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AT3G02260.1

Arabidopsis thaliana [ath]

auxin transport protein (BIG)

34 PTM sites : 6 PTM types

PLAZA: AT3G02260
Gene Family: HOM05D003926
Other Names: ASA1,ATTENUATED SHADE AVOIDANCE 1,CRM1,CORYMBOSA1,DOC1,DARK OVER-EXPRESSION OF CAB 1,LPR1,LOW PHOSPHATE-RESISTANT ROOT 1,TIR3,TRANSPORT INHIBITOR RESPONSE 3,UMB1,UMBRELLA 1
Uniprot
Q9SRU2

Link out to other resources with this protein ID : TAIR   |   PeptideAtlas   |   ARAPORT   |   PhosPhAt

For each protein all PTMs are highlighted by default in the respective protein sequence (right-hand side). One can adjust a selection of PTMs in the PTM table on the left-hand side. In addition, functional protein domains and sites can be underlined if desired.

In the PTM table per PTM the PTM position and type is indicated, as well as the plain peptide sequence that was identified by mass spectrometry. The respective proteomics study is indicated by a number, providing a link to consult the experimental details. Additional PTM meta-data includes various confidence measures such as peptide score provided by search algorithms, posterior error probability (PEP), precursor mass deviation (in ppm) and modification site probability. The available confidence meta-data can be consulted in the extended PTM table by clicking SHOW CONFIDENCE. However, in the default PTM table, a color-coding of confidence is provided with green indicating high confidence, olive medium confidence, grey low confidence, and no color an unassigned confidence. More details regarding this confidence assignment can be consulted in the tutorial or the Plant PTM Viewer manuscript.

Besides confidence measures, log2 fold changes between two conditions with significance values (P- or Q-values) are shown if provided in the respective publication. Log2 fold changes are colored in heatmap-like gradient (green = induced, red = repressed) and significant values are highlighted in green. To determine significance, we employed the threshold used in the respective publication. For more details on the quantitative measurements we refer to the experimental details and respective publication, as methodologies can differ.

On the bottom of the page one can send the whole protein or a part of the protein (i.e. a functional domain) to PTM Blast. This will display aligned protein sequences that potentially report aligned PTMs.

PTMs

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Results
PTM Type
Mod AA
Pos
Peptide
Exp ID
Conf
nt A 2 ADDLANLCR99
nta A 2 ADDLANLCR6
99
119
167a
so C 9 ADDLANLCR110
nt N 145 NMEILLEIASFDGSE119
sno C 239 SPFQQDCGDLNPFTR169
ph S 506 TYSSLR38
60
83
100
106
ph S 510 SNSFAEVESQISHDDEALFGNLFSEGSR85
ph S 512 SNSFAEVESQISHDDEALFGNLFSEGSR18a
85
100
114
ph S 521 SNSFAEVESQISHDDEALFGNLFSEGSR85
sno C 704 GICAEALSLK169
so C 748 FSNLIASCLHK108
sno C 878 TLNLDYGDLSASLCR169
sno C 1009 NSCSEIDPFWK169
sno C 1491 SPSHGESLCGK169
ph S 1677 GTNNFQSFLPLSEDADQLGESDSDVEEDGFGEENHVVLYIPK94
ph S 1679 GTNNFQSFLPLSEDADQLGESDSDVEEDGFGEENHVVLYIPK94
sno C 2082 GDGVCAQNLR169
ph T 2138 SGVDTDSNFTAEK114
ph S 2331 VLGHGLLLPGSSK114
so C 2375 QEVVLSELKCK108
sno C 2396 ETLLQTTACR169
ph T 2589 QTMLTTDDLVDNVTTPSVPIR114
so C 3287 QAINELVDRCLNPDVIR108
CLNPDVIR110
so C 3421 SCHLSFNQTELK108
nt S 3749 SMDIALATR167b
ox C 3814 IISVACTPPKPDTAEK138a
138b
ph S 3831 SAPAVQEKDENAAGVIK114
ph S 3849 YSSESEENNLNVSQK44
ph S 3850 YSSESEENNLNVSQK59
85
88
100
106
109
114
sno C 4123 ACVSGLQTHAEENK169
so C 4123 ACVSGLQTHAEENK108
ph S 4243 SNQSSTSLTNSALLASNAAPSR114
ph S 4250 SNQSSTSLTNSALLASNAAPSR114
ph S 4673 QELSSDGGER114

Sequence

Length: 5098

MADDLANLCRFLFDDTAFPSLSSSASSDLFSRRLRSDDSIKRGLRSFYLLLRWGVAPIGGDDADSSGKLRFETWSDSQLQALVSISQAILLLSRSLLGTDLTLNQGLVDQLEPIVLGVIQEVMEFSLSFLEKSSFRQNDLKMEINMEILLEIASFDGSEKQYDILPDFSPAEVAELWPAFSGEHDNMDAQSLVKCTFQGGRCSNEEKPVDRLLITLMSECIESDVQAQSVVKSPFQQDCGDLNPFTRHLAVVHLRCVCRLIMVCKELVQLPNMLDEKTVDQAVLDKLSFCLRILKLLGSLSKDVQSIENDGSLLQAVASFTDAFPKLFRVFFEFTNHTATEGNIESLSLALVEGFLNLVQLIFGKSSVFQNVQACVAASIVSNLDSSVWRYDGSSCNLTPPLAYFPRSVIYTLKLIQDLKRQPYHIHDLRVLESEVTYEDVSSTVDSVYFHLRQEKIPLLKCFTVEDIMRVIFPSSSQWMDNFFHLVYFLHREGVKLRPKVERTYSSLRSNSFAEVESQISHDDEALFGNLFSEGSRSLCSIEPNDQPPVSVSSNLLLQAAKELLNFLRACILCQEWVPSIYEDGCKKLDTGHIDILLNIVGCSIEDKASDGGCMLQDEGRPGHVAFELLLNLLRSRALSDFLESYLFQQILVVENSDFNYNDKTLALLAHTLLCRPGLAGAQLRAKIYDGFVSFVTERARGICAEALSLKELTACLPSAFHIEILLMAFHLSNEAEKAKFSNLIASCLHKVDTPAGICDGPQLSSWAMLISRLLVLLHHMLLHPNTCPTSLMLDLRSKLREVRSCGSNLHVTVGDHLSSWASLVARGITDSWAEDESVSHLMSQMIDFSPHPPTFQNDVSTAKTLNLDYGDLSASLCRVLGLWKGKKAGKVEDLLVERYIFMLSSDIARINCALDSQPSLHVNYQNVDISNSVDLISTSHLLVGDINVVGRNIELRNILIGVLNQLQAAPEQVVEDLGWDYIREGAWLSLLLYFLDGGVWDYCNKNSCSEIDPFWKECTSVDAKYVAAAEGVVSYLMKTGDIAELLRMLSSLVGKYLRVYKKAFLATFSDWNHHGHSSPSLLLLKHTQFGKSLQGEYAKIGDNSLHLQCIFYLSKLDSLGDGRGSGVLWKVFWEFMVHGFPTSLQTSSAILLSCILSIRCIVLTINGLLKLGNSKEKFGVDTSVLHQLLDSIMIIKFDQVFESFHGKCEEIHQNICAVLQLPDLTELFLMKDMEGFVRDISAEQIDRSQVLEGVITKIVDVMDSLSKDSSKSDIFKFYLGVDAVSEHTREFYELQRGDLSVFIDSLDYCSLEPVNIKVLNFLVDLLSVAQSPDLRRRVQQKFIDMDLISLSGWLERRLLGSFVEEIDGKKTAKGNSLPFREAAMNFINCLVSSTNDLQTRELQNHLFEALLISLDTAFLSFDIHMSMSYFHFVLQLAREDNLMKMVLKRTIMLMEKLAAEEKLLPGLKFIFGVIGTLLSNRSPSHGESLCGKSLASYKNTATGPLVPKLSGTTKKSDTLALPVDQEGSSISLECDVTSVDEDEDDGTSDGEVASLDKEDEEDANSERYLASKVCTFTSSGSNFMEQHWYFCYTCDLTVSKGCCSVCAKVCHRGHRVVYSRSSRFFCDCGAGGVRGSSCQCLKPRKYNGNGSAPARGTNNFQSFLPLSEDADQLGESDSDVEEDGFGEENHVVLYIPKETQYKMSLLLEELGIEDRVLELFSSLLPSITSKRDSGLSKEKQVNLGKDKVLSFDTDLLQLKKAYKSGSLDLKIKADYTNSKDLKSLLANGSLVKSLLSVSVRGRLAVGEGDKVAIFDVGQLIGQATIAPINADKANVKPLSRNIVRFEIVHLSFNPVVENYLAVAGLEDCQILTLNHRGEVIDRLAVELALQGAFIRRIDWVPGSQVQLMVVTNKFVKIYDLSQDSISPTQYFTLPNDMIVDATLFVASRGRVFLLVLSEQGNLYRFELSWGGNAGATPLKEIVQIMGKDVTGKGSSVYFSPTYRLLFISYHDGSSFMGRLSSDATSLTDTSGMFEEESDCKQRVAGLHRWKELLAGSGLFICFSSVKSNAVLAVSLRGDGVCAQNLRHPTGSSSPMVGITAYKPLSKDNVHCLVLHDDGSLQIYSHVRSGVDTDSNFTAEKVKKLGSKILNNKTYAGAKPEFPLDFFERAFCITADVRLGSDAIRNGDSEGAKQSLASEDGFIESPSPVGFKISVSNPNPDIVMVGIRMHVGTTSASSIPSEVTIFQRSIKMDEGMRCWYDIPFTVAESLLADEDVVISVGPTTSGTALPRIDSLEVYGRAKDEFGWKEKMDAVLDMEARVLGHGLLLPGSSKKRALAQSASMEEQVIADGLKLLSIYYSVCRPRQEVVLSELKCKQLLETIFESDRETLLQTTACRVLQSVFPRKEIYYQVMFLPNSVKDTMRLLGVVKVTSILSSRLGILGTGGSIVEEFNAQMRAVSKVALTRKSNFSVFLEMNGSEVVDNLMQVLWGILESEPLDTPTMNNVVMSSVELIYSYAECLASQGKDTGVHSVAPAVQLLKALMLFPNESVQTSSRCVLVLAISSRLLQVPFPKQTMLTTDDLVDNVTTPSVPIRTAGGNTHVMIEEDSITSSVQYCCDGCSTVPILRRRWHCTVCPDFDLCEACYEVLDADRLPPPHTRDHPMTAIPIEVESLGADTNEIQFSADEVGISNMLPVVTSSIPQASTPSIHVLEPGESAEFSASLTDPISISASKRAVNSLILSEFLQELSGWMETVSGVQAIPVMQLFYRLSSAIGGAFMDSSKPEEISLDKLIKWLLGEINLSKPFAASTRSSLGEIVILVFMFFTLMLRSWHQPGSDGSSSKLGGSTDVHDRRIVQSSTVVATQSSLHVQERDDFASQLVRACSCLRNQEFVNYLMNILQQLVHVFKSRAANVEARGSSSGSGCGAMLTVRRDLPAGNYSPFFSDSYAKAHRADIFVDYHRLLLENVFRLVYTLVRPEKQEKMGEKEKVYRNASSKDLKLDGFQDVLCSYINNPHTAFVRRYARRLFLHLCGSKTQYYSVRDSWQFSNEVKNLYKHVEKSGGFENNVSYERSVKIVKSLSTIAEVAVARPRNWQKYCLRHGDFLSFLLNGVFHFAEESVIQTLKLLNLAFYQGKDVSSSVQKAEATEVVTGSNRSGSQSVDSKKKKKGEDGHDSGLEKLYVDMEGVVDIFSANCGDLLRQFIDFFLLEWNSSSVRTEAKSVIYGLWHHGRHSFKESLLAALLQKVRYLPAYGQNIVEYTELVSLLLDKAPENNSKQAINELVDRCLNPDVIRCFFETLHSQNELIANHPNSRIYSTLGNLVEFDGYYLESEPCVACSSPDVPYSKMKLESLKSETKFTDNRIIVKCTGSYTIQSVTMNVHDARKSKSVKVLNLYYNNRPVSDLSELKNNWSLWKRAKSCHLSFNQTELKVEFPIPITACNFMIELDSFYENLQALSLEPLQCPRCSRPVTDKHGICSNCHENAYQCRQCRNINYENLDSFLCNECGYSKYGRFEFNFMAKPSFIFDNMENDEDMKKGLAAIESESENAHKRYQQLLGFKKPLLKIVSSIGETEMDSQHKDTVQQMMASLPGPSCKINRKIALLGVLYGEKCKAAFDSVSKSVQTLQGLRRVLMSYLHQKNSNFSSGASRCVVSKTPNNCYGCATTFVTQCLEILQVLSKHPRSRKQLVAAGILSELFENNIHQGPKTARAQARAALSTFSEGDLSAVNELNNLVQKKIMYCLEHHRSMDIALATREEMLLLSEVCSLTDEFWESRLRLVFQLLFSSIKLGAKHPAISEHIILPCLKIISVACTPPKPDTAEKEQTMGKSAPAVQEKDENAAGVIKYSSESEENNLNVSQKTRDIQLVSYLEWEKGASYLDFVRRQYKASQSIRGASQKSRTHRSDFLALKYTLRWKRRSSRTSKGGLQAFELGSWVTELILSACSQSIRSEMCTLISLLAAQSSPRRYRLINLLIGLLPATLAAGESSAEYFELLFKMIETQDALLFLTVRGCLTTICKLISQEVGNIESLERSLQIDISQGFTLHKLLELLGKFLEVPNIRSRFMRDNLLSHVLEALIVIRGLIVQKTKLINDCNRRLKDLLDGLLLESSENKRQFIRACVSGLQTHAEENKGRTCLFILEQLCNLICPSKPEAVYMLILNKSHTQEEFIRGSMTKNPYSSAEIGPLMRDVKNKICQQLDLLGLLEDDYGMELLVAGNIISLDLSIAQVYELVWKKSNQSSTSLTNSALLASNAAPSRDCPPMTVTYRLQGLDGEATEPMIKELEEDREESQDPEIEFAIAGAVREYGGLEILLDMIKSLQDDFKSNQEEMVAVLDLLNHCCKIRENRRALLRLGALSLLLETARRAFSVDAMEPAEGILLIVESLTLEANESDSISAAQSALTVSNEETGTWEQAKKIVLMFLERLSHPSGLKKSNKQQRNTEMVARILPYLTYGEPAAMEALIEHFSPYLQNWSEFDQLQQRHEEDPKDDSIAQQAAKQRFTVENFVRVSESLKTSSCGERLKDIVLENGIIAVAVKHIKEIFAITGQTGFKSSKEWLLALKLPSVPLILSMLRGLSMGHLPTQTCIDEGGILTLLHALEGVSGENDIGARAENLLDTLADKEGKGDGFLGEKVRALRDATKDEMRRRALRKREELLQGLGMRQELSSDGGERIVVSQPILEGFEDVEEEEDGLACMVCREGYKLRPSDLLGVYSYSKRVNLGVGNSGSARGECVYTTVSYFNIIHFQCHQEAKRADAALKNPKKEWEGAMLRNNESLCNSLFPVKGPSVPLAQYLRYVDQYWDNLNALGRADGSRLRLLTYDIVLMLARFATGASFSADCRGGGRDSNSRFLPFMFQMARHLLDQGGPVQRTNMARSVSSYISSSSTSTATAPSSDSRPLTPGSQLSSTGTEETVQFMMVNSLLSESYESWLQHRRVFLQRGIYHTFMQHAHGRVASRAAEPTSSGGKTQDAETLTGDELLSIVKPMLVYTGMIEQLQQLFKPKKPVHIEPIKKEGTSSGVELEPWEIVMKEKLLNVKEMIGFSKELISWLDEINSATDLQEAFDIVGVLADVLSEGVTQCDQFVRSAIDKD

ID PTM Type Color
nt N-terminus Proteolysis X
nta N-terminal Acetylation X
so S-sulfenylation X
sno S-nitrosylation X
ph Phosphorylation X
ox Reversible Cysteine Oxidation X
Multiple types X

Domains & Sites

Clear highlighted range 
Interpro Domains
Show IPR ID From To
IPR000433 2612 2672
IPR003126 1573 1645
Sites
Show Type Position
Active Site 2618
Active Site 2621
Active Site 2642
Active Site 2645
Active Site 2633
Active Site 2636
Active Site 2658
Active Site 2662

BLAST


Perform a BLAST search for this sequence, or a part of this sequence (minimum 50 characters)
A downloadable tutorial can be found here