Information report for AT3G11130
Gene Details
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Functional Descriptions
- GO:0000325 — located in — plant-type vacuole
- GO:0010118 — acts upstream of or within — stomatal movement
- GO:0030130 — part of — clathrin coat of trans-Golgi network vesicle
- GO:0005198 — enables — structural molecule activity
- GO:0071439 — part of — clathrin complex
- GO:0005829 — located in — cytosol
- GO:0006898 — involved in — receptor-mediated endocytosis
- GO:0016192 — acts upstream of or within — vesicle-mediated transport
- GO:0009414 — acts upstream of or within — response to water deprivation
- GO:0005773 — located in — vacuole
- GO:0030132 — part of — clathrin coat of coated pit
- GO:0009506 — located in — plasmodesma
- GO:0032051 — enables — clathrin light chain binding
- GO:0005886 — located in — plasma membrane
- GO:0006886 — involved in — intracellular protein transport
- GO:0005515 — enables — protein binding
- GO:0072583 — acts upstream of or within — clathrin-dependent endocytosis
- GO:0006897 — acts upstream of or within — endocytosis
- GO:0005794 — located in — Golgi apparatus
- has1 — Defects in stomatal responses to abscisic acid . Increased tolerance to water stress.
Functional Keywords
Literature and News
- Large-scale characterization of integral proteins from Arabidopsis vacuolar membrane by two-dimensional liquid chromatography. DOI: 10.1002/pmic.200300607 ; PMID: 14760709
- A chloroplast-localized vesicular transport system: a bio-informatics approach. DOI: 10.1186/1471-2164-5-40 ; PMID: 15236667
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- New ABA-hypersensitive Arabidopsis mutants are affected in loci mediating responses to water deficit and Dickeya dadantii infection. DOI: 10.1371/journal.pone.0020243 ; PMID: 21633512
- Modulation of phototropic responsiveness in Arabidopsis through ubiquitination of phototropin 1 by the CUL3-Ring E3 ubiquitin ligase CRL3(NPH3). DOI: 10.1105/tpc.111.087999 ; PMID: 21990941
- Identification of novel candidate phosphatidic acid-binding proteins involved in the salt-stress response of Arabidopsis thaliana roots. DOI: 10.1042/BJ20121639 ; PMID: 23323832
- The TPLATE adaptor complex drives clathrin-mediated endocytosis in plants. DOI: 10.1016/j.cell.2014.01.039 ; PMID: 24529374
- SCYL2 Genes Are Involved in Clathrin-Mediated Vesicle Trafficking and Essential for Plant Growth. DOI: 10.1104/pp.17.00824 ; PMID: 28751315
- A Functional Study of AUXILIN-LIKE1 and 2, Two Putative Clathrin Uncoating Factors in Arabidopsis. DOI: 10.1105/tpc.17.00785 ; PMID: 29511054
- The Inhibitor Endosidin 4 Targets SEC7 Domain-Type ARF GTPase Exchange Factors and Interferes with Subcellular Trafficking in Eukaryotes. DOI: 10.1105/tpc.18.00127 ; PMID: 30018156
- SINAT E3 Ubiquitin Ligases Mediate FREE1 and VPS23A Degradation to Modulate Abscisic Acid Signaling. DOI: 10.1105/tpc.20.00267 ; PMID: 32753431
- Large-scale characterization of integral proteins from Arabidopsis vacuolar membrane by two-dimensional liquid chromatography. DOI: 10.1002/pmic.200300607 ; PMID: 14760709
- A proteomics dissection of Arabidopsis thaliana vacuoles isolated from cell culture. DOI: 10.1074/mcp.M600250-MCP200 ; PMID: 17151019
- Quantitative phosphoproteomics of early elicitor signaling in Arabidopsis. DOI: 10.1074/mcp.M600429-MCP200 ; PMID: 17317660
- A high content in lipid-modified peripheral proteins and integral receptor kinases features in the arabidopsis plasma membrane proteome. DOI: 10.1074/mcp.M700099-MCP200 ; PMID: 17644812
- Analysis of the Arabidopsis cytosolic proteome highlights subcellular partitioning of central plant metabolism. DOI: 10.1021/pr1009433 ; PMID: 21166475
Gene Resources
- UniProt: A0A178V904
- EMBL: LR881468, LUHQ01000003
- EnsemblPlants: AT3G11130.1
- Gramene: AT3G11130.1
- KEGG: ath:AT3G11130
- Orthologous matrix: HCYDLLH
- ExpressionAtlas: AT3G11130
- InterPro: IPR000547, IPR011990, IPR015348
- PANTHER: PTHR10292, PTHR10292:SF34
- SUPFAM: SSF48371, SSF50989
- PROSITE: PS50236
- Gene3D: 1.25.40.10, 1.25.40.730, 2.130.10.110
- SWISS-MODEL: A0A178V904
Homologs
- Actinidia chinensis Achn292261
- Brachypodium distachyon Bradi4g25572, Bradi4g25645
- Daucus carota DCAR_027544
- Medicago truncatula Medtr5g070470, Medtr5g071220
- Prunus avium Pav_sc0000638.1_g720.1.mk
- Zea mays GRMZM2G395549_P01
Sequences
cDNA Sequence
- >AT3G11130.1
CATAAAATTCCCAAAAAGTAGTGTGTGTCGTGACAAAACCCGACCCGTCGATTTACGCGGTTTGAAACTCGACCCGAATACTATCCGAACCCGTAACTTTGGCAAAAGCACATCGTACAGCTCAGGCACTTGTAGCACGTCGTCTCTCCTTTGGTTTCTCTCCTTATATTCGACGAGTGACTCCGATTGGATCGCTATTTCGTCATTTCTCACTTTCCAAAAAGAAAAAAACGAATCTCTCTCCACCATCATCACCTTTCTCCTTCACTTGCCTCAGATCTGGCTGCGATTTCAAATCTTCCTTAGTTTCTCTCGCATCGCTCGGCCGTTGACGGTCCCGTCCTTTCCGTGGATCTGATTCTGGCCCCGGATTCTCTCGCCGCGATCTGAGGTCAAACATGGCGGCTGCTAACGCGCCCATCATTATGAAGGAGGTCCTAACGCTTCCGAGCGTTGGGATCGGTCAACAGTTCATCACCTTTACAAATGTTACTATGGAGTCTGATAAGTACATATGTGTACGAGAGACGGCACCGCAGAACAGTGTTGTAATTATCGATATGAATATGCCGATGCAGCCTTTAAGGAGGCCTATAACTGCTGATTCTGCTCTTATGAACCCAAACTCGAGGATCCTTGCCTTAAAAGCTCAAGTTCCAGGAACTACTCAGGATCATCTACAGATATTTAACATTGAAGCAAAGGCAAAGTTGAAGTCACATCAGATGCCTGAGCAGGTTGCTTTTTGGAAGTGGATCACACCTAAGATGCTGGGACTGGTCACACAAACTTCTGTGTATCATTGGTCAATTGAAGGTGATTCTGAGCCAGTTAAGATGTTTGATAGAACGGCTAATTTGGCAAACAATCAAATTATAAACTATAAGTGCTCTCCTAATGAGAAGTGGTTGGTCTTGATTGGAATTGCCCCTGGCTCTCCTGAGAGACCACAATTGGTGAAAGGAAATATGCAGCTTTTCTCTGTGGATCAACAGCGGAGCCAGGCCCTTGAAGCACATGCTGCATCTTTTGCTCAGTTTAAGGTCCCTGGGAATGAGAATCCTTCGATTCTTATATCATTTGCAAGCAAGAGCTTTAATGCTGGGCAGATAACATCAAAGCTGCATGTTATTGAACTTGGTGCCCAACCAGGGAAACCATCATTTACAAAAAAGCAGGCAGATCTCTTTTTCCCCCCAGATTTTGCTGATGATTTTCCTGTGGCCATGCAGGTCTCTCACAAGTTTAACTTGATTTATGTCATCACCAAGCTTGGCCTGCTGTTTGTATATGATCTAGAGACAGCTTCTGCTATCTACAGAAATCGGATAAGTCCGGACCCAATTTTCTTAACGTCTGAAGCTTCCTCAGTTGGGGGTTTCTATGCCATTAATAGGCGAGGACAAGTTCTTTTGGCAACAGTAAATGAGGCCACCATAATACCTTTTATTAGTGGTCAATTGAACAATTTGGAACTTGCTGTCAATCTTGCTAAAAGAGGAAACCTCCCTGGTGCAGAAAATCTGGTTGTCCAGCGGTTCCAAGAGTTATTTGCTCAAACAAAGTACAAGGAGGCTGCTGAGCTTGCTGCTGAATCTCCTCAGGGCATTCTACGGACACCTGATACGGTGGCCAAATTCCAGAGTGTTCCTGTACAAGCAGGGCAAACTCCTCCATTGTTACAGTATTTTGGGACCCTTTTGACTAGAGGGAAGCTCAATTCATATGAGTCTTTGGAACTATCTCGGCTTGTTGTGAATCAAAACAAAAAGAACCTCTTGGAAAACTGGTTGGCAGAGGATAAGTTAGAATGCAGTGAAGAACTCGGAGACCTTGTCAAAACTGTGGATAATGACCTTGCTCTAAAAATATACATCAAAGCTAGAGCTACTCCAAAAGTCGTTGCAGCTTTTGCAGAGCGAAGGGAGTTTGACAAAATATTGATTTATTCAAAGCAGGTTGGGTACACACCTGATTACATGTTTCTTCTGCAAACGATACTCCGTACGGATCCTCAGGGAGCAGTAAATTTTGCTTTAATGATGTCCCAAATGGAAGGAGGTTGTCCAGTTGACTACAACACTATCACTGATCTTTTCCTTCAGAGAAATCTGATCCGTGAAGCGACTGCTTTCCTTCTGGATGTTCTGAAGCCAAATTTACCCGAGCATGCTTTTCTGCAAACTAAGGTTTTGGAGATCAATTTGGTAACCTTTCCTAATGTGGCTGATGCAATCTTAGCAAATGGGATGTTCAGCCATTATGACCGGCCTCGTGTTGCTCAGCTTTGTGAAAAGGCTGGACTTTACATCCAATCTTTAAAGCATTACTCAGAGTTACCTGATATCAAACGTGTAATTGTGAACACACATGCTATTGAGCCACAGGCTCTTGTCGAGTTTTTTGGTACTCTTTCTAGCGAGTGGGCAATGGAGTGCATGAAAGATCTCCTGTTGGTCAACCTGAGAGGCAACCTTCAGATAATCGTTCAGGCTTGCAAGGAGTACTGTGAGCAACTTGGTGTTGATGCATGCATTAAACTCTTTGAGCAATTCAAGTCGTACGAAGGGCTGTACTTTTTCCTAGGTTCATACTTGAGTATGAGTGAGGATCCTGAGATTCACTTCAAGTACATCGAAGCAGCTGCCAAGACTGGTCAAATAAAGGAGGTTGAGCGTGTGACTAGAGAGTCTAACTTTTATGATGCGGAAAAGACGAAGAACTTTTTAATGGAAGCTAAGCTTCCTGATGCCCGACCTTTGATTAATGTCTGTGATCGTTTTGGCTTTGTACCTGATCTTACTCATTACCTCTACACAAACAACATGCTGCGTTACATTGAAGGTTACGTTCAGAAGGTGAATCCTGGGAATGCTCCCTTAGTTGTGGGGCAGTTGCTTGATGACGAATGCCCTGAAGATTTTATAAAAGGCCTCATTCTTTCTGTTCGTTCATTACTTCCTGTTGAACCCCTTGTTGCAGAATGTGAAAAGAGAAATCGACTCCGTCTCCTCACTCAGTTCTTGGAGCATCTAGTTAGTGAGGGAAGCCAAGATGTGCATGTCCATAATGCCTTGGGTAAAATTATCATAGACAGTAACAACAACCCCGAGCATTTCCTGACCACCAATCCTTACTACGACTCTAAGGTTGTGGGTAAGTACTGCGAGAAACGTGATCCCACTCTGGCTGTTGTGGCATACAGAAGAGGACAATGTGACGAGGAACTCATCAATGTCACCAACAAGAACTCTTTGTTCAAGTTACAAGCCAGGTACGTAGTGGAGAGGATGGATGGTGACCTCTGGGAGAAGGTTCTTACGGAAGAAAATGAATATAGGAGGCAACTTATAGACCAAGTTGTGTCTACTGCTTTACCAGAAAGCAAGAGCCCAGAGCAAGTTTCTGCAGCTGTTAAAGCATTCATGACTGCTGATTTGCCACATGAGCTAATTGAGCTTCTGGAAAAAATTGTGCTTCAAAATTCTGCCTTCAGTGGAAATTTCAATCTGCAAAATCTACTTATACTGACAGCTATTAAGGCAGATCCGTCCAGAGTTATGGATTACATTAACAGGCTGGATAATTTCGATGGTCCAGCTGTTGGAGAAGTGGCAGTGGATGCTCAATTGTATGAGGAAGCATTTGCGATTTTCAAGAAGTTTAACTTAAATGTTCAGGCTGTCAACGTATTGTTGGATAACGTCAGAAGCATTGAACGTGCTGTTGAGTTTGCTTTCCGGGTCGAAGAAGATGCTGTTTGGAGTCAAGTCGCTAAGGCACAGCTCAGGGAAGGACTAGTCAGTGATGCTATTGAGTCCTTTATCCGAGCTGATGACACCACTCAGTTCTTGGAGGTCATCCGAGCCTCTGAAGATACTAATGTCTATGATGACTTGGTCAGATACCTTCTGATGGTTAGACAGAAGGTGAAGGAACCCAAGGTGGATAGTGAGCTCATCTATGCTTATGCAAAGATTGAAAGGTTGGGTGAGATTGAAGAATTTATTCTGATGCCCAACGTTGCCAACCTTCAACATGTTGGTGACCGTTTGTACGATGAAGCTCTGTATGAGGCTGCAAAGATAATATATGCATTCATATCGAATTGGGCCAAGTTAGCCGTCACCCTTGTGAAGTTGCAACAGTTCCAAGGTGCTGTTGATGCTGCAAGGAAAGCAAACAGTGCAAAGACATGGAAGGAAGTCTGCTTTGCTTGTGTTGATGCTGAGGAATTCCGACTGGCTCAAATCTGTGGACTTAACATTATCATACAGGTGGATGACCTGGAAGAAGTAAGCGAGTACTACCAGAACAGAGGATGCTTCAATGAATTGATCTCCCTTATGGAGAGTGGACTTGGTCTGGAACGTGCTCACATGGGTATCTTCACCGAGTTAGGAGTACTGTACGCCAGATATCGTTATGAGAAGCTTATGGAACACATCAAGTTGTTCTCTACTCGACTCAATATTCCCAAGCTTATCCGGGCCTGTGATGAACAACAGCATTGGCAGGAACTTACCTATCTTTACATTCAATATGATGAGTTTGATAATGCTGCAACCACTGTTATGAATCATTCTCCTGAAGCATGGGAGCACATGCAATTCAAAGACATTGTTGCCAAGGTTGCGAATGTTGAGCTTTACTATAAGGCCGTTCACTTCTACTTGCAAGAGCACCCTGATATAATCAACGATCTTCTCAATGTGCTTGCTCTGCGGTTAGATCACACGCGTGTCGTTGATATTATGCGCAAGGCTGGTCACTTGCGCCTTATTAAGCCATATATGGTTGCAGTTCAGAGCAATAATGTATCTGCTGTAAATGAAGCTCTGAATGAGATATATGCAGAAGAAGAAGACTATGACAGGTTGCGCGAGTCTATTGATTTGCATGACAGTTTTGACCAGATAGGTCTCGCTCAGAAGATTGAGAAACACGAGCTTGTTGAAATGAGACGTGTGGCTGCTTATATCTATAAGAAAGCTGGTAGATGGAAGCAATCGATTGCTTTGTCAAAGAAAGATAACATGTACAAGGACTGTATGGAAACTGCTTCGCAATCCGGCGACCATGATCTTGCAGAACAACTTCTCGTCTACTTCATTGAACAGGGGAAAAAGGAATGCTTTGCTACATGTCTCTTTGTCTGTTATGACTTAATCCGACCAGACGTTGCTCTAGAACTTGCTTGGATCAACAATATGATCGACTTTGCCTTCCCGTATCTCCTCCAGTTTATCCGAGAATACTCCGGCAAAGTGGATGAGCTAATCAAGGACAAGCTGGAGGCACAAAAAGAGGTGAAGGCCAAAGAACAGGAAGAGAAGGATGTCATGTCACAACAGAACATGTACGCCCAATTATTACCACTGGCTCTACCCGCACCACCGATGCCAGGAATGGGAGGTGGCGGGTATGGTCCACCACCACAAATGGGTGGAATGCCAGGAATGTCAGGAATGCCTCCAATGCCTCCATATGGAATGCCACCGATGGGCGGCTACTAAGACCTTTGGGAAAACAAGTATCCATATAAGTAATTGAAATCTCATAGTAGCGCAATCTGCCATGGTGGTATTCGCTTACTAGAAGACTGTGACCGCGGAATTCTGTCGGAATGTTTCCTTGTTTTGTTTTGTTTTATAGGTTTGTGTGGATAATAAACCAGCTTTCGTCTGTAATATTCTTTGAGGGGGTTTAGGTGAGTCATTTTTGATTGAGGTCATTTAAATATTTTCCTTTGGAGGAGAGGAGACTCCTTTATAGTCTTTATCATTTTACTCTTTGACCTTTTTTCATATGAGTTGTTCTTTCCTTCTTTCTTTCAGCTTATCTTCACTTCATTTAAACCTTTTTGAGTTATGTTTTTTCGTACGACAAACTTCCTCTTGTTCTTGCTTCGATAAATTTCAAAATACAGTGTCTGATGAATC
CDS Sequence
- >AT3G11130.1
ATGGCGGCTGCTAACGCGCCCATCATTATGAAGGAGGTCCTAACGCTTCCGAGCGTTGGGATCGGTCAACAGTTCATCACCTTTACAAATGTTACTATGGAGTCTGATAAGTACATATGTGTACGAGAGACGGCACCGCAGAACAGTGTTGTAATTATCGATATGAATATGCCGATGCAGCCTTTAAGGAGGCCTATAACTGCTGATTCTGCTCTTATGAACCCAAACTCGAGGATCCTTGCCTTAAAAGCTCAAGTTCCAGGAACTACTCAGGATCATCTACAGATATTTAACATTGAAGCAAAGGCAAAGTTGAAGTCACATCAGATGCCTGAGCAGGTTGCTTTTTGGAAGTGGATCACACCTAAGATGCTGGGACTGGTCACACAAACTTCTGTGTATCATTGGTCAATTGAAGGTGATTCTGAGCCAGTTAAGATGTTTGATAGAACGGCTAATTTGGCAAACAATCAAATTATAAACTATAAGTGCTCTCCTAATGAGAAGTGGTTGGTCTTGATTGGAATTGCCCCTGGCTCTCCTGAGAGACCACAATTGGTGAAAGGAAATATGCAGCTTTTCTCTGTGGATCAACAGCGGAGCCAGGCCCTTGAAGCACATGCTGCATCTTTTGCTCAGTTTAAGGTCCCTGGGAATGAGAATCCTTCGATTCTTATATCATTTGCAAGCAAGAGCTTTAATGCTGGGCAGATAACATCAAAGCTGCATGTTATTGAACTTGGTGCCCAACCAGGGAAACCATCATTTACAAAAAAGCAGGCAGATCTCTTTTTCCCCCCAGATTTTGCTGATGATTTTCCTGTGGCCATGCAGGTCTCTCACAAGTTTAACTTGATTTATGTCATCACCAAGCTTGGCCTGCTGTTTGTATATGATCTAGAGACAGCTTCTGCTATCTACAGAAATCGGATAAGTCCGGACCCAATTTTCTTAACGTCTGAAGCTTCCTCAGTTGGGGGTTTCTATGCCATTAATAGGCGAGGACAAGTTCTTTTGGCAACAGTAAATGAGGCCACCATAATACCTTTTATTAGTGGTCAATTGAACAATTTGGAACTTGCTGTCAATCTTGCTAAAAGAGGAAACCTCCCTGGTGCAGAAAATCTGGTTGTCCAGCGGTTCCAAGAGTTATTTGCTCAAACAAAGTACAAGGAGGCTGCTGAGCTTGCTGCTGAATCTCCTCAGGGCATTCTACGGACACCTGATACGGTGGCCAAATTCCAGAGTGTTCCTGTACAAGCAGGGCAAACTCCTCCATTGTTACAGTATTTTGGGACCCTTTTGACTAGAGGGAAGCTCAATTCATATGAGTCTTTGGAACTATCTCGGCTTGTTGTGAATCAAAACAAAAAGAACCTCTTGGAAAACTGGTTGGCAGAGGATAAGTTAGAATGCAGTGAAGAACTCGGAGACCTTGTCAAAACTGTGGATAATGACCTTGCTCTAAAAATATACATCAAAGCTAGAGCTACTCCAAAAGTCGTTGCAGCTTTTGCAGAGCGAAGGGAGTTTGACAAAATATTGATTTATTCAAAGCAGGTTGGGTACACACCTGATTACATGTTTCTTCTGCAAACGATACTCCGTACGGATCCTCAGGGAGCAGTAAATTTTGCTTTAATGATGTCCCAAATGGAAGGAGGTTGTCCAGTTGACTACAACACTATCACTGATCTTTTCCTTCAGAGAAATCTGATCCGTGAAGCGACTGCTTTCCTTCTGGATGTTCTGAAGCCAAATTTACCCGAGCATGCTTTTCTGCAAACTAAGGTTTTGGAGATCAATTTGGTAACCTTTCCTAATGTGGCTGATGCAATCTTAGCAAATGGGATGTTCAGCCATTATGACCGGCCTCGTGTTGCTCAGCTTTGTGAAAAGGCTGGACTTTACATCCAATCTTTAAAGCATTACTCAGAGTTACCTGATATCAAACGTGTAATTGTGAACACACATGCTATTGAGCCACAGGCTCTTGTCGAGTTTTTTGGTACTCTTTCTAGCGAGTGGGCAATGGAGTGCATGAAAGATCTCCTGTTGGTCAACCTGAGAGGCAACCTTCAGATAATCGTTCAGGCTTGCAAGGAGTACTGTGAGCAACTTGGTGTTGATGCATGCATTAAACTCTTTGAGCAATTCAAGTCGTACGAAGGGCTGTACTTTTTCCTAGGTTCATACTTGAGTATGAGTGAGGATCCTGAGATTCACTTCAAGTACATCGAAGCAGCTGCCAAGACTGGTCAAATAAAGGAGGTTGAGCGTGTGACTAGAGAGTCTAACTTTTATGATGCGGAAAAGACGAAGAACTTTTTAATGGAAGCTAAGCTTCCTGATGCCCGACCTTTGATTAATGTCTGTGATCGTTTTGGCTTTGTACCTGATCTTACTCATTACCTCTACACAAACAACATGCTGCGTTACATTGAAGGTTACGTTCAGAAGGTGAATCCTGGGAATGCTCCCTTAGTTGTGGGGCAGTTGCTTGATGACGAATGCCCTGAAGATTTTATAAAAGGCCTCATTCTTTCTGTTCGTTCATTACTTCCTGTTGAACCCCTTGTTGCAGAATGTGAAAAGAGAAATCGACTCCGTCTCCTCACTCAGTTCTTGGAGCATCTAGTTAGTGAGGGAAGCCAAGATGTGCATGTCCATAATGCCTTGGGTAAAATTATCATAGACAGTAACAACAACCCCGAGCATTTCCTGACCACCAATCCTTACTACGACTCTAAGGTTGTGGGTAAGTACTGCGAGAAACGTGATCCCACTCTGGCTGTTGTGGCATACAGAAGAGGACAATGTGACGAGGAACTCATCAATGTCACCAACAAGAACTCTTTGTTCAAGTTACAAGCCAGGTACGTAGTGGAGAGGATGGATGGTGACCTCTGGGAGAAGGTTCTTACGGAAGAAAATGAATATAGGAGGCAACTTATAGACCAAGTTGTGTCTACTGCTTTACCAGAAAGCAAGAGCCCAGAGCAAGTTTCTGCAGCTGTTAAAGCATTCATGACTGCTGATTTGCCACATGAGCTAATTGAGCTTCTGGAAAAAATTGTGCTTCAAAATTCTGCCTTCAGTGGAAATTTCAATCTGCAAAATCTACTTATACTGACAGCTATTAAGGCAGATCCGTCCAGAGTTATGGATTACATTAACAGGCTGGATAATTTCGATGGTCCAGCTGTTGGAGAAGTGGCAGTGGATGCTCAATTGTATGAGGAAGCATTTGCGATTTTCAAGAAGTTTAACTTAAATGTTCAGGCTGTCAACGTATTGTTGGATAACGTCAGAAGCATTGAACGTGCTGTTGAGTTTGCTTTCCGGGTCGAAGAAGATGCTGTTTGGAGTCAAGTCGCTAAGGCACAGCTCAGGGAAGGACTAGTCAGTGATGCTATTGAGTCCTTTATCCGAGCTGATGACACCACTCAGTTCTTGGAGGTCATCCGAGCCTCTGAAGATACTAATGTCTATGATGACTTGGTCAGATACCTTCTGATGGTTAGACAGAAGGTGAAGGAACCCAAGGTGGATAGTGAGCTCATCTATGCTTATGCAAAGATTGAAAGGTTGGGTGAGATTGAAGAATTTATTCTGATGCCCAACGTTGCCAACCTTCAACATGTTGGTGACCGTTTGTACGATGAAGCTCTGTATGAGGCTGCAAAGATAATATATGCATTCATATCGAATTGGGCCAAGTTAGCCGTCACCCTTGTGAAGTTGCAACAGTTCCAAGGTGCTGTTGATGCTGCAAGGAAAGCAAACAGTGCAAAGACATGGAAGGAAGTCTGCTTTGCTTGTGTTGATGCTGAGGAATTCCGACTGGCTCAAATCTGTGGACTTAACATTATCATACAGGTGGATGACCTGGAAGAAGTAAGCGAGTACTACCAGAACAGAGGATGCTTCAATGAATTGATCTCCCTTATGGAGAGTGGACTTGGTCTGGAACGTGCTCACATGGGTATCTTCACCGAGTTAGGAGTACTGTACGCCAGATATCGTTATGAGAAGCTTATGGAACACATCAAGTTGTTCTCTACTCGACTCAATATTCCCAAGCTTATCCGGGCCTGTGATGAACAACAGCATTGGCAGGAACTTACCTATCTTTACATTCAATATGATGAGTTTGATAATGCTGCAACCACTGTTATGAATCATTCTCCTGAAGCATGGGAGCACATGCAATTCAAAGACATTGTTGCCAAGGTTGCGAATGTTGAGCTTTACTATAAGGCCGTTCACTTCTACTTGCAAGAGCACCCTGATATAATCAACGATCTTCTCAATGTGCTTGCTCTGCGGTTAGATCACACGCGTGTCGTTGATATTATGCGCAAGGCTGGTCACTTGCGCCTTATTAAGCCATATATGGTTGCAGTTCAGAGCAATAATGTATCTGCTGTAAATGAAGCTCTGAATGAGATATATGCAGAAGAAGAAGACTATGACAGGTTGCGCGAGTCTATTGATTTGCATGACAGTTTTGACCAGATAGGTCTCGCTCAGAAGATTGAGAAACACGAGCTTGTTGAAATGAGACGTGTGGCTGCTTATATCTATAAGAAAGCTGGTAGATGGAAGCAATCGATTGCTTTGTCAAAGAAAGATAACATGTACAAGGACTGTATGGAAACTGCTTCGCAATCCGGCGACCATGATCTTGCAGAACAACTTCTCGTCTACTTCATTGAACAGGGGAAAAAGGAATGCTTTGCTACATGTCTCTTTGTCTGTTATGACTTAATCCGACCAGACGTTGCTCTAGAACTTGCTTGGATCAACAATATGATCGACTTTGCCTTCCCGTATCTCCTCCAGTTTATCCGAGAATACTCCGGCAAAGTGGATGAGCTAATCAAGGACAAGCTGGAGGCACAAAAAGAGGTGAAGGCCAAAGAACAGGAAGAGAAGGATGTCATGTCACAACAGAACATGTACGCCCAATTATTACCACTGGCTCTACCCGCACCACCGATGCCAGGAATGGGAGGTGGCGGGTATGGTCCACCACCACAAATGGGTGGAATGCCAGGAATGTCAGGAATGCCTCCAATGCCTCCATATGGAATGCCACCGATGGGCGGCTACTAA
Protein Sequence
- >AT3G11130.1
MAAANAPIIMKEVLTLPSVGIGQQFITFTNVTMESDKYICVRETAPQNSVVIIDMNMPMQPLRRPITADSALMNPNSRILALKAQVPGTTQDHLQIFNIEAKAKLKSHQMPEQVAFWKWITPKMLGLVTQTSVYHWSIEGDSEPVKMFDRTANLANNQIINYKCSPNEKWLVLIGIAPGSPERPQLVKGNMQLFSVDQQRSQALEAHAASFAQFKVPGNENPSILISFASKSFNAGQITSKLHVIELGAQPGKPSFTKKQADLFFPPDFADDFPVAMQVSHKFNLIYVITKLGLLFVYDLETASAIYRNRISPDPIFLTSEASSVGGFYAINRRGQVLLATVNEATIIPFISGQLNNLELAVNLAKRGNLPGAENLVVQRFQELFAQTKYKEAAELAAESPQGILRTPDTVAKFQSVPVQAGQTPPLLQYFGTLLTRGKLNSYESLELSRLVVNQNKKNLLENWLAEDKLECSEELGDLVKTVDNDLALKIYIKARATPKVVAAFAERREFDKILIYSKQVGYTPDYMFLLQTILRTDPQGAVNFALMMSQMEGGCPVDYNTITDLFLQRNLIREATAFLLDVLKPNLPEHAFLQTKVLEINLVTFPNVADAILANGMFSHYDRPRVAQLCEKAGLYIQSLKHYSELPDIKRVIVNTHAIEPQALVEFFGTLSSEWAMECMKDLLLVNLRGNLQIIVQACKEYCEQLGVDACIKLFEQFKSYEGLYFFLGSYLSMSEDPEIHFKYIEAAAKTGQIKEVERVTRESNFYDAEKTKNFLMEAKLPDARPLINVCDRFGFVPDLTHYLYTNNMLRYIEGYVQKVNPGNAPLVVGQLLDDECPEDFIKGLILSVRSLLPVEPLVAECEKRNRLRLLTQFLEHLVSEGSQDVHVHNALGKIIIDSNNNPEHFLTTNPYYDSKVVGKYCEKRDPTLAVVAYRRGQCDEELINVTNKNSLFKLQARYVVERMDGDLWEKVLTEENEYRRQLIDQVVSTALPESKSPEQVSAAVKAFMTADLPHELIELLEKIVLQNSAFSGNFNLQNLLILTAIKADPSRVMDYINRLDNFDGPAVGEVAVDAQLYEEAFAIFKKFNLNVQAVNVLLDNVRSIERAVEFAFRVEEDAVWSQVAKAQLREGLVSDAIESFIRADDTTQFLEVIRASEDTNVYDDLVRYLLMVRQKVKEPKVDSELIYAYAKIERLGEIEEFILMPNVANLQHVGDRLYDEALYEAAKIIYAFISNWAKLAVTLVKLQQFQGAVDAARKANSAKTWKEVCFACVDAEEFRLAQICGLNIIIQVDDLEEVSEYYQNRGCFNELISLMESGLGLERAHMGIFTELGVLYARYRYEKLMEHIKLFSTRLNIPKLIRACDEQQHWQELTYLYIQYDEFDNAATTVMNHSPEAWEHMQFKDIVAKVANVELYYKAVHFYLQEHPDIINDLLNVLALRLDHTRVVDIMRKAGHLRLIKPYMVAVQSNNVSAVNEALNEIYAEEEDYDRLRESIDLHDSFDQIGLAQKIEKHELVEMRRVAAYIYKKAGRWKQSIALSKKDNMYKDCMETASQSGDHDLAEQLLVYFIEQGKKECFATCLFVCYDLIRPDVALELAWINNMIDFAFPYLLQFIREYSGKVDELIKDKLEAQKEVKAKEQEEKDVMSQQNMYAQLLPLALPAPPMPGMGGGGYGPPPQMGGMPGMSGMPPMPPYGMPPMGGY