLKEVREEVAKYKVGAPARVGLVAPVDVVVPPGNTGLDPSQTSFFQVLNIPTKINKGTVEIITPVELIKKGEKVGSSESALLAKLGIRPFSYGLQVTSVYEDGSVFSPEVLDLSEEDLIEKFATGVSMVASLSLAISYPTLAAVPHMFINGYKNVLAVAVETDYSYPHADKIKEYLKDPSKFAVAAPVAAGDSGASAAPKEEEKAAEPEEESDEEMGFSLFDD
Ribosomal protein P0 is the functional equivalent of E.coli protein L10.
RLA0_ORYSJ
Oryza sativa subsp. japonica
MAIKRTKAEKKVAYDKKLCQLLDEYTKVLIAVADNVGSNQLQEIRKGLRGDSIVLMGKNTLIRRCIKVHADNTGNKEFLELMPLLVGNVGLIFTKGDLKEVREEVAKYKVGAPARVGLVAPVDVVVPPGNTGLDPSQTSFFQVLNIPTKINKGTVEIITPVELIKKGDKVGSSESALLAKLGIRPFSYGLVITNVYDSGSVFSPEVLDLTEDDLMEKFASGVSMVASVSLAISYPTIAAAPHMFLNGYKNVLAVAVETEYSYPHADKIKEYLKDPSKFAVAAPVAADSGAAAPSAAKEEEKKEEPEEESDGDLGMSLFD
Ribosomal protein P0 is the functional equivalent of E.coli protein L10. Highly expressed in stems, inflorescences and immature seeds (at protein level) . Expressed in leaves and mature seeds (at protein level) .
RMA1_CAPAN
Capsicum annuum
MNQDMALEQLDTTFNKHDTPLGKWKSMNDEVEENISGGFDCNICLDCVHEPVITLCGHLYCWPCIYKWIYFQSVSSENSDQQQPQCPVCKAEVSEKTLIPLYGRGGQSTKPSEGKAPNLGIVIPQRPPSPRCGGHFLLPTTDSNPSQLLQRRGYQQQSQTRQPAYQGSYMSSPMLSPGGATANMLQHSMIGEVAYARIFGNSSTTMYTYPNSYNLAISSSPRMRRQLSQADRSLGRICFFLFCCFVTCLILF
E3 ubiquitin-protein ligase required for aquaporin levels regulation. Subcellular locations: Endoplasmic reticulum membrane Localization experiments made in a heterologous system.
RPAP2_ORYSI
Oryza sativa subsp. indica
MGPTTATDAGARMKPTTVASAVHRVQMALYDGAAASREPLLRAAASLLSGPDYADVVTERSIADACGYPACPNPLPSEDARGKAAPRFRISLREHRVYDLEEARKFCSERCLVASAAFGASLPPDRPFGVSPDRLDALVALFEGGGGGGGDGGLALGFGASGDGKEVEEGRKVEIMEKEAAGTGEVTLQEWIGPSDAIEGYVPRRDRVVGGPKKEAKQNDACSAEQSSNINVDSRNASSGESGMVLTENTKAKKKEATKTPLKMFKQDEDNDMLSSCISDSIVKQLEDVVLEEKKDKKKNKAAKGTSRVGKSKPAKRPVGRDGHEVDFTSTIIMGDHGSEMMDHGALGQYNFSSSILANEQPSSSQYAAIDSVQAYTEELDELFSNAVNIAKDETSDDSGRCTLRSSLKAVGSKNAGRSVKWADENGSVLETSRAFVSHSSKSQESMDSSVRRESAEACAAALIEAAEAISSGTSEVEDAVSKAGIIILPDMVNQQQYNNDYDNDKDAGENEIFEIDRGVVKWPKKTVLLDTDMFDVDDSWHDTPPEGFSLTLSSFATMWAALFGWVSRSSLAYVYGLDESSMEDLLIAGGRECPQKRVLNDGHSSEIRRALDTCVCNALPVLVSNLRMQIPVSKLEITLGYLLDTMSFVDALPSLRSRQWQLMVLVLLDALSLHRLPALAPIMSDSKLLQKLLNSAQVSREEYDSMIDLLLPFGRSTQSQASLPS
Putative RNA polymerase II subunit B1 C-terminal domain (CTD) phosphatase involved in RNA polymerase II transcription regulation. Subcellular locations: Nucleus
RPAP2_ORYSJ
Oryza sativa subsp. japonica
MGPTTATDTGARMKPTTVASAVHRVQMALYDGAAASREPLLRAAASLLSGPDYADVVTERSIADACGYPACPNPLPSEDARGKAAPRFRISLREHRVYDLEEARKFCSERCLVASAAFGASLPPDRPFGVSPDRLDALVALFEGGGGGGDDGGLALGFGASGDGKEVEEGRKVEIMEKEAAGTGEVTLQEWIGPSDAIEGYVPRRDRVVGGPKKEAKQNDACSAEQSSNINVDSRNASSGESGMVLTENTKAKKKEATKTPLKMFKQDEDNDMLSSCISDSIVKQLEDVVLEEKKDKKKNKAAKGTSRVGKSKPAKRPVGRDGHEVDFTSTIIMGDRGSEMMDHGALGQYNFSSSILANEQPSSSQYAAIDSVQAYTEELDELFSNAVNIAKDETSDDSGRCTLRSSLKAVGSKNAGHSVKWADENGSVLETSRAFVSHSSKSQESMDSSVRRESAEACAAALIEAAEAISSGTSEVEDAVSKAGIIILPDMVNQQQYNNDYDNDKDAGENEIFEIDRGVVKWPKKTVLLDTDMFDVDDSWHDTPPEGFSLTLSSFATMWAALFGWVSRSSLAYVYGLDESSMEDLLIAGGRECPQKRVLNDGHSSEIRRALDTCVCNALPVLVSNLRMQIPVSKLEITLGYLLDTMSFVDALPSLRSRQWQLMVLVLLDALSLHRLPALAPIMSDSKLLQKLLNSAQVSREEYDSMIDLLLPFGRSTQSQASLPS
Putative RNA polymerase II subunit B1 C-terminal domain (CTD) phosphatase involved in RNA polymerase II transcription regulation. Subcellular locations: Nucleus
RPB7_SOYBN
Glycine max
MFFHIVLERNMQLHPRYFGRNLRDNLVSKLMKDVEGTCSGRHGFVVAVTGIENIGKGLIRDGTGFVTFPVKYQCVVFRPFKGEILEAVVTMVNKMGFFAEAGPVQIFVSNHLIPDDMEFQSGDMPNYTTSDGSVKIQKDSEVRLKIIGTRVDATEIFCIGTIKDDFLGVINDPATV
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Component of RNA polymerase II which synthesizes mRNA precursors and many functional non-coding RNAs. Pol II is the central component of the basal RNA polymerase II transcription machinery. It is composed of mobile elements that move relative to each other. RPB7 is part of a subcomplex with RPB4 that binds to a pocket formed by RPB1, RPB2 and RPB6 at the base of the clamp element. The RPB4-RPB7 subcomplex seems to lock the clamp via RPB7 in the closed conformation thus preventing double-stranded DNA to enter the active site cleft. The RPB4-RPB7 subcomplex binds single-stranded DNA and RNA (By similarity). Subcellular locations: Nucleus
RPOA_AEGCM
Aegilops comosa
MVREEVAGSTQTLQWKCVESRVDSKRLYYGRFILSPLRKGQADTVGIALRRALLGEIEGTCITRAKFGSVPHEYSTIAGIEESVQEILLNLKEIVLRSNLYGVRDASICVKGPRYITAQDIILPPSVEIVDTAQPIANLTEPIDFCIDLQIKRDRGYQTELRKNYQDGSYPIDAVSMPVRNVNYSIFSCGNGNEKHEILFLEIWTNGSLTPKEALYEASRNLIDLFLPFLHAEEEGASFEENKNRFTPPLFTFQKRLTNLKKNKKGIPLNCIFIDQLELTSRTYNCLKRANIHTLLDLLSKTEEDLLRIDSFRMEDRKHIWDTLEKHLPIDLLKNKLSF
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Subcellular locations: Plastid, Chloroplast
RPOA_AEGSP
Aegilops speltoides
MVREEVAGSTQTLQWKCVESRVDSKRLYYGRFILSPLRKGQADTVGIALRRALLGEIEGTCITRAKFGSVPHEYSTIAGIEESVQEILLNLKEIVLRSNLYGVRDASICVKGPRYITAQDIILPPSVEIVDTAQPIANLTEPIDFCIDLQIKRDRGYQTELRKNYQDGSYPIDAVSMPVRNVNYSIFSCGNGNEKHEILFLEIWTNGSLTPKEALYEASRNLIDLFLPFLHAEEEGASFEENKNRFTPPLFTFQKRLTNLKKNKKGIPLNCIFIDQLELTSRTYNCLKRANIHTLLDLLSKTEEDLLRIDSFRMEDRKHIWDTLEKHLPIDLLKNKLSF
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Subcellular locations: Plastid, Chloroplast
RPOA_AEGTA
Aegilops tauschii
MVREEVAGSTQTLQWKCVESRVDSKRLYYGRFILSPLRKGQADTVGIALRRALLGEIEGTCITRAKFGSVPHEYSTIAGIEESVQEILLNLKEIVLRSNLYGVRDASICVKGPRYITAQDIILPPSVEIVDTAQPIANLTEPIDFCIDLQIKRDRGYQTELRKNYQDGSYPIDAVSMPVRNVNYSIFSCGNGNEKHEILFLEIWTNGSLTPKEALYEASRNLIDLFLPFLHAEEEGTSFEENKNRFTPPLFTFQKRLTNLKKNKKGIPLNSIFIDQLELTSRTYNCLKRANIHTLLDLLSKTEEDLLRIDSFRMEDRKHIWDTLEKHLPIDLLKNKLSF
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Subcellular locations: Plastid, Chloroplast
RPOA_AEGUN
Aegilops uniaristata
MVREEVAGSTQTLQWKCVESRVDSKRLYYGRFILSPLRKGQADTVGIALRRALLGEIEGACITRAKFGSVPHEYSTIAGIEESVQEILLNLKEIVLRSNLYGVRDASICVKGPRYITAQDIILPPSVEIVDTAQPIANLTEPIDFCIDLQIKRDRGYQTELRKNYQDGSYPIDAVSMPVRNVNYSIFSCGNGNEKHEILFLEIWTNGSLTPKEALYEASRNLIDLFLPFLHAEEEGASFEENKNRFTPPLFTFQKRLTNLKKNKKGIPLNCIFIDQLELTSRTYNCLKRANIHTLLDLLSKTEEDLLRIDSFRMEDRKHIWDTLEKHLPIDLLKNKLSF
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Subcellular locations: Plastid, Chloroplast
RPOA_AGRCR
Agropyron cristatum
MVREEVAGSTQTLQWKCVESRVDSKRLYYGRFILSPLRKGQADTVGIALRRALLGEIEGTCITRAKFGSVPHEYSTIAGIEESVQEILLNLKEIVLRSNLYGVRDASICVKGPRYITAQDIILPPSVEIVDRAQPIANLTEPIDFCIDLQIKRDRGYQTELRKNYQDGSYPIDAVSMPVRNVNYSIFSCGNGNEKHEILFLEIWTNGSLTPKEALYEASRNLIDLFLPFLHAEEEGTSFEENKNRFTPPLFTFQKRLTNLKKNKKGIPLNCIFIDQLELTSRTYNCLKRANIHTLLDLLSKTEEDLLRIDSFRMEDRKHIWDTLEKHLPIDLLKNKLSF
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Subcellular locations: Plastid, Chloroplast
RPOA_CRIDE
Crithopsis delileana
MVREEVAGSTQTLQWKCVESRVDSKRLYYGRFILSPLRKGQADTVGIALRRALLGEIEGTCITRAKFGSVPHEYSTIAGIEESVQEILLNLKEIVLRSNLYGVRDASICVKGPRYITAQDIILPPSVEIVDTAQPIANLTEPIDFCIDLQIKRDRGYQTELRKNYQDGSYPIDAVSMPVRNVNYSIFSCGNGNEKHEILFLEIWTNGSLTPKEALYEASRNLIDLFLPFLHAEEEGASFEENKNRFTPPLFTFQKRLTNLKKNKKGIPLNCIFIDQLELTSRTYNCXKRXXXXTLLDLLSKTEEDLLRIDSFRMEDRKHIWDTLEKHLPIDLLKNKLSF
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Subcellular locations: Plastid, Chloroplast
RPOA_SECCE
Secale cereale
MVREEVAGSTQTLQWKCVESRVDSKRLYYGRFILSPLRKGQADTVGIALRRALLGEIEGTCITRAKFGSVPHEYSTIAGIEESVQEILLNLKEIVLRSNLYGVRDASICVKGPRYITAQDIILPPSVEIVDTAQPIANLTEPIDFCIDLQIKRDRGYQTELRKNYQDGSYPIDAVSMPVRNVNYSIFSCGNGNEKHEILFLEIWTNGSLTPKEALYEASRNLIDLFLPFLHAEEEGASFEENKNRFTPPLFTFQKRLTNLKKNKKGIPLNCIFIDQLELTSRTYNCLKRANIHTLLDLLSKTEEDLLRIDSFRMEDRKHIWDTLEKHLPIDLLKNKLSF
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Subcellular locations: Plastid, Chloroplast
RPOA_SECST
Secale strictum
MVREEVAGSTQTLQWKCVESRVDSKRLYYGRFILSPLRKGQADTVGIALRRALLGEIEGTCITRAKFGSVPHEYSTIAGIEESVQEILLNLKEIVLRSNLYGVRDASICVKGPRYITAQDIILPPSVEIVDTAQPIANLXEPIDFCIDLQIKRDRGYQTELRKNYQDGSYPIDAVSMPVRNVNYSIFSCGNGNEKHEILFLEIWTNGSLTPKEALYEASRNLIDLFLPFLHAEEEGASFEENKNRFTPPLFTFQKRLTNLKKNKKGIPLNCIFIDQLELTSRTYNCLKRANIHTLLDLLSKTEEDLLRIDXFRMEDRKHIWDTLEKHLPIDLLKNKLSF
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Subcellular locations: Plastid, Chloroplast
RPOB_LACSA
Lactuca sativa
MSTIPGFNQIQFEGFCRFIDQGLTEELSKFPKIEDTNQEIDFELFLERYQLVEPSIKERDAVYESLTYSSELYVSARLIWKNDRRRYIQEQTILIGKIPLMTSLGAFIVNGIYRIVINQILQSPGIYYQSELNDNGISVYTGTIISDWGGRLELEIDRKTRIWVRVSRQQKLSILVLLSAMGLNIREILENVCYPELFLSFLNDKKQIGSKENAILEFYQQFACVEGDPVFSESLSKDLQKKFFQQRCELGGIGRRNMNRRLNLDIPQNNTFLLPRDILAAADRLIRIKFGMGTLDDMNHLQNKRIRSVADLLQEQFGLALVRLENMARGNIYAALKHNWTPTPQNLVNSTPLTDTYKVFFRLHPLSQVLDRTNPLTQIVHGRKLSYLGPGGLTARTATFPIRDIHPSHYGRICPIDTSEGINVGLIGSLAIHARIGRWGSLESPFYKISERSKGARMLYLSPGRDEYYMVAAGNSLALNQGIQEEQVVPARYRQEFLTIAWEQVHLRSIFSFQYFSIGASLIPFIEHNDANRALMSSNMQRQAVPLSQSEKCIVGTGLEGQAALDSGALAIAEHEGEIIYTDTDKILLSGNGDTLRIPLVMYQRSNKNTCMHQKPQVQRGKCIKKGQILAYGAATVGGELALGKNVLVAYMPWEGYNFEDAVLISERLVYEDIYTSFHIRKYEIQINQGSERVTNEIPHLEVHLLRNLDKNGIVMLGSWVETGDILVGKLTPQMVKESSYAPEDRLLRTILGMRVYTSKETCLKLPIGGRGRVIDVRWVQSSKTDETEKTESIRVYILQKREIKVGDKVAGRHGNKGIISKILPRQDMPYLQDGRPVDMVFNPLGVPSRMNVGQIFESSLGLAGGLLDRHYRIAPFDERYEQEASRKLVFSELYEASKQTVNPWIFEPESPGKSRIFDGRTGDPFEQPVIIGKPYILKLIHQVDDKIHGRSSGRYSRLTQQPLKGRAKKGGQRVGEMEVWALEGFGVAYILQEMLTYKSDHIRARQEVLGTIIFGGRIPTPEDAPESFRLFVRELRSLALELNHFLVSEKTFQLNRKEA
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Subcellular locations: Plastid, Chloroplast
RPOC1_WHEAT
Triticum aestivum
MIDQYKHQQLQIGLVSPQQIKAWANKNLPNGEVVGEVTRPSTFHYKTDKPEKDGLFCERIFGPIKSGICACGNSRASGAENEDERFCQKCGVEFVDSRIRRYQMGYIKLACPVTHVWYLKGLPSYIANLLDKPLKKLEGLVYGDFSFARPSTKKPTFLRLRGLFEEEIASCNHSISPFFSTPGFATFRNREIATGAGAIREQLADLDLRIIIENSLVEWKELEDEGYSGDEWEDRKRRIRKVFLIRRMQLAKHFIQTNVEPEWMVLCLLPVLPPELRPIVYRSGDKVVTSDINELYKRVIRRNNNLAYLLKRSELAPADLVMCQEKLVQEAVDTLLDSGSRGQPTRDGHNKVYKSLSDVIEGKEGRFRETLLGKRVDYSGRSVIVVGPSLSLHQCGLPLEIAIKLFQLFVIRDLITKRATSNVRIAKRKIWEKEPIVWEILQEVMRGHPVLLNRAPTLHRLGIQAFQPTLVEGRTISLHPLVCKGFNADFDGDQMAVHLPLSLEAQAEARLLMFSHMNLLSPAIGDPICVPTQDMLIGLYVLTIGKRRGICANRYNSCRNYPNLKVNYNNNNNSKYRKDKEPHFSSSYDALGAYRQKLISLDSPLWLRWNLDQRVIGSREVPIEVQYESLGTYHEIYAHYLIMGNRKKEIRSIYIRTTLGHISFYREIEEAIQGFSQAYSYTT
DNA-dependent RNA polymerase catalyzes the transcription of DNA into RNA using the four ribonucleoside triphosphates as substrates. Subcellular locations: Plastid, Chloroplast
RR11_LOTJA
Lotus japonicus
MAKPIPKIGSRKNARSGSRKHLRKIPKGIIHVQASFNNTIVTVTDVRGRVISWSSAGTCGFKGTRRGTPFAAQTAAGNAIRTVADQGMQRAEVMIKGPGLGRDAALRAIRRSGILLNFIRDVTPMPHNGCRSPKKRRV
Subcellular locations: Plastid, Chloroplast
RR11_MAIZE
Zea mays
MTKAIPKIGSRKKVRIGLRRNARFSLRKSARRITKGIIHVQASFNNTIITVTDPQGRVVFWSSAGTCGFKSSRKASPYAGQRTAVDAIRTVGLQRAEVMVKGAGSGRDAALRAIAKSGVRLSCIRDVTPMPHNGCRPPKKRRL
Subcellular locations: Plastid, Chloroplast
RR12_ORYNI
Oryza nivara
MPTVKQLIRNARQPIRNARKSAALKGCPQRRGTCARVYTINPKKPNSALRKVARVRLTSGFEITAYIPGIGHNLQEHSVVLVRGGRVKDLPGVRYRIIRGALDAVAVKNRQQGRSKYGVKKPKK
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
RR12_ORYSA
Oryza sativa
MPTVKQLIRNARQPIRNARKSAALKGCPQRRGTCARVYTINPKKPNSALRKVARVRLTSGFEITAYIPGIGHNLQEHSVVLVRGGRVKDLPGVRYRIIRGALDAVAVKNRQQGRSKYGVKKPKK
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
RR12_ORYSI
Oryza sativa subsp. indica
MPTVKQLIRNARQPIRNARKSAALKGCPQRRGTCARVYTINPKKPNSALRKVARVRLTSGFEITAYIPGIGHNLQEHSVVLVRGGRVKDLPGVRYRIIRGALDAVAVKNRQQGRSKYGVKKPKK
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
RR12_ORYSJ
Oryza sativa subsp. japonica
MPTVKQLIRNARQPIRNARKSAALKGCPQRRGTCARVYTINPKKPNSALRKVARVRLTSGFEITAYIPGIGHNLQEHSVVLVRGGRVKDLPGVRYRIIRGALDAVAVKNRQQGRSKYGVKKPKK
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
RR12_PHAVU
Phaseolus vulgaris
MPTMKQLIRNTRQPIRNVTKSPALQGCPQRRGTCTRVYTITPKKPNSALRKVARVRLTSGFEITAYIPGIGHNLQEHSVVLVRGGRVKDLPGVRYHIVRGTLDAVGVKDRQQGRSKYGAKKPK
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
RR15_CICAR
Cicer arietinum
MIKNLFIPFISQKKKEEENPGSVEFQVVNFTNKIRKLTSHFKLHPKDYLSQRGLRKILGKRQGLLSYLLERDKRRFEKLMSELNTRDSQIR
Subcellular locations: Plastid, Chloroplast
RR2_ORYNI
Oryza nivara
MTRRYWNINLKEMIEAGVHFGHGIKKWNPKMAPYISAKRKGTHITNLARTTRFLSEACDLVFDAASQGKSFLIVGTKKRAADLVASAAIRARCHYVNKKWFSGMLTNWSITKTRLSQFRDLRAEEKMEKFHHLPKRDVAILKRKLSTLLRYLGGIKYMTRLPDIVIVLDQQKEYIALRECAILGIPTISLADTNCDPDLANISIPANDDTMTSIRLILNKLVFAICEGRSLYIRNH
Subcellular locations: Plastid, Chloroplast
RR2_ORYSA
Oryza sativa
MTRRYWNINLKEMIEAGVHFGHGIKKWNPKMAPYISAKRKGTHITNLARTTRFLSEACDLVFDAASQGKSFLIVGTKKRAADLVASAAIRARCHYVNKKWFSGMLTNWSITKTRLSQFRDLRAEEKMEKFHHLPKRDVAILKRKLSTLQRYLGGIKYMTRLPDIVIVLDQQKEYIALRECAILGIPTISLADTNCDPDLANISIPANDDTMTSIRLILNKLVFAICEGRSLYIRNH
Subcellular locations: Plastid, Chloroplast
RR2_ORYSI
Oryza sativa subsp. indica
MTRRYWNINLKEMIEAGVHFGHGIKKWNPKMAPYISAKRKGTHITNLARTTRFLSEACDLVFDAASQGKSFLIVGTKKRAADLVASAAIRARCHYVNKKWFSGMLTNWSITKTRLSQFRDLRAEEKMEKFHHLPKRDVAILKRKLSTLQRYLGGIKYMTRLPDIVIVLDQQKEYIALRECAILGIPTISLADTNCDPDLANISIPANDDTMTSIRLILNKLVFAICEGRSLYIRNH
Subcellular locations: Plastid, Chloroplast
RR2_ORYSJ
Oryza sativa subsp. japonica
MTRRYWNINLKEMIEAGVHFGHGIKKWNPKMAPYISAKRKGTHITNLARTTRFLSEACDLVFDAASQGKSFLIVGTKKRAADLVASAAIRARCHYVNKKWFSGMLTNWSITKTRLSQFRDLRAEEKMEKFHHLPKRDVAILKRKLSTLQRYLGGIKYMTRLPDIVIVLDQQKEYIALRECAILGIPTISLADTNCDPDLANISIPANDDTMTSIRLILNKLVFAICEGRSLYIRNH
Subcellular locations: Plastid, Chloroplast
RR2_PEA
Pisum sativum
MTKRYWNITFEEMMEAGVHFGHDTRKWNPRMAPFISAKRKGIHITNLTKTARFLSEACDLAFDAASKGKQFLIVGTKKKAADSVTRAAIRARCHYVNKKWLRGMLTNWYTTETRLGKFRDLRTEQKTGKLNSLPKRDAAMLKRQLSHFETYLGGIKYMTGLPDIVIIVDQQKEYTALQECITLGIPTICLIDTNCDPDLADMSIPANDDAIASIRLILNKLVFAICEGRSSSIRNY
Subcellular locations: Plastid, Chloroplast
RR2_PHAVU
Phaseolus vulgaris
MTKRYWNIILEEMMEAGVHFGHGTRKWNPKMSPYISANRKGIHITNLIRTARFLSESCDLVFHAASGGKQFLIVGTKKKAADSVARAAIRARCHYVNKKWLGGMLTNWYTTKTRLQKFRDLRMQQKTGRFDCFPKKDAAILKRHLAQLETYLGGIKYMKGLPDIVIIIDQQEEYTALRECITLEIPTICLIDTNSDPDLADISIPANDDAIASIRFILNKLVFAICEGRSRSIRNS
Subcellular locations: Plastid, Chloroplast
RR4_ASPMA
Asparagus maritimus
MSRYRGPRFKKIRRLGALPGLTSKRPRSGSDLKNPLRSVKKSQYRIRLEEKQKLRFHYGLTERQLLRYVHIAGKAKGSTGQVLLQLLEMRLDNILFRLGMASTIPGARQLVNHRHILVNGRIVDIPSYRCKPRDIITTKDKQRSKALIQTSIASSPHEELPNHLTIDSFQYKGLINQIIDSKWIGLKINELLVVEY
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
RR4_WHEAT
Triticum aestivum
MSRYRGPRLKKIRRLGALPGLTRKTPKSGSNLKKKFNSGKKEQYRIRLQEKQKLRFHYGLTERQLLRYVHIAGKAKRSTGQVLLQLLEMRLDNILFRLGMASTIPGARQLVNHRHILVNGRIVNIPSFRCKPRDIITTKDNQRSKGLVQNYIASSDPGKLPKHLAIDTLEYKGLVNKILDRKWVGLKINELLVVEYYSRQT
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
RR5_SPIOL
Spinacia oleracea
MATTATTTPSATSLTTLHRRIPLFPTTTTLLSLSSSSKPLFLSLSSTRSFPTHLYCIKKDDIDITFFEQDNPDEEITFDPPEKPEGYIPPRAVDEPPFESEEEIALAYEELYGAAYSGESLLGNDVYAMDSKIKKATGFGSKSKKEKIRDGFEENVVQVRRVTKVVKGGKHMRFRAIVVVGDKKGQVGVGVGKAKEVVSAVQKAAVDARRNIITVPMTKYLTFPHRNEADYGAARVMLRPAAPGTGVIAGGAVRTVLEMAGVENALGKQLGSNNALNNARATIVAVQTMRQFSDVARDRGIPMEELWK
Component of the chloroplast ribosome (chloro-ribosome), a dedicated translation machinery responsible for the synthesis of chloroplast genome-encoded proteins, including proteins of the transcription and translation machinery and components of the photosynthetic apparatus. Subcellular locations: Plastid, Chloroplast
RR7_SPIOL
Spinacia oleracea
MSRRGTVEEKTAKSDPIYRNRLVNMLVNRILKHGKKSLAYQILYRAVKKIQQKTETNPLSVLRQAIRGVTPDIAVKARRVGGSTHQVPIEIGSTQGKALAIRWLLGAARKRPGRNMAFKLSSELVDAAKGSGDAVRKKEETHRMAEANRAFAHFR
Component of the chloroplast ribosome (chloro-ribosome), a dedicated translation machinery responsible for the synthesis of chloroplast genome-encoded proteins, including proteins of the transcription and translation machinery and components of the photosynthetic apparatus. Subcellular locations: Plastid, Chloroplast
RR7_WHEAT
Triticum aestivum
MSRRGTAEKRTAKSDPIFRNRLVNMVVNRIMKDGKKSLAYQILYRAVKKIQQKTETNPLLVLRQAIRRVTPNIGVKTRRNKKGSTRKVPIEIGSKQGRALAIRWLLEASQKRPGRNMAFKLSSELVDAAKGGGGAIRKKEATHRMAEANRALAHFR
One of the primary rRNA binding proteins, it binds directly to 16S rRNA where it nucleates assembly of the head domain of the 30S subunit. Subcellular locations: Plastid, Chloroplast
RRP3_SPIOL
Spinacia oleracea
MLSMAVQPNINAIAKPSIYQSPKLSLKPFKTPAFANPKPFFSSPSFSQLKKKNNWSLFVAPETISDVAIMGNEVDIDDDLLVNKEKLKVLVKPMDKPRLVLKFIWMEKNIGLALDQTIPGHGTVPLSPYYFWPRKDAWEELKVLLENKPWISQKQMIILLNQATDIINLWQQSGGNLAS
Component of the chloroplast ribosome (chloro-ribosome), a dedicated translation machinery responsible for the synthesis of chloroplast genome-encoded proteins, including proteins of the transcription and translation machinery and components of the photosynthetic apparatus. Subcellular locations: Plastid, Chloroplast
RS13_PEA
Pisum sativum
MGRLHSKGKGISSSALPYRRTAPSWLKISSQDVDETICKFAKKGLTPSQIGVILRDSHGIAQVKSVTGSKILRILKAHGLAPEIPEDLYHLIKKAVSIRKHLERFRKDKDSKFRLILVESRIHRLARYYKKTKKLPPVWKYESTTASTLVA
null
RS13_SOYBN
Glycine max
MGRMHSRGKGISSSALPYKRTPPSWLKISSQDVEENICKFAKKGLTPSQIGVILRDSHGIAQVNSVTGSKILRILKAHGLAPEIPEDLYHLIKKAVSIRKHLERNRKDKDSKFRLILVESRIHRLARYYKKTKKLPPVWKYESTTASTLVA
null
RS17_SOLLC
Solanum lycopersicum
MGRVRTKTVKKSSRQVIERYYSKMTLDFHTNKKILEEVAIIPSKRLRNKIAGFSTHLMKRIQKGPVRGISLKLQEEERERRMDFVPDESAIKTDLIEVDKETLDMLSALGMSDLPGVVKQAAEPQAVAALPSYGRGGGGFGRKY
null
RS21_ORYSJ
Oryza sativa subsp. japonica
MQNEEGQMVDLYVPRKCSATNRIITAKDHASVQINIGHVDENGLYDGRFTTFALSGFIRAQGDADSALDRLWQKRKAEVKQQ
null
RS25_SOLLC
Solanum lycopersicum
MAPKKAQAPPPSSKPAKSGGGKQKKKKWSKGKQKEKVNNMVLFDKSTYDKLLSEAPKYKLITPSVLSDRLRISGSLARKAIRDLMARGSIRMVSAHASQQIYTRATNT
null
RS4_SOLTU
Solanum tuberosum
MARGLKKHLKRLNAPKHWMLDKLGGAFAPKPSSGPHKSRECLPLVIIMRNRLKYALTYREVISILMQRQVMVDGKVRTDKTYPAGFMDVVSIPKTNENFRLLYDTKGRFRLHSLRDEESKFKLCKVRSVQFGQKGIPYLNTYDGRTIRYPDPLIKANDTIKLDLESNKIVDFIKFDVGNVVMVTGGRNRGRVGVIKNREKHKGSFETLHIQDSQGHEFATRLGNVFTLGKGTKPWVSLPKGKGIKLTIIEDARKRLAAQSATPA
Subcellular locations: Cytoplasm
RS8_ORYSJ
Oryza sativa subsp. japonica
MGISRDSMHKRRATGGKQKAWRKKRKYELGRQPANTKLSSNKTVRRVRVRGGNVKWRALRLDTGNYSWGSEAVTRKTRILDVVYNASNNELVRTQTLVKSAIVQVDAAPFKQWYLTHYGVDIGRKKKAPAAKKDAEGQDAEATTEEAKKSNHVVRKLEKRQQGRTLDAHIEEQFGSGRLLACISSRPGQCGRADGYILEGKELEFYMKKLQRKKGKGASA
null
RT31_ORYSJ
Oryza sativa subsp. japonica
MAMRLAAAAAFVRRLVPARNPVISAEAEAVTCGRGDKKTKRGKRFKGSYGNARPKREKKIERIKDRVEVPRSTPWPLPFKLI
Subcellular locations: Mitochondrion
RTOR1_ORYSJ
Oryza sativa subsp. japonica
MAPPKALETIGKTLHSQYERWQPKARYKLQLDPTLEEVKKLCNTCRKFARTERVLFHYNGHGVPKPTANGEIWVFNKSYTQYIPLPITDLDSWLKTPSIYVFDCSAAGMIVKAFLERLDWSSSSSASSSKDCILLAACEAHQTLPQSAEFPADVFTACLTTPIKMALHWFCNRSLLRDSMEHNLIDQIPGRQNDRKTLLGELNWIFTAITDTIAWNVLPHDLFQRLFRQDLLVASLFRNFLLAERIMRSANCSPISYPLLPPTHQHHMWDAWDMAAEICLSKLPQLIADPNAEFQPSPFFTEQLTAFEVWLDHGSEDKKPPEQLPIVLQVLLSQSHRFRALVLLGRFLDMGPWAVDLALSVGIFPYVLKLLQTSAMELRQILVFIWTKILSLDKSCQVDLVKDGGHAYFIRFLDSLDAYPEQRAMAAFVLAVIVDGHRVGQEACANAGLIYVCLRHLQPENPNDAQTEPLLLQWLCLCLGKLWEDFPEAQLLGLQSNAPEIVICLLSEPQPEVRASAVFALGNLVDIGSPSLNGADDDSDDDEKVRAEINVVRSLLQISSDGSPLVRSEVAVALTRFAMGHNKHIKSVAAEYWKPQTNSLLKSLPSLANINSSNVYSPSSLIQGSSGLASHIGPVLRVGSDNSATARDGRISTSSPIATNSIMHGSPQSDDSSQHSDSGILLRENASNGGLNYSRSRPIDNGIYSQFIATMCNVAKDPYPRIASIGKRALSLIGVEQVSMRNSRLSNGGAHPGETSVPPSSNFGMARSSSWFDMNSGNFSMAFRTPPVSPPQHDYLTGLRRVCSMEFRPHVLNSPDGLADPLLSSSAAPSNMGLDILPQSLIYRWSCGHFSRPLLTGSDDNEEANARREERERIAMDCIAKCQRSSCKMTSQIASWDTRFELGTKASLLLPFSPIVVAADENEQIRVWNYDDALPVNTFENHKLSDRGLSKLLLINELDDSLLLVGSSDGNVRIWRNYTQKGGQKLVTAFSSVQGYRSAGRSIVFDWQQQSGYLYASGDMSSILVWDLDKEQLVNTIQSTADSGISALSASQVRCGQFAAGFLDASVRIFDVRTPDRLVYTARPHAPRSEKVVGIGFQPGFDPYKIVSASQAGDIQFLDVRRASEPYLTIEAHRGSLMALAVHRHAPVIASGSAKQMIKVFSLEGEQLTIIRYQPSFMGQRIGSVNCLSFHRYKSLLAAGAGDNALVSIYAEDNYQVQ
Component of TORC1 complex, which is an essential cell growth regulator that controls plant development. Acts by recruiting substrates for TOR. Acts by activating transcription, protein synthesis and ribosome biogenesis, and inhibiting mRNA degradation and autophagy.
RTOR2_ORYSJ
Oryza sativa subsp. japonica
MALGDLMASRLVHSSSSSAAPSAALPNHHTNHLVDDHLPVENGPDPRRDVPDEEPPPPPPPQVALLPQVVVLCEQRHEGFDEAAAAAAGPSTSGPVSKWRPKDRMKTGCVALVLCLNISVDPPDVIKISPCARKECWIDPFSMAPPKALETIGKTLHSQYERWQPKARYKLQLDPTLEEVKKLCNTCRKFARTERVLFHYNGHGVPKPTANGEIWVFNKSYTQYIPLPITDLDSWLKTPSIYVFDCSAAGMIVKAFLERLDWSSSSSASSSKDCILLAACEAHQTLPQSAEFPADVFTACLTTPIKMALHWFCNRSLLRDSMEHNLIDQIPGRQNDRKTLLGELNWIFTAITDTIAWNVLPHDLFQRLFRQDLLVASLFRNFLLAERIMRSANCSPISYPLLPPTHQHHMWDAWDMAAEICLSKLPQLIADPNAEFQPSPFFTEQLTAFEVWLDHGSEDKKPPEQLPIVLQVLLSQSHRFRALVLLGRFLDMGPWAVDLALSVGIFPYVLKLLQTSAMELRQILVFIWTKILSLDKSCQVDLVKDGGHAYFIRFLDSLDAYPEQRAMAAFVLAVIVDGHRIGQEACANAGLIDVCLRHLQPENPNDAQTEPLLLQWLCLCLGKLWEDFPEAQLLGLQSNAPEIVICLLSEPQPEVRASAVFALGNLVDIGSPSLNGADDDSDDDEKVRAEINVVRSLLQISSDGSPLVRSEVAVALTRFAMGHNKHIKSVAAEYWKPQTNSLLKSLPSLANINSSNVYSPSSLIQGSSGLASHIGPVLRVGSDNSATARDGRISTSSPIATNSIMHGSPQSDDSSQHSDSGILLRENASNGGLNYSRSRPIDNGIYSQFIATMCNVAKDPYPRIASIGKRALSLIGVEQVSMRNSRLSNGGAHPGETSVPPSSNFGMARSSSWFDMNSGNFSVAFRTPPVSPPQHDYLTGLRRVCSMEFRPHVLNSPDGLADPLLSSSAAPSNMGLYILPQSLIYRWSCGHFSRPLLTGSDDNEEANARREERERIAMDCIAKCQRSSCKMTSQIASWDTRFELGTKASLLLPFSPIVVAADENEQIRVWNYDDALPVNTFENHKLSDRGLSKLLLINELDDSLLLVGSSDGNVRIWRNYTQKGGQKLVTAFSSVQGYRSAGRSIVFDWQQQSGYLYASGDMSSILVWDLDKEQVNTIQSTADSGISALSASQVRCGQFAAGFLDASVRIFDVRTPDRLVYTARPHAPRSEKVVGIGFQPGFDPYKIVSASQAGDIQFLDVRRASEPYLTIEAHRGSLTALAVHRHAPVIASGSAKQMIKVFSLEGEQLTIIRYQPSFMGQRIGSVNCLSFHRYKSLLAAGAGDNALVSIYAEDNYQVR
Component of TORC1 complex, which is an essential cell growth regulator that controls plant development. Acts by recruiting substrates for TOR. Acts by activating transcription, protein synthesis and ribosome biogenesis, and inhibiting mRNA degradation and autophagy.
RUXG_MEDSA
Medicago sativa
MSTSGQPPALKKYMDKQLQINLKANRMIVGTLRGFDQFMNLVVDNTVEVNGNEKNDIGMVVIRGNSVVTVEALEPVVNRIG
Probable common Sm protein, is found in U1 and U2 snRNPs and may be part of the spliceosome. Subcellular locations: Nucleus
S17P_SPIOL
Spinacia oleracea
METSMACCSRSIVLPRVSPQHSSALVPSSINLKSLKSSSLFGESLRMTTKSSVRVNKAKNSSLVTKCELGDSLEEFLAKATTDKGLIRLMMCMGEALRTIGFKVRTASCGGTQCVNTFGDEQLAIDVLADKLLFEALNYSHFCKYACSEELPELQDMGGPVDGGFSVAFDPLDGSSIVDTNFSVGTIFGVWPGDKLTGVTGRDQVAAAMGIYGPRTTYVLALKDYPGTHEFLLLDEGKWQHVKETTEINEGKLFCPGNLRATSDNADYAKLIQYYIKEKYTLRYTGGMVPDVNQIIVKEKGIFTNVISPTAKAKLRLLFEVAPLGFLIEKAGGHSSEGTKSVLDIEVKNLDDRTQVAYGSLNEIIRFEKTLYGSSRLEEPVPVGAAA
Subcellular locations: Plastid, Chloroplast
S17P_WHEAT
Triticum aestivum
METVAAAGYAHGAATRSPACCAAMSFSQSYRPKAARPATSFYGESLRANTARTSFPAGRQSKAASRAALTTRCAIGDSLEEFLTKATPDKNLIRLLICMGEAMRTIAFKVRTASCGGTACVNSFGDEQLAVDMLADKLLFEALEYSHVCKYACSEEVPELQDMGGPVEGGFSVAFDPLDGSSIVDTNFTVGTIFGVWPGDKLTGVTGGDQVAAAMGIYGPRTTFVVALKDCPGTHEFLLLDEGKWQHVKDTTSIGEGKMFSPGNLRATFDNPDYDKLVNYYVKEKYTLRYTGGMVPDVNQIIVKEKGIFTNVTSPTAKAKLRLLFEVAPLGFLIEKAGGHSSDGKQSVLDKVISVLDERTQVAYGSKNEIIRFEETLYGSSRLAASATVGATA
Subcellular locations: Plastid, Chloroplast
S40A3_ORYSJ
Oryza sativa subsp. japonica
MSMSKLLSPPPTSPPGPALSRLPCRRVAPPPVLPFPFPLRRLTSRRVFATSCSSSDSEHAPSASSTALAGAGDDLSAGVTQEREGALPFVQLSSGIVLRTEEQSLLGDHAPAPAPASAASSFALLDELNGGCREDDHLGETPAYPAAMNALYAACLAGNATEQLWNFTWPAAVAVLHPASILPVAVLGFFTKLVVFAAGPLVGELISSLPRIPAYRSLAAIQTAAHLVSVATITYAFAVHRAAAASLLLRPWFAVLVASTAVDRLACVALGIIAERDFVVQLAGAGRPVALAKANATLSRVDLLCETVGASIFALLLSKNNPLTCIKLSCVISLCALPLLIFLCGEMNRLADGIFDHSENTTSHAEKTSSFSIRKTVEEAVATVRNGWSEYMRQPVLPASLAYVFVCFNVALAPGALMTTFLIHQGVRPSVIGAFGGSSGAVGILATFATARLVKELGILKAGAAGLIAQSALLGAAVVVYLTGAVSRRAGALFAFLGLIVASRAGHMAYSAIGLQVVQTGNPASKAKLIGATEIAVASLAELAMMAVAVVASDASHFGALAALSATAVTAAAGMYCRWLANPSDELRRIFPS
May be involved in iron transport and iron homeostasis. Subcellular locations: Membrane, Plastid, Chloroplast envelope
SAP10_ORYSJ
Oryza sativa subsp. japonica
MAPGNEMQARNGGGAAMCAAGCGFFGSAATDGLCSKCYKQQQPQPRHLIGTAAGDSDKTSLKVVADLSTLVIKDNSGVGGEGTTVMAPPATVTKAKNRCKACRKKVGLLGFPCRCGGMFCGAHACAFDYKAAGREAIARHNPLVVAPKINKI
May be involved in environmental stress response.
SAP11_ORYSJ
Oryza sativa subsp. japonica
MAQREKKVEEPTELRAPEMTLCANSCGFPGNPATNNLCQNCFLAASASSSSSSAAASPSTTSLPVFPVVEKPRQAVQSSAAAAVALVVERPTAGPVESSSKASRSSSVNRCHSCRRRVGLTGFRCRCGELYCGAHRYSDRHDCSFDYKSAARDAIARENPVVRAAKIVRF
May be involved in environmental stress response.
SCL7_ORYSJ
Oryza sativa subsp. japonica
MAYMCADSGNLMAIAQQVIQQQQQQQQQQQRHHHHHHLPPPPPPQSMAPHHHQQKHHHHHQQMPAMPQAPPSSHGQIPGQLAYGGGAAWPAGEHFFADAFGASAGDAVFSDLAAAADFDSDGWMESLIGDAPFQDSDLERLIFTTPPPPVPSPPPTHAAATATATAATAAPRPEAAPALLPQPAAATPVACSSPSPSSADASCSAPILQSLLSCSRAAATDPGLAAAELASVRAAATDAGDPSERLAFYFADALSRRLACGTGAPPSAEPDARFASDELTLCYKTLNDACPYSKFAHLTANQAILEATGAATKIHIVDFGIVQGIQWAALLQALATRPEGKPTRIRITGVPSPLLGPQPAASLAATNTRLRDFAKLLGVDFEFVPLLRPVHELNKSDFLVEPDEAVAVNFMLQLYHLLGDSDELVRRVLRLAKSLSPAVVTLGEYEVSLNRAGFVDRFANALSYYRSLFESLDVAMTRDSPERVRVERWMFGERIQRAVGPEEGADRTERMAGSSEWQTLMEWCGFEPVPLSNYARSQADLLLWNYDSKYKYSLVELPPAFLSLAWEKRPLLTVSAWR
Probable transcription factor involved in plant development (By similarity). Involved in environmental abiotic stress resistance. May increase the expression of stress-responsive genes (By similarity). Binds DNA in vitro . Subcellular locations: Nucleus
SCRK2_SOLLC
Solanum lycopersicum
MAVNGASSSGLIVSFGEMLIDFVPTVSGVSLAEAPGFLKAPGGAPANVAIAVTRLGGKSAFVGKLGDDEFGHMLAGILKTNGVQAEGINFDKGARTALAFVTLRADGEREFMFYRNPSADMLLTPAELNLDLIRSAKVFHYGSISLIVEPCRAAHMKAMEVAKEAGALLSYDPNLRLPLWPSAEEAKKQIKSIWDSADVIKVSDVELEFLTGSNKIDDESAMSLWHPNLKLLLVTLGEKGCNYYTKKFHGTVGGFHVKTVDTTGAGDSFVGALLTKIVDDQTILEDEARLKEVLRFSCACGAITTTKKGAIPALPTASEALTLLKGGA
May play an important role in maintaining the flux of carbon towards starch formation.