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| Field | Value |
|---|---|
| Gene ID | LotjaGi6g1v0024000 |
| Transcript ID | LotjaGi6g1v0024000.1 |
| Related isoforms 1 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Transcriptional adapter ADA2; TAIR: AT3G07740.1 ADA2 2A; Swiss-Prot: sp|Q9SFD5|TAD2A_ARATH Transcriptional adapter ADA2a; TrEMBL-Plants: tr|A0A0R0GGU1|A0A0R0GGU1_SOYBN Uncharacterized protein; Found in the gene: LotjaGi6g1v0024000 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr6:4418956..4430146) extracted from Lotus japonicus Gifu genome v1.2.
GTCAATATACATACTTGTTGTCAAGGTTTGTTTCAAAGTTCAAACTGACTGACGGAGGAGTGACTGTGGAGAAATGGGTC GCTGCCGAGCTGCGTCGCGCTCCGCCGATGATGACCCGAGGTTTGTTTCTGATTATCCAATACTGCGCTTCTTCTACTTC CATTTTGCTTCTCTTTCCTTTCTTTGCTACTAGGGTTTCAAGGTTACGTTTGAGTTATGGGAGTTAGTTTCTATCATCAT GCTTCAAAATGAACTATATTGTTGATTATTCAAGGTTTTTAGGGTATGCATAGTGTCAAATTTTATTTGGATTCATGCAA GGGAATCTTGAATGCTTTGCTGCATTTTCAGGCTCTGAGATGAACATAGGGGAAAAATAAAACTCAATTGAAAAAGTTAT TCTTGTAAATATTTACACATTACTAGTTCATTTCATTAATCAATTTTTTTACCAACTTCGTCCCAGCGGGGGGCGAATTT AGTGAAAGAAACAATGTTTACTGGATGCTGTCCTAGAATTTGTATTGTTTTAGTAGATTTTTGGTTATAGAGCATGCCCT TTGATGCGTCGAAATTCTTCTTGAATGCTTCCTGTTAAATATTTTGTTGAATTATTCTTATGTTTTAATGTTGTTTCACT AGGTCAAAGAAGAAAAAGGCTACTTTGAATGTGGAGAATTTAGAGACTTCATCTGCAGGTATTGACTGGTTATACTTCTT GAATGCTTCTTGTCTTCTATCCGGAGAGTTTATTAACATTTTCTGAATATCATTTTCTTAATGTGGTAGGCCAAGAAATA TCTGATGGCAAGGCATCTCTGTATCACTGTAATTATTGCCACAAAGATATTTCAGGGAAGATTCGCATAAAGTGTGCTGT CTGTCAAGATTTTGATCTCTGCATAGAGTGCTTCTCTGTCGGTGTAGAAGTGACACCTCACAAATGTAATCATCCATATC GAATTATGGTATCAACCTTCTTTTCATTGTTCCATTTTATTAAATTTATTATGTTATTTTCACAAAGTAGCATCTTAATT TTAAATTTCCTAAGATGTAGTTCACATGTTTATATTCCTTAATATAGTATTGGATGTAATTTAGTTCTGCTAAGATCATG ATGATAGTACCTTGGATGAATGACAAAAGGTTTTTTCCTTCCTTTTTTTGTATCTCTTATTGTGTATCAATTTGGTTTCC TTTTCTAGGACCAAACACCTTTAGATTAGTGCTTGTATGGTTTGATAATTATCAGAGAAATAAAATATCTCTTTCTGTTC TCATAAAATATGGGAAGTTTAATGTTGTACGGGGATGTATTTGGGAATATTCAATAGTTAATTGACATGTTTGTTTTTCT GTTGAGAAGAAGGACCCCACTCTATGTTTAGGCAAAAGCTACTCTCTTGTTGCTTTTGCACAAACGTGAGTTGGAGCCTT CACAATGGAAAACCAAACATATGATAAGTCTTTCAGTTGTAGGGGGCAGCCTTTGTGGGTGAGTTTCTTCATTATATTCC TACCAGAATATAATTCTTTCTCTCATTCTCCTTCTCTCTCATCTCCTTTTCTTCTTATTTTAGCTCCGCTTTTCTTCATT TTATGGTTATCACAAAAAAGATAAAAGCTGAATGAAAGTTATGAACTCTTTCTTAGTATGATGTTTTTATCATAGATGTA ATCTTTTATGCTGAAGGTAATAAAATATCATTGTAAATGAAGTTTCCCGCATTAATGCTGCTGATGTTAAAGATGCTATT CTATTCATTTTCATTTTGAAACAGATATTTTTCTTTTTCTTTATTTCTTACAGGATAATCTATCGTTTCCACTTATATGT CCAGATTGGAATGCAGATGAAGAGATGTTACTTCTAGAGGTATGTGATTTGAGTGTGGGGAACTCTTGTGTTTTTCTTCT TTCCTGCTATATCTTAATTGATCTCTTCTACTCTGCTTTTCTACTTATTTGGTTGTTATTATCTTAACAAGCTTGTGTCA TCTTAGGGTATTGGAACGTATGGATTTGGGAATTGGAGTGAAGTTGCAGAATATGTAGGAACGAAAAGCAAAGCTCAATG TATTGACCACTATAATGCTGTATATATGAACTCACCCTGTTTTCCTCTCCCTGTAAGACTATAAGACTTCTCTGTCATTG ATAGTATACATGCCACCAACATTTGAATGCATGGTATAATTGTTTGTATTTATACCTAGGATTTGTCTCATGTTATGGGA AAGAGCAGAGAGGAACTCCTTGCCATGGCAAAGGAACATGAAGCCAAGAAAGGTTTGTATCGCTATGAGCTGAATCACAT GCTGGTTTATTTCATGCTAGACTCGACTAGTATGTTTCGTTGTATGAACTTATACAATATGTAAAATGTAAGTTTTCAAG TGATTTAAATAAACCTTCCATCGTAATCTTTTAAACAATTATTCTAGGCTTTTGTGGTTAACTCTTTTACTCAGATTGTT CAAGTAGTCAACTGATTCTTTTGCAAGCTTTTCCGGGTTGGTTAAATATGTGTGTGTATGTTTATACCTATATAATATGT GTGTGTTTGTGTGTATCTATGTATATATATGACAACACATGCTAGAAAACTTTCCCTTCCTTTAGCAACTAGTCCTCGGG GTTGCTCCATATATACCTCTTCCAAGAGATCACCATGGAGGGCCACATTCTTGATATTCAGCTGATGAAGAAGAGGGCTA TGCCAAATAGCTGTCATAGGGAGAAACATGGTAATGAAAGCTAGTTTTTTACTGGGTGAGGTGACCCCATATCTTGGTCA TAGATTTGAGTATATCTTTTAGCCACCAAACGGATGAGCTTGAGGATGTCTATCTTGCCATTAGACTAATCGTAAACCAC ATGCAATCTGCAAACTAATCCCAACTCTCCATTAGCAACAAACCCAGGTGGTTGCTCCGTATAATCTTTTAAGTTACCAT TGAATGACCTTGTTAGGATTTAGAACCCACCCTAACAGCAGCCACAAGGTAAAAGGGGGGAAAATTGGCATTTTTAAATA TTTAAATCTCGAAAATAAACAAGAGAGAAGATATAAAGAGAGAAGAGAGAAACCTAATGGATTCACAAGAACGAGAACCT TCTTTCATGGGAGAAACCCTTCCAAGGGTGAAACCCTTTTGCAAATCTAATACTCAAATCATACTCTAACATAAGGAGAG TATCAAAGCACTCCTATTTATAATAAACTAACCCTACTTAGCAAATTACTCTGGCCCAGCATAGGCTCAACTAAAATAAT AAAAACAGACTCAGTACCAAACCGTACTAAAACTAGCTATAGAGATCGATAAAATCAAACTTAGAACCCTAACAATAGTT TAGAACCCTTACAATACCCCCCCTGACTATAATTTAGAACCCTAACAATATTTCCCTGCAAAAATGCAACCTTGTCCTCA AGGTTGGAAGCAAGTCTTTTTATGCACATAGAAGATAAAAATCTTCTCCTCCTGGATCCCATTGTGAGCGGCAAACAGGG TGAATGCCCAAATCAGCAAGTGCACTGTGTACCAGTGTCCATGCTCGACAGCATTGGAGGAGGCAGCTGGGTCGGCATGG AGGGCTCACCCCTCCTCGTCGAGTGGCCATCTTCGTCAATGTATTCTTTTTTATGCTGTTTAGAAAATCTATGATGAAAA ATTGTCAATCCCTGCTTCTTTTACCACAGTCATTTTTCTTTGGATCATCTATAATACTTGTCTGTCTTTTTATTCATGCA GAATTTCCTCCAACAGCAGAGCTTACTTTGAAAGAGGAAGCACCCTTCTCTGATGGGATAAAGTACATTTCATCAATTTA CAGTGATTATTTAAATTAATCATTTATTTTTATGCTAATTCTTTGGTGTAATATCTCAGCTCTGAAGAATCTACGAAGGT AGGAACCACTAATCAAACAATGTCTAGGTTAACCTCAGGTACAAATACAATCATATAGCTTAAGAAAGGTCTTTCTTTAC CATTGTGTACTGATATTTTATGCTATTGGGTGCTTTGCATGGATGATTTGTGTTTAGCACGTGACAAAGCTTATTCAAGT GCAATTAAAATGGCTTCCAAGATGAGCCAGAATAATGATGGAGTCAAGGTGGAAGGTATGTTTTCTGATGCATGCTATGA AAGTTACCGCCCCTTCATTTTTGTTATTTAATTTGGTACTTTTTTGATATGTTTGTTACTTTTGACAATTATGTAAACAT CGGCTAGTTTGGAAGTTTTGAACAACTAAACCTCTATTTTGGTCCTCAAGAGATTTTCAGAGCATCAATTATTTGCTGAA GATTATTACATCAATTTGGTCCTTGAGTGATGATTTGTTGACATCTAAGAAATCAAGAATTACTGTTCACGAGGACAAAA TGATGTCATTCACTGACCAAAAATAATTTTTTCAAAAACTAATTTGATGCCACTTATCTTTCAGCTGTCAAATTAGTGTT CAGAAAATATTCATTTTAACCATCTGTGAGGCAGTATTATTAATATTAACCGAATTGGGTCCCCATTTTCTACTTTCACA TTTATTCTTCCAAACATAGACCTTTAAAATTGGGGACTTGCAAATATTAATGCACTTTATTAAATATATGAAAATGATCT TACATTGTCTAGTTTATATAAGTAATTTAGATTTTATCTAAGGATCCATTTCCATATTTCCTTATATATATTGATTTGGT TCATTATTTAATTAAAGAGTCATGTATTAGTATAAATAGGTATTAATACTTTATCTTCTGTAAGATCGTCCAATACATAT TCAGTTTGTCATAGAAAGTAATTATCAATTTCTGTTTCTCCTTTTACTCTTTCTATACCAAAAAGACTTACCTATTATTT TCACACAGTTAACAGGTACTCATGTCATGATGTTCGAATGTTTCATACTTACAAAAATATTATGTGTTGTCATGTTCTTA GTTCTTACTCAACTGGTAAACTAGAGAATATCTATTTTATGTATTAACATGTTCAATTGCATTTTATGTAGTCGAACATC AGGCTGGTCGGAGTATTGGAGAGAAGAAACCTAAATTTTCAGGGGAAGATAGGCCTTATATGACAGAGTTTAGTGGATAC AATTTTAAGAGAGAGGAATTTGAAATTGAATACGATAATGACGCAGAACAAGTACTGGCAGATATGGAATTTAAGGACAC TGATACTGAAGCTGAATGTGAAACAAAACTGCGTGTGCTCCATATCTACTCAAAAAGGTGTGGGAATTGTACATAATTGT CAAACTAGAAAAGAAAAAGAGAAAAATACTAGCAATACACTCTTTAGCACACTCTTTTAACACCATCTGTAATTTTTGTT ATTTACTCAGTTCATGTGGGTCCCTGACCATTTGGGTGCAACACATACATTTCACCCAATGATAAGAGTGTGTTAGAAGG TGATTCTAGTATTTCTCACAGAAAAAAACTTCTTATTCTTTCTAATGAGTTAAAGTAACCATTTAGAAATGGTCTTGGAA GAAATTATGGTTGAGAATTCCATGCAATGAGATTCCACTTCTTTAAATTTCAAAATTGTTAAGCATCCAAACTAATTTCT TTATCCTGGGATTATCTGATTGAGTTGAATATGACATGTGTTTTGGTTTTATTTTATTTATTTCTTATTTCAGTGTTAAG AAATGCTATGACTACCTGGGCAAAGTAGAAAACATGTGTTTGGTTAGCATTTAATGGTTTTTGGATTGTTTTTCAAAATT GAAATGATGACAGAAAGAATATGGTCGAAGGAAGTAAAGGGAATTTTCTGGTTGGGCATCTAAATAACTTTCATTTTCAT GGCATGAGAAAGCATCATATCTGTCATCTATCATCATGAGAATACAAATTAAGCAAACCATGAAAAAAGTCACTTACTTG AGAATCAATTGTGGTAAAAACTATTTTGTTAAAACTTTTACAAAACATTAGAATATCTCATTGCCAAGTTCACTTTTTCT ATAACATGTGCCTTTAACTTGTTGGAAACACTATATCCTTGTATTTCCAAAATTGTGTATCATTATTTTGGCATTTCTCT GGGTTTCAGTTTTATGACTAGTTTTCGTCCATATCTGATACAAAAGTAATGGAAACTTCTTGGCAGGTTAGATGAACGAA AACGCAGGAAGAATTTTATACTTGAAAGAAATTTACTTTGTCCTGATCCTTTTGAAAAATCTCTCTCACCTGAAGAGCTT CAAATATGTCAGCGCTACAAGGTCCTCATGAGGTTTCAATCGGATGAACAACATCGGGAGTTGCTAAAAAATATTATTGA AGAACATCGACTTGTCAAAAGAATTCAAGATTTACAGGTATTACATTGTATTGGTAATTCTAGTGAGATCAACATGCTTT ATCTATATATATATATATATATATATATATATATATACATATATATATATATATATATATATTGCAGTTATTTTCTCTTG TTTATGGTAATTATCCTCTCCTAAAATGGGTTTGAATGAAAGCTAACTAGCTGCATAAGTAGCCTTCCACTTTGACATAT TTCTTACTTTATCCTTTCAGTTTTTCAGTTTTCTTAATATTATTATTTAATATCCCAGCCATATTACCATGATGTTCAAA CTTCAAACTACTGAGATTGGACATTTCTTCTAGAATTACAGAGGAGTGAAAAACTGAAAACAGGTTAATAAAAGTGTTCT TGAAATTCACCAATGGTTGATTCTGATTGTGCAGTGTAGTCTCACTCTTAGACCAGGCCCAAGAGTGCCTATACAAGTGT ACTCCTTGTTAGAATATAACAAGACATCTTATAGTATCTTGATAATATCTTAGGACAATTTAGGGTAATTTAGATTATTC TTCAGTGTCATCTTTATTTCTTTATTTAATATTTATAAAATTCATTTGTTTCTTTATTTGATTAGGATTAAGAGTCTTAG TTAGTGTTCCTATTTGACTAGAATTAAGAGTCTGCTGTACTATTACTATAAATGACAGTAAGTTTTTTAGTTTTTTGTAA GATCGCACCCAATATATTAAATCAATACAATTTCATTCCGTGTACTTATTTTTTCACTTTCTATACCTCAAAGACTAAAC CCTATAATTTCATCATGGTATCAGTCTACCAAAGTGCCCACCCTTCGTGACCTGCCCATCACTATTCTGTTGAATCCCAT GTTTGGAACTACGTTGTAATATTGTCATTCTCTCTCGAACAAGCAATTTGGTCAATTTTTGTTATCTCATTTTTTCTAGG TACTTGAATTTTAGTTTGCATCCCTCTTTTTGCGGCTCTGGCTGAAATGAGCAAAGAAAAACACAAGAAGGGTGTGAACT TGTGTTTTTGAGAACTTTTACAAAATGTAGTTCAAAACTCCTCCGTCTGATAAAATCCTTAGACGGAGATTGTTTTAAAA GGAGGTTCATCTCATGTCTTTTTTCTCTTCAGATGCAGAACTTAACCAAACTTTCTAAAACTTATTTTGTAAATATTTCA TAAAGATTCAACTCCCTTATTAAGTTTGTTAAACAGAAATGAAGTTAAGAAGATAACACAAGATATTGATCGTGGTTCGC AATTGGGATTTTCACTATTTTTACTAGAAAATACAAGTTTCCTTGAGAGCCTCTTTAGGCTTATAACCAAGTAGTAATCT GCCTCTTCAAGCTAAACAACAAAGGTTTTAATGAATTGAGTTCTTTCACCTAACAACTCTGACTTTTAAGGAACTCAATA AAAAATGAGCAATAAATGTTTTAACTTGTTTTGCCGGAATGGACGTCTGCGGGTGGCCTATATATGAGTTGTCTTCAACA TATGGATCAAGGATATGTTCTGATACTATATTGGATAAAGAGAAACTGAGATATGACATTAGATTAAACTCGTGTGTCTA AAGTCTACACAACAGAGTATATTATATATAATAGGTACATAAATGCATTAAATCAGTGTTTTCCTATTTACAAGATATCC TATCTATTTACATTACCTCTAATAATTCAAGTAATCGAGTAATTTACAGAAATTACAATATTTTCAATGTTAACTAGTAT AACAACAATCAATTTCTTTGTTTAGTCTTCTGATTGAATACATGTCTGGAAGAAATATGTAAGGCTGCCTCATTGTTACA AAAAAGCTCTATCTTGCTTGCTTTGATCGATTGTTTCAGCTTCATAGTTCACATGTTGCAAGTGCTATAGCACGGTAGTC ACCTAACCACAACATTTGGTATCTTGCACTTCTAGGATAATAGGTTCCCACCAATGAATATACAATATCCATCTTGATTT TGGGCTGGGTCATAACTCAACCCCAAAAGCTAGCTCATGAGGTGAGTATTTCCTAAGCGTTTATAAGCTCTACTTTGGTC ATATCTCTAGCTGATGTGGGATCTCAACACACCCCAATTACATAGAGTGTGTATATTATAGGACTTCTTTTATGCATGGG AAATCCCTGGGGTGTGGCAGATTGCACTCGGAAAGCCACGTGTCCAAGTAGATTGCACAGCGAAATTCCCGAGTTGGTTT TTGGACAACGATGGGTGGCCCAATAATGAATCTCGGGTAGGCGCTGATACGATCTTAAAACTTGGTTAGGTCCTACTCAA TCCCAAAAGCTAGTTCAAGAGGTGAGGGTTTTCTAAGCCTTTATAAGCCCTACTTTGGCCTTATCTCTAGTCGATGTGAG ATATCACCAATCCTAACATAAAATGTTTGTTTGATAGGGATCCTGCGTAGTTGGAGATTTTCTAAACCTTTATAAGCTCT TCTTTGGCCTTATTTCAGATATGCTCTAGTGTTGGAGATTTCTTCTGCATTATTGAGCTTCCTTTAATTAAATTCTTTCT TGTCTTTCAGGCGAATATCTTATCCTTCTCCTTTGTTCTATTTCATTTCTTTCTGTGGGAATATCCAAGTATCTCATCAC ATCATTATACTTTACGTAGTATCTTAGGTTCTCTCAGTATTAGCTTCCATGTTTTCTTATTTTGTCACTAGTTCCGTTAT AGATAGAGTTTAGTGTTTTGTCTTTCGTAAATTGTTTGTTGCTCATTCTTCACAAGGATATCACCTAATGCATCATCTCA TATCGAGTACATCTCATTTTAGACTAGTTTCTATTCTCCTTTTCATCCCTGTATACCTGAAAACACTAGAGCCTTTATGT TGTTCTTATAAGGGAATCCTAATGGTATAAAGCTCCAACTATGTGTAAGGACTTAGAAATGGTCGGAAATGCAGATTTGT GTGCAGCCCTTACCTTGTATTTTTTAAGGCTGATTTCATGACAAGAACGTGTGACCTCTAGGTCACAGGACACAATTTCC AACTATTCTACTAAAGGCTCATCAATGTTTCCCCTTCACCATAGGATAAACGAGCTTAAGTGTCAGAAATGGAGATCGAG GAATTAATGTTATTGTATGGCCACAAGTTATATGGAAACAAATTGATATTCATTTTGATAAAAGGTGATTCGAAATGGTT ACGGACAAAATATCCACTAGCATACAAGTTTTGATTAGCTTAGGTAGCTGCCTTTGTTAGTTACAAAGCAAGAAAAGTTT TCTGCACATGACCTAATTATATGCCATTTGCATTTGAAATCTTGTAGGAAGCTCGACTTGCCGGCTGTGTAACTGCAGCT AAAGCTCAGGAATTTATTGAACACAAGAGGACAAAGGAAGCTGAAGAAAAGGGCTGCAAAGGAATTGGTCATATTGGAAC TGGTGCTAAGACGTTACAGAAGTCAAATTATCTCAAAGGAGAGCTTGATAGTAGCCTACAAGGTCTTCACAAGGATTCAC GACCAACTGTCATGGAGGCTATCACAAGGTCGCTTGAAGAATGGGATATCAGTGGATTTGAAGGGGCTGAATTATTATCT GAATCTGTGAGAACTCTCCCCCTTGTTTACTAGGACTTTATTTTTCTTTTTATGTTGCTAACTTTTTCTTTTAGCTTTGA TTGGCTACTTTTTATTTTGTACTAATTTTTGGCATAAAGCTGTGTAGATCTCCCACAATGATGAAAGTTATGCATTGGGT TGCCTTTATTTATGTTGTGGGTTGGGCCAGTGTTGTCAAATCGCGGATATCGCGGCGCTACAGCGTAGCACTCTGAGGGC TGACCGCTGTCCGTTATTTTCCACTCTAAGGGCTTGATATAGCAGATTTTTGATTTCAGCTGTTTTCCGCGATCTGTGAT TAACAACACTGGGCTGGGTTGGGAGTTGAGGCATTATCTGATTGGTTATGTGAACAATGATTAATGTGCAGGAGAAAAAG CTTTGTAACGAGAACAGAATTCTTCCATCACACTACCTCAAGATGCTGCAGATCATGTCATTAGAAATTTCAGAGGGCAG AGTAACTAACAAATCTGATGCACATAGACTGTTCAAGGTAGAGCCAAGCAAGGTTGATAGAGTTTACGACATGCTTGTGA AAAAGCAAGGTTGATAGAGTTTACGACATGCTTGTGAAAAAGCAAGGTTTTCAAGCACAATGAAATTCTCTGTAATGATT AAAAGGCCATTTTTGTACATTCCTCTTCATCGTTATTTTGTCCCACAGAAATGGGTAGAAGTCGCATTATTTCTCGTCGG TCATATGCATATCACTCTTCTACTTTTCCCTTTCAAGTTTTTATGTTTCTACCTACGTTATAGATATGGTATTGCTACGG AACCCTTGAAAATGAGAAGGTTCGGTACCGTTCAGAATCAGATCATTATTTAAATTATAAAAGACATTGCAAATTTTAAA AAATTGTTGTAAAAAAAATCATGGTAAGTCAAAGCAAAATACATGAAATCCCTTCATTTTGAGGGGTTCTAAAGAAATTG CCTTTGGACTGAAGTCACGATTGGTGGAGAATATTCAGAGTTAAAAATAAATCAAATACTACAATTTAAAAGAAATTATT GTCAGATTTTAAGATGTGGTACCCATCAATTACTGTATGATGGCAAACCTGCCACCCCCATAAGCCATGTTGTAAAAAAA ATTATGTTCTCAAGATTCAAGATAACTCTCTTAAAATGTAATAGAATTCCTGTGATCATAACATCCTCACCAAATTCTTA GTCACAAAGACAGTGTCATAAAATATCCTCTTTATGATGTAAAAGTTGCTTGCAATTTACTTATTTATTTT
CDS sequence (LotjaGi6g1v0024000.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGGTCGCTGCCGAGCTGCGTCGCGCTCCGCCGATGATGACCCGAGGTCAAAGAAGAAAAAGGCTACTTTGAATGTGGA GAATTTAGAGACTTCATCTGCAGGCCAAGAAATATCTGATGGCAAGGCATCTCTGTATCACTGTAATTATTGCCACAAAG ATATTTCAGGGAAGATTCGCATAAAGTGTGCTGTCTGTCAAGATTTTGATCTCTGCATAGAGTGCTTCTCTGTCGGTGTA GAAGTGACACCTCACAAATGTAATCATCCATATCGAATTATGGATAATCTATCGTTTCCACTTATATGTCCAGATTGGAA TGCAGATGAAGAGATGTTACTTCTAGAGGGTATTGGAACGTATGGATTTGGGAATTGGAGTGAAGTTGCAGAATATGTAG GAACGAAAAGCAAAGCTCAATGTATTGACCACTATAATGCTGTATATATGAACTCACCCTGTTTTCCTCTCCCTGATTTG TCTCATGTTATGGGAAAGAGCAGAGAGGAACTCCTTGCCATGGCAAAGGAACATGAAGCCAAGAAAGAATTTCCTCCAAC AGCAGAGCTTACTTTGAAAGAGGAAGCACCCTTCTCTGATGGGATAAACTCTGAAGAATCTACGAAGGTAGGAACCACTA ATCAAACAATGTCTAGGTTAACCTCAGCACGTGACAAAGCTTATTCAAGTGCAATTAAAATGGCTTCCAAGATGAGCCAG AATAATGATGGAGTCAAGGTGGAAGTCGAACATCAGGCTGGTCGGAGTATTGGAGAGAAGAAACCTAAATTTTCAGGGGA AGATAGGCCTTATATGACAGAGTTTAGTGGATACAATTTTAAGAGAGAGGAATTTGAAATTGAATACGATAATGACGCAG AACAAGTACTGGCAGATATGGAATTTAAGGACACTGATACTGAAGCTGAATGTGAAACAAAACTGCGTGTGCTCCATATC TACTCAAAAAGGTTAGATGAACGAAAACGCAGGAAGAATTTTATACTTGAAAGAAATTTACTTTGTCCTGATCCTTTTGA AAAATCTCTCTCACCTGAAGAGCTTCAAATATGTCAGCGCTACAAGGTCCTCATGAGGTTTCAATCGGATGAACAACATC GGGAGTTGCTAAAAAATATTATTGAAGAACATCGACTTGTCAAAAGAATTCAAGATTTACAGGAAGCTCGACTTGCCGGC TGTGTAACTGCAGCTAAAGCTCAGGAATTTATTGAACACAAGAGGACAAAGGAAGCTGAAGAAAAGGGCTGCAAAGGAAT TGGTCATATTGGAACTGGTGCTAAGACGTTACAGAAGTCAAATTATCTCAAAGGAGAGCTTGATAGTAGCCTACAAGGTC TTCACAAGGATTCACGACCAACTGTCATGGAGGCTATCACAAGGTCGCTTGAAGAATGGGATATCAGTGGATTTGAAGGG GCTGAATTATTATCTGAATCTGAGAAAAAGCTTTGTAACGAGAACAGAATTCTTCCATCACACTACCTCAAGATGCTGCA GATCATGTCATTAGAAATTTCAGAGGGCAGAGTAACTAACAAATCTGATGCACATAGACTGTTCAAGGTAGAGCCAAGCA AGGTTGATAGAGTTTACGACATGCTTGTGAAAAAGCAAGGTTGA
Protein sequence (LotjaGi6g1v0024000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MGRCRAASRSADDDPRSKKKKATLNVENLETSSAGQEISDGKASLYHCNYCHKDISGKIRIKCAVCQDFDLCIECFSVGV EVTPHKCNHPYRIMDNLSFPLICPDWNADEEMLLLEGIGTYGFGNWSEVAEYVGTKSKAQCIDHYNAVYMNSPCFPLPDL SHVMGKSREELLAMAKEHEAKKEFPPTAELTLKEEAPFSDGINSEESTKVGTTNQTMSRLTSARDKAYSSAIKMASKMSQ NNDGVKVEVEHQAGRSIGEKKPKFSGEDRPYMTEFSGYNFKREEFEIEYDNDAEQVLADMEFKDTDTEAECETKLRVLHI YSKRLDERKRRKNFILERNLLCPDPFEKSLSPEELQICQRYKVLMRFQSDEQHRELLKNIIEEHRLVKRIQDLQEARLAG CVTAAKAQEFIEHKRTKEAEEKGCKGIGHIGTGAKTLQKSNYLKGELDSSLQGLHKDSRPTVMEAITRSLEEWDISGFEG AELLSESEKKLCNENRILPSHYLKMLQIMSLEISEGRVTNKSDAHRLFKVEPSKVDRVYDMLVKKQG
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 |
|---|---|---|---|---|---|---|
| MobiDBLite | 1 | 21 | 21 | - | – | |
| PANTHER | 1 | 545 | 545 | 8.6E-249 | ||
| PANTHER | 1 | 545 | 545 | 8.6E-249 | – | |
| PIRSF | 33 | 547 | 515 | 2.0E-151 | ||
| Gene3D | 42 | 94 | 53 | 1.5E-9 | ||
| SMART | 42 | 87 | 46 | 4.0E-10 | ||
| CDD | 46 | 94 | 49 | 1.32713E-25 | ||
| SUPERFAMILY | 46 | 109 | 64 | 4.47E-13 | – | |
| Pfam | 46 | 78 | 33 | 7.8E-8 | ||
| ProSiteProfiles | 46 | 89 | 44 | 10.486 | ||
| ProSitePatterns | 48 | 75 | 28 | - | ||
| SUPERFAMILY | 99 | 152 | 54 | 3.81E-12 | ||
| Gene3D | 101 | 151 | 51 | 1.8E-13 | – | |
| ProSiteProfiles | 101 | 153 | 53 | 21.044 | ||
| SMART | 102 | 151 | 50 | 6.2E-11 | ||
| Pfam | 105 | 146 | 42 | 1.1E-10 | ||
| CDD | 106 | 146 | 41 | 3.78906E-11 | ||
| SUPERFAMILY | 456 | 545 | 90 | 3.05E-18 | ||
| ProSiteProfiles | 464 | 547 | 84 | 10.148 | ||
| Gene3D | 464 | 547 | 84 | 4.9E-20 | – |
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 | Transcription coactivator activity | A protein or a member of a complex that interacts specifically and non-covalently with a DNA-bound DNA-binding transcription factor to activate the transcription of specific genes. Coactivators often act by altering chromatin structure and modifications. For example, one class of transcription coregulators modifies chromatin structure through covalent modification of histones. A second ATP-dependent class modifies the conformation of chromatin. Another type of coregulator activity is the bridging of a DNA-binding transcription factor to the basal transcription machinery. The Mediator complex, which bridges transcription factors and RNA polymerase, is also a transcription coactivator. | ||
| Molecular function | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
| Biological process | Regulation of transcription by RNA polymerase II | Any process that modulates the frequency, rate or extent of transcription mediated by RNA polymerase II. | ||
| Molecular function | Zinc ion binding | Interacting selectively and non-covalently with zinc (Zn) ions. | ||
| Biological process | Regulation of histone acetylation | Any process that modulates the frequency, rate or extent of the addition of an acetyl group to a histone protein. |
Expression pattern of LotjaGi6g1v0024000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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