Information report for AT3G09150
Gene Details
|
|
Functional Descriptions
- CS3368 — angustifolia, apetala, pyrimidine requiring, erecta, long hypocotyl, glabra, brevipedicellus, eceriferum, transparent testa.
- CS68 — elongated hypocotyl, green-yellow plant.
- gun3-1 — Express nuclear-encoded Lhcb and RbcS transcripts in the absence of chloroplast development.
- gun3-1 — Long hypocotyl phenotypes under white light.
Functional Keywords
Literature and News
- Photomorphogenic development of the Arabidopsis shy2-1D mutation and its interaction with phytochromes in darkness. DOI: 10.1046/j.1365-313x.1998.00179.x ; PMID: 9744095
- The Arabidopsis ELF3 gene regulates vegetative photomorphogenesis and the photoperiodic induction of flowering. DOI: 10.1046/j.1365-313x.1996.10040691.x ; PMID: 8893545
- Two dominant photomorphogenic mutations of Arabidopsis thaliana identified as suppressor mutations of hy2. DOI: 10.1046/j.1365-313x.1996.09040441.x ; PMID: 8624510
- The ELONGATED gene of Arabidopsis acts independently of light and gibberellins in the control of elongation growth. DOI: 10.1046/j.1365-313x.1996.09030305.x ; PMID: 8919908
- Arabidopsis COP8, COP10, and COP11 genes are involved in repression of photomorphogenic development in darkness. DOI: 10.1105/tpc.6.5.629 ; PMID: 8038603
- Signal transduction mutants of Arabidopsis uncouple nuclear CAB and RBCS gene expression from chloroplast development. DOI: 10.1016/0092-8674(93)90459-4 ; PMID: 7690685
- Arabidopsis genomes uncoupled 5 (GUN5) mutant reveals the involvement of Mg-chelatase H subunit in plastid-to-nucleus signal transduction. DOI: 10.1073/pnas.98.4.2053 ; PMID: 11172074
- Phytochrome A mediates blue light and UV-A-dependent chloroplast gene transcription in green leaves. DOI: 10.1104/pp.125.4.1957 ; PMID: 11299375
- Phytochrome-Deficient hy1 and hy2 Long Hypocotyl Mutants of Arabidopsis Are Defective in Phytochrome Chromophore Biosynthesis. DOI: 10.1105/tpc.3.11.1177 ; PMID: 12324588
- Phytochrome B and at Least One Other Phytochrome Mediate the Accelerated Flowering Response of Arabidopsis thaliana L. to Low Red/Far-Red Ratio. DOI: 10.1104/pp.104.4.1311 ; PMID: 12232170
- Light-Stimulated Cotyledon Expansion in Arabidopsis Seedlings (The Role of Phytochrome B). DOI: 10.1104/pp.104.3.1027 ; PMID: 12232145
- Light-signalling pathways leading to the co-ordinated expression of HEMA1 and Lhcb during chloroplast development in Arabidopsis thaliana. DOI: 10.1046/j.1365-313x.2002.01443.x ; PMID: 12445126
- Phytochrome chromophore deficiency leads to overproduction of jasmonic acid and elevated expression of jasmonate-responsive genes in Arabidopsis. DOI: 10.1093/pcp/pcm076 ; PMID: 17567636
- Electrostatic interaction of phytochromobilin synthase and ferredoxin for biosynthesis of phytochrome chromophore. DOI: 10.1074/jbc.M109.075747 ; PMID: 19996315
- Plastid signals confer Arabidopsis tolerance to water stress. DOI: NA ; PMID: 21476436
- Evidence for a Contribution of ALA Synthesis to Plastid-To-Nucleus Signaling. DOI: 10.3389/fpls.2012.00236 ; PMID: 23112801
- Phytochrome-induced SIG2 expression contributes to photoregulation of phytochrome signalling and photomorphogenesis in Arabidopsis thaliana. DOI: 10.1093/jxb/ert308 ; PMID: 24078666
- Immunochemically detectable phytochrome is present at normal levels but is photochemically nonfunctional in the hy 1 and hy 2 long hypocotyl mutants of Arabidopsis. DOI: 10.1007/BF00017582 ; PMID: 24272903
- Expression of recombinant full-length plant phytochromes assembled with phytochromobilin in Pichia pastoris. DOI: 10.1016/j.febslet.2014.05.050 ; PMID: 24911206
- Transcriptional Regulation of Tetrapyrrole Biosynthesis in Arabidopsis thaliana. DOI: 10.3389/fpls.2016.01811 ; PMID: 27990150
- Light Activates Brassinosteroid Biosynthesis to Promote Hook Opening and Petiole Development in Arabidopsis thaliana. DOI: 10.1093/pcp/pcaa053 ; PMID: 32333772
- Shade represses photosynthetic genes by disrupting the DNA binding of GOLDEN2-LIKE1. DOI: 10.1093/plphys/kiad029 ; PMID: 36702576
- Analysis of protein complexes in Arabidopsis leaves using size exclusion chromatography and label-free protein correlation profiling. DOI: 10.1016/j.jprot.2017.06.004 ; PMID: 28627464
Gene Resources
- UniProt: F4IZU7
- EMBL: CP002686
- AlphaFoldDB: F4IZU7
- EnsemblPlants: AT3G09150.3
- Gramene: AT3G09150.3
- ExpressionAtlas: AT3G09150
- InterPro: IPR009249
- PANTHER: PTHR34557, PTHR34557:SF1
- Gene3D: 3.40.1500.20
- SWISS-MODEL: F4IZU7
Homologs
- Brassica napus BnaC05G0506000ZS, BnaA03G0315500ZS, BnaC03G0378400ZS, BnaA05G0443000ZS
- Brassica oleracea Bo5g139470
- Brassica rapa Bra001325, Bra029750
- Capsicum annuum T459_01712
- Gossypium hirsutum Gohir.D13G221350, Gohir.A13G217700
- Juglans regia Jr14_18860
- Manihot esculenta MANES_02G142200
- Populus trichocarpa POPTR_009G048000v3, POPTR_001G253700v3
- Prunus avium Pav_sc0000830.1_g380.1.mk
- Prunus persica PRUPE_4G258500
- Rosa chinensis RchiOBHm_Chr5g0050821
Sequences
cDNA Sequence
- >AT3G09150.3
GAAGAGAGTGTCCGAGGAAGGAGACCTTTGGTTTCAGTTTGTGAGTCTTGTTGTAATGGCTTTATCAATGGAGTTTGGGTTTTCAATTGGGTCATGCTTCAAGGCACCAAACCCACCTGTTCTAATCTCTGCAAGCCCTAATAAGATCAATTTCACGTTGAGAAGGAGAAAGAAAAGATTCTTACTTAGAGTCTCTGCTGTGTCGTATAAGGAATTCGCAGAGTCTGCTTTAGAAGAAACCAGGAAAAGGATCGTTCTTGAACCTTCACATCTCCAGGTATATGCAATTACATTTCGTTAGTGTAGTGGGAGGATTATATTTCTCATTGTTTCTTGCTGTGAATTTTGGGTAAATTGATTTGAGTTGTCATTAGGAACCAAACAAATAACTTTACTGTTATAGACTGCTTATATAAGTAAAAGTTCAGATTTTGTTTTTCTAATCACGAAACTGTTTCAGGAAAAGTATAGTAGCATGACAGGACTAGATGGTAAGACCGAACTTCAAATGCTTGCTTTTAAATCTTCAAAGATTAGACTCTTGAGGAGTATGGCAATAGAGAATGAGACAATGCAGGTCTTTGACTTTGCGGGTTTCATGGAGCCTGAGTATGATACTCCCATATTCTGTGCTAACTTTTTCACATCTACCAACGTTAACATAGTTGTATTGGACCTTAATCCTTTGCATCAGTTGACTGACCAGACGGATTACCAAGACAAGTATTATAACAAGATAATGTCCATATATCACAAATATGCTGAGACTTTCCCATGGGGAGGGAAATTGACTGGTGAATCCATAAAGTTTTTCTCGCCTTTGGTGATGTGGACTAGGTTTTCGTCTAGCAAAGAAAAACATAAGGCTTTGTTCTCTGCGTTTCTAGAGTACTATCAGGCATGGCTTGAGATGACAATCCAAGTGAGGGAGGAGATGGAACCATCTCATGTGAGAGCCAATTGTGAAGCACAACACAAGTACCTGACATGGCGAGCACAAAAGGATCCTGGACATGGTCTTCTTAAAAGATTAGTAGGTGAAGCAAAGGCAAAGGAGCTGCTAAGGGATTTCCTGTTCAATGGGGTGGATGAGTTAGGCACAAAAACATTCATTGATTACTTTCCAGAGTACCAAACAGAAGATGGAACTGTAAGCGATAAACGAAGTATCATTGGGAAGTCATATGAAACTCGTCCATGGGATTTAACAGGACAATTTATCGGCTAACAATGATATATGTGAACAAGTCAGATTTCAGAGTCATCAACACAAGAGGACGTGAACTTAGGGAAGTAGGAATAAGAAAGAGCAGCATGAGGAGTCTCTCAGGTCTATCTGCATTTCAAGATGATTGTTTGAGTTACCATGCATTGTAGTTTTACAAGTGTAGCTCTCAGCCCTTCATCAAAATGAGAATCCTCGAGTATGATATGATTTTAATGAAAATGTATTCGTCTC - >AT3G09150.4
GAAGAGAGTGTCCGAGGAAGGAGACCTTTGGTTTCAGTTTGTGAGTCTTGTTGTAATGGCTTTATCAATGGAGTTTGGGTTTTCAATTGGGTCATGCTTCAAGGCACCAAACCCACCTGTTCTAATCTCTGCAAGCCCTAATAAGATCAATTTCACGTTGAGAAGGAGAAAGAAAAGATTCTTACTTAGAGTCTCTGCTGTGTCGTATAAGGAATTCGCAGAGTCTGCTTTAGAAGAAACCAGGAAAAGGATCGTTCTTGAACCTTCACATCTCCAGGTATATGCAATTACATTTCGTTAGTGTAGTGGGAGGATTATATTTCTCATTGTTTCTTGCTGTGAATTTTGGGTAAATTGATTTGAGTTGTCATTAGGAACCAAACAAATAACTTTACTGTTATAGACTGCTTATATAAGTAAAAGTTCAGATTTTGTTTTTCTAATCACGAAACTGTTTCAGGAAAAGTATAGTAGCATGACAGGACTAGATGGTAAGACCGAACTTCAAATGCTTGCTTTTAAATCTTCAAAGATTAGACTCTTGAGGAGTATGGCAATAGAGAATGAGACAATGCAGGTCTTTGACTTTGCGGGTTTCATGGAGCCTGAGTATGATACTCCCATATTCTGTGCTAACTTTTTCACATCTACCAACGTTAACATAGTTGTATTGGACCTTAATCCTTTGCATCAGTTGACTGACCAGACGGATTACCAAGACAAGTATTATAACAAGATAATGTCCATATATCACAAATATGCTGAGACTTTCCCATGGGGAGGGAAATTGACTGGTGAATCCATAAAGTTTTTCTCGCCTTTGGTGATGTGGACTAGGTTTTCGTCTAGCAAAGAAAAACATAAGGCTTTGTTCTCTGCGTTTCTAGAGTACTATCAGGCATGGCTTGAGATGACAATCCAAGTGAGGGAGGAGATGGAACCATCTCATGTGAGAGCCAATTGTGAAGCACAACACAAGTACCTGACATGGCGAGCACAAAAGGATCCTGGACATGGTCTTCTTAAAAGATTAGTAGGTGAAGCAAAGGCAAAGGAGCTGCTAAGGGATTTCCTGTTCAATGGGGTGGATGAGTTAGGCACAAAAACATTCATTGATTACTTTCCAGAGTACCAAACAGAAGATGGAACTGTAAGCGATAAACGAAGTATCATTGGGAAGTCATATGAAACTCGTCCATGGGATTTAACAGGACAATTTATCGGCTAACAATGATATATGTGAACAAGTCAGATTTCAGAGTCATCAACACAAGAGGACGTGAACTTAGGGAAGTAGGAATAAGAAAGAGCAGCATGAGGAGTCTCTCAGGTCTATCTGCATTTCAAGATGATTGTTTGAGTTACCATGCATTGTAGTTTTACAAGTGTAGCTCTCAGCCCTTCATCAAAATGAGAATCCTCGAGTATGATATGATTTTAATGAAAATGTATTCGTCTC - >AT3G09150.2
GAAGAGAGTGTCCGAGGAAGGAGACCTTTGGTTTCAGTTTGTGAGTCTTGTTGTAATGGCTTTATCAATGGAGTTTGGGTTTTCAATTGGGTCATGCTTCAAGGCACCAAACCCACCTGTTCTAATCTCTGCAAGCCCTAATAAGATCAATTTCACGTTGAGAAGGAGAAAGAAAAGATTCTTACTTAGAGTCTCTGCTGTGTCGTATAAGGAATTCGCAGAGTCTGCTTTAGAAGAAACCAGGAAAAGGATCGTTCTTGAACCTTCACATCTCCAGGTATATGCAATTACATTTCGTTAGTGTAGTGGGAGGATTATATTTCTCATTGTTTCTTGCTGTGAATTTTGGGTAAATTGATTTGAGTTGTCATTAGGAACCAAACAAATAACTTTACTGTTATAGACTGCTTATATAAGTAAAAGTTCAGATTTTGTTTTTCTAATCACGAAACTGTTTCAGGAAAAGTATAGTAGCATGACAGGACTAGATGGTAAGACCGAACTTCAAATGCTTGCTTTTAAATCTTCAAAGATTAGACTCTTGAGGAGTATGGCAATAGAGAATGAGACAATGCAGGTCTTTGACTTTGCGGGTTTCATGGAGCCTGAGTATGATACTCCCATATTCTGTGCTAACTTTTTCACATCTACCAACGTTAACATAGTTGTATTGGACCTTAATCCTTTGCATCAGTTGACTGACCAGACGGATTACCAAGACAAGTATTATAACAAGATAATGTCCATATATCACAAATATGCTGAGACTTTCCCATGGGGAGGGAAATTGACTGGTGAATCCATAAAGTTTTTCTCGCCTTTGGTGATGTGGACTAGGTTTTCGTCTAGCAAAGAAAAACATAAGGCTTTGTTCTCTGCGTTTCTAGAGTACTATCAGGCATGGCTTGAGATGACAATCCAAGTGAGGGAGGAGATGGAACCATCTCATGTGAGAGCCAATTGTGAAGCACAACACAAGTACCTGACATGGCGAGCACAAAAGGATCCTGGACATGGTCTTCTTAAAAGATTAGTAGGTGAAGCAAAGGCAAAGGAGCTGCTAAGGGATTTCCTGTTCAATGGGGTGGATGAGTTAGGCACAAAAACATTCATTGATTACTTTCCAGAGTACCAAACAGAAGATGGAACTGTAAGCGATAAACGAAGTATCATTGGGAAGTCATATGAAACTCGTCCATGGGATTTAACAGGACAATTTATCGGCTAACAATGATATATGTGAACAAGTCAGATTTCAGAGTCATCAACACAAGAGGACGTGAACTTAGGGAAGTAGGAATAAGAAAGAGCAGCATGAGGAGTCTCTCAGGTCTATCTGCATTTCAAGATGATTGTTTGAGTTACCATGCATTGTAGTTTTACAAGTGTAGCTCTCAGCCCTTCATCAAAATGAGAATCCTCGAGTATGATATGATTTTAATGAAAATGTATTCGTCTC - >AT3G09150.1
GAAGAGAGTGTCCGAGGAAGGAGACCTTTGGTTTCAGTTTGTGAGTCTTGTTGTAATGGCTTTATCAATGGAGTTTGGGTTTTCAATTGGGTCATGCTTCAAGGCACCAAACCCACCTGTTCTAATCTCTGCAAGCCCTAATAAGATCAATTTCACGTTGAGAAGGAGAAAGAAAAGATTCTTACTTAGAGTCTCTGCTGTGTCGTATAAGGAATTCGCAGAGTCTGCTTTAGAAGAAACCAGGAAAAGGATCGTTCTTGAACCTTCACATCTCCAGGTATATGCAATTACATTTCGTTAGTGTAGTGGGAGGATTATATTTCTCATTGTTTCTTGCTGTGAATTTTGGGTAAATTGATTTGAGTTGTCATTAGGAACCAAACAAATAACTTTACTGTTATAGACTGCTTATATAAGTAAAAGTTCAGATTTTGTTTTTCTAATCACGAAACTGTTTCAGGAAAAGTATAGTAGCATGACAGGACTAGATGGTAAGACCGAACTTCAAATGCTTGCTTTTAAATCTTCAAAGATTAGACTCTTGAGGAGTATGGCAATAGAGAATGAGACAATGCAGGTCTTTGACTTTGCGGGTTTCATGGAGCCTGAGTATGATACTCCCATATTCTGTGCTAACTTTTTCACATCTACCAACGTTAACATAGTTGTATTGGACCTTAATCCTTTGCATCAGTTGACTGACCAGACGGATTACCAAGACAAGTATTATAACAAGATAATGTCCATATATCACAAATATGCTGAGACTTTCCCATGGGGAGGGAAATTGACTGGTGAATCCATAAAGTTTTTCTCGCCTTTGGTGATGTGGACTAGGTTTTCGTCTAGCAAAGAAAAACATAAGGCTTTGTTCTCTGCGTTTCTAGAGTACTATCAGGCATGGCTTGAGATGACAATCCAAGTGAGGGAGGAGATGGAACCATCTCATGTGAGAGCCAATTGTGAAGCACAACACAAGTACCTGACATGGCGAGCACAAAAGGATCCTGGACATGGTCTTCTTAAAAGATTAGTAGGTGAAGCAAAGGCAAAGGAGCTGCTAAGGGATTTCCTGTTCAATGGGGTGGATGAGTTAGGCACAAAAACATTCATTGATTACTTTCCAGAGTACCAAACAGAAGATGGAACTGTAAGCGATAAACGAAGTATCATTGGGAAGTCATATGAAACTCGTCCATGGGATTTAACAGGACAATTTATCGGCTAACAATGATATATGTGAACAAGTCAGATTTCAGAGTCATCAACACAAGAGGACGTGAACTTAGGGAAGTAGGAATAAGAAAGAGCAGCATGAGGAGTCTCTCAGGTCTATCTGCATTTCAAGATGATTGTTTGAGTTACCATGCATTGTAGTTTTACAAGTGTAGCTCTCAGCCCTTCATCAAAATGAGAATCCTCGAGTATGATATGATTTTAATGAAAATGTATTCGTCTC
CDS Sequence
- >AT3G09150.3
ATGACAGGACTAGATGGTAAGACCGAACTTCAAATGCTTGCTTTTAAATCTTCAAAGATTAGACTCTTGAGGAGTATGGCAATAGAGAATGAGACAATGCAGGTCTTTGACTTTGCGGGTTTCATGGAGCCTGAGTATGATACTCCCATATTCTGTGCTAACTTTTTCACATCTACCAACGTTAACATAGTTGTATTGGACCTTAATCCTTTGCATCAGTTGACTGACCAGACGGATTACCAAGACAAGTATTATAACAAGATAATGTCCATATATCACAAATATGCTGAGACTTTCCCATGGGGAGGGAAATTGACTGGTGAATCCATAAAGTTTTTCTCGCCTTTGGTGATGTGGACTAGGTTTTCGTCTAGCAAAGAAAAACATAAGGCTTTGTTCTCTGCGTTTCTAGAGTACTATCAGGCATGGCTTGAGATGACAATCCAAGTGAGGGAGGAGATGGAACCATCTCATGTGAGAGCCAATTGTGAAGCACAACACAAGTACCTGACATGGCGAGCACAAAAGGATCCTGGACATGGTCTTCTTAAAAGATTAGTAGGTGAAGCAAAGGCAAAGGAGCTGCTAAGGGATTTCCTGTTCAATGGGGTGGATGAGTTAGGCACAAAAACATTCATTGATTACTTTCCAGAGTACCAAACAGAAGATGGAACTGTAAGCGATAAACGAAGTATCATTGGGAAGTCATATGAAACTCGTCCATGGGATTTAACAGGACAATTTATCGGCTAA - >AT3G09150.4
ATGACAGGACTAGATGGTAAGACCGAACTTCAAATGCTTGCTTTTAAATCTTCAAAGATTAGACTCTTGAGGAGTATGGCAATAGAGAATGAGACAATGCAGGTCTTTGACTTTGCGGGTTTCATGGAGCCTGAGTATGATACTCCCATATTCTGTGCTAACTTTTTCACATCTACCAACGTTAACATAGTTGTATTGGACCTTAATCCTTTGCATCAGTTGACTGACCAGACGGATTACCAAGACAAGTATTATAACAAGATAATGTCCATATATCACAAATATGCTGAGACTTTCCCATGGGGAGGGAAATTGACTGGTGAATCCATAAAGTTTTTCTCGCCTTTGGTGATGTGGACTAGGTTTTCGTCTAGCAAAGAAAAACATAAGGCTTTGTTCTCTGCGTTTCTAGAGTACTATCAGGCATGGCTTGAGATGACAATCCAAGTGAGGGAGGAGATGGAACCATCTCATGTGAGAGCCAATTGTGAAGCACAACACAAGTACCTGACATGGCGAGCACAAAAGGATCCTGGACATGGTCTTCTTAAAAGATTAGTAGGTGAAGCAAAGGCAAAGGAGCTGCTAAGGGATTTCCTGTTCAATGGGGTGGATGAGTTAGGCACAAAAACATTCATTGATTACTTTCCAGAGTACCAAACAGAAGATGGAACTGTAAGCGATAAACGAAGTATCATTGGGAAGTCATATGAAACTCGTCCATGGGATTTAACAGGACAATTTATCGGCTAA - >AT3G09150.2
ATGACAGGACTAGATGGTAAGACCGAACTTCAAATGCTTGCTTTTAAATCTTCAAAGATTAGACTCTTGAGGAGTATGGCAATAGAGAATGAGACAATGCAGGTCTTTGACTTTGCGGGTTTCATGGAGCCTGAGTATGATACTCCCATATTCTGTGCTAACTTTTTCACATCTACCAACGTTAACATAGTTGTATTGGACCTTAATCCTTTGCATCAGTTGACTGACCAGACGGATTACCAAGACAAGTATTATAACAAGATAATGTCCATATATCACAAATATGCTGAGACTTTCCCATGGGGAGGGAAATTGACTGGTGAATCCATAAAGTTTTTCTCGCCTTTGGTGATGTGGACTAGGTTTTCGTCTAGCAAAGAAAAACATAAGGCTTTGTTCTCTGCGTTTCTAGAGTACTATCAGGCATGGCTTGAGATGACAATCCAAGTGAGGGAGGAGATGGAACCATCTCATGTGAGAGCCAATTGTGAAGCACAACACAAGTACCTGACATGGCGAGCACAAAAGGATCCTGGACATGGTCTTCTTAAAAGATTAGTAGGTGAAGCAAAGGCAAAGGAGCTGCTAAGGGATTTCCTGTTCAATGGGGTGGATGAGTTAGGCACAAAAACATTCATTGATTACTTTCCAGAGTACCAAACAGAAGATGGAACTGTAAGCGATAAACGAAGTATCATTGGGAAGTCATATGAAACTCGTCCATGGGATTTAACAGGACAATTTATCGGCTAA - >AT3G09150.1
ATGACAGGACTAGATGGTAAGACCGAACTTCAAATGCTTGCTTTTAAATCTTCAAAGATTAGACTCTTGAGGAGTATGGCAATAGAGAATGAGACAATGCAGGTCTTTGACTTTGCGGGTTTCATGGAGCCTGAGTATGATACTCCCATATTCTGTGCTAACTTTTTCACATCTACCAACGTTAACATAGTTGTATTGGACCTTAATCCTTTGCATCAGTTGACTGACCAGACGGATTACCAAGACAAGTATTATAACAAGATAATGTCCATATATCACAAATATGCTGAGACTTTCCCATGGGGAGGGAAATTGACTGGTGAATCCATAAAGTTTTTCTCGCCTTTGGTGATGTGGACTAGGTTTTCGTCTAGCAAAGAAAAACATAAGGCTTTGTTCTCTGCGTTTCTAGAGTACTATCAGGCATGGCTTGAGATGACAATCCAAGTGAGGGAGGAGATGGAACCATCTCATGTGAGAGCCAATTGTGAAGCACAACACAAGTACCTGACATGGCGAGCACAAAAGGATCCTGGACATGGTCTTCTTAAAAGATTAGTAGGTGAAGCAAAGGCAAAGGAGCTGCTAAGGGATTTCCTGTTCAATGGGGTGGATGAGTTAGGCACAAAAACATTCATTGATTACTTTCCAGAGTACCAAACAGAAGATGGAACTGTAAGCGATAAACGAAGTATCATTGGGAAGTCATATGAAACTCGTCCATGGGATTTAACAGGACAATTTATCGGCTAA
Protein Sequence
- >AT3G09150.3
MTGLDGKTELQMLAFKSSKIRLLRSMAIENETMQVFDFAGFMEPEYDTPIFCANFFTSTNVNIVVLDLNPLHQLTDQTDYQDKYYNKIMSIYHKYAETFPWGGKLTGESIKFFSPLVMWTRFSSSKEKHKALFSAFLEYYQAWLEMTIQVREEMEPSHVRANCEAQHKYLTWRAQKDPGHGLLKRLVGEAKAKELLRDFLFNGVDELGTKTFIDYFPEYQTEDGTVSDKRSIIGKSYETRPWDLTGQFIG - >AT3G09150.4
MTGLDGKTELQMLAFKSSKIRLLRSMAIENETMQVFDFAGFMEPEYDTPIFCANFFTSTNVNIVVLDLNPLHQLTDQTDYQDKYYNKIMSIYHKYAETFPWGGKLTGESIKFFSPLVMWTRFSSSKEKHKALFSAFLEYYQAWLEMTIQVREEMEPSHVRANCEAQHKYLTWRAQKDPGHGLLKRLVGEAKAKELLRDFLFNGVDELGTKTFIDYFPEYQTEDGTVSDKRSIIGKSYETRPWDLTGQFIG - >AT3G09150.2
MTGLDGKTELQMLAFKSSKIRLLRSMAIENETMQVFDFAGFMEPEYDTPIFCANFFTSTNVNIVVLDLNPLHQLTDQTDYQDKYYNKIMSIYHKYAETFPWGGKLTGESIKFFSPLVMWTRFSSSKEKHKALFSAFLEYYQAWLEMTIQVREEMEPSHVRANCEAQHKYLTWRAQKDPGHGLLKRLVGEAKAKELLRDFLFNGVDELGTKTFIDYFPEYQTEDGTVSDKRSIIGKSYETRPWDLTGQFIG - >AT3G09150.1
MTGLDGKTELQMLAFKSSKIRLLRSMAIENETMQVFDFAGFMEPEYDTPIFCANFFTSTNVNIVVLDLNPLHQLTDQTDYQDKYYNKIMSIYHKYAETFPWGGKLTGESIKFFSPLVMWTRFSSSKEKHKALFSAFLEYYQAWLEMTIQVREEMEPSHVRANCEAQHKYLTWRAQKDPGHGLLKRLVGEAKAKELLRDFLFNGVDELGTKTFIDYFPEYQTEDGTVSDKRSIIGKSYETRPWDLTGQFIG