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Field | Value |
---|---|
Gene ID | LotjaGi4g1v0187200 |
Transcript ID | LotjaGi4g1v0187200.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | Single-stranded dna-binding protein why1, chloroplastic; TAIR: AT1G14410.1 ssDNA-binding transcriptional regulator; Swiss-Prot: sp|Q9M9S3|WHY1_ARATH Single-stranded DNA-binding protein WHY1, chloroplastic; TrEMBL-Plants: tr|I3SQW0|I3SQW0_LOTJA Uncharacterized protein; Found in the gene: LotjaGi4g1v0187200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr4:42542873..42554880) extracted from Lotus japonicus Gifu genome v1.2.
CAAGAGACCATAGTTTTCCGATGTAGAAAAAAGATACAAGAGACCGAATCAACAAGCAGGACTAGACACGGGAAAAGGCA GGAGCAAGAGGAACTGAAGAGGAAGAGACTGAAGATGTTGCATTTGCAGTTGCAGCTACACTCACCACCACCACTACTCT TATCATCTTCTTCTTCCCTTAAGCTTCCCCCAAACCCACACTCTTTATCCCTAAAACGTTTTCCTTCTAAACCCCTCACT CTCATCAGATGCCGCCACTCAGACCTGTTCGACCAAAAAACCTTCTCCTCCTCCACTCCACAACCTGCAAACCCCGCTGC TGTTTCAGGTTAAATTAATCATGTTCAGTACACAGAAATTTATTTGCCAAGTGTTGATGTTTATTTCTGACTTTATGTGT AATTATGTGTGTGCGTGTTCGTTCAGTTGGAGCTTTGCCACCTAGGGTTTATGTTGGTCACTCCATTTACAAAGGGAAGG CTGCTCTCACAGTCACTCCTAGACCTCCAGAATTCGCACCACTCGATGTATGCCTGCAATGATTATTTTTGTTGGTTTTT ATTTATTTATTTTGTCCATTAAGTGTTTTAATGTCTACCTTCTGCAGTCAGGGGCATTCAAAATATCTAGGGAGGGTTAT GTGTTGCTTCAGTTTGCGCCTGCCATTGCTTCGCGCCAATATGATTGGAATCGAAAGCAGGTGAGATATTTGTCTTATGT AATTTGAAGGTAACATCTACGCTAATGTCATGTGTCAAAACTCCAGGTTCTTATGTGCTCTTGAGACTATTATACCATTC TTAATCAAAACATAAGACCCATGACACAACATAATCCATCCATATATTCCATTGGATTAGAATTATAAAATTGGATCAAA TTTGAATTGTTGAAACTTGAGACTATTCCACTTAGTGTAAGTAAGTGTTTTTCTGATGAAACCTGTGAGTTTTGGTATGA TTCTATTGGAATTAGGTGTTTGGTCTTGTAGAACTCTGAGGTCATTGTCCAGTTTACTTGAATGCAGGTGTTCTCGTTAT CTGTTGTTGAAATGGGAAGTGTGATTAGTCTAGGTACAAGGGAGTCTTGTGAATTTTTTCATGATCCTTTGAAGGGAAAA AGGTAGTTTCTTCACTATACCTTATTATTGTAAAATGAATTTGTAATGGAGTCAATGCATTAGTATATATCGGACGAATG CTTGATTTATCTTGCAATAAGAATTTCATTATCATTTTTGTGTGGAAGGAACGGTACCTAAGGATTTCTTTGTCTCTTTG AGCCATGAGTGAATAAAAATATTTGATCTATCATCTATGAGACTATGCTGGTTCTTACATTGTTGAAAGTTAAACTTCGT TCTATAATACTCTAGAAAGTTGCCGATTTATCTTTGATCACTATCTTTCTAAAAACTTAATTGTTATGGTATTGAATAGT CAAAGGTTGCAGCTATTCTCTCGGTGGATTTTTTGGTTCATGAGCTGTATCATTTTCACTTATATATCGGTAAAATAGCT TGTGAATTGCACTTGGAAGTATCAAAATTATGTGCTGTCCTTAGCAATCAACTTAGTCGACCTTCACATATATAAATAGG TAGCATAGATAATGGTGTAAAAACTTAAATGTAGAAGTGAGAAAAAGAGAATCAGAGAGAAAAATAGAGAGTAAGCTCCA GCGAGCTTAGTAAACTTCGTGAGTTCAAAGAAAAAAAGAGAAAAATGTAGAGAGTGAGTATGTGCTAGGTTCATATACCT GGACACTTATAAGGAGCAAACGAAAGCACTAGATAGTGTGAGGTTAGAGGAAATTAAGCAAGTTTCAGCAAGCTTGAGAT GTGTTCTTTTTGTGTATGTAATATGGCTAGGACCAAAGCCAAAAATTGTGTAATAAATTAAGTGTTCCCTTGTCTCATCA TTATTTTCGATCCTACACTTTTTGCTGTGAGATTGATGCCTCTGGCTGGGGGCATGTGTTTGGATGCTGCATTGTTTACA TGCCTTTAAGTATTTCCAAGATTGTCTTGTAATGCAGTGATGAAGGTAAAGTCAGGAAAGTCTTGAAGTTGGAACCTCTT CCAGATGGTTCTGGTCACTTCTTTAACCTCAGTAATTCTCTTTCTTCATTAACCTTTTTTCTATTATTGTATCATTTATT TTATTTGCTTCCCCTATTGAAGATTTTGGTGCTTTATGAAATGTTGGATTAATTGAGTCCATTGCATATTTGTCTGAACA GCAAAAAACTCACATTATAATGCCATATTTGGAAGGTGGTCATTACTAGTAAATATTTACATGACTTTTTTAAAAAAAAA AAACTTATCTGTCCATGTAAATATGTAATGTAAATGAAGTCGAATGTCTTAATGTTTGTTTCAGTTCTAACTTTGTTTTT TTCCTTTTTGAAGGTGTTCAAAACAAGATTGTGAACATTGATGAAAACATCTATATCCCTGTTACAAAAGCAGAGTTAGC AGTTTTGAGCTCAATTTTCAATGTATAACTCTCTCTCCGCCCTTTAGTGCTTAAATTGCCGTGATTCTCTGATAGTTTGT GGACATAGTAGTCAATCCCTGATAGCGGCGGACCCCAAAAGTGGGATAGCGGGATAGCGCATAGTGGGATGGCCGCTATT TTGATTTTTCATATATAATTTTATATAATTAATAGTATAATGGTATATACATATAATAACTAAAAAAATGAAAAATATAA CTTAAAATCTAGAACAGATGAGATGATAGAGAAGAGAGGAGGAAGAGAATGTCATGCTGAGAGAACTGGTAACAAAATGA AATGATTGAAAATAGAAAATTAAAGAGGAAAAGAAAGGAAAGAAAACTAAAAAAAACAGAGCAGAACAGAGGCCCAAGGG CAGTGGTCGCCGGAGATAGGCTGAAAGTCACCTCACAGAGTTCGCCGGAAGTTGGACGGTGCTTGTCGGAGGTCGGCGGT GGCCATGGGTGCTGATCGAAGGTGGCTGAAGAAGATCGCACAATGGCCATGGGTTCTGGTCGCTGAAGAAGAAGATGAAT AGTGAGAGAGATGAAACGCGCCTTTCATTTATTTATGTGCGAAATCCCAAAAATGCCCTCAAAGTTTAACCTAATTATAA AAATTCAAGGGCAATTTAGGTTTTTCCACAACTGTACCTTATCTTCTTCTTGTGGCGCCGCGATCTGGCCGTGATTTGCG GCGCGACGGCGTTCCGCGACGCGATGGCTTCAGAATCGCGGCGAGCGGCCGCAACGCGACGGCGCGATAGCGCCGTGATT TGCTGTGATCGATAACTATGTTTGTGGAAACATATTCTAGCAAGAAATGGCGGATCATCATTTCATAGGAGTAGTGTTGG ATTGTGAGTGACTAAATTCAGCTTAAGCCTTGAGTATGAAGGTTTGTATTATTGAATAAGAGATATGTTGAAGTAGTAAT AAGGAAAGAGAAAAATAAAAAGACAATTCAGAAAATAACATGCTTTGGGTTCTTGTTCAACTAGTCAATTCAAGTACATC ATTCTAAGCACATGTTCTCATGGATCTCTCCTTGATGATATAGCCTAGTTACTCACTTATTGATTCCTCACACAAGCAAT TCTCTCATACTAAAAGCTAAACCCAATTCCTTGTGTACTTAGTCATTTATATGAGGTTTTAGATCATGCAAATTCAGGCC ATCAAACCCCAACCCTTCCTCTATTCCTAGTAGCAAGCATAGAAGGAGTAATCCCAAATCGGTTCCCTAATTTATAACAA ACTTCCGTTCTGATTATAGAAAAGCAAAAAGCAAGCATGCATACAAGCTTAGATTGATGTTCAGAAAATGGGATTCAAGG AAAGAAGAAGAACATGTGGGAAATAACTTAAGATTATAATTTAAAGATGAAAAGTCTTACATGAAAACCAAAGCATAAGA AGAGAGATTAGCCTGTCATGCTTGGCTAAGAACCTGAATTACAAGCTTGGAAGCCCTCTCTCACTCTCCTAGATGATCCT CTACCTCTGAATTTTACAAAGTATCAAAAGATTTCCAAGATCCCAAAAGAAAATGACTAAAATCCTATTTATAGGCAAAA ATCACGAGTTTGGGCTGTTCCGGGCGCTCAGGCGCCAATTCAGAGCGCCTGAGCGCCAATTCCATCCTGAAAATGAGCCT CTGGAAGGTAATTGGCGCCTAGGCGCCAATTAAGCACGCCTAGGCGCCAATTCCAGAACCCTGGAAAAAGCAATTGGCGC CTAGGCGCCAATGGAGCACGCCTAGGCGCTCTGACTCGCTGGAAAACCTTTTGATCTTCATTTTAACTCCTCTTTAAGCC TCGATTCAATTCTCCAAGCCTCTAGACCTTCCCTCTTCAGCTGATTCAACCTGAAACCTTGATGAACAAGCTTAGAAAAT ATCTTGAAACTTAAAGGTCAGTTTTGCACAAAGGCTCCAAAACAAGTGGAAATTGCCTAAGACTCCTAAACTCTAATAAA ATGCAACTAAAGCCCTTATAAAACTACAAAATTACTAAACTAATGCATATGCACAAAAAAAAAGTAAAAATGCATGAGAA TGCATGAAACATTACATGAGACACAAGGAAAAGACTCAAAACCTACAACGAAATGACCCTAAAAACACTACTAAATCCGG GTCATCACACCACTATACTCAACGACAGCTCGCCCTCGAGCGTCACTAAAATTAGCTTGCCCTCAAGCACAAAGAATTAC TCCCAACACACATGCCAAAAGAGGGATACATTTTTAGAAAACCGGGGGATCAAGTAAATGTAGTTAGTTTCAAGAGAAAA ATTCAACAATCAACTTCATGCTACTCTTAGATAAAGAAGAATTAGAGTCCATTATGAGAAGCATTTAGAGCTAACATCCT AGCATGAGACAATTGTTTAGTGCACTGAGCACAAAAGCAAGTTCATAGGTTCTGAGAATCATTCACTCAAGAGCAACTAA AATTGACAATGCATTATTCAATGAGACTTCAAAAGGGTTGTAACGTTGGTTAGGTAAAGCACAAGGTAGGTGGTCCCTAA GGAAGACTAAGGCTGCACAAAATTTGAGTGTGGTCCAATTTGGAATTCCGGAGCTTTCAAGTTATTGATACTTAGCACTC AAGTCTCTTAACCCCTTGTTATTTCAGATCATTTTTCCCTTTTTTTTTGGAACTCCACCACACCATGGAGTTCATTTTCT CTTTTGACTTTTTTCAACTTTTTTTCTTTGGGGCAAGAGACAATTGCACTTTTTATAAACTAGCTCCATCAAGAGTTAAG AACCACAACTCCCCATTGAATCCTCCAAACAACCAGCCCATTAAACATAGATACCAAGGAAATCTCCATAAGGCTCAAAA GGGTCAACTAGGGACAAAGATGTTATAAAACAATTTCTGAAGTACAAGAAAACCTACCAGTCTCAAGAATGCAAGTCTCC TAAAGCTACACTCAAGGACGCATGAAATGAAACACAGAACCAAGAAGTGCAAGTGAGTCAGGATCCTCCAGGGAAATTAT ATAGTGAAGGGTCAAAGATGGACCCTTGTGGACTCACATCAACTCTATCATCAAGACAACATTTAGAAGACCGAAGTCTC TCCCTCTCTTTCCCAAACATACAATCACTCCCCAAAAGAAAGCACAAAGTATCCACTTAAAAACATTTTCAAAACCAGCG TCATGTGAGTGAGCAAGACTTGGGAACATGTCATTTGGGTAAAGGGCATAAAGACCAAGGTACAAAAGACTCCATAAAAA AAAATGCATGATAAAAAAGATAAACAAAATCTATAAAAGAAAAATATGCTAAAAATGCATGGACTAAAACTCAGAGTAAG AAAAGAACCTCCTTTCAAGTGATTGAGTGCCTCCGAGTGCTCTCCACTTTGGCTTTTATTTCCTGAAAAACAAAACAGAA GATAAAACGTAAAACAGAAAAAAAAAAAACATGGGTTGTCTCCCATTTAGCCCTAAGTTTAAGTCTTAGGTAGACTAAAC TTCAAACTCTTAACTCAAACAAAAAATCACAAACAATCCCCGGCAACGGCGCCAAAAACTTGTTGGTAAATCCGCAAGTG TACGAATCCACCCGGTTTTAAATATCGAACCACAGGGATTGTGAGTGACTAAATTCAGCTTAAGCCTTGAGTATGAAGGT TTGTATTATTGAATAAGAGATATGTTGAAGTAATAATAAGGAAAAGGAAATATAAAAAGACAATTCAGAAAATAACATGC TTTGGGTTCTTGTTCAACTAGTCAATTCAAGTACATCATTCTAAGCACATGTTCTCATGGATCTCTCCTTGATGATATAG CCTAGTTACTCACTTATTGATTCCTCACATAAGCAATTCTCTCATACTAAAAGCTAAGCCCAATTCCTTGTGTACTTAGT CATTTATATGAGGTTTTAGATCATGCAAATTCAGGCCATCAAACCCCAACCCTTCCTCTATTCCTAGTAGCAAGTATAGA AGGGGTAATCCCAAATCGGTTCCCTAATCTATTACAAACTTCCGTTCTGATTATAGAAAAGCAAAAAGCAAGCATGCATA CAAGCTTAGATTGATGTTCAGAAAATGGGATTCAAGGAAAGAAGAAGAACATGTGGGAAAGAACTTAAGATTATAACTTA AAGATGAAAAGTCTTACATGAAAACCAAAGCATAAGAAGAGAGATTAGCCAAGCCATGCTTGGCTAAGAACCTGAATTAC AAGCTTGGAAGCCCTCTCTCACTCTCCTAGATGATCCTCTACCTCTGAATTTTACAAAGTATCAAAAGATTTCCAAGATC CCAAAAGAAAATGACTAAAATCCTATTTATAGGCAAAAATCACGAGTTTGGGCTGTTCCGGGCGCTCAAGCGCCAATTCA GAGCGCCTGAGGGCCAATTCCATCCTGAAAATGCGTGCTGCACGCCTAGGCGCCAATTCCCGAACCCTGGAAAAAGCAAT TGGCGCCTAGGCGCCAATGGAGCACGCCTAGGCGCTCTGACTCGCTGGAAAACCTTTTGATCTTCATTTTAACTCCTCTT TAAGCCTCCATTCAATTCTCCAAGCCTCTAGACCTTCCCTCTTCAGCTGATTCAACCTGAAACCTTGATGAACAAGCTTG GAAAATATCTTGAAACTTAAAGGTCAGTTTTGCACAAAGGCTCCAAAACAAGTGGAAATTGCCTAAGACTCCTAAACTCT AATAAAATGCAACTAAAGCCCTTATAAAACTACAAAATTACTAAACTAATGCAAATGCACAAATAAAAGTAAAAATGCAT GAGAATGCATGAAACACTACATGAGATACAAGGAAAAGACTCAAAACCTACAACGAAATGACCCTAAAAACACTACTAAA TCCGGGTCATCAAGTAGCAATGAGAAGTGTAAACAGTTAGTTTACTTTGCAGTAATAATAGCTTAACTGTTGCACATGTA AGGTACATTTGGGATTTGATTTGGGATAGAGTTAGTTTGTAATGGGGAATGGGCAGTTAGTTGTTAGAACCTTAGTTGTG AGAACCTACAACAGAATCGGTTATTCTGTTATATACTCTTGGAGCTACCTGTATCACTCATGATTTTGCTATATTGAATA ACTCTCTCTCTATCCCTCTCTGTCTCTCTTTCCCTCTTTATTCCTAACATTGGTAAACAGAGCTTACGGTCCACGGTGGC TATGGCGGAAGCTACACGATTCCAGAGTGCGATCTGTGAAGCAGAGGAGAGGATCATGGCAGCCATAGATCCTTGTATTA CACGACATCTACATGAATGGGAGCAGCGGTTTGAAATCCAAGTAAACGGGTTTCAAAAGGCGATGTATGGAATTGGTTTG CAGGTTACGGATTAGGCAGCGGCGCGGCAGAACCGAGGTGGCGGCAACGGAGATTATCGCGTTCCCAGTCGGTTGACTCG TTTGGATTTCCCTAGTTTCAATCGTGAGGATGTAGATTCTTGGATTGCGAAGTGTGATCGATTCTTCGCTTTGGACGGCA CGCCTGAAGGGGAAAAGGTCACGACTGCAAGCATCGCGTTGGATGAAAATTCTTTCAGATGGTTCCAGAGTCTGGAACAG AGCACATTAGGAAGACTCTCATGGTTGATCTTTTCTGAAGCTTTGAGGATAAGGTTTGGTTCCGAATTTGATTCTTCCAT CGAAGAACTCAAGAGGTTAGTATAGAAGGGAAGTCTTGACGAGTATCAGGAAGCTCTTGACAATCTGGCTTGTAGAACAG ATTTGAATGAGGCGCAGAAGTTGCAGTGCTATTTAGGGGGACTCAACCCAGATTTATGCAATGGACTTAAATTGTTTGCC CCAAGAACCTTGTTGGAGGCAACGAGAATTGCAAGATTGCAGGAAAGGAGTCTGGATTGGATGCAAAAGCGATCAGGATT TGGTTCTGGTAATAGGACCCATGGTAATTGGTAAGAAAGGAAAACCAAACTATACCTTTCAGCGAAAATTAACCCCGAAA GAAATGGATGAACACAGGGCACAAAATTTGTGTTACTTCTGCCATGAAAAATATGCCCCTGGTCATGACTGCCCCCAAAG GAAGAAACTTCCAAGTTTTTGCCCTGGAGGTGGAAGAAAGTGAACAACTGGTTCTGGGGGAAGATGACTTGGAAGTGACT GAAGAAGAGGATGTCCCTACTGTATCTCTTAATGCTATACATGGAGAATCTCCACATCCTATGATGAGGATGACAGGATG GGTTGGACAAAGAAGGATTTGTGTGTTAGTTGATACTGGAAGTACACATAATTTTGTTAATTAAAGGCTGTGCCAAGAGG GTGTGGCAATTCTTCAGCCTTTACAACCTTTGAAAATAACTGTGGCTGAAGGGGTCTCTTACAAGGAACAGGCTGGTGTG AAGGCATTCAGTTGAAGATGCAAGGGTATAATTTCAAAATTAATGCAATTTCTATACCTTTGAGTAGTTTTGATTTAATT TTAGGGCTGCAATGGCTTAGACAGTGGGGTACTATTTTATGGGATTTTACCAATATGACATGGAATTTTACATGGGACAA ACTGAAGTTAGATTACATACTGATAAGTTTGCACCGAATAAGGTAGTTTCTGCAGCAAAATTGAATCATATAATGGCAGA GGAAAAATTCTGTTTTATGCTACAATTTCTCACCTGTTCTGAGGATAAAGTCTGTTGTAATATCACTTCTGAAGAATTGG AAAATCAAGAAGTTTCAGCGCAGAAGGAATTGCTCTTGGAAGAATTTCAAGATGTCTTTGAGGAGCCTCAGCACCTTCCT CCTTTTAGAGGTTTGCATGATCACAGAATTGTTCTTAAGGAGGGCTCGAATCCTGTTTTCCTTCGACCCTATAGATACCC TCCTGCTTAAAATGATGTAATCGATAAGATGGTGAAGGAATTGCTGGATTCTGGGGTTATACAACCCATCTCTTCACCGG TTGCTTCTCCTGTGGTGTTAGTGAAGAAGAAGGATGGGAGTTGGCGGATGTGTGTAGACTTTCGAAGGCTGAATGCCTGA ATGATATGACCATTAAAGCAAAATTCCCGATTCCCTTAGTGGAAGACTTGCTGGATGAATTAGGTGGAGCAAGGTTTTTT CAAAGTTGGATCTCAGGTCTAGCTATCATAAAATCTGCATGCTTAAATTGCCATGATTCTCCGATAGTTTGTGGAAACAT ATTCTAGCAGAAATGATGGATCATCATTGCATAGAAGTAGCAATGAGAATTCTAAGTAATTAGTTTACTTTGCAGTAATA ATAGTTTAACTGTTGCACATGTAAGGTACATTTGGGATTTGAGTTGGAATAGAGTTAGTTGGTATTGGGGAATGGGCAGT TAGTTATTAGAACCTTAGTTGTGAGAACCTACAACAGAATCGGTTATTCTGTTATATACTCTTAGAGCTATCTGTATCAC TCATTATTTTGCTATATTGAATAACTCTCTCTATCCCTCTGTCTCTCTTTCTCTCTCTTTCCCTCTTCATCCCTAACATT AACCTTGTTAGTTATGAAGATTATGTCGCCTTGACAAACTATGTGTCTTTGATTGTAAGAACTAAGAAGTCATGATGTTT TGAAGGTTCATAGATTTTCTGCTTGTCTGTTAGAAAGAAAATTTAAATTTTTGAATAGCTCAAGAGTTGATTGGAAAGGT ACAATGTGGTTAAGCTTCTTCAATATTTAGTCGCTATGGTGATATAGTGCTTCAACAAAGGATTTTGTACAATATGTTTC TAGCTTTGGTAAATGTAATATTTCCTTTATGCATACAGCCTGTTTAAGATATTGCTCATTTTGATGTTTTTTTGTTTTTT GTGTGTAGTTTATCATGCCATACCTTCTAGGGTGGCATACCTTTGCAAACTCCGTAAACCCGGAGTATTCCAGTGGAGTG AATAATGCCAACCCAAGGTATGGAGGAGACTATGAATGGAACAGATAGGGATTTGATTTTTGCTTATGTTGCACCACCAT CTCCCTGTTTTATATGCGTTAAAATCACACCATCCTGTTAGCTATATTAGAATTTTGAACTTTTGAGATAGTAAATGTTT AATAATTGCTTAAAACTCCCATTATGAGTTATTCGGTTATTCTTCTTTTCGGTTCTGGTATGTGATTATAGTAGCGTTCA GTACAGAGATAAGAACAGGGCATATGGGTTATGTTCTGTTTTTGTCAGGTAGGGATGTCCAAAAGATACTACCGACCGAA ATTCAACTCACCCGATAAAACTGTCACATGAGAAATCAACTCCGAACAACCCGTAGTCACTAATCGATCAGTGGCGGGTC TGGTGTTTTGATGTTTTTAACCCGACAAAACCAATTATTTAGGGATGGCGATATAACCCGAACGCGTGTGTACCCGCTCG AACCTGGCCCAATTTGACTGGTAAAACCCGATATGATTGGGTTTGGGTTTGGTATTGGTGAAACCCGCACCCGAACCCGA ACAATATATATGAAATTATGAAAATCTTATATGTACCATGTTAACAACTTAATTTGTTAATAATTTTGTTATATTTGAAC AATTAGATACCATATATATTTTGCAAAAGATATAAAACGGTTTTTTCATAACAATATAAGTTACGTTTTGTGTAACACAA AAGTGTAAGTCTCTGCAGAGGTTAATTAAAATCTCCTCGGGTTTCCGGAAAGTAAACCCTATTGATATTACAGTTAAAAA TTTCGGAATCAAACACATCCACACAAAAATACCTTAAGGGTCTTATTTGTGAGACCCAAGTTTTTAAGCTTAGAATAAAT TATTAAATTTCCTATTCACAATTAGGTTTCAATGTATCGTGAAGGAAACCTGAACGAGTGTTTACCGAAGGGAATAAATT TATGAAGGAGAAAGTTCAGGAAAAGGCTAAGAATATTATTAAAGTCGATGTAAGTTATAGCGCTAGTCTTATTCGGCAAG AACGTTGGAATATGACTAATCTGTTCTAAAAGCACTATAGAAACAAATTTTAAAAATCTTTAGAGAATATAAGAATTTTT CTTATTCCTTTCCATGACAAGCGTTTCGACACGAAACCCTGTAATGTACGAACATCCGATTCCAATTCTTGAAAGTTTGC CGAAACTAGCTCAAGAACCTTTAAATAAACTGTCGATAAAGACTTTTCTATTCGGAGCATCAAACGAAGATTCCACACGT ATTTCGATTGCTTTCGATGTTTCTAATCTTTCTTCAGAAGAAAGTTTTCTCATCTGACATCAACTCCAAAAAATAGTTTT TCAGGTAAAATCGATTCATACTGACTTTGGATCATTTGCTTTAATTCCAAGAAACATGTTTCTAGTTCTGAAATTATGTC GCCATAATCTATTTTAGAATTCACAGAGGAACGCGCAGGAAAAATCGGAATCGCGAAATAATCATTTTCCCTCACCTATA AATAGATAAAAAATCAAAATTTCAAACCCCATTGAACCCGCGAGCTTGGAGAGGAGAAATGGCAGAGAACTTTTCGCCAA TTCTTGCC
CDS sequence (LotjaGi4g1v0187200.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTTGCATTTGCAGTTGCAGCTACACTCACCACCACCACTACTCTTATCATCTTCTTCTTCCCTTAAGCTTCCCCCAAA CCCACACTCTTTATCCCTAAAACGTTTTCCTTCTAAACCCCTCACTCTCATCAGATGCCGCCACTCAGACCTGTTCGACC AAAAAACCTTCTCCTCCTCCACTCCACAACCTGCAAACCCCGCTGCTGTTTCAGTTGGAGCTTTGCCACCTAGGGTTTAT GTTGGTCACTCCATTTACAAAGGGAAGGCTGCTCTCACAGTCACTCCTAGACCTCCAGAATTCGCACCACTCGATTCAGG GGCATTCAAAATATCTAGGGAGGGTTATGTGTTGCTTCAGTTTGCGCCTGCCATTGCTTCGCGCCAATATGATTGGAATC GAAAGCAGGTGTTCTCGTTATCTGTTGTTGAAATGGGAAGTGTGATTAGTCTAGGTACAAGGGAGTCTTGTGAATTTTTT CATGATCCTTTGAAGGGAAAAAGTGATGAAGGTAAAGTCAGGAAAGTCTTGAAGTTGGAACCTCTTCCAGATGGTTCTGG TCACTTCTTTAACCTCAGTGTTCAAAACAAGATTGTGAACATTGATGAAAACATCTATATCCCTGTTACAAAAGCAGAGT TAGCAGTTTTGAGCTCAATTTTCAATTTTATCATGCCATACCTTCTAGGGTGGCATACCTTTGCAAACTCCGTAAACCCG GAGTATTCCAGTGGAGTGAATAATGCCAACCCAAGGTATGGAGGAGACTATGAATGGAACAGATAG
Protein sequence (LotjaGi4g1v0187200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLHLQLQLHSPPPLLLSSSSSLKLPPNPHSLSLKRFPSKPLTLIRCRHSDLFDQKTFSSSTPQPANPAAVSVGALPPRVY VGHSIYKGKAALTVTPRPPEFAPLDSGAFKISREGYVLLQFAPAIASRQYDWNRKQVFSLSVVEMGSVISLGTRESCEFF HDPLKGKSDEGKVRKVLKLEPLPDGSGHFFNLSVQNKIVNIDENIYIPVTKAELAVLSSIFNFIMPYLLGWHTFANSVNP EYSSGVNNANPRYGGDYEWNR
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 |
---|---|---|---|---|---|---|
SignalP_GRAM_POSITIVE | 1 | 17 | 17 | - | – | |
PANTHER | 18 | 261 | 244 | 2.6E-128 | – | |
PANTHER | 18 | 261 | 244 | 2.6E-128 | ||
Gene3D | 73 | 249 | 177 | 1.6E-79 | ||
SUPERFAMILY | 77 | 261 | 185 | 7.14E-75 | ||
Pfam | 85 | 219 | 135 | 9.7E-62 |
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 | Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid). | ||
Molecular function | Single-stranded DNA binding | Interacting selectively and non-covalently with single-stranded DNA. | ||
Biological process | Regulation of transcription, DNA-templated | Any process that modulates the frequency, rate or extent of cellular DNA-templated transcription. | ||
Biological process | Defense response | Reactions, triggered in response to the presence of a foreign body or the occurrence of an injury, which result in restriction of damage to the organism attacked or prevention/recovery from the infection caused by the attack. |
Expression pattern of LotjaGi4g1v0187200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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