ATIDB : The Arabidopsis thaliana Integrated Database
Names and Synonyms
TOC159
AT4G02510
ATTOC159
PPI2
TOC160
TOC86
Gene Ontology Terms
GO:0045036 [AMIGO Graph]
Term : biological_process, protein targeting to chloroplast
Definition : The process of directing proteins towards the chloroplast using signals contained within the protein. Imported proteins are synthesized as cytosolic precursors containing N-terminal uptake-targeting sequences that direct each protein to its correct subcompartment and are subsequently cleaved.
GO:0009707 [AMIGO Graph]
Term : cellular_component, chloroplast outer membrane
Definition : The outer, i.e. cytoplasm-facing, lipid bilayer of the chloroplast envelope.
GO:0004888 [AMIGO Graph]
Term : molecular_function, transmembrane receptor activity
Definition : Combining with an extracellular or intracellular messenger to initiate a change in cell activity, and spanning to the membrane of either the cell or an organelle.
GO:0045036 [AMIGO Graph]
Term : biological_process, protein targeting to chloroplast
Definition : The process of directing proteins towards the chloroplast using signals contained within the protein. Imported proteins are synthesized as cytosolic precursors containing N-terminal uptake-targeting sequences that direct each protein to its correct subcompartment and are subsequently cleaved.
MIPS Functional Catalogue Classifications
| [14] |
PROTEIN FATE (folding, modification, destination) |
| [14.04] |
protein targeting, sorting and translocation |
| [20] |
CELLULAR TRANSPORT, TRANSPORT FACILITATION AND TRANSPORT ROUTES |
| [20.09] |
transport routes |
| [20.09.02] |
chloroplast transport |
Gene Predictions [*]
Gene Insertions
Flanking Sequence : T-DNA_LB.FLAG.119C11 [Graphical View|Text]
Location : chromosome 4, base 1105072-1105073
Mapping Score 2
[see FAQ]
Flanking Sequence : T-DNA_LB.FLAG.119F10 [Graphical View|Text]
Location : chromosome 4, base 1105072-1105073
Mapping Score 2
[see FAQ]
Flanking Sequence : T-DNA_LB.FLAG.119D06 [Graphical View|Text]
Location : chromosome 4, base 1105070-1105071
Mapping Score 1
[see FAQ]
Flanking Sequence : T-DNA_LB.GK-017G03-013475 [Graphical View|Text]
Location : chromosome 4, base 1104974-1104975
Mapping Score 2
[see FAQ]
Flanking Sequence : T-DNA_LB.GK-017G03-013165 [Graphical View|Text]
Location : chromosome 4, base 1104969-1104970
Mapping Score 4
[see FAQ]
Flanking Sequence : T-DNA_LB.GK-017G03-013489 [Graphical View|Text]
Location : chromosome 4, base 1104969-1104970
Mapping Score 5
[see FAQ]
Flanking Sequence : T-DNA_LB.GK-017G03-026160 [Graphical View|Text]
Location : chromosome 4, base 1104949-1104950
Mapping Score 5
[see FAQ]
Flanking Sequence : T-DNA_LB.GK-017G03-026159 [Graphical View|Text]
Location : chromosome 4, base 1104894-1104895
Mapping Score 3
[see FAQ]
Design Validation Primers
Automatically design primers for insert validation
InterProScan results
Sequences
AT4G02510.1 Sequences
AT4G02510.1, Protein sequence 1503 amino acids
MDSKSVTPEPTNPFYASSGQSGKTYASVVAAAAAAAADKEDGGAVSSAKELDSSSEAVSG
NSDKVGADDLSDSEKEKPNLVGDGKVSDEVDGSLKEDSTTPEATPKPEVVSGETIGVDDV
SSLSPKPEAVSDGVGVVEENKKVKEDVEDIKDDGESKIENGSVDVDVKQASTDGESESKV
KDVEEEDVGTKKDDEGESELGGKVDVDDKSDNVIEEEGVELTDKGDVIVNSSPVESVHVD
VAKPGVVVVGDAEGSEELKINADAETLEVANKFDQIGDDDSGEFEPVSDKAIEEVEEKFT
SESDSIADSSKLESVDTSAVEPEVVAAESGSEPKDVEKANGLEKGMTYAEVIKAASAVAD
NGTKEEESVLGGIVDDAEEGVKLNNKGDFVVDSSAIEAVNVDVAKPGVVVVGDVEVSEVL
ETDGNIPDVHNKFDPIGQGEGGEVELESDKATEEGGGKLVSEGDSMVDSSVVDSVDADIN
VAEPGVVVVGAAKEAVIKEDDKDDEVDKTISNIEEPDDLTAAYDGNFELAVKEISEAAKV
EPDEPKVGVEVEELPVSESLKVGSVDAEEDSIPAAESQFEVRKVVEGDSAEEDENKLPVE
DIVSSREFSFGGKEVDQEPSGEGVTRVDGSESEEETEEMIFGSSEAAKQFLAELEKASSG
IEAHSDEANISNNMSDRIDGQIVTDSDEDVDTEDEGEEKMFDTAALAALLKAATGGGSSE
GGNFTITSQDGTKLFSMDRPAGLSSSLRPLKPAAAPRANRSNIFSNSNVTMADETEINLS
EEEKQKLEKLQSLRVKFLRLLQRLGHSAEDSIAAQVLYRLALLAGRQAGQLFSLDAAKKK
AVESEAEGNEELIFSLNILVLGKAGVGKSATINSILGNQIASIDAFGLSTTSVREISGTV
NGVKITFIDTPGLKSAAMDQSTNAKMLSSVKKVMKKCPPDIVLYVDRLDTQTRDLNNLPL
LRTITASLGTSIWKNAIVTLTHAASAPPDGPSGTPLSYDVFVAQCSHIVQQSIGQAVGDL
RLMNPSLMNPVSLVENHPLCRKNREGVKVLPNGQTWRSQLLLLCYSLKVLSETNSLLRPQ
EPLDHRKVFGFRVRSPPLPYLLSWLLQSRAHPKLPGDQGGDSVDSDIEIDDVSDSEQEDG
EDDEYDQLPPFKPLRKTQLAKLSNEQRKAYFEEYDYRVKLLQKKQWREELKRMKEMKKNG
KKLGESEFGYPGEEDDPENGAPAAVPVPLPDMVLPPSFDSDNSAYRYRYLEPTSQLLTRP
VLDTHGWDHDCGYDGVNAEHSLALASRFPATATVQVTKDKKEFNIHLDSSVSAKHGENGS
TMAGFDIQNVGKQLAYVVRGETKFKNLRKNKTTVGGSVTFLGENIATGVKLEDQIALGKR
LVLVGSTGTMRSQGDSAYGANLEVRLREADFPIGQDQSSFGLSLVKWRGDLALGANLQSQ
VSVGRNSKIALRAGLNNKMSGQITVRTSSSDQLQIALTAILPIAMSIYKSIRPEATNDKY
SMY*
AT4G02510.1 Sequence 4823 bases
ATGGACTCAAAGTCGGTTACTCCAGAACCAACCAACCCCTTCTACGCTTCTTCGGGGCAATCAGGTTTTTCTTCTTTCTCGTTTATATCTTCTTTAATCT
GCGTTTTTGGGAATAGGGTTTTAATCGGAAGGATATTTTGTTATCAGGAAAAACCTATGCTTCTGTTGTCGCCGCCGCTGCTGCTGCAGCCGCCGATAAG
GAGGATGGTGGTGCTGTGAGTAGTGCCAAGGAGTTGGATTCCTCATCGGAGGCTGTGTCTGGTAATTCGGATAAGGTTGGAGCTGATGATTTATCTGACT
CCGAGAAGGAGAAGCCGAATTTGGTGGGTGATGGGAAGGTTTCCGACGAGGTGGATGGTTCTTTAAAGGAGGATTCTACTACTCCTGAGGCTACTCCGAA
GCCTGAGGTGGTTTCTGGTGAGACAATTGGTGTAGATGATGTTTCATCGTTATCTCCGAAGCCGGAGGCTGTTTCTGATGGTGTAGGGGTTGTGGAGGAG
AATAAGAAGGTTAAGGAGGACGTGGAGGATATTAAAGACGATGGTGAGAGTAAGATTGAAAATGGGAGTGTTGATGTTGATGTGAAACAGGCTTCCACAG
ATGGGGAGAGTGAGAGTAAAGTGAAGGATGTGGAAGAAGAAGATGTTGGAACAAAAAAAGATGATGAGGGGGAGAGTGAGTTGGGTGGAAAAGTTGATGT
TGACGATAAAAGTGATAATGTTATTGAAGAAGAGGGTGTGGAGTTAACTGATAAAGGAGACGTCATTGTGAACTCGTCCCCTGTAGAATCAGTGCATGTT
GATGTGGCAAAACCAGGGGTGGTTGTTGTAGGAGACGCAGAGGGAAGTGAGGAGTTGAAGATTAATGCTGATGCTGAAACTCTTGAAGTGGCTAATAAGT
TTGATCAAATTGGGGATGATGATAGTGGTGAATTTGAACCTGTGTCTGACAAGGCCATTGAGGAGGTAGAAGAAAAATTTACTAGCGAATCAGACTCTAT
TGCAGACTCCTCTAAGTTAGAATCTGTGGATACCAGTGCTGTAGAGCCAGAGGTTGTAGCTGCCGAGAGTGGGAGTGAACCAAAGGATGTGGAAAAAGCC
AACGGATTGGAGAAGGGTATGACTTATGCTGAAGTAATCAAGGCAGCTAGTGCAGTAGCTGACAATGGAACCAAAGAGGAGGAGAGTGTGCTCGGTGGCA
TAGTCGATGATGCAGAAGAAGGTGTTAAGTTAAACAACAAAGGAGACTTTGTGGTGGACTCATCTGCTATTGAAGCTGTGAATGTAGATGTGGCAAAGCC
AGGGGTTGTTGTTGTTGGAGACGTAGAGGTGAGTGAGGTGCTGGAAACTGATGGCAACATCCCTGATGTGCATAATAAGTTTGATCCAATTGGCCAAGGT
GAAGGTGGTGAAGTTGAACTTGAATCCGATAAAGCCACAGAGGAGGGAGGAGGAAAGTTGGTTAGTGAAGGAGACTCTATGGTTGACTCCTCTGTGGTGG
ACTCTGTTGATGCTGATATCAATGTTGCAGAGCCAGGGGTTGTGGTTGTCGGGGCGGCTAAGGAGGCTGTAATTAAGGAAGATGATAAAGATGATGAGGT
TGACAAGACCATCTCAAATATTGAGGAACCTGATGACCTGACTGCTGCATATGATGGAAATTTTGAATTGGCTGTTAAGGAAATATCAGAGGCTGCCAAA
GTAGAGCCAGACGAACCAAAAGTAGGTGTGGAAGTAGAAGAATTGCCTGTTTCTGAAAGTTTAAAAGTGGGTTCAGTTGATGCAGAAGAGGATTCAATTC
CTGCAGCTGAGTCACAGTTTGAGGTTCGGAAAGTTGTCGAAGGGGACAGTGCTGAAGAGGATGAAAACAAGCTCCCAGTCGAAGACATTGTTTCTTCTCG
TGAGTTTAGCTTTGGAGGCAAGGAAGTGGACCAGGAACCTTCTGGCGAAGGTGTTACCAGGGTTGATGGGTCTGAAAGTGAAGAAGAAACTGAAGAGATG
ATATTTGGGAGTTCTGAAGCTGCAAAACAGTTCTTAGCAGAGTTGGAAAAGGCTTCTTCTGGTATAGAGGCACATTCTGATGAAGCAAACATTTCTAACA
ATATGTCAGATAGGATTGATGGCCAGATTGTCACCGATTCTGACGAGGATGTAGACACAGAGGATGAAGGTGAGGAGAAAATGTTTGATACTGCAGCTTT
GGCTGCGCTTTTGAAGGCAGCCACTGGTGGTGGAAGTTCAGAAGGTGGCAATTTTACCATAACATCTCAGGATGGCACGAAGCTTTTCTCTATGGATCGA
CCTGCTGGTTTGAGTTCATCGTTAAGGCCCTTGAAGCCTGCAGCAGCTCCACGTGCAAACCGTTCCAACATCTTTTCCAATTCTAATGTCACAATGGCAG
ATGAGACTGAGATTAACTTGAGCGAGGAAGAGAAACAGAAATTAGAAAAGTTGCAAAGCCTCCGTGTGAAGTTTTTGCGGCTTTTGCAAAGGTTGGGTCA
TTCGGCAGAAGATTCAATTGCAGCGCAGGTTCTTTACCGTCTTGCACTACTTGCTGGGAGACAAGCAGGGCAGTTATTCAGTCTTGATGCTGCAAAGAAG
AAGGCTGTGGAGTCTGAGGCTGAGGGCAACGAAGAATTGATCTTCTCCCTAAACATACTGGTCCTTGGAAAAGCCGGGGTGGGAAAAAGTGCTACTATAA
ATTCCATTTTGGGAAACCAGATTGCGTCCATTGATGCTTTTGGGCTCTCAACCACTTCGGTTAGAGAAATTTCTGGAACGGTGAATGGTGTCAAGATTAC
CTTTATTGATACTCCGGGTTTGAAGTCTGCTGCGATGGATCAAAGTACAAATGCAAAAATGTTGTCCTCTGTAAAGAAGGTAATGAAGAAGTGTCCCCCT
GATATTGTACTATATGTAGATCGTCTTGACACCCAGACCAGGGACTTGAACAATTTGCCCTTGCTAAGGACGATTACTGCTTCTCTTGGTACATCCATAT
GGAAAAACGCTATAGTGACATTGACCCATGCGGCTTCTGCCCCTCCTGATGGCCCATCTGGCACCCCATTGAGCTATGATGTGTTTGTAGCGCAGTGCTC
ACATATTGTGCAACAGTCTATAGGACAGGCTGTTGGAGATCTACGCTTGATGAATCCAAGTCTGATGAATCCAGTTTCACTTGTTGAGAATCACCCCTTG
TGTAGGAAGAACCGGGAGGGAGTGAAGGTTCTCCCGAATGGCCAAACTTGGAGATCTCAGCTGTTGCTATTGTGTTACTCCCTGAAGGTTTTGTCAGAAA
CAAATTCTCTATTGAGGCCTCAAGAACCATTGGACCATCGTAAAGTATTTGGTTTCCGAGTTAGATCCCCGCCTCTCCCTTACTTGTTGTCTTGGCTGTT
GCAGTCCCGTGCACATCCTAAGCTCCCTGGAGACCAAGGTGGTGATAGTGTTGACTCTGATATCGAAATTGATGATGTGTCTGATTCTGAGCAGGAAGAT
GGGGAAGATGATGAGTATGACCAGCTGCCACCATTTAAGCCTCTTCGAAAAACCCAACTTGCAAAGCTCTCAAATGAACAGAGAAAGGCATATTTCGAGG
AGTATGATTACCGTGTAAAGCTCCTGCAGAAGAAGCAATGGAGAGAGGAATTAAAGAGGATGAAAGAAATGAAGAAAAACGGGAAGAAGCTGGGTGAAAG
TGAGTTTGGTTATCCGGGAGAAGAAGATGATCCAGAAAACGGGGCTCCAGCTGCAGTGCCAGTTCCATTACCCGATATGGTTTTGCCACCTTCATTTGAT
AGTGATAACTCAGCTTACCGATACCGATATCTGGAACCCACTTCACAACTCCTAACCAGGCCAGTGTTGGATACCCATGGTTGGGACCATGACTGTGGAT
ATGACGGCGTCAATGCAGAACACAGTCTTGCTCTAGCTAGCCGGTTCCCTGCCACAGCTACTGTCCAAGTCACCAAGGACAAGAAAGAGTTCAACATTCA
TCTGGACTCCTCTGTGTCTGCTAAGCACGGGGAGAATGGATCCACCATGGCAGGGTTCGATATTCAGAATGTAGGCAAGCAGCTGGCATATGTGGTCAGA
GGAGAAACCAAATTCAAGAATTTGAGGAAGAACAAGACAACTGTTGGAGGGTCAGTGACATTCTTGGGAGAGAACATCGCCACTGGGGTCAAACTCGAGG
ACCAAATAGCACTGGGGAAAAGGTTGGTGCTTGTGGGCAGCACTGGGACAATGCGATCACAGGGAGATTCGGCCTATGGTGCGAACCTCGAGGTCAGGCT
TAGGGAAGCTGATTTCCCAATTGGACAGGACCAATCTTCTTTTGGGCTGTCTCTGGTAAAGTGGAGAGGCGATTTAGCCCTTGGAGCCAATCTCCAATCT
CAAGTCTCTGTTGGAAGGAACTCAAAGATTGCGCTTCGTGCAGGACTTAACAACAAGATGAGCGGACAGATCACAGTCAGAACCAGCAGCTCGGATCAGT
TGCAAATCGCTCTCACAGCCATTCTTCCAATTGCCATGTCCATCTACAAGAGCATTCGACCCGAAGCGACGAACGACAAGTACAGCATGTACTAAATATG
CTGATGAATGCTGCAGAATGATCTTTTCTTTTATTACTGGTTTTTAGTTCATGTTTTTCCCCCACTTTAATAAAAACTTTGTTGAAGTTTATCAAAGTTG
TATTTTGGTTCTGTTGAGAGGTTCCCATCGGATTTAATTTATCATGTATCAGTAATTCTTCACTTTCATTAGCCCTTCTCAGCTTCTCTTGCTGTTCTTC
AGATAATGGAATCTAGTTCAGTC
AT4G02510.1 Coding Sequence (CDS) 4509 bases
ATGGACTCAAAGTCGGTTACTCCAGAACCAACCAACCCCTTCTACGCTTCTTCGGGGCAATCAGGAAAAACCTATGCTTCTGTTGTCGCCGCCGCTGCTG
CTGCAGCCGCCGATAAGGAGGATGGTGGTGCTGTGAGTAGTGCCAAGGAGTTGGATTCCTCATCGGAGGCTGTGTCTGGTAATTCGGATAAGGTTGGAGC
TGATGATTTATCTGACTCCGAGAAGGAGAAGCCGAATTTGGTGGGTGATGGGAAGGTTTCCGACGAGGTGGATGGTTCTTTAAAGGAGGATTCTACTACT
CCTGAGGCTACTCCGAAGCCTGAGGTGGTTTCTGGTGAGACAATTGGTGTAGATGATGTTTCATCGTTATCTCCGAAGCCGGAGGCTGTTTCTGATGGTG
TAGGGGTTGTGGAGGAGAATAAGAAGGTTAAGGAGGACGTGGAGGATATTAAAGACGATGGTGAGAGTAAGATTGAAAATGGGAGTGTTGATGTTGATGT
GAAACAGGCTTCCACAGATGGGGAGAGTGAGAGTAAAGTGAAGGATGTGGAAGAAGAAGATGTTGGAACAAAAAAAGATGATGAGGGGGAGAGTGAGTTG
GGTGGAAAAGTTGATGTTGACGATAAAAGTGATAATGTTATTGAAGAAGAGGGTGTGGAGTTAACTGATAAAGGAGACGTCATTGTGAACTCGTCCCCTG
TAGAATCAGTGCATGTTGATGTGGCAAAACCAGGGGTGGTTGTTGTAGGAGACGCAGAGGGAAGTGAGGAGTTGAAGATTAATGCTGATGCTGAAACTCT
TGAAGTGGCTAATAAGTTTGATCAAATTGGGGATGATGATAGTGGTGAATTTGAACCTGTGTCTGACAAGGCCATTGAGGAGGTAGAAGAAAAATTTACT
AGCGAATCAGACTCTATTGCAGACTCCTCTAAGTTAGAATCTGTGGATACCAGTGCTGTAGAGCCAGAGGTTGTAGCTGCCGAGAGTGGGAGTGAACCAA
AGGATGTGGAAAAAGCCAACGGATTGGAGAAGGGTATGACTTATGCTGAAGTAATCAAGGCAGCTAGTGCAGTAGCTGACAATGGAACCAAAGAGGAGGA
GAGTGTGCTCGGTGGCATAGTCGATGATGCAGAAGAAGGTGTTAAGTTAAACAACAAAGGAGACTTTGTGGTGGACTCATCTGCTATTGAAGCTGTGAAT
GTAGATGTGGCAAAGCCAGGGGTTGTTGTTGTTGGAGACGTAGAGGTGAGTGAGGTGCTGGAAACTGATGGCAACATCCCTGATGTGCATAATAAGTTTG
ATCCAATTGGCCAAGGTGAAGGTGGTGAAGTTGAACTTGAATCCGATAAAGCCACAGAGGAGGGAGGAGGAAAGTTGGTTAGTGAAGGAGACTCTATGGT
TGACTCCTCTGTGGTGGACTCTGTTGATGCTGATATCAATGTTGCAGAGCCAGGGGTTGTGGTTGTCGGGGCGGCTAAGGAGGCTGTAATTAAGGAAGAT
GATAAAGATGATGAGGTTGACAAGACCATCTCAAATATTGAGGAACCTGATGACCTGACTGCTGCATATGATGGAAATTTTGAATTGGCTGTTAAGGAAA
TATCAGAGGCTGCCAAAGTAGAGCCAGACGAACCAAAAGTAGGTGTGGAAGTAGAAGAATTGCCTGTTTCTGAAAGTTTAAAAGTGGGTTCAGTTGATGC
AGAAGAGGATTCAATTCCTGCAGCTGAGTCACAGTTTGAGGTTCGGAAAGTTGTCGAAGGGGACAGTGCTGAAGAGGATGAAAACAAGCTCCCAGTCGAA
GACATTGTTTCTTCTCGTGAGTTTAGCTTTGGAGGCAAGGAAGTGGACCAGGAACCTTCTGGCGAAGGTGTTACCAGGGTTGATGGGTCTGAAAGTGAAG
AAGAAACTGAAGAGATGATATTTGGGAGTTCTGAAGCTGCAAAACAGTTCTTAGCAGAGTTGGAAAAGGCTTCTTCTGGTATAGAGGCACATTCTGATGA
AGCAAACATTTCTAACAATATGTCAGATAGGATTGATGGCCAGATTGTCACCGATTCTGACGAGGATGTAGACACAGAGGATGAAGGTGAGGAGAAAATG
TTTGATACTGCAGCTTTGGCTGCGCTTTTGAAGGCAGCCACTGGTGGTGGAAGTTCAGAAGGTGGCAATTTTACCATAACATCTCAGGATGGCACGAAGC
TTTTCTCTATGGATCGACCTGCTGGTTTGAGTTCATCGTTAAGGCCCTTGAAGCCTGCAGCAGCTCCACGTGCAAACCGTTCCAACATCTTTTCCAATTC
TAATGTCACAATGGCAGATGAGACTGAGATTAACTTGAGCGAGGAAGAGAAACAGAAATTAGAAAAGTTGCAAAGCCTCCGTGTGAAGTTTTTGCGGCTT
TTGCAAAGGTTGGGTCATTCGGCAGAAGATTCAATTGCAGCGCAGGTTCTTTACCGTCTTGCACTACTTGCTGGGAGACAAGCAGGGCAGTTATTCAGTC
TTGATGCTGCAAAGAAGAAGGCTGTGGAGTCTGAGGCTGAGGGCAACGAAGAATTGATCTTCTCCCTAAACATACTGGTCCTTGGAAAAGCCGGGGTGGG
AAAAAGTGCTACTATAAATTCCATTTTGGGAAACCAGATTGCGTCCATTGATGCTTTTGGGCTCTCAACCACTTCGGTTAGAGAAATTTCTGGAACGGTG
AATGGTGTCAAGATTACCTTTATTGATACTCCGGGTTTGAAGTCTGCTGCGATGGATCAAAGTACAAATGCAAAAATGTTGTCCTCTGTAAAGAAGGTAA
TGAAGAAGTGTCCCCCTGATATTGTACTATATGTAGATCGTCTTGACACCCAGACCAGGGACTTGAACAATTTGCCCTTGCTAAGGACGATTACTGCTTC
TCTTGGTACATCCATATGGAAAAACGCTATAGTGACATTGACCCATGCGGCTTCTGCCCCTCCTGATGGCCCATCTGGCACCCCATTGAGCTATGATGTG
TTTGTAGCGCAGTGCTCACATATTGTGCAACAGTCTATAGGACAGGCTGTTGGAGATCTACGCTTGATGAATCCAAGTCTGATGAATCCAGTTTCACTTG
TTGAGAATCACCCCTTGTGTAGGAAGAACCGGGAGGGAGTGAAGGTTCTCCCGAATGGCCAAACTTGGAGATCTCAGCTGTTGCTATTGTGTTACTCCCT
GAAGGTTTTGTCAGAAACAAATTCTCTATTGAGGCCTCAAGAACCATTGGACCATCGTAAAGTATTTGGTTTCCGAGTTAGATCCCCGCCTCTCCCTTAC
TTGTTGTCTTGGCTGTTGCAGTCCCGTGCACATCCTAAGCTCCCTGGAGACCAAGGTGGTGATAGTGTTGACTCTGATATCGAAATTGATGATGTGTCTG
ATTCTGAGCAGGAAGATGGGGAAGATGATGAGTATGACCAGCTGCCACCATTTAAGCCTCTTCGAAAAACCCAACTTGCAAAGCTCTCAAATGAACAGAG
AAAGGCATATTTCGAGGAGTATGATTACCGTGTAAAGCTCCTGCAGAAGAAGCAATGGAGAGAGGAATTAAAGAGGATGAAAGAAATGAAGAAAAACGGG
AAGAAGCTGGGTGAAAGTGAGTTTGGTTATCCGGGAGAAGAAGATGATCCAGAAAACGGGGCTCCAGCTGCAGTGCCAGTTCCATTACCCGATATGGTTT
TGCCACCTTCATTTGATAGTGATAACTCAGCTTACCGATACCGATATCTGGAACCCACTTCACAACTCCTAACCAGGCCAGTGTTGGATACCCATGGTTG
GGACCATGACTGTGGATATGACGGCGTCAATGCAGAACACAGTCTTGCTCTAGCTAGCCGGTTCCCTGCCACAGCTACTGTCCAAGTCACCAAGGACAAG
AAAGAGTTCAACATTCATCTGGACTCCTCTGTGTCTGCTAAGCACGGGGAGAATGGATCCACCATGGCAGGGTTCGATATTCAGAATGTAGGCAAGCAGC
TGGCATATGTGGTCAGAGGAGAAACCAAATTCAAGAATTTGAGGAAGAACAAGACAACTGTTGGAGGGTCAGTGACATTCTTGGGAGAGAACATCGCCAC
TGGGGTCAAACTCGAGGACCAAATAGCACTGGGGAAAAGGTTGGTGCTTGTGGGCAGCACTGGGACAATGCGATCACAGGGAGATTCGGCCTATGGTGCG
AACCTCGAGGTCAGGCTTAGGGAAGCTGATTTCCCAATTGGACAGGACCAATCTTCTTTTGGGCTGTCTCTGGTAAAGTGGAGAGGCGATTTAGCCCTTG
GAGCCAATCTCCAATCTCAAGTCTCTGTTGGAAGGAACTCAAAGATTGCGCTTCGTGCAGGACTTAACAACAAGATGAGCGGACAGATCACAGTCAGAAC
CAGCAGCTCGGATCAGTTGCAAATCGCTCTCACAGCCATTCTTCCAATTGCCATGTCCATCTACAAGAGCATTCGACCCGAAGCGACGAACGACAAGTAC
AGCATGTACTAA
AT4G02510.1 cDNA Sequence 4740 bases
ATGGACTCAAAGTCGGTTACTCCAGAACCAACCAACCCCTTCTACGCTTCTTCGGGGCAATCAGGAAAAACCTATGCTTCTGTTGTCGCCGCCGCTGCTG
CTGCAGCCGCCGATAAGGAGGATGGTGGTGCTGTGAGTAGTGCCAAGGAGTTGGATTCCTCATCGGAGGCTGTGTCTGGTAATTCGGATAAGGTTGGAGC
TGATGATTTATCTGACTCCGAGAAGGAGAAGCCGAATTTGGTGGGTGATGGGAAGGTTTCCGACGAGGTGGATGGTTCTTTAAAGGAGGATTCTACTACT
CCTGAGGCTACTCCGAAGCCTGAGGTGGTTTCTGGTGAGACAATTGGTGTAGATGATGTTTCATCGTTATCTCCGAAGCCGGAGGCTGTTTCTGATGGTG
TAGGGGTTGTGGAGGAGAATAAGAAGGTTAAGGAGGACGTGGAGGATATTAAAGACGATGGTGAGAGTAAGATTGAAAATGGGAGTGTTGATGTTGATGT
GAAACAGGCTTCCACAGATGGGGAGAGTGAGAGTAAAGTGAAGGATGTGGAAGAAGAAGATGTTGGAACAAAAAAAGATGATGAGGGGGAGAGTGAGTTG
GGTGGAAAAGTTGATGTTGACGATAAAAGTGATAATGTTATTGAAGAAGAGGGTGTGGAGTTAACTGATAAAGGAGACGTCATTGTGAACTCGTCCCCTG
TAGAATCAGTGCATGTTGATGTGGCAAAACCAGGGGTGGTTGTTGTAGGAGACGCAGAGGGAAGTGAGGAGTTGAAGATTAATGCTGATGCTGAAACTCT
TGAAGTGGCTAATAAGTTTGATCAAATTGGGGATGATGATAGTGGTGAATTTGAACCTGTGTCTGACAAGGCCATTGAGGAGGTAGAAGAAAAATTTACT
AGCGAATCAGACTCTATTGCAGACTCCTCTAAGTTAGAATCTGTGGATACCAGTGCTGTAGAGCCAGAGGTTGTAGCTGCCGAGAGTGGGAGTGAACCAA
AGGATGTGGAAAAAGCCAACGGATTGGAGAAGGGTATGACTTATGCTGAAGTAATCAAGGCAGCTAGTGCAGTAGCTGACAATGGAACCAAAGAGGAGGA
GAGTGTGCTCGGTGGCATAGTCGATGATGCAGAAGAAGGTGTTAAGTTAAACAACAAAGGAGACTTTGTGGTGGACTCATCTGCTATTGAAGCTGTGAAT
GTAGATGTGGCAAAGCCAGGGGTTGTTGTTGTTGGAGACGTAGAGGTGAGTGAGGTGCTGGAAACTGATGGCAACATCCCTGATGTGCATAATAAGTTTG
ATCCAATTGGCCAAGGTGAAGGTGGTGAAGTTGAACTTGAATCCGATAAAGCCACAGAGGAGGGAGGAGGAAAGTTGGTTAGTGAAGGAGACTCTATGGT
TGACTCCTCTGTGGTGGACTCTGTTGATGCTGATATCAATGTTGCAGAGCCAGGGGTTGTGGTTGTCGGGGCGGCTAAGGAGGCTGTAATTAAGGAAGAT
GATAAAGATGATGAGGTTGACAAGACCATCTCAAATATTGAGGAACCTGATGACCTGACTGCTGCATATGATGGAAATTTTGAATTGGCTGTTAAGGAAA
TATCAGAGGCTGCCAAAGTAGAGCCAGACGAACCAAAAGTAGGTGTGGAAGTAGAAGAATTGCCTGTTTCTGAAAGTTTAAAAGTGGGTTCAGTTGATGC
AGAAGAGGATTCAATTCCTGCAGCTGAGTCACAGTTTGAGGTTCGGAAAGTTGTCGAAGGGGACAGTGCTGAAGAGGATGAAAACAAGCTCCCAGTCGAA
GACATTGTTTCTTCTCGTGAGTTTAGCTTTGGAGGCAAGGAAGTGGACCAGGAACCTTCTGGCGAAGGTGTTACCAGGGTTGATGGGTCTGAAAGTGAAG
AAGAAACTGAAGAGATGATATTTGGGAGTTCTGAAGCTGCAAAACAGTTCTTAGCAGAGTTGGAAAAGGCTTCTTCTGGTATAGAGGCACATTCTGATGA
AGCAAACATTTCTAACAATATGTCAGATAGGATTGATGGCCAGATTGTCACCGATTCTGACGAGGATGTAGACACAGAGGATGAAGGTGAGGAGAAAATG
TTTGATACTGCAGCTTTGGCTGCGCTTTTGAAGGCAGCCACTGGTGGTGGAAGTTCAGAAGGTGGCAATTTTACCATAACATCTCAGGATGGCACGAAGC
TTTTCTCTATGGATCGACCTGCTGGTTTGAGTTCATCGTTAAGGCCCTTGAAGCCTGCAGCAGCTCCACGTGCAAACCGTTCCAACATCTTTTCCAATTC
TAATGTCACAATGGCAGATGAGACTGAGATTAACTTGAGCGAGGAAGAGAAACAGAAATTAGAAAAGTTGCAAAGCCTCCGTGTGAAGTTTTTGCGGCTT
TTGCAAAGGTTGGGTCATTCGGCAGAAGATTCAATTGCAGCGCAGGTTCTTTACCGTCTTGCACTACTTGCTGGGAGACAAGCAGGGCAGTTATTCAGTC
TTGATGCTGCAAAGAAGAAGGCTGTGGAGTCTGAGGCTGAGGGCAACGAAGAATTGATCTTCTCCCTAAACATACTGGTCCTTGGAAAAGCCGGGGTGGG
AAAAAGTGCTACTATAAATTCCATTTTGGGAAACCAGATTGCGTCCATTGATGCTTTTGGGCTCTCAACCACTTCGGTTAGAGAAATTTCTGGAACGGTG
AATGGTGTCAAGATTACCTTTATTGATACTCCGGGTTTGAAGTCTGCTGCGATGGATCAAAGTACAAATGCAAAAATGTTGTCCTCTGTAAAGAAGGTAA
TGAAGAAGTGTCCCCCTGATATTGTACTATATGTAGATCGTCTTGACACCCAGACCAGGGACTTGAACAATTTGCCCTTGCTAAGGACGATTACTGCTTC
TCTTGGTACATCCATATGGAAAAACGCTATAGTGACATTGACCCATGCGGCTTCTGCCCCTCCTGATGGCCCATCTGGCACCCCATTGAGCTATGATGTG
TTTGTAGCGCAGTGCTCACATATTGTGCAACAGTCTATAGGACAGGCTGTTGGAGATCTACGCTTGATGAATCCAAGTCTGATGAATCCAGTTTCACTTG
TTGAGAATCACCCCTTGTGTAGGAAGAACCGGGAGGGAGTGAAGGTTCTCCCGAATGGCCAAACTTGGAGATCTCAGCTGTTGCTATTGTGTTACTCCCT
GAAGGTTTTGTCAGAAACAAATTCTCTATTGAGGCCTCAAGAACCATTGGACCATCGTAAAGTATTTGGTTTCCGAGTTAGATCCCCGCCTCTCCCTTAC
TTGTTGTCTTGGCTGTTGCAGTCCCGTGCACATCCTAAGCTCCCTGGAGACCAAGGTGGTGATAGTGTTGACTCTGATATCGAAATTGATGATGTGTCTG
ATTCTGAGCAGGAAGATGGGGAAGATGATGAGTATGACCAGCTGCCACCATTTAAGCCTCTTCGAAAAACCCAACTTGCAAAGCTCTCAAATGAACAGAG
AAAGGCATATTTCGAGGAGTATGATTACCGTGTAAAGCTCCTGCAGAAGAAGCAATGGAGAGAGGAATTAAAGAGGATGAAAGAAATGAAGAAAAACGGG
AAGAAGCTGGGTGAAAGTGAGTTTGGTTATCCGGGAGAAGAAGATGATCCAGAAAACGGGGCTCCAGCTGCAGTGCCAGTTCCATTACCCGATATGGTTT
TGCCACCTTCATTTGATAGTGATAACTCAGCTTACCGATACCGATATCTGGAACCCACTTCACAACTCCTAACCAGGCCAGTGTTGGATACCCATGGTTG
GGACCATGACTGTGGATATGACGGCGTCAATGCAGAACACAGTCTTGCTCTAGCTAGCCGGTTCCCTGCCACAGCTACTGTCCAAGTCACCAAGGACAAG
AAAGAGTTCAACATTCATCTGGACTCCTCTGTGTCTGCTAAGCACGGGGAGAATGGATCCACCATGGCAGGGTTCGATATTCAGAATGTAGGCAAGCAGC
TGGCATATGTGGTCAGAGGAGAAACCAAATTCAAGAATTTGAGGAAGAACAAGACAACTGTTGGAGGGTCAGTGACATTCTTGGGAGAGAACATCGCCAC
TGGGGTCAAACTCGAGGACCAAATAGCACTGGGGAAAAGGTTGGTGCTTGTGGGCAGCACTGGGACAATGCGATCACAGGGAGATTCGGCCTATGGTGCG
AACCTCGAGGTCAGGCTTAGGGAAGCTGATTTCCCAATTGGACAGGACCAATCTTCTTTTGGGCTGTCTCTGGTAAAGTGGAGAGGCGATTTAGCCCTTG
GAGCCAATCTCCAATCTCAAGTCTCTGTTGGAAGGAACTCAAAGATTGCGCTTCGTGCAGGACTTAACAACAAGATGAGCGGACAGATCACAGTCAGAAC
CAGCAGCTCGGATCAGTTGCAAATCGCTCTCACAGCCATTCTTCCAATTGCCATGTCCATCTACAAGAGCATTCGACCCGAAGCGACGAACGACAAGTAC
AGCATGTACTAAATATGCTGATGAATGCTGCAGAATGATCTTTTCTTTTATTACTGGTTTTTAGTTCATGTTTTTCCCCCACTTTAATAAAAACTTTGTT
GAAGTTTATCAAAGTTGTATTTTGGTTCTGTTGAGAGGTTCCCATCGGATTTAATTTATCATGTATCAGTAATTCTTCACTTTCATTAGCCCTTCTCAGC
TTCTCTTGCTGTTCTTCAGATAATGGAATCTAGTTCAGTC