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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0676400 |
Transcript ID | LotjaGi1g1v0676400.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | Protein ABSCISIC ACID-INSENSITIVE 5; TAIR: AT2G36270.1 Basic-leucine zipper (bZIP) transcription factor family protein; Swiss-Prot: sp|Q9SJN0|ABI5_ARATH Protein ABSCISIC ACID-INSENSITIVE 5; TrEMBL-Plants: tr|G7L631|G7L631_MEDTR ABA response element-binding factor; Found in the gene: LotjaGi1g1v0676400 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:124313887..124323461) extracted from Lotus japonicus Gifu genome v1.2.
CCCACGTTGAGCTGAGGGGGTTCAACTGAACCCCCTGAAAAAAAAAATTCCTACTTACCCCCCTAGAGTGATTTTTTTTT GAACCCCTGAAATTTGAAAATTGCATCCAGGTCCCAGGCCCCACTCCCCAGTCAACACTCACTCCTCACGGTCTCACTCC TCTCTCTCTCTCTTCCTCACGCACTCACTCTCACGGTCTCACCTCACTCACTCACGATCCAGTTCCCAGTTCCCACCACC GATCCACCACCGGCCACCACCACGGTACCACCAGGCCCCAGCCACCACCACTCATTCACGTTCTCTGTTCAGTGTTCACT CCTTTCTCTCTCTCTCTCACGCACTCATCATGCAGCCACCACGCCACCAGTCCACCACCACCGCCCACCGGCGGCCGCCA ACGCACCACCAATCTCTCTCTCTCTGCTGCTGTTGAAGCTTGAAGGTTAGTTAGGAATTGAAAACCCCCAAATTGAAAAA CCTCAAATTGAAAACCTAAACCCCCAAAAACCCCAAACCTCAACCTCTGGGATCGCAAACCAGTGTTCGTGGGTAAGATT CTGCACCTATTTTGATTTTGATTGATTTTTCCCCATTAATTTTGATGGTTTCTTGTTCTTTTGATAAAAAAAACAATTGT TATGGATTCGGTTCCAGCTGAAGGAATGAAAGGCGGCTTGGCCATTCTGTGGAGGAAAAACGCTTTGGTGATTAATAGGG TGGTAAAAAATCAAAGGTTTTTTGGCATATGCGATTCTGAATGAAGCTGTGTTCTGTTTCAATAATTGTGAGAGTGGCAG TGGGTAGTTGGAAGGAACACTGGTTTATGTGTTGATTGCATTTGTGCTGCTGCAACTTGAAGGAAATCTGATTTGTGTTT TTGAATGCTCATATGCTGCTGCAACTGGGAGGAATTCTGGTTTGTGTTTTTTTATTGCAGATTTGGTGACAGATTTATGT ACTTGATGGAGAGGCTAGAAAGGGTTGCAGGTCCTCATATTAATTGTTGAGTTCAAGGGTGAGAGGACTGCCAAAGATTT GTTACAATGGTTATGAATTGGGATGTTAGAATCTTGAGGATTATGCAGAAATCTCGCGGGCAATGGAGAGTGGAAGAGTG GCTTTGGTATTGGTTGGCTACTGGGGTGCTTGTGGTGTTGTTCATGTGGGTCATCTTCTTCCACAAACATGAGGAAGAGT CTCTGGCTAAACTCCCTAACTACCCTGCAGATATAAGGTATGAGAGAATTGATGTGTCTGTTGAGAAGCATACAAAACAT GATGCAAATTAGAGGCATAGTTTATGTGATTTGATATTTTTTAGATGATGTTGTTCTTGTTGTTGTTGTGTGTAGGAGAT TATGATTATGATATTATAGATTTACTGTAACCAATCATGTAAAATATTTGAACATCCTGTTTTGGGAGTCACTTTGATTA CAATCTTGTTTATCAATTTTTGCACTTGGAAGTTTTGTAATCTCAGATGATCCTTAGCTTAACTGTTGTGTACTTGTGTT ACCATATATTGCCACTTTTCCCCCTTCAACAAGAGTTAAATTGCTCTTTCTTTTGTATAAATCTCACTATTTTTACCGAT GTGTTGATTTGAAAAATTTGAACCCCTAGACCCCGGGGTCCCTGGATCCGCCACTGCCTAAACTCATTGGTTATGATAAA ATATAGAGATTAATTTCTATGCACTGACAGTTTAAATAAGTTTTACACAATCATTCAATCACAAGCTTTCATTTTGTTAA CTCATAATTAATTTTAAGTTAATTAAAATAGTAAATGAAAGATGTGATTGAATGATGATGTAAAATTTTTTACACTGTCA GTGCATCAAAATTAAACTCTAAAATATATATTAATTGAAAGTTTCCAAGACACCTTTATTTTTATTTTTATATTAATTTT AATATAAAATAATAATTTATACTATTTAGTATTTAGTATTCTCTTAGCCTCTTAGGTATTTTTTAAGCTTATAGTTTTTT ATATCCGACCCCTATTTGAATGAGTACTCATACAATGCATAGAATAAGTATTACTACCTAGTTGAATTTTTTTTGAACTT AATCGAATTAAAAGTTATCATATGTGCCATATATGTGGAGGCATAGTAGTGGCATACATGATTCCGAAAATTGTTCCTAA TGGACCGTCAACTGCTTATTTTGGTATAAGTTGCCATTTGCTTTTCCAAATTTAGGTTATGTACTGTATACTTTTTTCGA AAAGTTCCAGTATCTTTTTAATCAGGATAATGTTTCATCCACACCTCTCTTTTGAGGTGGAGAGGTGGAATGGTGAGAGA GATAGGAAGAAAAGAAAAAGTAAGAAAGAGAAAATATAAGATGTGATAGATGATAAGATGAGAGATAGAAATAAAAAGAG GTGGAAATGAAGTATTTAAAAAATGAGGTGTGTATATATCATTACTCTTTTAATCAGCATGCATGCTAAGCTACACATGC TTAACATAAGCAAAAGTTATTGATGCCAATTAATTAGCAGGGAATATTCATGTTAAAAATATTATTATTAGTGAGGGTGG CTCTTCTGTTGCGGTGGGTTGGAAGAAAAATGACAATCAGACCTTTGAAAGTTCTTGAATTTCTTAAATATAATTTACAT ATATATATATATATATATTAGGGAGGAAATAAATTGCATTAGTGTACGTATTTCATGTTTTCAAAGAAAAAAACTCTTTT GCATAAGGTTGTTCTCAATTCTCATATGTAGGAATGGAAGTAGATCTGATTGTTGAGGGGCTTATGATCTAACTTACATC AGACTCAAATCAAATTAGGTCAAATTAATAAATAGATAATATAAAGTTGTTTTGAAAGATTATTTAGTTGAAAAGAGTAG TATCAGCCTAAACTTAAAAAAAATTAAGTCTAGGCTGAATTATTTAAATAAATATAGTTATATAAGTTCATTTTTTATTA TTAAGATATGTTTCTACTATAATATTTTGATATTATATAACAATTGATATTATATAAGATACATTTATATTTATTGAACT TCAAAAAAAGAATTTTTTTTTTGTCGAAAAAAATATATATTTATATTTATAATGATTAGAGTTACGAAAATGGGCCAACT CCATTCATTTAAACTCAGCCCTTTTCGGCCTTTATATTAACTGGTTGGGCCGGGCTGACCAGTGGAATAAACGATATCAT TTTCTTTGGTCCGTCTCCTACCCACTTAACTTGTGGGCTAACGACTTGGGTCATTTAACAAAAAGAATTCTAAAAAATTA AAAACTATCTTTTTTCGATACATCGGAAAATAATTAAAAACTATCTAAGAATACATTGACTCTCAAGTTTGTATGAGAGC ATAGAAATAAGGCTTAAATACTCTGGAGGTCTCTGAAATTGTATGACGTACAAAAATAAGTCCCTGAAATTTTCTTTTTT GATTCCGGATCCCTGGAAAAAAAAATTAATCGAAATATGTCTCTACTCGTGTTATCAGTTTGTGTGGCTCTATTTTTGCA CAGTCATTGATTCCACGTGACTTTTATAATTTTCTTTTATTTACACATGGATTAATAAAAGAAAATTAAATATTCTAAGT TTAAAATTAATCTCTAATCCCTAATGTAATAATCCCTAATCCCTAATTAAAAACTCCAACCTCCCAACCCTAAAACCCGA TTCAGAACCCCTAACCCACTATCATCATCATCTTCCCCAACCTCCATGCCAAGATCCAGTTGGAACCCATCAACCAAAAC TTGTTCTTCGCCCTCTATGCCCAATGTCAACAAGAATGAACATGAAGAACGAACGCCCGGATCAAGCATTTCACCACTTG CGACCCAACCCAGATCTACAAACGAACCCAGGAAACCAACCACCAGCTCCCATGGCCGCTCCAATCTCCCCCTCGAACCT TCACCCAGCGTAGCAAACCCAGAACCCAAAAAACGTGCTCTTAAACCAAAATACCCAGAAGGAAAACAAATTAGAACTTG AATAAAGAAAAACAAAAAATGCAAACCATCATTGTTAACCCTAACCCTCTTTTCCCCTTAGTCCTCACTCACAATTCTTC TTCCCCACACCAATCAACTCATTCAACCCCCACCAACCTAGAAATAGCAAAGGGTGAAGGAAAAACCCCATTTGCTCTAC GGAGAATGCAGATCCTGGCAAATGGTGGCGAGAGATCTAGATGAGATAGAGAGAGCGCGATGGCAGATGGTGGCGAGAGA TCGATTGAGAGATAGAGGCGGTGGTGAGAGGGGTGAGGCTGTTCGAGAGGGAGAAAGAAGCGGTGGAGGGAGATAGATGA GAGATAGAGGCAGATCGATAGAAAAAGATTGCACATTTGCTGGGTTTGAATCGGAACCATGACAGTGAAGAGAAGGTTGA GGCGAGAGAGAGAGAGAGAGAGGTTGCAATGGTGAAGATGGATCTGTGAAACTAAACGATGATACTGGGTTCGTTCACAT TCTAGAAGGATTCTATGGCTCTCTCTTTTAGTTATTTCCAGTTTCTAATTTGGGGGAATTAGGGTTCTGATGCTTGAGGT TTGATTTTGATCAGGGTTAATTATTCTTTATTAATACATGTGTACTAAAAGAAAAATAAAAAGGCCAAATGGAATTGATG TCTGTGCAAAAATAGAGCCACTGAAGCACATAACACAGGTAGGGACTTATTTAGATTAAAAAAAAATTTAGAAATCCGGA ATCGGAAAAAATAAATTCAGGGACTTATTTTCGTACAACATATAATTTCAGGGACCTCCAAAGTATTTAAACCTATAAGT AATGGTTATCTAGTGAAGACTTCCGAAATAATGATTGTTAAAAAATAATCATTAAATGTCTTATTAATCAAGTCAGTTGC GGCGCTCAGCCTTCTCTAAACAAGATGTGCTTTATCACAATTATCTTAGTCAACCAACATGTTCACGTGATAGTGAAATA TTTAGACTCGTTGAGATGCTATTTGAACTTGTGGGCATTGGCGTGACAGGGGTGCACATAGGTCGGGTCAACCCAATAAA TTCATCCAACCCAATCCGATCCAATGGTAAAAATGCGGGTTGGATTGGGCCCACGTGTCCCCCAGATCGATTTTATTACG ATCCAATCATCTTTGGATCGGATATCGGATTCCATAATAATCCATCCAACCCAACCCGAAATCCAATCATGTAATAATAA TATGTTATTTAATATATATTTTTAATAATTTTAATTTTTACCTAACCTACTAATAGGGTATGTTATTTATGGAGACTTGG ATCCTATTATTTGAGTGATTTTTAGGAGACTTTGAGACTAATTTGTTTGTAATTACTTGTCATATTTAAAAAACTTGAAG TACTTGTTTAGTTATGTGTTGTTGTATAGATGTGTGTAGACGGTAGTTATTAACTTATGTTATGATGTAATCGCATGTTA GAGACTTGAAGTACTTGTTTTTTAATATTTTTCAATATTTCAGATTTATTTTTATCTTAATATAGCGATCCAATCAATCC ATCCAAACCAAACCAAAGATTGTCGGATTGGGTTGGTTCGGATTCGTAGGTGAAAATTCACAAAATCTAACCCAACCCAA CCTAAATAGTTACGACGGTTCGGGTCCTGATTAGCCTGAAAATCCATCCAACCCAACCCATGTGCAACCCTAGCAGATGC ATATATGTATATAGATAAAAAAAATTTGAAAAGTTTTTTATATAAACATTCAGTACCCAGTCATCTTTTGGATCAGATTC GGGATTTAGTCACAGTTAAGACTGATCATCCCTTTCTCATAGTGTATTTTGTGGGATTGAACCTCAAAACTTTATCCACA CACTCAATGTGTGTTACCAATTGAGCTACCCTTGTTGAGTATTGAAAAGTTCTTAAAACCCTTACCTAGTAGTAAAAATG TGTTTTCTGATTTATTCCCATGATCTGTTGAGTAATTTTTCGATACATAATATAAATAAAGCGAGTAAATAATATTGTTA GGTTTAAAAATATAAGGAAGATACGTGTTTAGCTAAGAATATAAGCTGCACCCAAACGAGGTTGTACTGGAGACACATGT CATATACGTGGCAAGTTATGCGATGAAGCTTGGGAACGTGGCCTCTGAATTTTCTTCTTTCCATTGCGGCATTTGACAAT ACTTTATTAATAAATTATTTAATTCCTTGTCCTGTAGGGTACCCTGTGATGGAATGGATCATATAGTGCAACATGCTCAC TAAATTTGCAGGGCATTGTTCCTTATATCGTGAAGTTTGAACGCACACTGTGTAGCTGTGTGGTCACTCAACAGAAACGA TCTTTCTCTTAAATCCCTAATCCTTAGTATCATAAATATATTTGAAGCTCTAAAAGTTTTCACATTGAGACTAAAGGAAT TACTTGATCTGCTTGATCAATAATAGCTAGCAGCCTTGCATTTTCAGGTACCCATATTTTATTTCTCTTTACTTTGTAGT TTGTAGTGTAATTATATATGTACACACACTTGTTTATGTGTTTGAATTTGAGTAATTTGTAGTCAAAACTATTTTCAACA TAAATCTACCAACAAGTTTTGTTGTAGATAGTTTGTTCTTTAAGTATTTAATTGATGATTTAATCTCTGCGTTATGTATA TCCTCCGGTCATCGAGGAGGATTTGATCTTTGAGCTATGTATATGTATATCCTCCGGTCATGGGATAGCTAAGTAATACC CAAAAAAAAAATGTACACACTATCTTCAGTGTTCGCTTGCCTTTGTTTTGGTTTGATCATGGGATTTGTTACTATTGAAT TTTTTTGGTTACATGTTCCTATTGAATTTGAACGTACGTTAGTGCTAGCATGGGAGTTTTGAATTTGATCTGTCCAATAT ATCATTGTTTTAGAAAAAGCAATTCATGATGATGAGAAAAATAAAGACGATTCTCTAAACATCATTATCATGTTAATTCT TTAGAATTATTTCATGTCATTCAAAAATCACTCATGTACAATTGGTATAATTGTTATATTCATGTCCCTTTTAAATCCCT TCCATTGAGCCTTGAATATGTATTTAATTTTCCATAAAGGTTTTGGGTCCTAATACTATCTATGGAGAAAACTCACTTGA GGAGCTAATTACTCCATGGTGTTACTATGGATATTTTTCATTCGAATTGAAAGCACTTGTGTTCTGACAAAGAAAAATTC ATTGATACATACTTGATCTGATTAAGCTTACAATATTTCCATTTTCTGATTCAGGTGAAACACAAGCAGCACAAGTTTGT TTGTTGCATTTAGTACAGGAGTAGCAAAAATGGTGCTGCGTGAGGATCAGATGAACTCGCAAGGGGAGGTAGAGTCTGCT CTGCAGCAGATGGAACAAGAAGCCAACAAGAACAATCATCATCATCCAATTATATCATCATCGCTGGGAAGACAAACATC TATTTATTCCCTCACCCTCGACGAGTTCCAGCACAGCCTCTGCGAGGCCGGCAAGAATTTCGGCTCCATGAACATGGATG AGTTCCTCAGCAGCATCTGGAGTGCTGAAGAGAACCAACAGCATGCCTCTTCCAATCCTAACCAACACCACTTAAACAAC ATTAACAACAACACCATGTTACAGAGTTCCACTCACAATCACAGAGGAGGCAGCAATAGCATCACCAAGCAACCGAGCCT CCCTCGCCAAAATTCGCTCTCCATTCCCGCACCTCTCTGCAGGAAAACAGTGGATGAAGTTTGGTCTGAGATTCACAGAG AACAGCAGCAGCAGAAACAGAATCAAAACAACAACGACAACAACACTGTTCAGAACACTGACTCGGTTCCTCGCCAACCC ACCTTTGGGGAGATGACTCTGGAGGATTTCTTGGTTAAAGCAGGGATAGTTCGGGAACCGTGTAATGCTAATGCACCAGC TGCTGCAACATCAGTGTCTCAGCAGCAGCAGCATTACGGGGTGTACCCGAATAACAACCCTGCAATGGCTACTAATTCTT TTGTTATTGGTGCTGGAGCTGGAGGAGTAGGGAATGTAGGGAATGTGGTTGCGCCACCTTATTCGGTGGCGGCTCAGGGA GGTGGTGCGGCGATTGGGGAGGCCTCTGGGTATGTGGCGAATGGTGCTAAGAGGGATAATGGTGGATACTCTGTGCCGCC GGCAGCAGGGGTTTGTTTTGGGGGGAGGGTGGGGGTGGTGAATGGAGGGGCTGGTTATGGGGTGGCGCCACCGAATATGG GGATGGTTGCTCCGGTGAGTCCGGGTTCTTCTGATGGGATGGGAACTGAAAACTCTGGGGGTCAATTTGGGCTTGACATG AGTGGTTTGAGAGGAAGGAAGAGGTTGGTTGATGGTCCTGTGGAGAAGGTTGTGGAGAGAAGGCAGAGGAGGATGATCAA GAATAGAGAGTCAGCAGCCAGATCTAGAGCCAGAAAACAGGTTCCTCTCAATCTCATTTTCATCATCAATTCAATGGTTA CATCCTAAACATGTTGTGTTCATGTAATCTAGATAAAACATGTCTTTTGCTGAGCCATTTTCTTTTCTTTTTTGTCTTGG CAGGCATACACAGTTGAATTAGAAGCTGAACTGAACATCTTAAGAGAAGAGAACAACCAACTGAAACAGGCCTTGGTACT GTCACAGCATAAACTTTTCATAATGTTGTTTTTAGGCATTCAATTAAACTGATAAGGATGATTTTGTTCTTCAGGCTGAG CTTGAGAGGAGGAGAAGGCAACAGGTAATCAATGATCTAATTACAGTTCTTAATTTGAAGGATAAAGACATTGACTTAGC ATTTGTCCTTTTTCAAGTTCCATAAACATCATTACATACTTCTACAGCTTTGGCTCTGCAGTATGCACAATAGAAATTTA GTTGCAGATATAGTATGCAACTCTATATGCTTATGCAGTATGCACAGACATGACTCTACTTTCTTATATCTTCATTTTCG ATTAAACTGCAAAGGTTTTCTTGAATTTTATGATCATATGAGCTACTTAAGCCACATCTAAATTACTATCCTCTGATATC ACGTGCTGCAGTGTTCAGAGGAAGTGAACGTGAGAGTTCAAAGCAAAGCGCAGAAGGCAAAAGAGAAACTGAGAGCGTTG AGAAGAAACATGAGTTGTTCTTTGTGAAGGGACCATGTGAAAACAGTGAAATACTTCACTGGAGCTGGCCACGATGCCAC CATCTTCTCATGTGGTGAAAAGAAGAAATTCCCTGACGCCAATCAAGAAGGGAAGAAGAGAACAGGAAAACTCAGAACAT GTCAACACCTCTTAAAAGAAATGAACGGAGAGAGGTGAAATTAGTTCGAGAGCAAAAGCTGACAGGGTCTTCATGTTCAC GATCAACCAAGGATTGGATCATCGAATTTGTATGACTCATTTCAAATGATAATTAAGTAGTAGTTCTTGAGATATACAAT ATAGATGGATTCCCCATGTTTGCATTTACCTTATAATGTTTGGACTGTTTCATACTTGTTTACGCAATGTAATCAATTTC TTTTGAAAGCAAAAGCCCTGTGATTAAATAATATAAACAATTATATTCTTCTCAA
CDS sequence (LotjaGi1g1v0676400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGTGCTGCGTGAGGATCAGATGAACTCGCAAGGGGAGGTAGAGTCTGCTCTGCAGCAGATGGAACAAGAAGCCAACAA GAACAATCATCATCATCCAATTATATCATCATCGCTGGGAAGACAAACATCTATTTATTCCCTCACCCTCGACGAGTTCC AGCACAGCCTCTGCGAGGCCGGCAAGAATTTCGGCTCCATGAACATGGATGAGTTCCTCAGCAGCATCTGGAGTGCTGAA GAGAACCAACAGCATGCCTCTTCCAATCCTAACCAACACCACTTAAACAACATTAACAACAACACCATGTTACAGAGTTC CACTCACAATCACAGAGGAGGCAGCAATAGCATCACCAAGCAACCGAGCCTCCCTCGCCAAAATTCGCTCTCCATTCCCG CACCTCTCTGCAGGAAAACAGTGGATGAAGTTTGGTCTGAGATTCACAGAGAACAGCAGCAGCAGAAACAGAATCAAAAC AACAACGACAACAACACTGTTCAGAACACTGACTCGGTTCCTCGCCAACCCACCTTTGGGGAGATGACTCTGGAGGATTT CTTGGTTAAAGCAGGGATAGTTCGGGAACCGTGTAATGCTAATGCACCAGCTGCTGCAACATCAGTGTCTCAGCAGCAGC AGCATTACGGGGTGTACCCGAATAACAACCCTGCAATGGCTACTAATTCTTTTGTTATTGGTGCTGGAGCTGGAGGAGTA GGGAATGTAGGGAATGTGGTTGCGCCACCTTATTCGGTGGCGGCTCAGGGAGGTGGTGCGGCGATTGGGGAGGCCTCTGG GTATGTGGCGAATGGTGCTAAGAGGGATAATGGTGGATACTCTGTGCCGCCGGCAGCAGGGGTTTGTTTTGGGGGGAGGG TGGGGGTGGTGAATGGAGGGGCTGGTTATGGGGTGGCGCCACCGAATATGGGGATGGTTGCTCCGGTGAGTCCGGGTTCT TCTGATGGGATGGGAACTGAAAACTCTGGGGGTCAATTTGGGCTTGACATGAGTGGTTTGAGAGGAAGGAAGAGGTTGGT TGATGGTCCTGTGGAGAAGGTTGTGGAGAGAAGGCAGAGGAGGATGATCAAGAATAGAGAGTCAGCAGCCAGATCTAGAG CCAGAAAACAGGCATACACAGTTGAATTAGAAGCTGAACTGAACATCTTAAGAGAAGAGAACAACCAACTGAAACAGGCC TTGGCTGAGCTTGAGAGGAGGAGAAGGCAACAGTGTTCAGAGGAAGTGAACGTGAGAGTTCAAAGCAAAGCGCAGAAGGC AAAAGAGAAACTGAGAGCGTTGAGAAGAAACATGAGTTGTTCTTTGTGA
Protein sequence (LotjaGi1g1v0676400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MVLREDQMNSQGEVESALQQMEQEANKNNHHHPIISSSLGRQTSIYSLTLDEFQHSLCEAGKNFGSMNMDEFLSSIWSAE ENQQHASSNPNQHHLNNINNNTMLQSSTHNHRGGSNSITKQPSLPRQNSLSIPAPLCRKTVDEVWSEIHREQQQQKQNQN NNDNNTVQNTDSVPRQPTFGEMTLEDFLVKAGIVREPCNANAPAAATSVSQQQQHYGVYPNNNPAMATNSFVIGAGAGGV GNVGNVVAPPYSVAAQGGGAAIGEASGYVANGAKRDNGGYSVPPAAGVCFGGRVGVVNGGAGYGVAPPNMGMVAPVSPGS SDGMGTENSGGQFGLDMSGLRGRKRLVDGPVEKVVERRQRRMIKNRESAARSRARKQAYTVELEAELNILREENNQLKQA LAELERRRRQQCSEEVNVRVQSKAQKAKEKLRALRRNMSCSL
Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.
Prediction algorithm | Identifier | Start | End | Length | E-value | InterPro ID |
---|---|---|---|---|---|---|
PANTHER | 1 | 442 | 442 | 1.3E-170 | ||
PANTHER | 1 | 442 | 442 | 1.3E-170 | ||
MobiDBLite | 1 | 35 | 35 | - | – | |
MobiDBLite | 9 | 35 | 27 | - | – | |
MobiDBLite | 80 | 134 | 55 | - | – | |
MobiDBLite | 80 | 135 | 56 | - | – | |
MobiDBLite | 148 | 178 | 31 | - | – | |
MobiDBLite | 151 | 177 | 27 | - | – | |
SMART | 353 | 417 | 65 | 9.8E-12 | ||
ProSiteProfiles | 355 | 407 | 53 | 11.565 | ||
Pfam | 357 | 407 | 51 | 1.8E-11 | ||
CDD | 357 | 411 | 55 | 9.5092E-21 | – | |
Gene3D | 357 | 408 | 52 | 1.5E-14 | – | |
SUPERFAMILY | 357 | 407 | 51 | 1.38E-10 | – | |
ProSitePatterns | 360 | 375 | 16 | - | ||
Coils | 380 | 414 | 35 | - | – | |
Coils | 417 | 437 | 21 | - | – |
GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Molecular function | DNA-binding transcription factor activity | A protein or a member of a complex that interacts selectively and non-covalently with a specific DNA sequence (sometimes referred to as a motif) within the regulatory region of a gene to modulate transcription. Regulatory regions include promoters (proximal and distal) and enhancers. Genes are transcriptional units, and include bacterial operons. | ||
Cellular component | Nucleus | A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent. | ||
Biological process | Regulation of transcription, DNA-templated | Any process that modulates the frequency, rate or extent of cellular DNA-templated transcription. | ||
Biological process | Response to abscisic acid | Any process that results in a change in state or activity of a cell or an organism (in terms of movement, secretion, enzyme production, gene expression, etc.) as a result of an abscisic acid stimulus. | ||
Biological process | Positive regulation of transcription, DNA-templated | Any process that activates or increases the frequency, rate or extent of cellular DNA-templated transcription. |
Expression pattern of LotjaGi1g1v0676400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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