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| Field | Value |
|---|---|
| Gene ID | LotjaGi3g1v0185300 |
| Transcript ID | LotjaGi3g1v0185300.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Kinesin, putative; TAIR: AT3G44050.1 P-loop containing nucleoside triphosphate hydrolases superfamily protein; Swiss-Prot: sp|F4J1U4|KN12E_ARATH Kinesin-like protein KIN-12E; TrEMBL-Plants: tr|K7LVV3|K7LVV3_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0185300 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:25938488..25948978) extracted from Lotus japonicus Gifu genome v1.2.
CTCTCCACCGTTCGATCACAAAATCACCATCTTCTTCTCTCTCATCCACACTTCCCTCTTCATCTCTCAACTCCCATTTC ATCTTTCTCCATCTCTCACTACTCACCTTCCCCCAAAATCCCAAACCCTAACCGCCACTCCTCCACCACCGCACAATGCC GTTCTTCTCGGAGGCCGCCAGCGCGATCAAGAGCAGGTTCGGGTTTCACGACCACCCCTCCGAATCATCATCCCTTTCGC TGATTCAAAACACTCCCGATCTTCTCAAATCCGCCGCCAAAGACAGTCACCATCTCCTTCAAAGCTCCGCGGTTCGCAAC ATCAGCGATTGGGACGATGAAGGAGGAGTTGGACAGAGCAGTGCCGCCATTTCCACCAGCCAAAGCTTCGAATTGTTCGA GGATCCTTCCTTCTGGAAAGATCACAATGTGCAGGTACAAACATGATTCAATTTCTGAGTAATTTTGTTCATACTGAAGT TAACGAGTGTTTGAATCTTGTTCAGTGAGTGTTAATCAGGAAATTCATTACATTACAATCTACTGTTTTTTTATCTGAAT ATAGGAATCTCATAAATAGTGTAGCAATTCATTTTTTGGCAGTGAAATCACATTACTTTATTTTAATTAATTTGTTAGGT TTGCTTATGGTTCTTTGTTTTCTATAGTTTAGGATTTGATTAGGGTTATGACTTGATTTAAGCTGGTTAAGTTTGATTTT TGTTGGTTTAATTTTGTGAGCTAGGTTATAATTAGAATGCGGCCTCTTAGTAATACTGAGATATCGGTGCAAGGGCACAG CAAATGTGTTAGGCAAGAGAGTTGTCAGACAATTACTTGGACTGGGCATCCTGAATCGCGGTTTACTTTTGATCTTGTTG CAGACGAGAGCGTTAGCCAGGTAAATTCAATTCTTGTACAAGTTTTGTTGTCCATGACATGGTTGTATTTTCCCTTTTTT GCTTTTTATTTTTTGAGTTTTGATGCTGGTGTTTAACATAATTATTACTATGACAGGAGAAGCTGTTTAATGTAGCGGGT TTACCAATGGTAGAAAATTGCATGGGAGGCTACAACGCCTGCATGTTTGCTTATGGTCAAGTGAGTCATTGGTTTGCTCC TCCTGCTCTTTTTGTTCCTGTTCGTTAGATCAATATAGTCTAGCATAAGGAAGCGTTGTTTCATATTATAGAGTCTAAGC CGGCATAGATAATGATGAGGCAGTTTTTGTGTTAGATATTCTTTCTTTTTTCATATCTACCTGTTCTGTTTAGAATACGA GAATGCAACACTTCTGTGATCTAGTGTTGATAATTTACGTTCAAATTTTCTTAACAAGTTAGCATTGCTGAAAATCATTG TTTTTGCGTGTAGACTGGAAGTGGGAAGACTCACACCATGCTCGGTGACATTGAGGGGGGAACTAGAAGACACAGTGTCA ACTGTGGGATGACACCAAGAATCTTTGAGCACTTATTTTCTAGAATTCAAAAGGTATAATTTGTTATGGGATTAGATACA AGTATCTTGGTTGTTATTTAAGAGACCCTTTACAGTAGATAGATTTTATGTATCGCTTGTTTATTATATATGGATATCAT GTTACCATATAGTCTATAAGATATTATATTGAGTGATGTATAATGTTGCTGAGCTAGTCACTCAGGAAGCTAAGATTTTT CTACTTCCATTTTCTTAACACCAGTTATTGACAAAGGTATCTTATTTTTATGAAGCAATTTTGCAATGTTCACTTAGTCA CTACTTGTCTTGAATCAGTGTTCCTACTAGGGGTGCAACTCAGGGTTCCACTAATAATATATTTTAGAATTTTAAAATAT TTAGGGTTTGTTTGGTTTGAGAAAATATTTCATGTCTTTATTTCCTGTTATGCCAGATTGTTTTCATCTCAGATTCTTAT TTTCTAAAGATTTGCACAAGAAATTGGAGAAAACAGCACTTTTGTTGTTTTCACTATTTCCTAATATCAAAACATAAAAC AAAGTTAAGGCAATGTGGATTTTTTTAAAATTGTTGTGAATAAAAGAATAAACCTAATCCTAATTGTAGAGCTACGACAT AATCAAAATGTTGAATTGAGTGCTTGCTGCTTTATTTTCAAATGGTTTCTTCAATTAATAGAAAAAGGGAATAGTAAATA TGTACATACAATGTGGATTTTGTAATTATTTGTGAACCAACAAAAAGGAATGAAAACAATAAACATCCTCTCAAACCAAA CAGGAGGACTTATCGTGCTTGCTCTTAGTACTTGTAAGTTTTGACTTTTTCATATTTAAGTTGATCTGGTTAAGGTCTGC ATAATGTTTTACACTATCTAACTTCCAAGAATTTTTTTTATTGCAATATGGTTTCATTCATATATCTATATTTAGAAGAA TCTAATTTTAGTCAGAAATTTTTGTAATACACCAGGAAAAAGAGGCGCGTAGAGATGAGAAGTTAAAATTTACTTGCAAA TGTTCTTTCTTGGAGATATACAATGAACAGATTCTTGACCTTTTGGACCCATCATCCAACAATCTGCAGGTAAAGACTAA CTATACACATCCCTGTCGTTGTGGGGTATCTCTTCCCTTTCTGCTTGTTTCAAAATTGATTTTCCTATCTCTGGAAGTTC ACATTGTAAACCTAACAATATAATACGCTGTTGTATGAACTACTAGTCTACTATTTCTCTTTAAACTTTTTTTAAATAAT GTGGCAGATAAGAGAAGACAGTAAGAAAGGAGTTTATGTGGAAAATCTCAAAGAAGTAGAAGTTACTAACGCTCGAGATG TCATTCAACTACTTATTCAGGTATGTAATGTTTTCATCTTTGCTCTTGAATATTCATTACCTTCTTTTTTTTTTTTTTGG AGATTTTCAGCTGGTGGTTGAAACTACCTACTAGTTTGTTTCACTTCATGGCTTTTGAAATTCCAAACCTGACAAGAAAA AGGCCTATATGATTATCTTTTCTTTTATACAGTTCCTTTAATTTTTGCGCATGAACCTTATCCCTCTATCAGTTCAAGTT AATAGTCATTGATTTTTGAAATTCCAAACCTGACAAGAAAAAGGCCTATATGATTATCTTTTCTTTTATACAGTTCCTTT AATTTTTGCGCATGAACCTTATCCCTCTATCAATTCAAGTTAATAGTCATTGATTTGATATATTAATGTTATTTTAGGGT GCTGCAAACAGAAAGGTAGCTGCTACCAATATGAATCGTGCTAGCAGCCGTTCTCATAGTGTATTTACCTGCGTCACTGA GAGTCAGGTGAGTAATATTGATAATTTTCCTTCTACTTTCATGGATAAAAAACCTTGGCCTTTAATTATGTTTTCTAAAG ATATTCTTATACGAATTAGTTTAACTATTTGTTTTTAGTGGGAATCTCAAGGAGTAACTCACTTTCGATTTGCTCGACTC AATCTTGTTGATTTGGCTGGATCCGAGAGGTAATTGGTTTGGTAGCGTGTGAAAAGGCCTGTTTGTATCCCTCTAAAGCC ACATTGGTTTGCAAGAGGGGTGTATACCTGTTCTTATTTCCTGTTCATTTAATACACATATGGCTAGGCTAATATTGTGC ATCCGTTTTTATGATAGGCAGAAGAGTTCTGGGGCTGAAGGGGAACGCCTCAAGGAAGCTACTAATATCAACAAGTCTCT CTCAACCTTGGGGTTGGTTACCTCACCCTTACATACGAATTACCATATGAAATTACTGTTTATTATAGTAATATACAATA GTTCCAACTAGTTGTTTCAATTATGGTGTTTTCCTGAAAAAATTAACCTAAAATTATAATTGCAGGCTTGTCATTATGAA CCTAGTAAGTATATCTAACGGGAAGTCGCACCACGTTCCTTACCGTGATTCAAAGCTCACATTTTTACTTCAGGTCAGTG CTTAGTTGCTTACTTCGGTGGTAAATCTCAGTTGTTGATGGCAACAGATATCAGTGTTTTAAAATAAAATACATATATTT AGGATATTTTCATTGCACAAATTTTGACGGTCTCAATTTTATGAGCCTTGTAGCTATATTCTTGCCTAATAGTAATTTTA AACATCTGGCAAGAGTGTTTCACATGATATTTAAATTTCTTTGTAATTTTAGGCAAATTGTCATTTAAATATGATAAATA TCTGTCTCGTCCTTTCAGGATTCTCTTGGAGGGAATTCAAAAACCAGCATAATTGCAAACATTAGCCCATCCATTTGGTC AGTGAACTTCTTTCCTCTATTGTTGTTCATACTATCTTTGCTTAAGGACTTGGTTTCTTTTGCATAAAGAATTAATGGGA ACCAGGAATGAATAAGCTTCAGTGTTTGTTTGCTAGAGTCTTATTAACTGGGTTATTAATTTTACTGTTGAATTTTCGCT AGTTTCTTTTCTTAGTCATATTCAGTTTTCTTTGTTTACTTCTTCTATATCAGTGACATTTAGTAACCCTTGCAGTTGTT CGCTCGAGACATTAAGCACATTGAAGTTCGCACAACGTGCCAAGTTTATTAAGAACAATGTATGTCTTTGGTACTTCTCG TTTTCGTGCTTATTTATTAATGTGCTTCCATTTTTTGCTAGCAGTTAATTATTACACAGTAGAATTAATAACTGTTTTAT TCCAAGTTTGTACTAAAAAAACGTTGGAATTTTTTTTTAGAGAAACTCTAATCATCGACCCTACTAACGAGAGCTTGTTA AACAGTTGCGATATATGGGTAACCTGTTCAGACAGTTTTACTAATTGCTATTTATATTATTATTTTTCTCTAGGCCATTG TAAATGAGGATGCATCTGGAGATGTCATTGCCATGAGAATTCAAATTCAACAACTTAAGGTACTCTAATTTTGATTAACC CTTTCTTCTGTTATTTTCTGAGTTCTTTCATTGCACAATTTTTTTTTTCTATAAGCCGCACTAAATATTGTTGGTCTGGT CTGTTTTCTTTATATTGCTCAGGAAGGTAGTGGTTAAGTAATTTGGTTCTAGTGTTGGCCTATTATTGAGTTAATTAATG CCTTTCTAGATGCTTATTACATGGCTTATCAGTTAAGTATAATGTTGAGCAGGAGTTTGTTTTCACTTCTCATCTGCAAT TGAAGGGTAGTGAAAAAGCTCCATCAACTTAGATTTCATTGACTTGATTTTTCATGCCGTTATGAATAACTTGTTGAATT CAATGAATTGCTTGTCAGAAAAAGTATAATGGTGAGCAAGGCTGTACTTTTACATTTCTTCTACAAGACAGTGCACCCTG TTAATTTTTTTAAAACAAAAATATTGATCAAAATGTGCTGTTGAAACAGATTTCTATATAGTTATGTTCTTGTAATGCAA TTAATTTTTCTTTTATTTATTTCAGAAAGAATTATCCCGTTTACGAGGTCAAGTTGGTGGAGGAGAAATTCAGGATAATG ACATTTCAGTAATTAACTTTCCCGGTTCTCCAGGATCCTTCAAGTGGGAGGGTGGCGCTCAAGGATCTTTCAGTCCATTG ACCTCTGTTAAAAGGGTTTCTGAGGTATATATTTGTTGAGAAATCATCCATTTTCCCATTGCTATGTTTGATGATACACA TCTTTCTCTTTTCACAGAAAAAAGACTATGAAGTTGCCCTTGTTGGGGCCTTTAGGAGGGAAAAGGACAAAGACATAGCA TTGCAGGCATTGAGAGAAGAAAATCAAGCGGCCATGAAGCTGGTATCTGTGAAAAGTAGAATAATTGTTAATGCTATGTT ATATCGGTTTTATTTGAATGTTTGATTGAAGAGGAGGACAAAAACCTTTAATCCAAGTGGGAATTTATTTGAGAAAATTT TATTAGTTTATGTTGAATTAAGGTTTTCAAAGAGCCTCTATCTTGGTATTTCTGCCTAGTTCTTCAGTATTTCAAGTTTA TCATATTCTCTTTTGCTGTTATATCATTAATCATAGTTCTTGACATTTTTAATGCACATATTGTGGTAATTAAATGGTTG CAATATGGGATGAATCAGGCCAAACAACGGGAAGACGAGATACAAGGTCTAAAGATGAGGCTCCGTTTTCGAGAAGCTGG AATAAAAAGGTTGGAAGGAGTTGCTTCTGGGAAGATCTCAGCTGAGACACACTTGCTGAATGAAAAAGAAGAGCATTTAA AGGAAATTGAGGTCCTGCGAGCCCAGGTGGATCGAAATCAAGAAGTAACCAGATTTGCTATGGAAAATTTGCAGCTGAAA GAAGAACTTAGAAGGCATGTACTTCATGAATCTTCTTTTTTGGATAGCTTCATTGTTTTTTTTCATCTCCTGTTCAAACA AAACTATCTCACATTCTCACCCTGATTTATTATAAGGTTGGGAAGTGACTTAGTTACCACATGACTAAAAATCTGTAGAT GAACAATATCATACTAATATGCATATTAGTATATAAGAAAGGTTGCAACTATATCACTACTAATATGCATATTGTTGAAG CAAGAATTTTGACTAATATGCATATTAGTATACACTGATTTATTATAAGAAAGGTTGCAACTATATCACTACTAATATGC ATATTGTTTGAATCAAGAATTTTGACTAGTGCCTTCTGGTGTTGCCAACAGAAGCAACTAGTCCTTGTTTACAAACAAAC TAGTGCAAGATTACCTGTGACTTCTCTGTGATTTATTATAAATATATTTCTAATAAAGTCATGCTGCTAATGCTTACATA TCTTCAAGACAGGTTGAAGTCATTTTATGAGGGAGGTGAACGGGAAGCGATGAATGAACAAATCATGGTACTCCAAAACA AGGTAGGAAGAGATGCTTTTGTACTAGTTCATATATGTTTTCAGTCAGTTTCCTCCCTGTGTTGATTATGTTTTCGTCAC TTGTATGTGCAGTTGTTAGAAGCACTAGATTGGAAATTGATGAATGGACCAGATCTGGTAATCATTTATACTTTATTAAT TTTTCTTGTCAAAAAGGAGTTGCGAACTTTTTGTTGACCTCATCTTTTGCAAATATCAGAAAACAAGTTCTGACTTGGTG ATGGAAGATGTGCAAAGTGATGGTGATCTTCTGTCAAAACCTGTAAGATTAATAATCGTTTTCTGCATTCATATGCATTT TTTAAACAGCGAATGCCATGAAATATTATTTAAAAATAGATGTTTATGCAGTGAATACCATGATTTATAAGGTTTTGAGA ATAGCAGATTGTATGAGTGCTGTACTCATTTTTCATGAATATCCTTACTCTAATTTTTGAATTTAACATAATAAGATCTT GCTGAATTAGGATTTCTAGCGTAAATATAGGTAGACATATTTTGAGTCTCTTGAAAAAGGATGCCTCTTACTGTTCTTGT ACGGTTTAAGAAGAATGATTAAGTGCTCAAGCTCAACTGTTAGAATACGGAGTGCAGTTTTGAATTTACCCTATTTTTAT GTCTTAATGTTCTTTCTTGTATACTACTTCTGTTAGTTTTCATACCCTTTTTCTATATTAGAGATGATCAGGGTGAAGGC CTATCTCAGACTTTTTTTATTGATAATTCCTGCTTGGTCTGACAAATTGACCCCCCCCCCCCTCCTCCCACCTTCTTTAA ATTGTGGATCCTCTTGGTGCATGAGTCAATTTGTTATATGGTCAGATGTTAAATACGGAAGTCTAGTCATTATTTAAATG TGACATGTCAAAAGATAATAAGCCCATCTCTTTATTTATCATATATCTTTTTTTTTATACATTGGAAGATTCATTTATCA TATATCTTTAGTTGTTCGTAATTGTTATTTTTCATATATAAATTTTTTTATTTATTTAATTTGTGTTTATATATTTAATT CTCATTTTTTAGGAGCCAAGTCCAAAATCACGTTGGCAGTCTTCTCTTAGGGAAGAAAATGAGTTTCTCCGCATTCAGGT ATTAGATTATTTTTGTTTGACTCTGTTTTCTACTTTATTTAATTTACGAATCGAATGTCTGTCACTGGCTCTCCTACTTA ATATAACCTTATCTGTGACACTGACAGGCTATACAAAACCAGGCAGAGATGGACACCATTCGAAAGAAGCTAGAGGTTTG CCTTGCAGAGAAAGAAAAGTTGGAAAGGTATTGTTTGCTCTCTCTCTCTCTCTCTCTCTTCCCACAAGTGTCTAGCTAAA AGTGATTCTTGGCAGATTTTCTTCTTCACTTTGTTCTGTGTAGCCATGTGTTTCTCTTTATTGTTCTTCATGATGACTAG TGCTATAATTTATCCACGACACATTATCATGCAGGGATGTTGAAGATTTGAAAGCAAAATTTCAACAAGAGAAATCCCAA AAAAGTGAAACAACTAAAGGAGGGGAGCAAATTGACCTTCCATCAACAACTGATATGCCTGTCATTAACATCAATGACCA ACTGGAATTGAAAACAATGGTTGATGCTATTGCTGCTGCTAGTCAAAGAGAAGCAGAGGCTCACGAGATAGCAATTATGC TGTCAAAAGAGAATGATGAACTCAGAATGAAGCTTAAAGCTTTGATTGAGGATAATAGTAAATTAATTGAATTATATGAA CAAGCTACTTCGGAAAGTAACAATAGAAATGTTACTAAAGGGGAGAATGCTCAAGAAACAGGTCCCAAGGTTGACAATGG TTGCTATCTTCTTGAGACAAGAGAAGAGGAGAATAAGTTGAAAAATCTCCAGCACCAGCTTATGGAATTGAATGAAGAAA ACGAAAAGCTGATGAGTTTGTATGAAACAGCCATGCAGGAGAGGGATGAGTTTAAAAGAGCGCTTTCATGTACAGGACAT GAAAGAGTTGAAACCAAAGGAGAAATGAACTGCATGGAGAAGCTAGTTGAAGTTGATGAAGGGGAAAGAAACTCCAGAGT AGAAACTGTTTCCCAGGAAGCACAGGATAGAGGTGAACCTACTCTATCTGGGTCTGATTTATGCCTTGAGACTGATGGAC ATGAAGAAAAGCTTTTAAAGGAGGGGAGTGATTCTGACATGGACATTGAGGTATTGAATCTAACCGAGGAAAAATTATCG AAGGAATTAGATCGTGCTAGAAAGACACTTGAAAGTGTTGATGAGCAAATCTCAGATGCTGTGAGAACTCTAGATTCACT TGGTTGCGCTGAAAAAGCAATAGTCCAGGTTGATAAGCTCTCTAGAGAAATTGAAATGACAGAACAGGATATTCAGGTGA AGCGTCAGCAGTTTGAATCCTTGAAACTTATGCTTTCTGAAGCACTACAAAGAAGAACTCTAGTTGATAAAAAGTTCTCT GCCCTCAAATATTCATTATCAAACTTGGCTCAATCGTTTTCTTATTTTGAGCAACGGGAAACAAGGGCAAGAGCTGAAGT GAACGACTTGACATCCCATCTTGACCGAAAGAAGACGGAGTTGGCTTCTCTTCAAGCTTCTAAACAGGGGTTGGAGAATG CTCAAAAGAAGAATCAAGAGTCTGAAGTTGAATTACAGAAAAATATTGAATGCATCAAATCCAAACTGGAGGAAGAGAAT CGAAAACGCGAGGGTGAGAAGGTTCTATTTGCAATTGATAACACGCAGAATATAGATTCCTCATTGAAAAACTTGCATCT CTGTGGTAAAGCCACCGAATTACTCAAGTTAGAGGAAGAGAAATCGAAGCTGCAAGCAGAGATGAAGCTTTCACAAGAAA GACTCGGGGTTACAAGAAAGGAACTGGGAAATCTAAGCAAGAAGGTGGCAAATGTAGAGAGTCAGATACAAGCTGCTGAA CAGGATGTACAGCAACGTTTGAGGAACATGAAGGAGAAGGAGCTTGCACTTCAACGGGTGACAAAAGAGAAAGAGATGCT CTTGGAGTTTAGAGATGATGGTATGTTTGAAATAGAGCATATGATCATTGAACTCCACCAATATGTTTTTGAACATGATC TAAAGGAGGCTGAAATGAAGATTCTTGGGGAAGAATTACAAATAGATTTTGTAAGAGCAGAAGAGTTACAGACAGCCAAG GGTATTGCTGCCAACATCAGAAACAATTTATTTTCTTCCATGTCTTGTTCAAGCATGTTTGAGAAAATAGAGGAGCAGAT GCAAAATCTAAGAGCATCTATTGTGGAGACCAAATCATTGTTGGAAGGCATTTCCCATGCCACCTAGACTATTGCTTTGT GTAACTAATCCTCCAATTTAATAATTATAGCTTGTTGTTTTGTTTAATGTTCATTTTGTGTCTGCTTGAGAACCCCTTTC TTTTCTAACTTTTTTGTATGCTGAAAAAAACATACAACTTTTTCCAACCTCCATCTCACCCCTTGTATTCTATTTGAGTA AAGTGTTGATTTGCTGTATCCCACAGCTAAAAGTTGTGTACTTACTGATACTGTGTCAATGACTGCTCCTTTTCTGCTCC TCTTGTAACAGATGATCCTGTAAGAGATTTCTGAAAAAAATAAATGGAATGAGAGATCACATTCAATAGGTGGTCGCCCT TAGTAGTTGAG
CDS sequence (LotjaGi3g1v0185300.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCCGTTCTTCTCGGAGGCCGCCAGCGCGATCAAGAGCAGGTTCGGGTTTCACGACCACCCCTCCGAATCATCATCCCT TTCGCTGATTCAAAACACTCCCGATCTTCTCAAATCCGCCGCCAAAGACAGTCACCATCTCCTTCAAAGCTCCGCGGTTC GCAACATCAGCGATTGGGACGATGAAGGAGGAGTTGGACAGAGCAGTGCCGCCATTTCCACCAGCCAAAGCTTCGAATTG TTCGAGGATCCTTCCTTCTGGAAAGATCACAATGTGCAGGTTATAATTAGAATGCGGCCTCTTAGTAATACTGAGATATC GGTGCAAGGGCACAGCAAATGTGTTAGGCAAGAGAGTTGTCAGACAATTACTTGGACTGGGCATCCTGAATCGCGGTTTA CTTTTGATCTTGTTGCAGACGAGAGCGTTAGCCAGGAGAAGCTGTTTAATGTAGCGGGTTTACCAATGGTAGAAAATTGC ATGGGAGGCTACAACGCCTGCATGTTTGCTTATGGTCAAACTGGAAGTGGGAAGACTCACACCATGCTCGGTGACATTGA GGGGGGAACTAGAAGACACAGTGTCAACTGTGGGATGACACCAAGAATCTTTGAGCACTTATTTTCTAGAATTCAAAAGG AAAAAGAGGCGCGTAGAGATGAGAAGTTAAAATTTACTTGCAAATGTTCTTTCTTGGAGATATACAATGAACAGATTCTT GACCTTTTGGACCCATCATCCAACAATCTGCAGATAAGAGAAGACAGTAAGAAAGGAGTTTATGTGGAAAATCTCAAAGA AGTAGAAGTTACTAACGCTCGAGATGTCATTCAACTACTTATTCAGGGTGCTGCAAACAGAAAGGTAGCTGCTACCAATA TGAATCGTGCTAGCAGCCGTTCTCATAGTGTATTTACCTGCGTCACTGAGAGTCAGTGGGAATCTCAAGGAGTAACTCAC TTTCGATTTGCTCGACTCAATCTTGTTGATTTGGCTGGATCCGAGAGGCAGAAGAGTTCTGGGGCTGAAGGGGAACGCCT CAAGGAAGCTACTAATATCAACAAGTCTCTCTCAACCTTGGGGCTTGTCATTATGAACCTAGTAAGTATATCTAACGGGA AGTCGCACCACGTTCCTTACCGTGATTCAAAGCTCACATTTTTACTTCAGGATTCTCTTGGAGGGAATTCAAAAACCAGC ATAATTGCAAACATTAGCCCATCCATTTGTTGTTCGCTCGAGACATTAAGCACATTGAAGTTCGCACAACGTGCCAAGTT TATTAAGAACAATGCCATTGTAAATGAGGATGCATCTGGAGATGTCATTGCCATGAGAATTCAAATTCAACAACTTAAGA AAGAATTATCCCGTTTACGAGGTCAAGTTGGTGGAGGAGAAATTCAGGATAATGACATTTCAGTAATTAACTTTCCCGGT TCTCCAGGATCCTTCAAGTGGGAGGGTGGCGCTCAAGGATCTTTCAGTCCATTGACCTCTGTTAAAAGGGTTTCTGAGAA AAAAGACTATGAAGTTGCCCTTGTTGGGGCCTTTAGGAGGGAAAAGGACAAAGACATAGCATTGCAGGCATTGAGAGAAG AAAATCAAGCGGCCATGAAGCTGGCCAAACAACGGGAAGACGAGATACAAGGTCTAAAGATGAGGCTCCGTTTTCGAGAA GCTGGAATAAAAAGGTTGGAAGGAGTTGCTTCTGGGAAGATCTCAGCTGAGACACACTTGCTGAATGAAAAAGAAGAGCA TTTAAAGGAAATTGAGGTCCTGCGAGCCCAGGTGGATCGAAATCAAGAAGTAACCAGATTTGCTATGGAAAATTTGCAGC TGAAAGAAGAACTTAGAAGGTTGAAGTCATTTTATGAGGGAGGTGAACGGGAAGCGATGAATGAACAAATCATGGTACTC CAAAACAAGTTGTTAGAAGCACTAGATTGGAAATTGATGAATGGACCAGATCTGAAAACAAGTTCTGACTTGGTGATGGA AGATGTGCAAAGTGATGGTGATCTTCTGTCAAAACCTGAGCCAAGTCCAAAATCACGTTGGCAGTCTTCTCTTAGGGAAG AAAATGAGTTTCTCCGCATTCAGGCTATACAAAACCAGGCAGAGATGGACACCATTCGAAAGAAGCTAGAGGTTTGCCTT GCAGAGAAAGAAAAGTTGGAAAGGGATGTTGAAGATTTGAAAGCAAAATTTCAACAAGAGAAATCCCAAAAAAGTGAAAC AACTAAAGGAGGGGAGCAAATTGACCTTCCATCAACAACTGATATGCCTGTCATTAACATCAATGACCAACTGGAATTGA AAACAATGGTTGATGCTATTGCTGCTGCTAGTCAAAGAGAAGCAGAGGCTCACGAGATAGCAATTATGCTGTCAAAAGAG AATGATGAACTCAGAATGAAGCTTAAAGCTTTGATTGAGGATAATAGTAAATTAATTGAATTATATGAACAAGCTACTTC GGAAAGTAACAATAGAAATGTTACTAAAGGGGAGAATGCTCAAGAAACAGGTCCCAAGGTTGACAATGGTTGCTATCTTC TTGAGACAAGAGAAGAGGAGAATAAGTTGAAAAATCTCCAGCACCAGCTTATGGAATTGAATGAAGAAAACGAAAAGCTG ATGAGTTTGTATGAAACAGCCATGCAGGAGAGGGATGAGTTTAAAAGAGCGCTTTCATGTACAGGACATGAAAGAGTTGA AACCAAAGGAGAAATGAACTGCATGGAGAAGCTAGTTGAAGTTGATGAAGGGGAAAGAAACTCCAGAGTAGAAACTGTTT CCCAGGAAGCACAGGATAGAGGTGAACCTACTCTATCTGGGTCTGATTTATGCCTTGAGACTGATGGACATGAAGAAAAG CTTTTAAAGGAGGGGAGTGATTCTGACATGGACATTGAGGTATTGAATCTAACCGAGGAAAAATTATCGAAGGAATTAGA TCGTGCTAGAAAGACACTTGAAAGTGTTGATGAGCAAATCTCAGATGCTGTGAGAACTCTAGATTCACTTGGTTGCGCTG AAAAAGCAATAGTCCAGGTTGATAAGCTCTCTAGAGAAATTGAAATGACAGAACAGGATATTCAGGTGAAGCGTCAGCAG TTTGAATCCTTGAAACTTATGCTTTCTGAAGCACTACAAAGAAGAACTCTAGTTGATAAAAAGTTCTCTGCCCTCAAATA TTCATTATCAAACTTGGCTCAATCGTTTTCTTATTTTGAGCAACGGGAAACAAGGGCAAGAGCTGAAGTGAACGACTTGA CATCCCATCTTGACCGAAAGAAGACGGAGTTGGCTTCTCTTCAAGCTTCTAAACAGGGGTTGGAGAATGCTCAAAAGAAG AATCAAGAGTCTGAAGTTGAATTACAGAAAAATATTGAATGCATCAAATCCAAACTGGAGGAAGAGAATCGAAAACGCGA GGGTGAGAAGGTTCTATTTGCAATTGATAACACGCAGAATATAGATTCCTCATTGAAAAACTTGCATCTCTGTGGTAAAG CCACCGAATTACTCAAGTTAGAGGAAGAGAAATCGAAGCTGCAAGCAGAGATGAAGCTTTCACAAGAAAGACTCGGGGTT ACAAGAAAGGAACTGGGAAATCTAAGCAAGAAGGTGGCAAATGTAGAGAGTCAGATACAAGCTGCTGAACAGGATGTACA GCAACGTTTGAGGAACATGAAGGAGAAGGAGCTTGCACTTCAACGGGTGACAAAAGAGAAAGAGATGCTCTTGGAGTTTA GAGATGATGGTATGTTTGAAATAGAGCATATGATCATTGAACTCCACCAATATGTTTTTGAACATGATCTAAAGGAGGCT GAAATGAAGATTCTTGGGGAAGAATTACAAATAGATTTTGTAAGAGCAGAAGAGTTACAGACAGCCAAGGGTATTGCTGC CAACATCAGAAACAATTTATTTTCTTCCATGTCTTGTTCAAGCATGTTTGAGAAAATAGAGGAGCAGATGCAAAATCTAA GAGCATCTATTGTGGAGACCAAATCATTGTTGGAAGGCATTTCCCATGCCACCTAG
Protein sequence (LotjaGi3g1v0185300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MPFFSEAASAIKSRFGFHDHPSESSSLSLIQNTPDLLKSAAKDSHHLLQSSAVRNISDWDDEGGVGQSSAAISTSQSFEL FEDPSFWKDHNVQVIIRMRPLSNTEISVQGHSKCVRQESCQTITWTGHPESRFTFDLVADESVSQEKLFNVAGLPMVENC MGGYNACMFAYGQTGSGKTHTMLGDIEGGTRRHSVNCGMTPRIFEHLFSRIQKEKEARRDEKLKFTCKCSFLEIYNEQIL DLLDPSSNNLQIREDSKKGVYVENLKEVEVTNARDVIQLLIQGAANRKVAATNMNRASSRSHSVFTCVTESQWESQGVTH FRFARLNLVDLAGSERQKSSGAEGERLKEATNINKSLSTLGLVIMNLVSISNGKSHHVPYRDSKLTFLLQDSLGGNSKTS IIANISPSICCSLETLSTLKFAQRAKFIKNNAIVNEDASGDVIAMRIQIQQLKKELSRLRGQVGGGEIQDNDISVINFPG SPGSFKWEGGAQGSFSPLTSVKRVSEKKDYEVALVGAFRREKDKDIALQALREENQAAMKLAKQREDEIQGLKMRLRFRE AGIKRLEGVASGKISAETHLLNEKEEHLKEIEVLRAQVDRNQEVTRFAMENLQLKEELRRLKSFYEGGEREAMNEQIMVL QNKLLEALDWKLMNGPDLKTSSDLVMEDVQSDGDLLSKPEPSPKSRWQSSLREENEFLRIQAIQNQAEMDTIRKKLEVCL AEKEKLERDVEDLKAKFQQEKSQKSETTKGGEQIDLPSTTDMPVININDQLELKTMVDAIAAASQREAEAHEIAIMLSKE NDELRMKLKALIEDNSKLIELYEQATSESNNRNVTKGENAQETGPKVDNGCYLLETREEENKLKNLQHQLMELNEENEKL MSLYETAMQERDEFKRALSCTGHERVETKGEMNCMEKLVEVDEGERNSRVETVSQEAQDRGEPTLSGSDLCLETDGHEEK LLKEGSDSDMDIEVLNLTEEKLSKELDRARKTLESVDEQISDAVRTLDSLGCAEKAIVQVDKLSREIEMTEQDIQVKRQQ FESLKLMLSEALQRRTLVDKKFSALKYSLSNLAQSFSYFEQRETRARAEVNDLTSHLDRKKTELASLQASKQGLENAQKK NQESEVELQKNIECIKSKLEEENRKREGEKVLFAIDNTQNIDSSLKNLHLCGKATELLKLEEEKSKLQAEMKLSQERLGV TRKELGNLSKKVANVESQIQAAEQDVQQRLRNMKEKELALQRVTKEKEMLLEFRDDGMFEIEHMIIELHQYVFEHDLKEA EMKILGEELQIDFVRAEELQTAKGIAANIRNNLFSSMSCSSMFEKIEEQMQNLRASIVETKSLLEGISHAT
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 | 67 | 1340 | 1274 | 0.0 | – | |
| PANTHER | 67 | 1340 | 1274 | 0.0 | – | |
| Gene3D | 84 | 440 | 357 | 2.8E-139 | ||
| SMART | 89 | 436 | 348 | 2.8E-156 | ||
| SUPERFAMILY | 91 | 462 | 372 | 1.06E-119 | ||
| ProSiteProfiles | 91 | 428 | 338 | 118.807 | ||
| Pfam | 97 | 427 | 331 | 2.1E-110 | ||
| PRINTS | 163 | 184 | 22 | 7.0E-41 | ||
| PRINTS | 292 | 309 | 18 | 7.0E-41 | ||
| ProSitePatterns | 324 | 335 | 12 | - | ||
| PRINTS | 325 | 343 | 19 | 7.0E-41 | ||
| PRINTS | 378 | 399 | 22 | 7.0E-41 | ||
| Coils | 435 | 462 | 28 | - | – | |
| Coils | 528 | 548 | 21 | - | – | |
| Coils | 577 | 604 | 28 | - | – | |
| Coils | 709 | 743 | 35 | - | – | |
| MobiDBLite | 736 | 760 | 25 | - | – | |
| Coils | 794 | 828 | 35 | - | – | |
| Coils | 856 | 897 | 42 | - | – | |
| MobiDBLite | 923 | 951 | 29 | - | – | |
| Coils | 972 | 1006 | 35 | - | – | |
| Coils | 1013 | 1040 | 28 | - | – | |
| Coils | 1090 | 1145 | 56 | - | – | |
| Coils | 1177 | 1197 | 21 | - | – | |
| Coils | 1205 | 1239 | 35 | - | – | |
| Coils | 1277 | 1297 | 21 | - | – | |
| Coils | 1323 | 1343 | 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 | Microtubule motor activity | Catalysis of movement along a microtubule, coupled to the hydrolysis of a nucleoside triphosphate (usually ATP). | ||
| Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
| Biological process | Microtubule-based movement | A microtubule-based process that results in the movement of organelles, other microtubules, or other cellular components. Examples include motor-driven movement along microtubules and movement driven by polymerization or depolymerization of microtubules. | ||
| Molecular function | Microtubule binding | Interacting selectively and non-covalently with microtubules, filaments composed of tubulin monomers. |
Expression pattern of LotjaGi3g1v0185300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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