Information report for AT1G03445
Gene Details
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Functional Descriptions
- PO:0000084 — plant sperm cell — célula espermática o esperma (Spanish, exact), male gamete (exact), microgamete (exact), 植物精子細胞 (Japanese, exact), sperm nucleus (related), sperm cell (broad)
- PO:0025195 — pollen tube cell — célula del tubo polínico (Spanish, exact), 花粉管細胞 (Japanese, exact)
- GO:1900459 — involved in — positive regulation of brassinosteroid mediated signaling pathway
- GO:0005515 — enables — protein binding
- GO:0032880 — acts upstream of or within — regulation of protein localization
- GO:0005886 — located in — plasma membrane
- GO:0009742 — acts upstream of or within — brassinosteroid mediated signaling pathway
- GO:0005634 — located in — nucleus
- GO:0009742 — involved in — brassinosteroid mediated signaling pathway
- GO:0004722 — enables — protein serine/threonine phosphatase activity
- GO:0017018 — enables — myosin phosphatase activity
Functional Keywords
Literature and News
- Cell-specific protein profiling in Arabidopsis thaliana trichomes: identification of trichome-located proteins involved in sulfur metabolism and detoxification. DOI: 10.1016/j.phytochem.2004.03.026 ; PMID: 15276459
- Proteomic analysis of different mutant genotypes of Arabidopsis led to the identification of 11 proteins correlating with adventitious root development. DOI: 10.1104/pp.105.067868 ; PMID: 16377752
- Prediction of trans-antisense transcripts in Arabidopsis thaliana. DOI: 10.1186/gb-2006-7-10-r92 ; PMID: 17040561
- Phosphoproteomic identification of targets of the Arabidopsis sucrose nonfermenting-like kinase SnRK2.8 reveals a connection to metabolic processes. DOI: 10.1073/pnas.0610208104 ; PMID: 17404219
- An analysis of expressed sequence tags of developing castor endosperm using a full-length cDNA library. DOI: 10.1186/1471-2229-7-42 ; PMID: 17672910
- Gene expression profiling of the different stages of Arabidopsis thaliana trichome development on the single cell level. DOI: 10.1016/j.plaphy.2007.11.001 ; PMID: 18160300
- Elucidating the germination transcriptional program using small molecules. DOI: 10.1104/pp.107.110841 ; PMID: 18359847
- Light-induced phosphorylation and degradation of the negative regulator PHYTOCHROME-INTERACTING FACTOR1 from Arabidopsis depend upon its direct physical interactions with photoactivated phytochromes. DOI: 10.1105/tpc.108.060020 ; PMID: 18539749
- The receptor-like kinase SOL2 mediates CLE signaling in Arabidopsis. DOI: 10.1093/pcp/pcn148 ; PMID: 18854335
- Helical growth of the Arabidopsis mutant tortifolia2 does not depend on cell division patterns but involves handed twisting of isolated cells. DOI: 10.1105/tpc.108.061242 ; PMID: 19638477
- Gravity-induced modifications to development in hypocotyls of Arabidopsis tubulin mutants. DOI: 10.1104/pp.109.147330 ; PMID: 20018592
- TDIF peptide signaling regulates vascular stem cell proliferation via the WOX4 homeobox gene in Arabidopsis. DOI: 10.1105/tpc.110.076083 ; PMID: 20729381
Gene Resources
- UniProt: A0A1P8AQ82
- EMBL: CP002684
- AlphaFoldDB: A0A1P8AQ82
- EnsemblPlants: AT1G03445.2
- Gramene: AT1G03445.2
- ExpressionAtlas: AT1G03445
- InterPro: IPR004843, IPR006186, IPR011498
- PANTHER: PTHR46422, PTHR46422:SF7
- SUPFAM: SSF117281, SSF56300
- PROSITE: PS00125
- Gene3D: 2.120.10.80, 3.60.21.10
- SWISS-MODEL: A0A1P8AQ82
Homologs
- Actinidia chinensis Achn144111
- Capsicum annuum T459_17866
- Musa acuminata GSMUA_Achr2P12930_001, Ma09_g21990
- Nicotiana attenuata A4A49_18803
- Oryza sativa OsPPKL2, OsPPKL3, GL3.1;qGL3-1, OsPP1c, OsPP2A-1, OsPP2A-3, OsPP2A-2
- Triticum aestivum TaPP2A-2
Sequences
cDNA Sequence
- >AT1G03445.2
ACCAAAACTAAAAGAGTGCGCTCGTGGACAAATTTTAGGCTATAAAATGGAGACGAAGGCGATTGGATTTCACCACCTTTCTCCACCACAAAATATTGTGTTATGGCTCCTGATCAATCTTATCAATATCCATCTCCTTCGTATGAATCGATACAGACCTTTTACGATACCGATGAGGATTGGCCGGGTCCTAGATGCGGCCATACTCTCACGGCGGTTTTCGTCAACAATTCCCATCAGCTTATCCTCTTCGGCGGCAGTACTACTGCCGTCGCCAACCATAACTCCTCCTTACCCGAGATCAGTTTAGATGGCGTCACCAATTCGGTCCATTCTTTTGATGTTTTGACCAGGAAGTGGACAAGGCTTAATCCGATTGGTGACGTTCCGTCTCCCAGGGCTTGTCATGCTGCCGCTTTATATGGCACCTTGATCCTTATTCAGGGTGGGATTGGTCCATCCGGACCTTCTGATGGAGATGTCTACATGCTTGACATGACTAATAACAAGTGGATTAAGTTTCTGGTTGGAGGGGAGACTCCAAGCCCTCGCTATGGCCATGTTATGGATATAGCTGCTCAGAGGTGGCTTGTCATATTCAGCGGGAATAATGGAAATGAAATTCTGGATGATACATGGGCATTGGACACGCGTGGACCATTTTCATGGGACAGATTGAACCCGTCTGGCAATCAGCCAAGTGGGAGAATGTATGCTTCAGGTAGTTCTCGAGAAGATGGTATTTTTTTGCTCTGCGGTGGAATAGATCACTCAGGAGTGACACTGGGAGATACTTACGGGCTGAAAATGGATAGCGATAATGTTTGGACTCCTGTTCCAGCTGTAGCTCCTTCCCCGAGATATCAACATACTGCGGTTTTCGGAGGTTCAAAACTGCATGTCATTGGGGGTATACTGAATAGGGCTCGCCTAATCGATGGTGAAGCAGTTGTTGCTGTGCTTGATACTGAGACTGGTGAATGGGTAGATACCAATCAACCAGAGACCTCTGCGAGCGGCGCCAATAGACAAAATCAATATCAACTTATGCGACGTTGTCACCATGCTGCTGCATCGTTTGGCAGCCACCTATATGTGCATGGCGGGATTAGAGAAGATGTATTGCTCGACGATTTGCTAGTTGCTGAAACATCCCAGTCTTCAAGTCCTGAACCAGAAGAAGATAATCCTGATAATTATATGTTGCTCGACGACTATCTAATGGATGAACCTAAGCCTTTAAGTTCTGAACCAGAAGCTTCATCCTTTATAATGAGGAGCACAAGTGAAATTGCGATGGATAGATTGGCAGAGGCACATAACTTACCAACTATCGAAAATGCTTTTTATGATAGTGCTATTGAAGGATACGTTCCACTTCAACATGGAGCTGAGACGGTTGGAAATCGAGGTGGCTTGGTGAGAACTGCAAGCTTGGATCAATCTACTCAAGACTTGCATAAGAAGGTCATTTCGACACTGTTGAGACCTAAAACCTGGACGCCTCCTGCCAACAGAGATTTTTTCTTGAGTTATTTAGAAGTTAAGCATTTGTGCGATGAGGTAGAGAAAATATTTATGAATGAACCAACACTTCTTCAGCTCAAAGTTCCAATCAAAGTCTTCGGCGATATCCATGGACAATACGGGGATTTGATGCGTTTATTTCATGAATATGGACATCCTTCAGTGGAAGGAGATATCACCCATATAGACTATTTGTTTTTGGGAGATTATGTTGACCGTGGACAACACAGCTTGGAGATCATCATGTTGCTGTTTGCTTTGAAGATAGAATATCCGAAGAACATCCACTTGATTCGTGGAAATCATGAGTCTCTTGCAATGAATAGAATTTATGGTTTTCTTACAGAATGCGAAGAAAGAATGGGCGAGTCCTATGGGTTCGAAGCATGGTTAAAGATTAATCAAGTTTTTGATTATCTTCCGCTTGCTGCACTTCTAGAAAAGAAAGTTTTGTGTGTCCATGGCGGAATTGGGAGGGCAGTTACGATCGAAGAAATTGAAAATATCGAAAGGCCGGCATTCCCGGATACTGGATCAATGGTCTTGAAAGACATCTTATGGTCAGATCCTACGATGAATGACACTGTTTTGGGTATAGTAGACAATGCCAGAGGAGAAGGTGTTGTCTCATTTGGGCCTGATATAGTCAAGGCATTTCTAGAAAGGAATGGTCTGGAGATGATACTAAGAGCACACGAGTGTGTTATTGACGGCTTTGAAAGATTCGCTGACGGACGGCTTATAACAGTCTTTTCTGCTACAAATTACTGTGGAACTGCACAAAATGCGGGAGCAATATTGGTAATTGGTAGAGATATGGTAATTTATCCTAAGCTGATTCATCCTCACCCTCCTCCCATCTCATCTTCAGAAGAAGACTATACAGACAAAGCATGGATGCAGGTAAGCCTCCCGTTTCTTTACCATATAGAATAGATATTGAGCATATGAAACATGTTGTGGTAACCGAGCTTTTAAGTACTTTTGTGATGGACT - >AT1G03445.1
ACCAAAACTAAAAGAGTGCGCTCGTGGACAAATTTTAGGCTATAAAATGGAGACGAAGGCGATTGGATTTCACCACCTTTCTCCACCACAAAATATTGTGTTATGGCTCCTGATCAATCTTATCAATATCCATCTCCTTCGTATGAATCGATACAGACCTTTTACGATACCGATGAGGATTGGCCGGGTCCTAGATGCGGCCATACTCTCACGGCGGTTTTCGTCAACAATTCCCATCAGCTTATCCTCTTCGGCGGCAGTACTACTGCCGTCGCCAACCATAACTCCTCCTTACCCGAGATCAGTTTAGATGGCGTCACCAATTCGGTCCATTCTTTTGATGTTTTGACCAGGAAGTGGACAAGGCTTAATCCGATTGGTGACGTTCCGTCTCCCAGGGCTTGTCATGCTGCCGCTTTATATGGCACCTTGATCCTTATTCAGGGTGGGATTGGTCCATCCGGACCTTCTGATGGAGATGTCTACATGCTTGACATGACTAATAACAAGTGGATTAAGTTTCTGGTTGGAGGGGAGACTCCAAGCCCTCGCTATGGCCATGTTATGGATATAGCTGCTCAGAGGTGGCTTGTCATATTCAGCGGGAATAATGGAAATGAAATTCTGGATGATACATGGGCATTGGACACGCGTGGACCATTTTCATGGGACAGATTGAACCCGTCTGGCAATCAGCCAAGTGGGAGAATGTATGCTTCAGGTAGTTCTCGAGAAGATGGTATTTTTTTGCTCTGCGGTGGAATAGATCACTCAGGAGTGACACTGGGAGATACTTACGGGCTGAAAATGGATAGCGATAATGTTTGGACTCCTGTTCCAGCTGTAGCTCCTTCCCCGAGATATCAACATACTGCGGTTTTCGGAGGTTCAAAACTGCATGTCATTGGGGGTATACTGAATAGGGCTCGCCTAATCGATGGTGAAGCAGTTGTTGCTGTGCTTGATACTGAGACTGGTGAATGGGTAGATACCAATCAACCAGAGACCTCTGCGAGCGGCGCCAATAGACAAAATCAATATCAACTTATGCGACGTTGTCACCATGCTGCTGCATCGTTTGGCAGCCACCTATATGTGCATGGCGGGATTAGAGAAGATGTATTGCTCGACGATTTGCTAGTTGCTGAAACATCCCAGTCTTCAAGTCCTGAACCAGAAGAAGATAATCCTGATAATTATATGTTGCTCGACGACTATCTAATGGATGAACCTAAGCCTTTAAGTTCTGAACCAGAAGCTTCATCCTTTATAATGAGGAGCACAAGTGAAATTGCGATGGATAGATTGGCAGAGGCACATAACTTACCAACTATCGAAAATGCTTTTTATGATAGTGCTATTGAAGGATACGTTCCACTTCAACATGGAGCTGAGACGGTTGGAAATCGAGGTGGCTTGGTGAGAACTGCAAGCTTGGATCAATCTACTCAAGACTTGCATAAGAAGGTCATTTCGACACTGTTGAGACCTAAAACCTGGACGCCTCCTGCCAACAGAGATTTTTTCTTGAGTTATTTAGAAGTTAAGCATTTGTGCGATGAGGTAGAGAAAATATTTATGAATGAACCAACACTTCTTCAGCTCAAAGTTCCAATCAAAGTCTTCGGCGATATCCATGGACAATACGGGGATTTGATGCGTTTATTTCATGAATATGGACATCCTTCAGTGGAAGGAGATATCACCCATATAGACTATTTGTTTTTGGGAGATTATGTTGACCGTGGACAACACAGCTTGGAGATCATCATGTTGCTGTTTGCTTTGAAGATAGAATATCCGAAGAACATCCACTTGATTCGTGGAAATCATGAGTCTCTTGCAATGAATAGAATTTATGGTTTTCTTACAGAATGCGAAGAAAGAATGGGCGAGTCCTATGGGTTCGAAGCATGGTTAAAGATTAATCAAGTTTTTGATTATCTTCCGCTTGCTGCACTTCTAGAAAAGAAAGTTTTGTGTGTCCATGGCGGAATTGGGAGGGCAGTTACGATCGAAGAAATTGAAAATATCGAAAGGCCGGCATTCCCGGATACTGGATCAATGGTCTTGAAAGACATCTTATGGTCAGATCCTACGATGAATGACACTGTTTTGGGTATAGTAGACAATGCCAGAGGAGAAGGTGTTGTCTCATTTGGGCCTGATATAGTCAAGGCATTTCTAGAAAGGAATGGTCTGGAGATGATACTAAGAGCACACGAGTGTGTTATTGACGGCTTTGAAAGATTCGCTGACGGACGGCTTATAACAGTCTTTTCTGCTACAAATTACTGTGGAACTGCACAAAATGCGGGAGCAATATTGGTAATTGGTAGAGATATGGTAATTTATCCTAAGCTGATTCATCCTCACCCTCCTCCCATCTCATCTTCAGAAGAAGACTATACAGACAAAGCATGGATGCAGGTAAGCCTCCCGTTTCTTTACCATATAGAATAGATATTGAGCATATGAAACATGTTGTGGTAACCGAGCTTTTAAGTACTTTTGTGATGGACT
CDS Sequence
- >AT1G03445.2
ATGGCTCCTGATCAATCTTATCAATATCCATCTCCTTCGTATGAATCGATACAGACCTTTTACGATACCGATGAGGATTGGCCGGGTCCTAGATGCGGCCATACTCTCACGGCGGTTTTCGTCAACAATTCCCATCAGCTTATCCTCTTCGGCGGCAGTACTACTGCCGTCGCCAACCATAACTCCTCCTTACCCGAGATCAGTTTAGATGGCGTCACCAATTCGGTCCATTCTTTTGATGTTTTGACCAGGAAGTGGACAAGGCTTAATCCGATTGGTGACGTTCCGTCTCCCAGGGCTTGTCATGCTGCCGCTTTATATGGCACCTTGATCCTTATTCAGGGTGGGATTGGTCCATCCGGACCTTCTGATGGAGATGTCTACATGCTTGACATGACTAATAACAAGTGGATTAAGTTTCTGGTTGGAGGGGAGACTCCAAGCCCTCGCTATGGCCATGTTATGGATATAGCTGCTCAGAGGTGGCTTGTCATATTCAGCGGGAATAATGGAAATGAAATTCTGGATGATACATGGGCATTGGACACGCGTGGACCATTTTCATGGGACAGATTGAACCCGTCTGGCAATCAGCCAAGTGGGAGAATGTATGCTTCAGGTAGTTCTCGAGAAGATGGTATTTTTTTGCTCTGCGGTGGAATAGATCACTCAGGAGTGACACTGGGAGATACTTACGGGCTGAAAATGGATAGCGATAATGTTTGGACTCCTGTTCCAGCTGTAGCTCCTTCCCCGAGATATCAACATACTGCGGTTTTCGGAGGTTCAAAACTGCATGTCATTGGGGGTATACTGAATAGGGCTCGCCTAATCGATGGTGAAGCAGTTGTTGCTGTGCTTGATACTGAGACTGGTGAATGGGTAGATACCAATCAACCAGAGACCTCTGCGAGCGGCGCCAATAGACAAAATCAATATCAACTTATGCGACGTTGTCACCATGCTGCTGCATCGTTTGGCAGCCACCTATATGTGCATGGCGGGATTAGAGAAGATGTATTGCTCGACGATTTGCTAGTTGCTGAAACATCCCAGTCTTCAAGTCCTGAACCAGAAGAAGATAATCCTGATAATTATATGTTGCTCGACGACTATCTAATGGATGAACCTAAGCCTTTAAGTTCTGAACCAGAAGCTTCATCCTTTATAATGAGGAGCACAAGTGAAATTGCGATGGATAGATTGGCAGAGGCACATAACTTACCAACTATCGAAAATGCTTTTTATGATAGTGCTATTGAAGGATACGTTCCACTTCAACATGGAGCTGAGACGGTTGGAAATCGAGGTGGCTTGGTGAGAACTGCAAGCTTGGATCAATCTACTCAAGACTTGCATAAGAAGGTCATTTCGACACTGTTGAGACCTAAAACCTGGACGCCTCCTGCCAACAGAGATTTTTTCTTGAGTTATTTAGAAGTTAAGCATTTGTGCGATGAGGTAGAGAAAATATTTATGAATGAACCAACACTTCTTCAGCTCAAAGTTCCAATCAAAGTCTTCGGCGATATCCATGGACAATACGGGGATTTGATGCGTTTATTTCATGAATATGGACATCCTTCAGTGGAAGGAGATATCACCCATATAGACTATTTGTTTTTGGGAGATTATGTTGACCGTGGACAACACAGCTTGGAGATCATCATGTTGCTGTTTGCTTTGAAGATAGAATATCCGAAGAACATCCACTTGATTCGTGGAAATCATGAGTCTCTTGCAATGAATAGAATTTATGGTTTTCTTACAGAATGCGAAGAAAGAATGGGCGAGTCCTATGGGTTCGAAGCATGGTTAAAGATTAATCAAGTTTTTGATTATCTTCCGCTTGCTGCACTTCTAGAAAAGAAAGTTTTGTGTGTCCATGGCGGAATTGGGAGGGCAGTTACGATCGAAGAAATTGAAAATATCGAAAGGCCGGCATTCCCGGATACTGGATCAATGGTCTTGAAAGACATCTTATGGTCAGATCCTACGATGAATGACACTGTTTTGGGTATAGTAGACAATGCCAGAGGAGAAGGTGTTGTCTCATTTGGGCCTGATATAGTCAAGGCATTTCTAGAAAGGAATGGTCTGGAGATGATACTAAGAGCACACGAGTGTGTTATTGACGGCTTTGAAAGATTCGCTGACGGACGGCTTATAACAGTCTTTTCTGCTACAAATTACTGTGGAACTGCACAAAATGCGGGAGCAATATTGGTAATTGGTAGAGATATGGTAATTTATCCTAAGCTGATTCATCCTCACCCTCCTCCCATCTCATCTTCAGAAGAAGACTATACAGACAAAGCATGGATGCAGGTAAGCCTCCCGTTTCTTTACCATATAGAATAG - >AT1G03445.1
ATGGCTCCTGATCAATCTTATCAATATCCATCTCCTTCGTATGAATCGATACAGACCTTTTACGATACCGATGAGGATTGGCCGGGTCCTAGATGCGGCCATACTCTCACGGCGGTTTTCGTCAACAATTCCCATCAGCTTATCCTCTTCGGCGGCAGTACTACTGCCGTCGCCAACCATAACTCCTCCTTACCCGAGATCAGTTTAGATGGCGTCACCAATTCGGTCCATTCTTTTGATGTTTTGACCAGGAAGTGGACAAGGCTTAATCCGATTGGTGACGTTCCGTCTCCCAGGGCTTGTCATGCTGCCGCTTTATATGGCACCTTGATCCTTATTCAGGGTGGGATTGGTCCATCCGGACCTTCTGATGGAGATGTCTACATGCTTGACATGACTAATAACAAGTGGATTAAGTTTCTGGTTGGAGGGGAGACTCCAAGCCCTCGCTATGGCCATGTTATGGATATAGCTGCTCAGAGGTGGCTTGTCATATTCAGCGGGAATAATGGAAATGAAATTCTGGATGATACATGGGCATTGGACACGCGTGGACCATTTTCATGGGACAGATTGAACCCGTCTGGCAATCAGCCAAGTGGGAGAATGTATGCTTCAGGTAGTTCTCGAGAAGATGGTATTTTTTTGCTCTGCGGTGGAATAGATCACTCAGGAGTGACACTGGGAGATACTTACGGGCTGAAAATGGATAGCGATAATGTTTGGACTCCTGTTCCAGCTGTAGCTCCTTCCCCGAGATATCAACATACTGCGGTTTTCGGAGGTTCAAAACTGCATGTCATTGGGGGTATACTGAATAGGGCTCGCCTAATCGATGGTGAAGCAGTTGTTGCTGTGCTTGATACTGAGACTGGTGAATGGGTAGATACCAATCAACCAGAGACCTCTGCGAGCGGCGCCAATAGACAAAATCAATATCAACTTATGCGACGTTGTCACCATGCTGCTGCATCGTTTGGCAGCCACCTATATGTGCATGGCGGGATTAGAGAAGATGTATTGCTCGACGATTTGCTAGTTGCTGAAACATCCCAGTCTTCAAGTCCTGAACCAGAAGAAGATAATCCTGATAATTATATGTTGCTCGACGACTATCTAATGGATGAACCTAAGCCTTTAAGTTCTGAACCAGAAGCTTCATCCTTTATAATGAGGAGCACAAGTGAAATTGCGATGGATAGATTGGCAGAGGCACATAACTTACCAACTATCGAAAATGCTTTTTATGATAGTGCTATTGAAGGATACGTTCCACTTCAACATGGAGCTGAGACGGTTGGAAATCGAGGTGGCTTGGTGAGAACTGCAAGCTTGGATCAATCTACTCAAGACTTGCATAAGAAGGTCATTTCGACACTGTTGAGACCTAAAACCTGGACGCCTCCTGCCAACAGAGATTTTTTCTTGAGTTATTTAGAAGTTAAGCATTTGTGCGATGAGGTAGAGAAAATATTTATGAATGAACCAACACTTCTTCAGCTCAAAGTTCCAATCAAAGTCTTCGGCGATATCCATGGACAATACGGGGATTTGATGCGTTTATTTCATGAATATGGACATCCTTCAGTGGAAGGAGATATCACCCATATAGACTATTTGTTTTTGGGAGATTATGTTGACCGTGGACAACACAGCTTGGAGATCATCATGTTGCTGTTTGCTTTGAAGATAGAATATCCGAAGAACATCCACTTGATTCGTGGAAATCATGAGTCTCTTGCAATGAATAGAATTTATGGTTTTCTTACAGAATGCGAAGAAAGAATGGGCGAGTCCTATGGGTTCGAAGCATGGTTAAAGATTAATCAAGTTTTTGATTATCTTCCGCTTGCTGCACTTCTAGAAAAGAAAGTTTTGTGTGTCCATGGCGGAATTGGGAGGGCAGTTACGATCGAAGAAATTGAAAATATCGAAAGGCCGGCATTCCCGGATACTGGATCAATGGTCTTGAAAGACATCTTATGGTCAGATCCTACGATGAATGACACTGTTTTGGGTATAGTAGACAATGCCAGAGGAGAAGGTGTTGTCTCATTTGGGCCTGATATAGTCAAGGCATTTCTAGAAAGGAATGGTCTGGAGATGATACTAAGAGCACACGAGTGTGTTATTGACGGCTTTGAAAGATTCGCTGACGGACGGCTTATAACAGTCTTTTCTGCTACAAATTACTGTGGAACTGCACAAAATGCGGGAGCAATATTGGTAATTGGTAGAGATATGGTAATTTATCCTAAGCTGATTCATCCTCACCCTCCTCCCATCTCATCTTCAGAAGAAGACTATACAGACAAAGCATGGATGCAGGTAAGCCTCCCGTTTCTTTACCATATAGAATAG
Protein Sequence
- >AT1G03445.2
MAPDQSYQYPSPSYESIQTFYDTDEDWPGPRCGHTLTAVFVNNSHQLILFGGSTTAVANHNSSLPEISLDGVTNSVHSFDVLTRKWTRLNPIGDVPSPRACHAAALYGTLILIQGGIGPSGPSDGDVYMLDMTNNKWIKFLVGGETPSPRYGHVMDIAAQRWLVIFSGNNGNEILDDTWALDTRGPFSWDRLNPSGNQPSGRMYASGSSREDGIFLLCGGIDHSGVTLGDTYGLKMDSDNVWTPVPAVAPSPRYQHTAVFGGSKLHVIGGILNRARLIDGEAVVAVLDTETGEWVDTNQPETSASGANRQNQYQLMRRCHHAAASFGSHLYVHGGIREDVLLDDLLVAETSQSSSPEPEEDNPDNYMLLDDYLMDEPKPLSSEPEASSFIMRSTSEIAMDRLAEAHNLPTIENAFYDSAIEGYVPLQHGAETVGNRGGLVRTASLDQSTQDLHKKVISTLLRPKTWTPPANRDFFLSYLEVKHLCDEVEKIFMNEPTLLQLKVPIKVFGDIHGQYGDLMRLFHEYGHPSVEGDITHIDYLFLGDYVDRGQHSLEIIMLLFALKIEYPKNIHLIRGNHESLAMNRIYGFLTECEERMGESYGFEAWLKINQVFDYLPLAALLEKKVLCVHGGIGRAVTIEEIENIERPAFPDTGSMVLKDILWSDPTMNDTVLGIVDNARGEGVVSFGPDIVKAFLERNGLEMILRAHECVIDGFERFADGRLITVFSATNYCGTAQNAGAILVIGRDMVIYPKLIHPHPPPISSSEEDYTDKAWMQVSLPFLYHIE - >AT1G03445.1
MAPDQSYQYPSPSYESIQTFYDTDEDWPGPRCGHTLTAVFVNNSHQLILFGGSTTAVANHNSSLPEISLDGVTNSVHSFDVLTRKWTRLNPIGDVPSPRACHAAALYGTLILIQGGIGPSGPSDGDVYMLDMTNNKWIKFLVGGETPSPRYGHVMDIAAQRWLVIFSGNNGNEILDDTWALDTRGPFSWDRLNPSGNQPSGRMYASGSSREDGIFLLCGGIDHSGVTLGDTYGLKMDSDNVWTPVPAVAPSPRYQHTAVFGGSKLHVIGGILNRARLIDGEAVVAVLDTETGEWVDTNQPETSASGANRQNQYQLMRRCHHAAASFGSHLYVHGGIREDVLLDDLLVAETSQSSSPEPEEDNPDNYMLLDDYLMDEPKPLSSEPEASSFIMRSTSEIAMDRLAEAHNLPTIENAFYDSAIEGYVPLQHGAETVGNRGGLVRTASLDQSTQDLHKKVISTLLRPKTWTPPANRDFFLSYLEVKHLCDEVEKIFMNEPTLLQLKVPIKVFGDIHGQYGDLMRLFHEYGHPSVEGDITHIDYLFLGDYVDRGQHSLEIIMLLFALKIEYPKNIHLIRGNHESLAMNRIYGFLTECEERMGESYGFEAWLKINQVFDYLPLAALLEKKVLCVHGGIGRAVTIEEIENIERPAFPDTGSMVLKDILWSDPTMNDTVLGIVDNARGEGVVSFGPDIVKAFLERNGLEMILRAHECVIDGFERFADGRLITVFSATNYCGTAQNAGAILVIGRDMVIYPKLIHPHPPPISSSEEDYTDKAWMQVSLPFLYHIE