Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
| 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.
Loading expression data from ljgea-geneid. Please wait…