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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0052800 |
Transcript ID | LotjaGi1g1v0052800.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | Stomatal closure-related actin-binding protein 1; TAIR: AT2G26770.1 plectin-like protein; Swiss-Prot: sp|O48791|SCAB1_ARATH Stomatal closure-related actin-binding protein 1; TrEMBL-Plants: tr|I1M771|I1M771_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0052800 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:7445959..7455764) extracted from Lotus japonicus Gifu genome v1.2.
TGATCATTCTGCATGTATCTTGGTTCGAGTTTTACGCATAAAAAAAAACTTCTGTTAAAACAAGCCCTGACATGCTAACG TGCTGCAAATCACAACACCAAACATGTCGTAAAAATCCATTTTATTAAAAGAGCTTTATCTTCACGCTTCCGATCACAAC ACCAAACACGCTGCAAGAGCAGAAGAGCTAAGCCTACGAAAATGTGAGCTAAAATGGAAGAGTTTAAAGTTTAAAGCATG AAAGAGACAATGCAATAAAAGTGGTATTAATAATAATATAACAAACAAAACATGATACAATAATCAAAGTAGACACCAAG TTCCCCATTCATAGCTTGATGTTTGTCATAAGAGAAGCCAACACCACATACATACACAAAGACAGACATCATAAAAATCC CAGAACAAACGGCGAGGGGACCACTACACACACGGGTGGCACAGCATCAAAGCCATTCTCTCTTTCCCTTCTTCTCCTTT TCCCCTTTTCTTCTCAAAAAGCAAAGCTTCCATTGATTCCCGTTGTTGGATAATCAATTTGAAGCAACCCCATTTGCATC TGATCCTAGAATCACAAGTTTATTCACCCATTTTTAGCTTCTGTGAGTTAAAGCTTTCATCTTTTTGTCTTTTCTGTTGG CTTATTCCTCTTTGCTTCAGCTCAAAAAATAGTGAAAAGAAAGGGAAATTAGGGTTTTGTTTCACACTTTCACTGTCAAA AACTCTCTTAATCTGCTTTCACTTCAATGAGATGAATGTAGTTGGGAACTCCATTTATGAGCCTCTTATTTTTGGTTTGA TTCTTTCAACACTTTTTGTTCTGTTCATGCTTATCTGAGTGTATGTGTATGTGTATGTGTATGTTCCTTTTTGTTTTTTG TTTTTTGTTTTCTGTAACTGTGATCTACCCAATTGATTATCTGTGCTAAAGTTTGCATCTTTGTGGTTGGCAGAGGTAAT TGGTTCCAAAAGATGACGAGGGTGTCTCGTGATTTTGGTGATACCATGCAAAATGAGGCAGTGCCTGCGGTGTCTTCTGA TGTGACATTTGCTACTAGCAGGTTTCCTAGTTACAAGATTGGAGCTAACAATCAGATAATGGAGACTAAGGATGATCCCA AAGTGGTGTCTATGAAGGAGGTTGTTGCTCGTGAGACTGCTCAGTTGCTGGAACAGCAGAACCGTCTCTCGGTTCGTGAC CTCGCCAACAAATTTGAGAAGGGTTTGGCTGCTGCTGCTAAGTTGTCTGAAGAGGTTGGTTACCTTTGTTTATGGTCAAA ACTTTTTTATTTTTCAAAGCAGTATAGACATCTAGTTGTTTATTATGTGGTGTTTTCAAGTTTCAACTGAAATAACCAGT GATCATAGTTTCCAAAGAATCTAATGTCCCTTTATTTGAACTAAGATTTTCATATGCTGGTGAAATACAGGCTAGACTTA GAGAAGCAGCATCGTTGGAGAAACATGTTCTTTTGAAGAAGCTTAGAGATGCACTTGAATCCTTAAGAGGGCGAGTGGCA GGAAGAAACCAGGATGATGTGGAGGAAGCTATTGCTATGGTGAGTTCATTTCCCCCCTTTAATAAATTCATATGAAGCTG ACTTTATAATTCTAAGTCTTGTTTGTCCTCTGCAAAAATCAAATTGGGTGTGTGGATGTTAATGAAAAGGCATTGAGAAT AAACTTGGGGGTTGTTTTCTTTAAACTTTCTTATCCGTATAATACTTCCATTGCGCCATCCCAAACATAAGAAGTCTGAT TTCTTTTAATTAGTGGAGTGTTCATTCTGGTGCCTATTTGTCTGTGCATTCACTCTTTCAAGAGAAACAGCCTTAACTTA TTCTTTTAATTCTTCAGGTTGAAGCTCTAGCAGTGCAATTGACTCAAAGGGAAGGGGAACTAATACAAGAGAAGTCAGAG GTGAAGAAGTTGGCAAATTTTCTCAAGCAGGTGATGTTAACTTATATAATTACTTGATGATGGTTAGAGTTTTAATAGTA ATAGGAAAAAAAGAGAGTAAAAGGGGTGAGGATAACTATATAATCCTCTCTATCTGCGTCAAACTAAACACTTGGAGGCC AAGAATTAAATCAAAGGGAACTCCAATTCCTCATTATATCTACTAAAGTAATTCCCCGAAAGAAAGTGTGTCCTAAGATC CAGTGAGATGCCATAAATCCTATTCTATCGCACCACAGGTTTTTGTACAAAGATTTCCCCTATACTTCGAAGCACTCTCC TTCAACCATAGTATAGACCTCTCAAGATAACATTAACTTTTGTACAGCCATAAATTGTGCAACACATTACTTCTTTGATT CTGTAATAGCTGAATATTGCATATTAATTACGTTACTTCATATATTCATCAGATTCTATTGTGAAATAAACTTGCCTGAG TTGATATCTTGTGTATATGCCTGCATGCTTTCCTTTGCCAATGCTGAGAGTTTAGATTCATTTCTAGGCTTCTGAAGATG CTAAGAAACTTGTAGACGAGGAAAGAGCTTTTGCTCGTGCTGAAATAGACAATGCCAGAGCAGCAGTTCAAAGAGTGGAA GAGGCACTTAAGGAGCATGAGAGAATGTCTCAAGCTTCAGGGAAGCAGGTTTGTGCTATTTACGTGTAATTGTGCATGCA TTAAATTATGGGAATTCGTGTATTTCATTATGCCATAATGATAAATGACTCCGACTTAATATCGCTTGTTTTCCTATATA TTTTCACGTAATGAAAGGTGGGATCTAGGGAAGAGCTGAACCCATTACAATTTACAGATTTATTTTAGGCATTCTTACCT TGCATTTTGCAAAAGTTTGATTCCATCAGTTGAACCTGTGACCTCTTATTATCACTTAATACATTTACTGGAAATAATGG AAGTATGAGGGAATAAAAATTCGTACATGTTTGAATTTGAGAACTTGTATTTAGATAGGTTGCATGGTGACTGTCCGTAA CTAGTTATCTTGATTAGGGCAAGGCAAAGTGGAAGATGGAAGATTGCCTTAAGAAATTATTTTTGTACTTCCAAGGTTTC TTGCACTTACCTTCCCGTTATTTTCTTTTATATCCCTTGAAGACCTGAGCAAAACATCTTATTTCTTGGCTATTGTTATT AAGTCATATCCCGTGTGCAAGTGTTGCCCTTTTCTCTGCTATGGTAGTTATTCCCTGCAAGTTTTTGCTTTCTATTCACT TTTGTGCGGAACAAATACTGCACATCAGTGTTAACTTTCTAATTTTCATTTGAACAAATTTTTGCTCTATGGGGTCTTTA GGACCTGGAACAATTAAAGAAGGAGGTTCAAGAGGCTCGAAGAATCAAAATGCTGCATCAACCAAGCAAGGTAAATATTA AAAACCTTGTCCTTATTTAGTCTCTTATCTAAATATAATACTAATAATTGTCATTTCAAATTTCTCTCTCTCCTATTTCC AACCCTGGCCATTTTAAAGTTCTTTTCCATCCTGTCTCTTAATTTTATTATTCATCATTCCTGAGGAAAACCTTTGTAGT TGTGTGCCGTATTCTTATGACGGTAAATTGTAACTTTTCTAACATTTTATTCCATGCTGGGATAAAGAAGTTTGGTTTAT CTTGGTGCTTGAGCACCATAATTATGAGCTGCATACATATAAATTGTACCATTGGTTTGTTGTCATGTAGGCTTTTAGGA AGAGCTAGTCTATTGTAGTATTGAGCATTAGTGATGTGTAACCACCACTATCCTACACAGTATCAACAGTTCGAATCAGT TGAATGTATCACATTTAAGAAGCATAGAATGGTTTCAGAACCAAAACAGTTCTGAAACATATTATAGTGAATTGCTGCAT TATTTGTTGTATATTCTATGGACATTTTCTCCCTATTTTGAATTGGATTTCTTCCTCATGTTTTCTTAGACTTCTTATTT CCATATAAACATTTTTATTAAGTTATTTCAAGGAAATAAATACACTTATTCTTGATTCATATGTATGTAGGTCATGGATA TGGAACATGAGCTTCAGGCATTGAGGGCTCAACTTGCAGAGAAAACTAGACATTATCTTCGACTTCAAAAGGAGGTATGC CTGTCCTATTATGCCATGTGAAAAATATTAACATACGAATAGTGTCCGTGATTAGTTCTATGATATGCTTGAAGCATTGA TGTGAAAGACTTAAGGAAGTCGTTGGTGCTTGTTGGTTCTTTAAGCATTATGTTGTATTAAATCATATTTGGTGACTTTA ATGCGACTTTATAACAAGGTTTATGGTAGTTGAGAATCTGTGCTTATAACAAGGTTTGGCATTACAATGGAGCTGTGCCA TCTCTACTTCATACTCTTAAATTCTCAAAGCTGCTAGTTTATTGACAATACTAAAAATCTGGTCCTATTTGCTTCATTTT TCTGATAAAAGACAAGAAACTGAATACTGCAAAACATTTGAATACATAATCCTTCACTGGGACAGTTTGAGGTTAAGGTA TGCTTAGGGATCTTCAAACAACGTCTTAAATGATGTGATGGAGAATTCCATGATTAGTTACTTGACGATTTTTAATCATA GGAATTAGAGTTTGAGCTTCGATGTTATAGTTTATTTTTGTATGAAGTGAATGATAAATTTCTTTAATTAAATGGAGGAA TTATATGATTGTCTTCCATTGTAGGCTTCTTTCACTGATTTATCCTTCATCCAACATTTCAGCTAGCAAGGACGAAGAAA GGAGAGGAAAATGTTCCTCATTTTTATGAACTTGAAGGAAATGAAATCTTAGGTTCTTACTTGCAAATTCAACCTTGCTC TGATAATGCCCCTGATCTTTCAAAATGTTCAATTCAGTGGTACCGTGTGTCATCTGACGGTGCCAAAAAAGAACTTATTT CAGGTATTTTACTTTACCTGATAAAATACCTTTTGCAGACAACATTTTCTGCTGCAGTGTTTTATGTTGAGCGTGCAAGT TATTAAACTCTTGATTTACACGTTTATCTTCTGGCATAGCATGTTTTTTTATCATTGATAATTTCTAAAAATATGAAAAA CATTTTTGGTGATGGCATTTCTATCCTTGGTGTTGTTTGTAGAAAATTATGAATGGCGGGCAGGCTGTTATTCTTATTAT TTTAAAGGCTTAATAGCACTTTTGGTCCCCCACGAATGTGAAATGTGCAAACGAGATCCCTAAACTTCAAAAATAGCATA CTGCATCCCCGACGTTATCCTCTGTTAACAGTTTTGGTCCCCGGGCATTTTTCTGTCAAAAAACTAACGGTTTCTGGATT TTCCAGAAAAATTCATCCTCTTCTTCATCTTCTTTAATATTTTCTTCACCTTCTTTCAATCTAATCTTTTTCACTTCCCA AAATCAACAGAGGAGATCCAATTGATGTAATGTAAATGAAATTAGTTAGTTTCAAATCAACAAAACCAGAAAGAAATCCC AATTAGAAGCAAACATGGAATCCAGAAAATGAAGAGAACCAAAACTTAGATCTGGGTTTCACGGTTTGAGCAAAAAGAAC AGATCTGACCCAAAACACTTCAAATCAGGGCAAAAAGAACATATCTCCACAACATTTATCTCAGAATAAAACCCCCAAAG TTTCTTCCTTTCCCACCATCAAACCCATTATTCTCCTCACATCGATCCTTCGATGCACACCTTGCATTCAACCTCCAAAT TCATCACGACGGTTTGAGACCAAGATTATTCAGTAAAGTTTTAATCTTTTTTGAGAGGAGAGGGTATGGATTTCAGGATC GGTTTGATTGAAGGTTGGGGATTTGGGTTTGGAGTTTGTTAGATTTGGTCCCTGGGATGGGTTGTTTGGTTCTGATGAGA TTGAGTTAATGTTTGTTGGTTTTTGAGGTTGTAAAAGAGAGGAAGAAGATTGAGGAAGAAGATTGAGGAAGAAGATGGTA TGGGGCGCAAGTTCTGTTTTTTTTTTTGGGTATTAGAAGAAGAAAGATCATTAGGAGATGAAGAAGATGGTAGAGATTGA GAAGAAAAAAGAATTACGAGACAAAAACGATGAAGATGATTTTGAATTTTAGATTTTTTTATTTTTTATTTTCTGGGATT TGGGGTTAAGTGAAGGAGAAAATGATAGAACATGATAGAAGAAGAAGATTGAGATGATGAAGTTTCTGGGGTTTTATTTG TTTTATATTTTGTAATTAATTTTATTTGGTTTAATTACGTATTTGCCCTTAGAAACCGTTAGTTTTTTAACGGAAAAATG CTTAGGGACCAAAACTGTTAACGGAGGATAACGTCGGGGATGCAGTATGCTATTTTTAAAGTTTAGGGACCTTGTTTGCA CATTTTACATTCGTGTAGAAAATTGTCATCTTAACTATCAGTGGGCTTATTCTGTAAGTTGTGCTGTTCAAGATGCACTG TGGGGGGAGCACTGATTGTTATTAAGTATGTCATCCAGCAAGTTCCTCTTTTTTTATCTTTGCCTATCATATAATACTAC TTTATCCTTTTCAGGAGCTACCAAATCAGTATATGCCCCTGAACCATTTGACGTTGGACGCCTATTACAAGTTGATATTA TTTCAGAAAGCCAGCACATCATGCTTTCAACCACAGGTCCAATAGATCCAGGTCTGGTTTCACTGAGTCATCCTCATTTC ATTTAGTTGTCATAAAGGCTTGGATTTTATATATTTATTTCTATTTAACCTACAAGGTTGTTGTCATATTAGTTTTAAGA GATGGAGACACGTTTCATGGTGCAATCAAGTTGAGCTAAGATTGCTTTTATATCTTATGCAGCTGCTGGTTTAGGAACTT ATGTAGAGGCACTTGTACGAAAACATGACACTGAATTCAATGTATGTTCTTATGGATCCTTTAAGCTTTTATTTATTTCT TTTTCATTCTTCTATAATTAGAGAGTCAAGTATAAGCATCAAAGAGAGATATATTGAGAAGCAATGATTTTGTGTTATTG CATAAGCCTACCACAGGTCACTTTAACATCTACTTTTTTAGCTCATTTCGCCATGTTTTTGTCCAACTCAAAATTGCTTT TAAGTAAACAAAAACCCTATTAGAAGTAATACAAGTTTTCAATTCAAGATGCTCGGTTTTGTCCCAAGTGTATATGGTTC CATTTCTTTGCTACTGTCTTGACTGATGACTCTTGTAATCAAATTTTCAATTAAAAAGTAGTATTCAGTTTTGCAAACCG TAGTTGTCTTGTCCTTTGTTCTTCATATTTTTGTATATTAAATTTATAAGTCAAATCTAGTATGATTCTGCGTCAATTAA TATTGTCATTTAATACTTTGCAGGTAGTTGTGACTCAGATGAACGGATCAAATCATCCAGCAGAATCTATTCATGTACTT CATGTCGGAAAGATGAGGGTGAAACTCTGTAAAGGAAAGACAACAATTGCCAAAGAATATTATTCAAGTTCAATGCAGGT AGTTCAAATTGAAAATGCTGTTAGTTCAAATATGGTTCTTGTTCACTACTTGAAAATTGTTTTTCACATTCTTTTATTCT TAAGCTTTTGTATTTTCACTAAATAAAGGAGCTATATTTTAACTGTGATGAGATGAGCAAATCAGTGTTGTAACCCCTTG CACGCAGTTCTCAACTTCTCATGCATGCGGTTTATCATATGTGCATACCTTATGTTTACATGCCTTAAGCATTGAAGCCA TCTATCTATGCATAAGAAGTTCATTTGTTTTTCTGTTCATTGTGATATTTTGATTTCATTCATGATAAACTGGAATTTGA TCTATCAATGTGCTTTGGTCTTGTTTTCTTTAGCTTTGTGGAGTTCGAGGAGGTGGAAATGCTGCAGCCCAGGCTCTATT TTGGCAGCCCAAGCCAGGACATTCATTTGTATTAGCATTTGAATCTGAGCGAGAAAGGAATGCATCCATCATGCTTGCAA GAAGATTTGCATTTGACTGTAATGTATGTCTTTCTGAACAATTTATTGTTTTATACGGAAACTTGTGGATTAGGATCATC TCATGTAATATTACATGTCGAGTGAAACACTGTCCATATCTCTTTTTCATAAATATTCAATGAGTTCCACTTCCACCTAT TTAATACATGTGAAGAAAGAGATATACACAAAATTTCAACGAGCAAACTTGAACATGTTTCCCATGAGAGGATCCTGATC TGAAACTTATGTTAGAATTTGAGTAATCATTTTTTTCTCTTTTAAGTCCTTTCTTGATTTCATTTTCCCTCTCGGTCTCT AATGCTAAATTCCAAATGCATATAATGCCAGATCATGCTTGCTGGACCAGATGACAGAGCTCCTTTAGGGACATGATGAG CCTTCTTAAAACCTATTTATGTCCCTTGTAATTGTAATTACCAGAGTTTTTATACCTTGTATTATAAGTGTCCAACAGTA AAATGTGCCTTGTTATATTGGTAAATTAGTAATGATTCACACCTTGTGGTCTGAATCATTTATATAATCTTCTTTCGACT ACACCAAGGCAATTTTTTGTTTGCCTGTGGCTGTGAGTGACAGTTGAGCTAAGTTTTAGAGCCTGCATCATTGAAAGGTA GCAGCCTTGTCCAGTGTTTGAGGTGCTAATTTATTGTATTTGATCGAGAGACAAATGCTATGAAAGTTTTCATTGCATTT GTCTATGGATACTGGCATTGTGGAGATGAAGTTTGTGAATCTTCTTCACTATGTAATATTCTAGTGCTAGGTTAGATTTA CTTGGAAATATCTTGAGGTTTCAATGTGAGAATAATGTTCTTGAGGATGTAACTATTGTATATCTCTTGAAAGATACTTT TTTAGACAGGTTCCTCCTATGTTCTAATACTATTTAGTTTTGTTGCTATTTGTTTGGTGCAATGTTTGCAACTTGAAGTT TATTGAATTGAATCGGGACACAGTTAAAAATAAAATATGAGCACATTGATGGTTCTTGTTTGTTTCTTTAAAGATTCTAA GGGTGAAGACTACAGTGTCTCCCTTTTCAGGGGCACCAGTGTCCCCATGGAAAAAACTTTTATAAGAAGGGGGACACCTA CAAGTGACCAAAATACCCATTTTTTTTAAACCTTAACTTCTTCACTTGAAAAAAAAACTCCTCCTCCCAACCTCAACAGC CACCTTCTTCCTCCTCCACCCAAGCCTGGTCCTTTTCCGCCCACGTTGCAGCAACGTTGAGTACTTCCACCTCCCACGGT CGCCCATCACCCCACCCCCGCACCCCTTTGGCAAGTCCAGAAATAACCCAAATCCCCGCCCACATCAAGTACCTCCTTCG CCGCCGCGGCACTGTGCTCGACGTGAGGCTCCACTGTAAACGTCATTCGCCACCGATCGAAGATCCTCAACGACCTTTGT GGTGTCCCTCAAGGATTCCTCACTGAATGCTACATGCAGAGCCGCCGTTGCACGGAGCTCTGGTTCTTCCTTCCTCTTCC TCAGTGATGATTCCAGATCCGTGTTTCATTTTTTGGTCCGTGATCTCCTCTTGCCTTATTTTGTAGTGTTCAGATCAAGA AAGTACAAGATCTAATGATCCAAATCTGTTTTTGGATGGTGCCATTTTCATCTATTTTTCTATTGTCATCTTCTTAGGTG CTACCCAGATCTGTTTTCTTTATATGGTTTCTTCTTTATGCAGTTGAAAACTTCAGCAAGTTCTGTGATGATGTTAGATT TAGAGCAGTTTGATGAGTTGCCATAATATTCACACCCTAACAAGAAAAAAATGTTTTCGCCAAATAATTGATAAAGTCAT AATGTATATAGTGTGACATAAAAGTAAAAATAAAAATCAAATAGTC
CDS sequence (LotjaGi1g1v0052800.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGACGAGGGTGTCTCGTGATTTTGGTGATACCATGCAAAATGAGGCAGTGCCTGCGGTGTCTTCTGATGTGACATTTGC TACTAGCAGGTTTCCTAGTTACAAGATTGGAGCTAACAATCAGATAATGGAGACTAAGGATGATCCCAAAGTGGTGTCTA TGAAGGAGGTTGTTGCTCGTGAGACTGCTCAGTTGCTGGAACAGCAGAACCGTCTCTCGGTTCGTGACCTCGCCAACAAA TTTGAGAAGGGTTTGGCTGCTGCTGCTAAGTTGTCTGAAGAGGCTAGACTTAGAGAAGCAGCATCGTTGGAGAAACATGT TCTTTTGAAGAAGCTTAGAGATGCACTTGAATCCTTAAGAGGGCGAGTGGCAGGAAGAAACCAGGATGATGTGGAGGAAG CTATTGCTATGGTTGAAGCTCTAGCAGTGCAATTGACTCAAAGGGAAGGGGAACTAATACAAGAGAAGTCAGAGGTGAAG AAGTTGGCAAATTTTCTCAAGCAGGCTTCTGAAGATGCTAAGAAACTTGTAGACGAGGAAAGAGCTTTTGCTCGTGCTGA AATAGACAATGCCAGAGCAGCAGTTCAAAGAGTGGAAGAGGCACTTAAGGAGCATGAGAGAATGTCTCAAGCTTCAGGGA AGCAGGACCTGGAACAATTAAAGAAGGAGGTTCAAGAGGCTCGAAGAATCAAAATGCTGCATCAACCAAGCAAGGTCATG GATATGGAACATGAGCTTCAGGCATTGAGGGCTCAACTTGCAGAGAAAACTAGACATTATCTTCGACTTCAAAAGGAGCT AGCAAGGACGAAGAAAGGAGAGGAAAATGTTCCTCATTTTTATGAACTTGAAGGAAATGAAATCTTAGGTTCTTACTTGC AAATTCAACCTTGCTCTGATAATGCCCCTGATCTTTCAAAATGTTCAATTCAGTGGTACCGTGTGTCATCTGACGGTGCC AAAAAAGAACTTATTTCAGGAGCTACCAAATCAGTATATGCCCCTGAACCATTTGACGTTGGACGCCTATTACAAGTTGA TATTATTTCAGAAAGCCAGCACATCATGCTTTCAACCACAGGTCCAATAGATCCAGCTGCTGGTTTAGGAACTTATGTAG AGGCACTTGTACGAAAACATGACACTGAATTCAATGTAGTTGTGACTCAGATGAACGGATCAAATCATCCAGCAGAATCT ATTCATGTACTTCATGTCGGAAAGATGAGGGTGAAACTCTGTAAAGGAAAGACAACAATTGCCAAAGAATATTATTCAAG TTCAATGCAGCTTTGTGGAGTTCGAGGAGGTGGAAATGCTGCAGCCCAGGCTCTATTTTGGCAGCCCAAGCCAGGACATT CATTTGTATTAGCATTTGAATCTGAGCGAGAAAGGAATGCATCCATCATGCTTGCAAGAAGATTTGCATTTGACTGTAAT ATCATGCTTGCTGGACCAGATGACAGAGCTCCTTTAGGGACATGA
Protein sequence (LotjaGi1g1v0052800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MTRVSRDFGDTMQNEAVPAVSSDVTFATSRFPSYKIGANNQIMETKDDPKVVSMKEVVARETAQLLEQQNRLSVRDLANK FEKGLAAAAKLSEEARLREAASLEKHVLLKKLRDALESLRGRVAGRNQDDVEEAIAMVEALAVQLTQREGELIQEKSEVK KLANFLKQASEDAKKLVDEERAFARAEIDNARAAVQRVEEALKEHERMSQASGKQDLEQLKKEVQEARRIKMLHQPSKVM DMEHELQALRAQLAEKTRHYLRLQKELARTKKGEENVPHFYELEGNEILGSYLQIQPCSDNAPDLSKCSIQWYRVSSDGA KKELISGATKSVYAPEPFDVGRLLQVDIISESQHIMLSTTGPIDPAAGLGTYVEALVRKHDTEFNVVVTQMNGSNHPAES IHVLHVGKMRVKLCKGKTTIAKEYYSSSMQLCGVRGGGNAAAQALFWQPKPGHSFVLAFESERERNASIMLARRFAFDCN IMLAGPDDRAPLGT
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 | 494 | 494 | 0.0 | – | |
PANTHER | 1 | 494 | 494 | 0.0 | ||
Pfam | 54 | 96 | 43 | 1.4E-23 | ||
Pfam | 100 | 267 | 168 | 1.9E-82 | ||
Gene3D | 100 | 151 | 52 | 2.0E-31 | – | |
Coils | 159 | 179 | 21 | - | – | |
Coils | 181 | 230 | 50 | - | – | |
Coils | 239 | 266 | 28 | - | – | |
Gene3D | 268 | 365 | 98 | 7.4E-40 | – | |
Pfam | 281 | 378 | 98 | 3.7E-48 | – | |
CDD | 281 | 364 | 84 | 1.4985E-45 | – | |
CDD | 366 | 484 | 119 | 1.28258E-68 | – | |
Gene3D | 366 | 494 | 129 | 1.1E-69 | – | |
Pfam | 381 | 488 | 108 | 1.3E-59 |
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 | Actin binding | Interacting selectively and non-covalently with monomeric or multimeric forms of actin, including actin filaments. | ||
Biological process | Actin filament organization | A process that is carried out at the cellular level which results in the assembly, arrangement of constituent parts, or disassembly of cytoskeletal structures comprising actin filaments. Includes processes that control the spatial distribution of actin filaments, such as organizing filaments into meshworks, bundles, or other structures, as by cross-linking. | ||
Biological process | Regulation of stomatal movement | Any process that modulates the frequency, rate or extent of stomatal movement. |
Expression pattern of LotjaGi1g1v0052800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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