Gene Details:
- Gene ID: AT1G06150
- Gene Symbol: EMB1444, LHL1
- Gene Name: EMBRYO DEFECTIVE 1444, LONESOME HIGHWAY LIKE 1
- Description: basic helix loop helix (bHLH) DNA-binding superfamily protein;(source:Araport11)
- Description: Derives_from AT1G06150;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0000014 — rosette leaf — hoja en roseta (Spanish, exact), ロゼット葉 (Japanese, exact)
- PO:0000016 — lateral root primordium — portion of lateral root primordium tissue (exact), primordio de raíz lateral (Spanish, exact), 側根原基 (Japanese, exact)
- PO:0000035 — cotyledon vascular system — sistema vascular del cotiledón (Spanish, exact), 子葉維管系 (Japanese, exact)
- PO:0003011 — root vascular system — sistema vascular de la raíz (Spanish, exact), 根維管系 (Japanese, exact), root vein (related)
- PO:0005660 — hydathode — hidatodo (Spanish, exact), 排水組織 (Japanese, exact)
- PO:0020100 — hypocotyl — hipocótile (Spanish, exact), 胚軸 (Japanese, exact)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Function-related keywords:
- rosette leaf , lateral root primordium , cotyledon vascular system , root vascular system , hydathode , hypocotyl , guard cell
Literature:
- CDC5, a DNA binding protein, positively regulates posttranscriptional processing and/or transcription of primary microRNA transcripts. DOI: 10.1073/pnas.1310644110 ; PMID: 24101471
- A diRNA-protein scaffold module mediates SMC5/6 recruitment in plant DNA repair. DOI: 10.1093/plcell/koac191 ; PMID: 35775944
- Enzymes of glycolysis are functionally associated with the mitochondrion in Arabidopsis cells. DOI: 10.1105/tpc.012500 ; PMID: 12953116
- Genomic analysis of the nitrate response using a nitrate reductase-null mutant of Arabidopsis. DOI: 10.1104/pp.104.044610 ; PMID: 15333754
- Proteome analysis of cold stress response in Arabidopsis thaliana using DIGE-technology. DOI: 10.1093/jxb/erj129 ; PMID: 16574749
- Putative cold acclimation pathways in Arabidopsis thaliana identified by a combined analysis of mRNA co-expression patterns, promoter motifs and transcription factors. DOI: 10.1186/1471-2164-8-304 ; PMID: 17764576
- The glycolytic enzyme, phosphoglycerate mutase, has critical roles in stomatal movement, vegetative growth, and pollen production in Arabidopsis thaliana. DOI: 10.1093/jxb/err223 ; PMID: 21813794
- The COBRA family of putative GPI-anchored proteins in Arabidopsis. A new fellowship in expansion. DOI: 10.1104/pp.007468 ; PMID: 12376623
Sequences:
cDNA Sequence
- >AT1G06150.2
TTTAGCAACTCTGCGTTTCTTTCTCTCTCTCTAGTCACTTGTTGTTCTTACTCAAAGTGTTCATCTCTCTTTCACCGGTGGATTTCTCGACAAAGATTCTAACTTTGAGAGAGATTTTTCGGTTGTAGATGCAGATTCAGAGCGTATCATCTCTCGAGAAAGGATCAATGTCTCATGAAATAAGCTAGACTCTGTTTCTGTTTTCTTCTTCTTCGATCTCAATTTCTTCTTCTTCGAGCTAGGGGTTGTTTATGTTTGGGAAAGGAATGGGCACTAGGCAGTATTCACTGGGAGAAGTAGGGCCACCAATAAATCCGAGAGCTGGATTGCGAAGGGAACAAGCTGGTAGAGGTTCATACAGAGGTAGTTAGTAGATTCGTAGCTCATCTGTAGGCAAAAAGGGTTTCCTTTTAGGTGGCAAGACTGTTTATTTTCAGACACAGAGACTGATTAAGAATTCAAGGGAGAGTTCTTGTCGGGGGACTATTTTAAGTTTTAAAAAGGGGTGTTTTTTAGTGGTGAAGGGGAAGGTTTAGATGGGTTATACCTTGCAACAGATACTGAGGAGCATCTGCTCCAACACGGATTGGAACTACGCCGTGTTCTGGAAACTTAATCACCACTCGCCAATGGTTCTTACTTTGGAGGATGTGTACTGTGTTAATCATGAGCGCGGTTTGATGCCGGAAAGCTTGCATGGAGGGCGCCATGCTCATGACCCTCTTGGGTTAGCTGTGGCTAAGATGTCATATCATGTACACTCTCTTGGGGAAGGGATTGTAGGACAAGTAGCAATCTCTGGACAACATCAATGGATCTTCTCTGAATATTTGAATGACTCTCATTCGACACTTCAGGTTCACAACGGTTGGGAGAGTCAAATTTCTGCTGGAATTAAGACAATTCTTATAGTAGCTGTTGGTTCTTGCGGAGTTGTGCAGCTTGGCTCTTTGTGTAAAGTTGAAGAAGACCCGGCTTTGGTGACTCATATCAGGCATTTATTTTTGGCACTTACGGATCCACTAGCAGACCATGCATCAAATTTAATGCAATGTGATATTAACAGTCCATCGGATCGGCCAAAAATACCTTCCAAATGCTTACATGAGGCATCCCCTGATTTCTCAGGAGAATTTGACAAAGCTATGGATATGGAAGGGTTAAATATTGTATCTCAAAACACAAGTAATAGAAGTAACGACCTTCCATACAATTTCACTCCAACATATTTTCACATGGAGAGGACTGCTCAAGTAATTGGTGGGCTTGAAGCAGTCCAACCTTCCATGTTTGGAAGCAATGATTGTGTTACAAGTGGTTTTTCAGTTGGTGTGGTTGATACTAAACACAAGAATCAAGTGGATATAAGTGATATGAGTAAGGTGATTTATGATGAGGAAACAGGTGGATACCGATACTCAAGAGAATTAGATCCCAATTTCCAACACTACTCGAGGAATCATGTGCGTAATAGTGGAGGCACATCTGCTTTAGCTATGGAGAGTGATAGGCTAAAAGCAGGTTCATCATATCCACAACTTGATTCAACTGTACTTACTGCGTTGAAAACAGATAAAGATTATTCTCGTCGAAATGAGGTTTTCCAACCATCTGAGAGCCAAGGAAGTATATTTGTGAAAGATACAGAACATAGGCAGGAGGAAAAAAGTGAGTCAAGTCAGTTGGATGCTTTAACTGCATCTTTGTGTTCTTTTTCTGGCAGTGAGCTGTTAGAGGCATTAGGGCCAGCGTTCAGTAAAACAAGCACTGATTATGGGGAGCTAGCAAAGTTTGAATCTGCTGCAGCTATAAGACGAACAAATGATATGAGCCATAGTCACCTGACATTTGAATCCAGCTCCGAGAATCTTCTAGATGCCGTTGTTGCTAGTATGAGTAATGGTGATGGTAATGTCAGGCGTGAAATATCTTCAAGCAGGTCAACACAGTCATTGCTTACAACTGCTGAAATGGCACAGGCAGAACCTTTTGGTCATAATAAGCAAAATATTGTTAGCACAGTTGATAGTGTGATTAGCCAGCCGCCTCTAGCAGATGGGCTTATCCAACAGAATCCATCAAATATCTGCGGAGCATTTTCTTCCATTGGGTTTTCATCAACATGTCTCAGTTCATCCAGCGACCAGTTTCCGACGTCCCTGGAAATTCCCAAGAAGAACAAAAAGAGAGCTAAACCTGGTGAAAGTTCTCGGCCTCGTCCAAGGGACAGGCAACTTATTCAGGATCGTATCAAAGAACTAAGGGAGCTTGTGCCTAATGGATCTAAGTGCAGTATTGATTCCTTGCTAGAGTGCACGATCAAGCACATGCTCTTCCTGCAGAGTGTCTCTCAGCATGCTGACAAGCTCACTAAAAGTGCAAGTTCAAAGTTACAGATGCAACACAAGGATACCGGCACCCTAGGAATATCAAGCACTGAACAAGGTTCGAGCTGGGCAGTGGAGATTGGAGGCCATCTGCAAGTGTGCTCAATCATGGTGGAGAATCTGGACAAAGAAGGAGTGATGCTTATTGAGATGCTATGCGAAGAATGTAGCCACTTTCTCGAGATAGCGAACGTGATAAGGAGCTTGGAACTCATCATCCTCAGAGGCACCACTGAGAAACAAGGCGAGAAAACATGGATATGTTTTGTAGTGGAGGGACAAAACAACAAAGTAATGCACAGGATGGACATCCTGTGGTCTCTTGTGCAAATATTTCAACCCAAGGCTACAAACAGGTAGCAACAACGAAACCCGTCACATCATGCAGACTCGGCTTCATGTATCAACAACTACAAGGATTGAAAAGCATGATGAGAACAGAGAAGAAAACGCTGTGTATGTTTATAGTGTTTGTGTGTGTGTGATACTATTATCTTGGAATAGGTATAAAAAGTCTAAAGGTGTGCCATTTTTGTTTGGAATTGTTATCATGAACACTTCTCAGATTGATTAATGCCACAATATAGCAACATTCAGTA - >AT1G06150.1
TTTAGCAACTCTGCGTTTCTTTCTCTCTCTCTAGTCACTTGTTGTTCTTACTCAAAGTGTTCATCTCTCTTTCACCGGTGGATTTCTCGACAAAGATTCTAACTTTGAGAGAGATTTTTCGGTTGTAGATGCAGATTCAGAGCGTATCATCTCTCGAGAAAGGATCAATGTCTCATGAAATAAGCTAGACTCTGTTTCTGTTTTCTTCTTCTTCGATCTCAATTTCTTCTTCTTCGAGCTAGGGGTTGTTTATGTTTGGGAAAGGAATGGGCACTAGGCAGTATTCACTGGGAGAAGTAGGGCCACCAATAAATCCGAGAGCTGGATTGCGAAGGGAACAAGCTGGTAGAGGTTCATACAGAGGTAGTTAGTAGATTCGTAGCTCATCTGTAGGCAAAAAGGGTTTCCTTTTAGGTGGCAAGACTGTTTATTTTCAGACACAGAGACTGATTAAGAATTCAAGGGAGAGTTCTTGTCGGGGGACTATTTTAAGTTTTAAAAAGGGGTGTTTTTTAGTGGTGAAGGGGAAGGTTTAGATGGGTTATACCTTGCAACAGATACTGAGGAGCATCTGCTCCAACACGGATTGGAACTACGCCGTGTTCTGGAAACTTAATCACCACTCGCCAATGGTTCTTACTTTGGAGGATGTGTACTGTGTTAATCATGAGCGCGGTTTGATGCCGGAAAGCTTGCATGGAGGGCGCCATGCTCATGACCCTCTTGGGTTAGCTGTGGCTAAGATGTCATATCATGTACACTCTCTTGGGGAAGGGATTGTAGGACAAGTAGCAATCTCTGGACAACATCAATGGATCTTCTCTGAATATTTGAATGACTCTCATTCGACACTTCAGGTTCACAACGGTTGGGAGAGTCAAATTTCTGCTGGAATTAAGACAATTCTTATAGTAGCTGTTGGTTCTTGCGGAGTTGTGCAGCTTGGCTCTTTGTGTAAAGTTGAAGAAGACCCGGCTTTGGTGACTCATATCAGGCATTTATTTTTGGCACTTACGGATCCACTAGCAGACCATGCATCAAATTTAATGCAATGTGATATTAACAGTCCATCGGATCGGCCAAAAATACCTTCCAAATGCTTACATGAGGCATCCCCTGATTTCTCAGGAGAATTTGACAAAGCTATGGATATGGAAGGGTTAAATATTGTATCTCAAAACACAAGTAATAGAAGTAACGACCTTCCATACAATTTCACTCCAACATATTTTCACATGGAGAGGACTGCTCAAGTAATTGGTGGGCTTGAAGCAGTCCAACCTTCCATGTTTGGAAGCAATGATTGTGTTACAAGTGGTTTTTCAGTTGGTGTGGTTGATACTAAACACAAGAATCAAGTGGATATAAGTGATATGAGTAAGGTGATTTATGATGAGGAAACAGGTGGATACCGATACTCAAGAGAATTAGATCCCAATTTCCAACACTACTCGAGGAATCATGTGCGTAATAGTGGAGGCACATCTGCTTTAGCTATGGAGAGTGATAGGCTAAAAGCAGGTTCATCATATCCACAACTTGATTCAACTGTACTTACTGCGTTGAAAACAGATAAAGATTATTCTCGTCGAAATGAGGTTTTCCAACCATCTGAGAGCCAAGGAAGTATATTTGTGAAAGATACAGAACATAGGCAGGAGGAAAAAAGTGAGTCAAGTCAGTTGGATGCTTTAACTGCATCTTTGTGTTCTTTTTCTGGCAGTGAGCTGTTAGAGGCATTAGGGCCAGCGTTCAGTAAAACAAGCACTGATTATGGGGAGCTAGCAAAGTTTGAATCTGCTGCAGCTATAAGACGAACAAATGATATGAGCCATAGTCACCTGACATTTGAATCCAGCTCCGAGAATCTTCTAGATGCCGTTGTTGCTAGTATGAGTAATGGTGATGGTAATGTCAGGCGTGAAATATCTTCAAGCAGGTCAACACAGTCATTGCTTACAACTGCTGAAATGGCACAGGCAGAACCTTTTGGTCATAATAAGCAAAATATTGTTAGCACAGTTGATAGTGTGATTAGCCAGCCGCCTCTAGCAGATGGGCTTATCCAACAGAATCCATCAAATATCTGCGGAGCATTTTCTTCCATTGGGTTTTCATCAACATGTCTCAGTTCATCCAGCGACCAGTTTCCGACGTCCCTGGAAATTCCCAAGAAGAACAAAAAGAGAGCTAAACCTGGTGAAAGTTCTCGGCCTCGTCCAAGGGACAGGCAACTTATTCAGGATCGTATCAAAGAACTAAGGGAGCTTGTGCCTAATGGATCTAAGTGCAGTATTGATTCCTTGCTAGAGTGCACGATCAAGCACATGCTCTTCCTGCAGAGTGTCTCTCAGCATGCTGACAAGCTCACTAAAAGTGCAAGTTCAAAGTTACAGATGCAACACAAGGATACCGGCACCCTAGGAATATCAAGCACTGAACAAGGTTCGAGCTGGGCAGTGGAGATTGGAGGCCATCTGCAAGTGTGCTCAATCATGGTGGAGAATCTGGACAAAGAAGGAGTGATGCTTATTGAGATGCTATGCGAAGAATGTAGCCACTTTCTCGAGATAGCGAACGTGATAAGGAGCTTGGAACTCATCATCCTCAGAGGCACCACTGAGAAACAAGGCGAGAAAACATGGATATGTTTTGTAGTGGAGGGACAAAACAACAAAGTAATGCACAGGATGGACATCCTGTGGTCTCTTGTGCAAATATTTCAACCCAAGGCTACAAACAGGTAGCAACAACGAAACCCGTCACATCATGCAGACTCGGCTTCATGTATCAACAACTACAAGGATTGAAAAGCATGATGAGAACAGAGAAGAAAACGCTGTGTATGTTTATAGTGTTTGTGTGTGTGTGATACTATTATCTTGGAATAGGTATAAAAAGTCTAAAGGTGTGCCATTTTTGTTTGGAATTGTTATCATGAACACTTCTCAGATTGATTAATGCCACAATATAGCAACATTCAGTA
CDS Sequence
- >AT1G06150.2
ATGGGTTATACCTTGCAACAGATACTGAGGAGCATCTGCTCCAACACGGATTGGAACTACGCCGTGTTCTGGAAACTTAATCACCACTCGCCAATGGTTCTTACTTTGGAGGATGTGTACTGTGTTAATCATGAGCGCGGTTTGATGCCGGAAAGCTTGCATGGAGGGCGCCATGCTCATGACCCTCTTGGGTTAGCTGTGGCTAAGATGTCATATCATGTACACTCTCTTGGGGAAGGGATTGTAGGACAAGTAGCAATCTCTGGACAACATCAATGGATCTTCTCTGAATATTTGAATGACTCTCATTCGACACTTCAGGTTCACAACGGTTGGGAGAGTCAAATTTCTGCTGGAATTAAGACAATTCTTATAGTAGCTGTTGGTTCTTGCGGAGTTGTGCAGCTTGGCTCTTTGTGTAAAGTTGAAGAAGACCCGGCTTTGGTGACTCATATCAGGCATTTATTTTTGGCACTTACGGATCCACTAGCAGACCATGCATCAAATTTAATGCAATGTGATATTAACAGTCCATCGGATCGGCCAAAAATACCTTCCAAATGCTTACATGAGGCATCCCCTGATTTCTCAGGAGAATTTGACAAAGCTATGGATATGGAAGGGTTAAATATTGTATCTCAAAACACAAGTAATAGAAGTAACGACCTTCCATACAATTTCACTCCAACATATTTTCACATGGAGAGGACTGCTCAAGTAATTGGTGGGCTTGAAGCAGTCCAACCTTCCATGTTTGGAAGCAATGATTGTGTTACAAGTGGTTTTTCAGTTGGTGTGGTTGATACTAAACACAAGAATCAAGTGGATATAAGTGATATGAGTAAGGTGATTTATGATGAGGAAACAGGTGGATACCGATACTCAAGAGAATTAGATCCCAATTTCCAACACTACTCGAGGAATCATGTGCGTAATAGTGGAGGCACATCTGCTTTAGCTATGGAGAGTGATAGGCTAAAAGCAGGTTCATCATATCCACAACTTGATTCAACTGTACTTACTGCGTTGAAAACAGATAAAGATTATTCTCGTCGAAATGAGGTTTTCCAACCATCTGAGAGCCAAGGAAGTATATTTGTGAAAGATACAGAACATAGGCAGGAGGAAAAAAGTGAGTCAAGTCAGTTGGATGCTTTAACTGCATCTTTGTGTTCTTTTTCTGGCAGTGAGCTGTTAGAGGCATTAGGGCCAGCGTTCAGTAAAACAAGCACTGATTATGGGGAGCTAGCAAAGTTTGAATCTGCTGCAGCTATAAGACGAACAAATGATATGAGCCATAGTCACCTGACATTTGAATCCAGCTCCGAGAATCTTCTAGATGCCGTTGTTGCTAGTATGAGTAATGGTGATGGTAATGTCAGGCGTGAAATATCTTCAAGCAGGTCAACACAGTCATTGCTTACAACTGCTGAAATGGCACAGGCAGAACCTTTTGGTCATAATAAGCAAAATATTGTTAGCACAGTTGATAGTGTGATTAGCCAGCCGCCTCTAGCAGATGGGCTTATCCAACAGAATCCATCAAATATCTGCGGAGCATTTTCTTCCATTGGGTTTTCATCAACATGTCTCAGTTCATCCAGCGACCAGTTTCCGACGTCCCTGGAAATTCCCAAGAAGAACAAAAAGAGAGCTAAACCTGGTGAAAGTTCTCGGCCTCGTCCAAGGGACAGGCAACTTATTCAGGATCGTATCAAAGAACTAAGGGAGCTTGTGCCTAATGGATCTAAGTGCAGTATTGATTCCTTGCTAGAGTGCACGATCAAGCACATGCTCTTCCTGCAGAGTGTCTCTCAGCATGCTGACAAGCTCACTAAAAGTGCAAGTTCAAAGTTACAGATGCAACACAAGGATACCGGCACCCTAGGAATATCAAGCACTGAACAAGGTTCGAGCTGGGCAGTGGAGATTGGAGGCCATCTGCAAGTGTGCTCAATCATGGTGGAGAATCTGGACAAAGAAGGAGTGATGCTTATTGAGATGCTATGCGAAGAATGTAGCCACTTTCTCGAGATAGCGAACGTGATAAGGAGCTTGGAACTCATCATCCTCAGAGGCACCACTGAGAAACAAGGCGAGAAAACATGGATATGTTTTGTAGTGGAGGGACAAAACAACAAAGTAATGCACAGGATGGACATCCTGTGGTCTCTTGTGCAAATATTTCAACCCAAGGCTACAAACAGGTAG - >AT1G06150.1
ATGGGTTATACCTTGCAACAGATACTGAGGAGCATCTGCTCCAACACGGATTGGAACTACGCCGTGTTCTGGAAACTTAATCACCACTCGCCAATGGTTCTTACTTTGGAGGATGTGTACTGTGTTAATCATGAGCGCGGTTTGATGCCGGAAAGCTTGCATGGAGGGCGCCATGCTCATGACCCTCTTGGGTTAGCTGTGGCTAAGATGTCATATCATGTACACTCTCTTGGGGAAGGGATTGTAGGACAAGTAGCAATCTCTGGACAACATCAATGGATCTTCTCTGAATATTTGAATGACTCTCATTCGACACTTCAGGTTCACAACGGTTGGGAGAGTCAAATTTCTGCTGGAATTAAGACAATTCTTATAGTAGCTGTTGGTTCTTGCGGAGTTGTGCAGCTTGGCTCTTTGTGTAAAGTTGAAGAAGACCCGGCTTTGGTGACTCATATCAGGCATTTATTTTTGGCACTTACGGATCCACTAGCAGACCATGCATCAAATTTAATGCAATGTGATATTAACAGTCCATCGGATCGGCCAAAAATACCTTCCAAATGCTTACATGAGGCATCCCCTGATTTCTCAGGAGAATTTGACAAAGCTATGGATATGGAAGGGTTAAATATTGTATCTCAAAACACAAGTAATAGAAGTAACGACCTTCCATACAATTTCACTCCAACATATTTTCACATGGAGAGGACTGCTCAAGTAATTGGTGGGCTTGAAGCAGTCCAACCTTCCATGTTTGGAAGCAATGATTGTGTTACAAGTGGTTTTTCAGTTGGTGTGGTTGATACTAAACACAAGAATCAAGTGGATATAAGTGATATGAGTAAGGTGATTTATGATGAGGAAACAGGTGGATACCGATACTCAAGAGAATTAGATCCCAATTTCCAACACTACTCGAGGAATCATGTGCGTAATAGTGGAGGCACATCTGCTTTAGCTATGGAGAGTGATAGGCTAAAAGCAGGTTCATCATATCCACAACTTGATTCAACTGTACTTACTGCGTTGAAAACAGATAAAGATTATTCTCGTCGAAATGAGGTTTTCCAACCATCTGAGAGCCAAGGAAGTATATTTGTGAAAGATACAGAACATAGGCAGGAGGAAAAAAGTGAGTCAAGTCAGTTGGATGCTTTAACTGCATCTTTGTGTTCTTTTTCTGGCAGTGAGCTGTTAGAGGCATTAGGGCCAGCGTTCAGTAAAACAAGCACTGATTATGGGGAGCTAGCAAAGTTTGAATCTGCTGCAGCTATAAGACGAACAAATGATATGAGCCATAGTCACCTGACATTTGAATCCAGCTCCGAGAATCTTCTAGATGCCGTTGTTGCTAGTATGAGTAATGGTGATGGTAATGTCAGGCGTGAAATATCTTCAAGCAGGTCAACACAGTCATTGCTTACAACTGCTGAAATGGCACAGGCAGAACCTTTTGGTCATAATAAGCAAAATATTGTTAGCACAGTTGATAGTGTGATTAGCCAGCCGCCTCTAGCAGATGGGCTTATCCAACAGAATCCATCAAATATCTGCGGAGCATTTTCTTCCATTGGGTTTTCATCAACATGTCTCAGTTCATCCAGCGACCAGTTTCCGACGTCCCTGGAAATTCCCAAGAAGAACAAAAAGAGAGCTAAACCTGGTGAAAGTTCTCGGCCTCGTCCAAGGGACAGGCAACTTATTCAGGATCGTATCAAAGAACTAAGGGAGCTTGTGCCTAATGGATCTAAGTGCAGTATTGATTCCTTGCTAGAGTGCACGATCAAGCACATGCTCTTCCTGCAGAGTGTCTCTCAGCATGCTGACAAGCTCACTAAAAGTGCAAGTTCAAAGTTACAGATGCAACACAAGGATACCGGCACCCTAGGAATATCAAGCACTGAACAAGGTTCGAGCTGGGCAGTGGAGATTGGAGGCCATCTGCAAGTGTGCTCAATCATGGTGGAGAATCTGGACAAAGAAGGAGTGATGCTTATTGAGATGCTATGCGAAGAATGTAGCCACTTTCTCGAGATAGCGAACGTGATAAGGAGCTTGGAACTCATCATCCTCAGAGGCACCACTGAGAAACAAGGCGAGAAAACATGGATATGTTTTGTAGTGGAGGGACAAAACAACAAAGTAATGCACAGGATGGACATCCTGTGGTCTCTTGTGCAAATATTTCAACCCAAGGCTACAAACAGGTAG
Protein Sequence
- >AT1G06150.2
MGYTLQQILRSICSNTDWNYAVFWKLNHHSPMVLTLEDVYCVNHERGLMPESLHGGRHAHDPLGLAVAKMSYHVHSLGEGIVGQVAISGQHQWIFSEYLNDSHSTLQVHNGWESQISAGIKTILIVAVGSCGVVQLGSLCKVEEDPALVTHIRHLFLALTDPLADHASNLMQCDINSPSDRPKIPSKCLHEASPDFSGEFDKAMDMEGLNIVSQNTSNRSNDLPYNFTPTYFHMERTAQVIGGLEAVQPSMFGSNDCVTSGFSVGVVDTKHKNQVDISDMSKVIYDEETGGYRYSRELDPNFQHYSRNHVRNSGGTSALAMESDRLKAGSSYPQLDSTVLTALKTDKDYSRRNEVFQPSESQGSIFVKDTEHRQEEKSESSQLDALTASLCSFSGSELLEALGPAFSKTSTDYGELAKFESAAAIRRTNDMSHSHLTFESSSENLLDAVVASMSNGDGNVRREISSSRSTQSLLTTAEMAQAEPFGHNKQNIVSTVDSVISQPPLADGLIQQNPSNICGAFSSIGFSSTCLSSSSDQFPTSLEIPKKNKKRAKPGESSRPRPRDRQLIQDRIKELRELVPNGSKCSIDSLLECTIKHMLFLQSVSQHADKLTKSASSKLQMQHKDTGTLGISSTEQGSSWAVEIGGHLQVCSIMVENLDKEGVMLIEMLCEECSHFLEIANVIRSLELIILRGTTEKQGEKTWICFVVEGQNNKVMHRMDILWSLVQIFQPKATNR - >AT1G06150.1
MGYTLQQILRSICSNTDWNYAVFWKLNHHSPMVLTLEDVYCVNHERGLMPESLHGGRHAHDPLGLAVAKMSYHVHSLGEGIVGQVAISGQHQWIFSEYLNDSHSTLQVHNGWESQISAGIKTILIVAVGSCGVVQLGSLCKVEEDPALVTHIRHLFLALTDPLADHASNLMQCDINSPSDRPKIPSKCLHEASPDFSGEFDKAMDMEGLNIVSQNTSNRSNDLPYNFTPTYFHMERTAQVIGGLEAVQPSMFGSNDCVTSGFSVGVVDTKHKNQVDISDMSKVIYDEETGGYRYSRELDPNFQHYSRNHVRNSGGTSALAMESDRLKAGSSYPQLDSTVLTALKTDKDYSRRNEVFQPSESQGSIFVKDTEHRQEEKSESSQLDALTASLCSFSGSELLEALGPAFSKTSTDYGELAKFESAAAIRRTNDMSHSHLTFESSSENLLDAVVASMSNGDGNVRREISSSRSTQSLLTTAEMAQAEPFGHNKQNIVSTVDSVISQPPLADGLIQQNPSNICGAFSSIGFSSTCLSSSSDQFPTSLEIPKKNKKRAKPGESSRPRPRDRQLIQDRIKELRELVPNGSKCSIDSLLECTIKHMLFLQSVSQHADKLTKSASSKLQMQHKDTGTLGISSTEQGSSWAVEIGGHLQVCSIMVENLDKEGVMLIEMLCEECSHFLEIANVIRSLELIILRGTTEKQGEKTWICFVVEGQNNKVMHRMDILWSLVQIFQPKATNR