Transcript — View — Lotus Base

LotjaGi1g1v0194400.2

Overview

Field	Value
Gene ID	LotjaGi1g1v0194400
Transcript ID	LotjaGi1g1v0194400.2
Related isoforms 1	LotjaGi1g1v0194400.1
Lotus japonicus genome version	Gifu v1.2
Description	Phospholipid-transporting ATPase; TAIR: AT1G68710.1 ATPase E1-E2 type family protein / haloacid dehalogenase-like hydrolase family protein; Swiss-Prot: sp\|Q9SX33\|ALA9_ARATH Putative phospholipid-transporting ATPase 9; TrEMBL-Plants: tr\|A0A0B2QXA4\|A0A0B2QXA4_GLYSO Phospholipid-transporting ATPase; Found in the gene: LotjaGi1g1v0194400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:38586852..38604980) extracted from Lotus japonicus Gifu genome v1.2.

TTTTCCAAGGAAGATTTCACATCCCCAACCGTTGCATTAATTGTGGATAGGGTTTTGATTTTGTGTACACTTTTCCATTT TGTTTTTTTTGGGAAATTTCTGAAGTTTTTTTGTCATTCATTGAATTTAAACAACTGGGTCTCTGTCCTTTTCCCCCCTC TGGTGGGAAGTTGGGATTTTTATGGGATTCAGTTGTTCTGCTATAAATTTGTGACTTTGTGTTCAGTGGTATTTGTGATA TGGGGTTCTGAGTTTTTATGATATTTGGTGGTGGAGGACCTAAAAGTTATGCTCTTTTTTAAATCTTATGATTGGTATGG TGAAATTGCTTTTTGAGAGTTGGGAAAGTTAGCAACTTGGGTGCTAGTTTTTGGGGCTGGTCCTGGGAGTGGTTAGAACA ATTAGTTAATCTTAGTGGGCCTTTCTCCCTTGGATTTATCACTTTTACCATTTTCATCAAAGTAGATTGATGGGGGCCAG TGGCAGGAGGAAGTTGAAGCTTAATTTCAGCAAGATCTACTCATTTGCATGTGGTAAAACAACCTTCAAGAGAGATCATG CACAGATTGGGGGATATGGCTATTCCAGGGTGGTCTTATGCAATGAACCAGATAGCTCTGAGGAAGGGTTTAGGTATTAT GCAGATAACTCTGTCAGGTCCACAAAGTACACTGCTGCTACTTTCTTGCCCAAATCACTGTTTGAGCAGTTTAGGAGGGT TGCTAATTTCTTTTTCTTGGTAGCTGGGATCTTAGCCTTCACAAAGCTTGCTCCTTATACAGCTGTCAGTGCTATCCTTC CTCTGTGTCTGATCATTGGGGGAACTATGGTGAAAGAGGGTATTGAAGATTGGCGTCGGAAAAAACAGGTGCAATGTTCT GCCTACCACTTTATCCCATTGTGATTTTCTCTGTGTCAAGTAATTTCATAAAGCTTATTCCCTGGAGTATGAGTGTGTTA ATTTTAACTTGATCAGACTGGTCTTCTCTTCTTTAATTTGATTTATATTCTTCTATTACGTTAATAAGTTCATTTTCTTT GCAACTCAATTCATGTTTGGAAATCGGAGAAGGTAGCTTTTAGATTTCAGAATTGATTAGGATGAAAGAGAAGCTCATCC CAAACATTCTATCAGTTTATGTAAAAGATTCAATTTCACTTCTAGCTTTATTAAAGTTGTGAACAGAAATGGAATGACAA TTTTCATGACCAGTGACGAATAGCTTATGTAAGATTCTAAGTTTTATGTTTAGATTAGATCATTGATACAAATTGTTTGA AAAAGGATTAAGTGCCATTACTAAGCTGTTTATTTACAAATTCTCATATTTGCAAAAATAACCTCGTAGATTTCCAGATC AATTCCTTACTGGACTTGAAGAGTCTTAATCTTAAATAATTTTCTACAAATAACAATATGGTCAGAAATATAAAGGTCGA AAGTGGTGTCTATATAATCTTAATCCTGCTACAATATCTCCTAAACTTTAAGGTCTGTGTGTATATTTGGTTAGAATTTT TTTTCATGTCTAAGTAAATATTTATGTGGAATTAAAATAAGAGATCAACAGTTCTATGTATATATTAAGGGAAAAATGCT AAAGTGGTAATCACTTGGCACCATGTGGGACCAGAAAAAAAAGAGGGGGTGGGGGGATGAAAAAGGTTGGTGTTCCTGGC AATCTATCAATTCATTTTGGGTATACAACTTAGCTAATGATATACTTCTACAGGATATTGAGGTGAACAACAGAAGAATT ATATTGCATAAAGGTGATGGCATCTTCGATTATACAGAGTGGAAGAATCTGAGGGTGGGCGATATAGTGAAGGTAAAGAA GGATGAATTTTTCCCTGCTGACCTTCTACTGCTTTCATCTAGTTATGAGGATGCAGTCTGCTATGTTGAGACCATGAACT TGGATGGGGAGACAAATTTGAAGTTAAAACAAGGATTGGATGTAACTTCTTCCTTAAATGAGGACTTCAATTTCCGTGAT TTTAAAGCTACTGTCAAATGTGAAGACCCGAATGCTAATTTGTACTCATTTGTCGGGAGCATGGAGTTTGAAGGGCAAAA GTATGCCCTTTCACCTCAGCAACTTCTTCTGAGAGACTCTAAACTTCGTAATACAGAGTACATATTTGGAGCAGTCATCT TTACCGGTCATGACACGAAGGTTATTCAAAATTCCACCGATCCCCCTTCAAAAAGAAGCAAAATTGAGAAGAAGATGGAT AAGATTATCTACTTCTTGTTTTGTGTTTTATTTCTAATTGCATTTATTGGATCTATTCTCTTTGGCATTTCAACTAAAGA TGACCTGGACAATGGGTTGATGAAAAGATGGTATCTAAGACCAGATGATTCCACCATTTTCTTTGATCCAAAAAGGGCAG CTGCAGCTGCTATATTTCATTTTTTGACAGCCTTAATGTTATATAACTTCATCATTCCTATCTCATTGTATTTCTCAATT GAAATTGTCAAAGTCCTCCAAAGCATCTTCATCAATCAAGATATCCATATGTACTATGAAGAAACAAACAAACCAGCTTA TGCACGCACTTCAAACTTGAATGAGGAACTTGGCCAAGTTGACACTATACTTTCTGACAAAACTGGAACTCTGACCTGCA ACTCAATGGAGTTCATCAAATGTTCTATTGCTGGGGTAGCTTATGGCCGTGGTGCTACAGAGGTTGAGCAAGCCATCGAT AGAAGTAATCGTTCACCTATTATTCATGAGCATGCTAATAGTTTTGAATCAGAATCAGAATCAGATGCAATCAGAGAATC TCCTGATAGAAAAGAATCCATCAAAGGTTTTAACTTCATAGATGAAAGGATAATGAAGGGAAACTGGGTTAATGAGCCTA ATACAGATGTTATACGAAAGTTTTTCCGCTTATTGGCAGTCTGCCATACTGCCATACCAGAAGTGGATGAAGACACAGGA AATGTCTCATATGAAGCAGAATCACCAGACGAAGCAGCATTTGTTATTGCTGCAAGAGAAATTGGTTTTAAATTCTACAA TAGGACTCAAACTAGTTTGTCTATGTATGAATTCGATCCAGTTTCTGGTGATGAAGTTGAAAGGTTAGTGTTTCTTTTTT AATTTTGAATAGCTTTGTCTGTTTATTACTTAGAGTTTGAGTGCTGCATTTTTCATTGCTAACCAATGTGCAAAACTTTG GGATCAATTCTCATTGAGGAATGCACATTCAATCATATTGTTTTGTAGCTTGTGTTGTAATGCCAGTACCAGTAGTTAAT GTTTCAATTAATATTATTAGAGTAGAGTATATGTTACTCTTTTATGTAGTTACTGTTAGTTAATTACTGTTCAGTTAGTT AGTATGAGCTGTCATTACAGTTAGCATGAGCTGTCATTAGCTGTTATGTAACAGAATTAGTTAGAGATAACTGAATCCTT TCCTTTCTGTTAGCTTGCTCTGCAAGCTTGTTATCTCTCTATAAATACTGAGAGTGTCTCTTGTTCTCTTTACCTTTTCA ATCAATAAAGTTCAGTTTTACAATTTAGAGTTTTCAACAAATATATTTGGAAGGAGAAACTTTTAAATTCTGCTTCTGGT CTCATCAATTGCTGCACAATGATATGGATATGGTATTGATACTTTTTAATTCCTTCTAGATTTTGAACCTACTATTTTAG ACCTGCTTTTATCATAGGGGAATTTGTAGTCTTGGCTTACATATGTGGATCCTTAAGTCTTGGCTTCCTCAGTTGGTATT AGAGTCTAATTTTGATATTGCTTTAAAACATATACATGGTGAGATATTTGGTTAAGCTATGGTTGAAGCACTCTTTTCCT TTCTGTATATTTATTTTGTTCTGGTGTTTGGGATTATGGATTTTGTTGGGAATTGATGACTTTCGAGACTACAAAACACT TAGGTTGAACCTTGAAGATTTACTTAATACCGATCTACTATACATAATTACCAGGTGGAAGAATGATGCTGTTAGAATAT AATATAAAACCATTAACGTGGCCCTTACCCAACAGCTTAAGCTTTTGGGATAAGTGGTTATTTGACTTGGTATCAGAGCC TCTATGGCCGAAAGGTCTAGAGTTCGATCCTTGCTCCCCTCACTTTCTAATTAAAAAGTGGAGTTTAATTAACCACATGG TAGGTGGGCCTGTGCATTTATCCACGCTTCAAGCCCAAAGGGCTCTTGCGTGAGGGGGCGTGTTAGAATATAATATAAAA CCTTTAATGTGGCCCTTACCCAACAGCTTAAGCTTTTGGGATAAGTGGTTATTTGACAGATGCGATACATAAGTATACAA GTACAGGCTAATTATCTCAAAGTATGCAATAGACAGGCTGCAATACTTTGCTTCCATGGATAAAATCATGTATTATTTCT TGCATTTTCATGAGATTGGAGCATTATCCAGAAACATACCCTAACCAATAGTAGATTTCCTTGTTTTCCGACATAGAGCC TAATCAACATGGTTGTATGCTTGGAGCTGGAGTGATAAACCAGTCAGCGAGAATCAACTGCATTTGGACGTGCCTAGGAG GCATCAAATGACACGGTGCACAGCTCAAAGGTGGAGATGCCAGGGGGATATCATAAACTAGCTAAATCTGTGGATAGCAA AAAAATGTTTGGTCTAATGATGGTAAGGTTGACAAGACTACCAACCAGCTTGCAATACAGAGTGAGACCATCAAGGCTAC CTTCATCTTGTTAATATTTTAGATGAATTTCTATGATGAAGTTGATGGAGGTTGGATTGGTGAGGCACCTAAGTGTATTA GTTCTTGAATGTACTAGTGCTGATTTTAAAATGTGCCTTTAAGTTAATAATTTACTTCTAACCCCAAGAAGTAAATGGGC TGGTCAGGTTCTTTCATATGGAAAGTTGAAAGCAGCAATTGCAATTGCTTAAATACAGAGACATCCTCATGATCAAAATC GGGCGCCAAAATTCCATCCATATAATCGAGAAGTACCACTATACCTTTAGAAGCCATTCATTGTCAAACCATACTTATTG TTCCTGCTACTTGTCGTATATAAAGCGTTTCAGTTTGCAAAATGCATTAGATGATAGTGGGACCATATACCTGCAGGAGG ATTAGTGTAAACTTCCTTCTTGAGGTCACCATGTAGTGATTTTTTTTTTACATCCATTTGATGTAATGGCCAAGATGGTG GTGCTGCAAAGGCATATTGTATGCACAAAAGTCATCTTGGTTATAAGTGCAAACTCGTAGTCAAGTCCATACAATTCCAC ATTTCCGAGCACAACCAGCTAAGAATTTTAGTGCTAGTTTCAATAGCTTTTTGCCAACAGCCATGATTCATTGCTTGTTT TTAAGAAGTTATAGGAACAAATGATAAAATTGTTGCCATAGAGAGAGGTGAAACCATACTTGATGGTTTACGAACGAAAA CACTACTTCCTAGAGTAGTAGGTTATAGAACATGTACTGTATCTGTATCTGGTGAATGATCTTGAGGGGACGAAGGAGGT TCTGATGGCTGATTTGCTGTCGCCCAAATACGTCTTTTGATCAAGAGAGATCTTGATGATGATAGTCTTGGAGAAGAGTT AAAAAACAATGGCAAATCAGAAATGGAGGAAGCAATAGGACCGTGGTGAGTTATAAATTCATGAAAGATGACATGTCTCG AGACCAAAATATTACGTAGACTAAGATTGCAGCATTGAAAACCTTTTTAGTGTGTAGTGTCTGAGAAAATCAAATTCACC ACCAGATTGTGTGGTCAAATTAGTGCATTCTTGCAGAGGAAGATAGATGCAACACTCATAACCGAAGGTACGGAGATTAG AATATGTGGGTGGGCGACCAAATAAATGAGTCAAAGGAGTCATTGTTCAAAGATGGAGAAGTGGCATAATCCAAGCAAAT TATGCATGTAAAGCAACATCTTTGTCACCAATTCAATACAAAAATACTTGGTAGATTTCATCATTTCTTAGGAATAGAGG TGGCATAATCCAAGCAAAGTATTCTAATTTCATAGAGGAGGAAGCATGCAATGGATATTTAGGATAAAGCAGGATTGGTG AATGGTAAGCTCCTATAGATTCTAATGCCAAATTTATGTCAAGTTAGGGGGAGCCACTTTCATACCCATAGTGATACAGA AAACTTGTTGGGAAATTGAACTATCTCACTGTCACTTGTCTGCATATTATTTGTTGTCAATGTTGTAAGCCGATTTCTTA ACTCTCCCAGTGAAAGTTATTGGGATGCAATGATTCAGGTCTTAAAATGTATTAAGGTGAAAAGCTCTATTTTATAAGAA AATGGGCATACAAGAGTTGGAAACTCTGATGTAGATTGGGTATTTTCTCTTATTGTCTGGAGATCGACCTCTGGCTTCTT TGGCAATAACTTAATCTCTTAAAAAAAGCAAGAAACAAAGTGTACAGCAAGATCAAGTGCAGAAGCAGAAATGAAACATA ATATTATTTTTAATAATAATTCCTCATGCATGGACTCTAGTTGATAAACTATAATACATCAACCTTATAAATGGTTAACC AAAGAAAAAAAAAAATTCCTAATAATATCACAGAATATATGTAGAGATAAAAACGGAAAGTACAAAATATTTTAGCTTAG AACAACACAATTAATTCATCAACTTGAATTCTAAGAACAAAAGCATTAACGATATATGGAGTCTCACAGTACAATGAGCT TGGTGCTTGGGGGAAAGACCGTTGATTCGTTGACCATGGATAGGAAAGGCTTTTAACATGCTGTTGATGGGTATATCGTT GGGAATTCAAGTGAGTATAATGTGGGTGACTGGGTGTGGTGAAGAAATCTCACCTTCGATTGGTGTGGACAAGGTGAGGA TCATATAAAGCGAAAGTACCCCTGGACCTAAAGTCTTAAGGTTTTAGGTTGAAATGGGATATCAAGCTGATGAACTCAAG AATCAACTACTGGTATTATTGAGAAAACAGAGTATCAACACTCAAGAATTGAGGTTGAACTCGAGATTACAACGATGGAA ACTGGAATGCAACACAAACCCTAGCCTCTGGAATTCGAGATCCAGAATCTCCCAAATCCTAACCAACTCGATAACTGCCT CAACTGAATGACCCAATCCCTATTTATACTAATTGCTAGCTGTCTAACAGAATTGTATTGCTGACATCAGCATAACAGCT AAGCAGCTATATTAGAAGTAACCTTCTAAGGCTTACTTCCCTTATGTTTCCTAGTATATACCTTTGTAAACCTAGACTTA GGTATTTTAGGGATAGAACTATCATCAATACCCCCCCCAGAAGTACCACCTTGTCCTCAAGGGGAAAGGTGGGAAAAGCT TCATGAATCTTCTCAGCTGATTCCCAGCTATTCTCACAAGCAGGAAGGGACTGCCACTGAATAAGCACTTCCACAACTCC CTGGGTTAATTCTCTGACAGCAAGCACTTCCTCCGGTTCAACCAGCAGCTCATGGTCCTCGGTCAAAACAGGAGGCAAGT CCTGAACTTGGAAACCAGTACCAATTGCTTTCTTGAGGAAGGAGACATGGAAAACTGGATGTATGCGACTGGTAGGAGGC AAATCCAATCTATAAGCAACAGTACCAATCCTAGCAGCCACAGGAAAAGGGCCATAAAACCTAGGACTGAGCTTCTCATT AAGCTTCTTAGCTAGGGATCTTCTTCTATAGGGCTGAAGCTTGAGATAAACCAAGTCCCCCACTTGATATTCAACATCCC TCCTTGATTTGTTAGCATATTTCCTCATCATGTCTTGGGACTTCAAAAGATTAGCTCTCAAATCCCCTAATAGTTCATCC CTGTCAGCTTGTAACACATTCACAGCCTCCAACTTAGAAGGAATTGTAGTGCCATGGAGTAGCAAAGGAGGGTCCCTCCC ATAAAGAGCCTGAAAAGGAGACATTTTTGTAGATCTATTGTAGTTGCTATTAAACCAAAACTCAGCCCAAGGTAAGCAAG TAACCCACTGTTTTGGTCTAGAGCCAGTCAAGCATCTAAGATAAACTTCAAGGCATCTATTCACAACTTCTGTCTGGCCA TCAGTTTGGGGATGATAGGCAGAGCTATACTTCAGTTTAGTCCCTGAAAGTCGAAACAATTCTTTCCAGAAGCTACTCAG GAAAACTGAATCCCTATCAGAAACAATAGTATTAGGAAAACCATGAAGTCTCACCACTTCTTGTAAGAAGGCAGCAGCTA CATCAGGAGCTGTGTAGGGGTGACTGAGAGGAACAAAATGTGCATACTTTGTCAACCTATCCACCACCACTAAGATAGTG TCCTTCCCTTTAGACTTAGGAAGCCCACCAATGAAGTCCATGGACACATCAGTCCACACTTGAGTGGGAATAGGCAAGGG TTGAAGTAATCCTGCAGGAGACAAGTTATCAACCTTGTTCTGCTGACAAACTTCACATTGAGCCACAAAATCCTTGATGT CCCCCTTCATTCCCTCCCAATAAACCACTGCAGCCAACCTCCTATAAGTTCTGAAAAAACCAGAATGTCCTCCAACCAAA GAAGCATGGAATTCCTTGCACAAGATAGGAATCTTGTTAGAGAGTTTAGGCAAAACCAACTTGCCTTTGTAATACAATCT GTGGTCTCTCAAGGTGTATCCCCTATGAGAATCAGGATCCACAATCAAATCCTGCATAATAGCCTGTAATTTATCATCTT GCATGAGTTCAGCTTGCCATTCCTCTAGATCATTAACCTTAATGACTGATAGTGCGCAATAAGAACTTCTCCTGGACATT GCATCTGCTGCTGAATTGTCCTTCCCAGGCTTGTATTGAATCTCAAAATCATAACCAGCCAGTTTGGAAATCCATTTAAA CTGTTCCTCCCCCAGCACTTGTTGTTCAGTAAGGAACTTAAGACTCTTTTGATCAGTTCTGATTATAAAATGCCTACCCA TGAGATAATGCCTCCATCTCTGAACAGCTCTCACCACAGCCATCAATTCTCTCACATAAACTGACTTGGCCTGACTCCTA TCAGATAAGGTTGCACTCCAAAAAGCCAAAGGTTTGCCTTCTTGAGATAAAACTGCCCCTAAACCAGTTCCAGATGCATC AGTTTCCAGGACAAATACCTTGGAAAAATCTGGAACAGCAAGGGAAGGTAATTCAGTGAGAGCTTGCTTCAAGGCTTCAA AAGCCTTTTGTGGTTCTGCTCCCCATAAGAAGCTGTCTTTCTTGAGTAACTGAGTCAATGGCCTGGCAATTTTGCCATAA TCCCTTACAAATCTCCTGTAATATCCAGTGAGTCCTAGGAAGCCTCTTAAACTCTTCAAATCCTTAGGCACTGGCCACAT CCACATTGCCTCAAGTTTCTTTGGGTCAGCAGCTACTGTTCCAGCAGAGAGTATATGGCCCAAATACTCAATTTGTTGCC TGCCAAACACACTTTTCTTTCCATTGATCTTTAGATCTTGCTGCTCCATCAATTGTAGTACTTGAGTGAGGTGAAAAACA TGTTCTTCCATAGTGAGGCTGTAAACCAATATGTCATCAAAGAAGACCAAAGCATACTTCCCTAAGACTGGCCTCAGAAC CTCATTCATTAGTGCTTGGAAAGTGGAAGGAGCATTAGTAAGTCCAAAAGGCATTACTATGAATTCATAATGCCCTTCAT GAGTCCTAAATGCTGTCTTCTCTACATCCTCAGCCTTCATCATGATTTGGTGGTAACCAGATTTCAGGTCTATCTTGGAA AACACCCTAGCTGGGCCAATCTCATCCAACAGCTCATCTATCACAGGAATAGGAAATTTATTAGGCACTGTCACCTTATT TAATGCCCTGTAATCCACACAAAATCTCCAGCTTCCATCTTTCTTCCGAACCAAGATCACCGGGCTGGAATAAGGACTAA TGCTAGGCCTTATTATGCCTGCATTCAACATCTCAGCTACAAGCTTTTCTATCTCATTCTTTTGATAATGGGGATATCTA TAAGGCCTGATATTAGGAATTTGAGCCCCCTCCTTCAGGTGTATGGCATGATCATGCCTTCTATTAGGAGGTAACTCTGT AGGAGAGGCAAACAAAGTAGGGAATTGCCGCAAAAATGTCTTTAATTCAGCTGGTGTCTCCTCAGCAACTGCTTCTTCTT TCTCTAGCAGCTGGTAATGTAACATATATCCCTCCCCTTGCTGCTGTATTGTTTTGAAAAAAGAGTTCATGGATACCTTT TTCTTCAAAAGCTCAGGTTCCCCTCTTAACTTCACTTTCTGGTTTCCTAACTTGAATTGCAGGGTGAGCTTCTCAAAGTT GGCCTTAATATCTCCCAACCCAGCGAGCCATTCCAGCCCCAAAACCACATCTACTCCTTTCAAATCAAAAAGATAGAAGT CCTGTACCACTTCTATGCCTTGTATCTGAATTCTTACCTGTTTGCAAACTCCTTTTCCCTCCACCTTATGCCCATCCCCA ACCTCTACAGTGTATGTGGAAGTAGTTGTGACAACAAGTCCCAATTTCCTAGCCATAGCTCCTGAAATGAAGTTATGAGT TGCCCCACAATCTACAAGAACTATAATTCTGGTTCCCAACAACCCTCCCCACACCTTGAGGGACTTTCTTGTGGAAATTC CCTGTATACTGAGCAATGAGAGACGCTTGTACTCCAACACTTCTTCTGAATTTTCGAGCAACAACTCATATTCCTCCATA TCAGCTCCCTCTTCCTCCTCAGCCAGCAACATGACTCTAAATTGCTTGTTTTTGCACACATGATTCTGACCAAACTTCTC CTCACACCTGAAACATTCTCCTTTCCTAATCTTTTCCCTCATCTCCTCACTTGTTAGCCTCCTAAATGGGTTGCCTCTAG GTGTTTTATTAACAGACTTGTCATTAACACTTCCACTAGAGGAATTTGATCCCTGTGTTACTGAATTTCCTCCACTCTTC ACACCAGATTCAACTGTAACAGTTTTATGATAAGTTGAAGGTTTAAAATTGGACTTGTAGGAGTTATTATACCTGGCAGA ACCATTGGTTCCAGCTTTGCTCACTGCCATATTCTTCTTTTCCACCATCAAAGCCTTCCTTACCATAGCAGCTAGTGTGT CAGGTTCATAGAGCTTGATTTCTGCTGAAATCTCCTCCTTTAAGCCATTGACAAATATGTCCATGAAGTTTTCTTCACCC ACTCCTCTCAGCATTCCTGCAAACCTTTCAAACTGCTCCACAAACTCCTCTACACTCCCTTCTTGCTTGAGTGCCAAGAT TGCTGCAAAAGGATTTGAAGCTGCTGCAAGTTGGAACCTGGCTAGCAGTGCTTCCTTGAACTTGTCCCAAGTTGTGGCAG TGTTGCTGGTTTCCCACCATTGATACCAGCTAAGTGCTTTTCCATCCAATGCAACCATAATTGCTTGGACCTTTTCTTCT TCAGTAGCTCCCTTAAGCTTGAAGTACCTTTCCAATTTCTGAATCCAACTATAGGCATCTTCATCTCCTTGGAAAACTGG AATCTCCAATTTCCTCCATCGCTCAGTGTGAGAAACCTCAGAACGCAACTCATTCACTGTATCTCCTTGAACATCACCTT CACTCTCTGTTCCTTCGATCGTTTTCTCCTCCCCTGTTCTGCGATGAAATTTCCCTGTGCGTTCTTCGCTCCCTTTCTCA CCGTCACTCTTCGCAGCAAGATTCTCCACAATCTTCTCCAATGCGCGAAACCGCTCCTCAGTTCTTTCGCGCTCAATCGC GCGCTCCCGGCGCTCTTCCTCTCGAATTCGACGATCCTCTTCTCTGTCGCGACTCATCAACTCGATGAGTCTCTCGATTG CATCAACACGAGACTCCATTCTACTAGCAACCATAGAATGGTACCACAGCTCCTGGATGGAGCTCTGATACCAACAATGA TGAACTCAAGAATCAACTACTGGTATTATTGAGAAAACAGAGTATCAACACTCAAGAATTGAGGTTGAACTCGAGATTAC AACGATGGAAACTGGAATGCAACACAAACCCTAGCCTCTGGAATTCGAGATCCAGAATCTCCCAAATCCTAACCAACTCG ATAACTGCCTCAACTGAATGACCCAATCCCTATTTATACTAATTGCTAGCTGTCTAACAGAATTGTATTGCTGACATCAG CATAACAGCTAAGCAGCTATATTAGAAGTAACCTTCTAAGGCTTACTTCCCTTATGTTTCCTAGTATATACCTTTGTAAA CCTAGACTTAGGTATTTTAGGGATAGAACTATCATCACAAGCCCACTAGTTTGGTTACAGTCCATTTAAACAAATCTCTC TGGCTTTTATGGACCCTCTTATAGCCAACAGAATTCACCTTATAGCCCTTATATGCTTAGTTATTAAAGCACATCATTCA TCATTTAGTTCTTGTTTATAGCTACTGTTTTTTCATATTTTCTTTCTTGAAGTAATTCTGAATGGATTATATATGCATGT ACCAATTTCATTGTCCAGGACATACAAGCTTCTCAATGTTTTAGAATTCAATAGCTCAAGGAAGCGAATGTCAGTGATAG TGAAAGATGAAGAAGGGAGGATTTTGCTTCTTTGTAAAGGTGCTGACAGGTTTGTGACCAAATAACATGTAGCCTTCAGT ATTTTGGCGTTCTGACCTCTGCATTTAACCTGTTGGAATGTATATTAATAGTGTGCATATGTTCATTGTGTAAGTTAAGT AAATAATATAATTTTAATGGTTATTTTCAGTCTATATATTATAGTCGTACTATGTAATTGAGACACAGAGTCCCTAACAT GGCTTTCATTTGTTAGAAATCCCACATTGGCTAGAGATATGGCATAGATAACCTTTATAAAGGGTAGAGCAATCCTCAAC TCTTGAGCTAGCTTTTGGGTTGAGTTAGGCCTCCCAAATTCTAATACATTTTCTTTTCCCTCAACATGGTATCTAGAGCT TGATGCGAGGCAACCCTAGTGTGTTTGTTCATACACAGTGGACTAACTATCCATCAATGACATTTTTTTTGCTTAAAATT GTGTTTGATTTCTCATTTCTGGTTCAGTTGCAGTTGTCTTGTCATTCCGGTAGCCCAAACCTACTTTTCCAATGATTGCC GCCACTGTTTGGCCACCATCCACAGTCAATTGACGTGATTTCTAGCTAATGACACTCAGAGCTACTCCAGTCTGGTCTAA ACCCTGGTGGTTATGCATTGAAATGGGTTCACATATACATGCATCTTATATTAGCATTTTTAGCATGCTTCTTGATGTCT GATGCGCGTGGCGATACATTCAACCCCCTTCCAGTTGTTGTCAGCCTCATTGAGATTGCCAACCCTCCTGTATCTTGATC TTTCTCCTTGGTTTCAAACCAACCTCTGGAGTTTTCATCTCCTCTGTACAACATTTATCTAGCTGGTCAACACATGTTTT AGTCTCCTTTCCTCTACCGACTACGACCAATGCTTGGCTCCTCTATTACTTTCAAAGACACTTAGAAGGCTGAGCTTCTC TTTTTTACAAACTATGCTACTTTTTTTTTTTGAAAGTCAAACTATGCTACTTAATCTTTCACAAACAAGTTATTTTATAG CAACTGTGAAACCTTGACCTCCGATATGAAACTTTGGCATACCAAACAAGATTGTGCAGACCATGTACCAAGGAAGACTT TGTGGCTGCTAATGAATGCTCTTAGTGGAATTAGTTTGATACCCAAGCTCACGTGTCTTCCTTGGTTACACCCTCTCCAA TGGTTTATCATTGTTACTCAAGCTCTACAGTTGTATGATGTTAGCACATACCTTTTGAGCTTGTCCTTTTCTTTGGACCT CCTCCAACTCCTAAGTCTGTCATATCTATTTTACCTCTGTCATGAACCAATTATCCCAAAAGCTTAAGCTGTTCGGTGAA GACACATAATGGTTTACAGTTGTTTTCACTGTCTTTGCACGGTTGTTAAATAATTTACATATGAACAAGCTTGGTATATA TGTAAATAGTAGTCATAGGTACATTGCATAAGTTGAATCATGTATTTCTGGTAATTATGGTAATTGTAATGCCTAATCAT TATTTTCTGAACATTTCAGCTCCACTGTGAAATTCAAACACACTCTCTCATATGTCTCTTGTTTTCTCTTCCTTAACCTA TTGACTTAAGTCCCATTTTCATGCAGTGTCATGTTTGAAAGACTTGCCTTGAATGGAAGGGAGTTTGAAGAGAAAACTTT GGAACATGTGCGTGAATATGCTGATGCAGGTCTAAGGACCCTGATACTGGCCTATCGCGAGCTTGATGAAGAAGAATACA AAGAGTTTGATAATATGTTTTCTGAAGTAAAAAACTCAGTTACTATAGATCGTGAAACACTAATTGAGGAAGTATCAGAT AAGATCGAGAGGAATCTAATCCTTCTAGGTGCCACTGCTGTGGAGGACAAGCTCCAAAATGGGGTAGTTTAGAAAAATAA ATAACTTTCACATGTGAAGATTTATCCACAGGACTTGAAATTATGCCTGACAATGTTGTCTTGCTAGGTTCCTGATTGTA TTGACAAGCTTGCTAAAGCTAGAATTAAGATATGGGTTTTGACGGGGGATAAAATGGAGACTGCCATCAATATTGGGTAT AATATTGTGATTATGCCTTTTTTACACTGCTTCAGCTTGAGAATTTCTTTTCAAGATGTGTGACACAAGTATACAAATGC AGTTATTCTTGTAGATTGCTTAGGCAAGGAATGAAACACATTACAATTCATTTGGAGATTCCAGAAATTCGAGCATTAGA GAAGGTTGGAGACAAGATGGCTATTATCAAGGTAAAATAATTTTCAGCCTTTAATCTAGTTTTACAATAATGTGGTTTAC TTATTGAGTATTCTATGTAGTTTCAGTGAAGATGTTGACAGAATGATTCTCTTAAAACATTTAAATATCCCCGTAAGGTT TAGTGGAGCTGACATAGGGTTCAGTTTCCTTTACAATGATGACAGTTTGAACTTGTCTTTCATGGATTCCTCCATTTATG GTTTTGTGAATAAAGGAGCTTGCTAGAGTGACTTAAAGAATTCTAATAACTGCATTTATATGGTGTTACTCACTTTTGTT CAAAAGATGCAAAAAACATGATCCATGCTTGTATGCTGTTGCTTAGCATTATTAACTATCTCAAAAGTTTAAGTTGTTGG GTGAAGATTAACGTGAATAGTTTTATTATATTTGCAATATGCTCTCTCATGCATGATCCCTTTGAGCTTGAAGTGTGGAC ATTGTACAGGCTCATTTACCTTATGTTGAAATTCATAGAAAAATAGGGGCGGGAACCTTTAGGCGACTGGGATATAGAGG CCCCGATACCATGTCAAGAACCAACTGTCCCAAAAGTTTAATCTGTTGAAGATACATGAATACTTCTATATTATATTTCT AACATTTTGCTTAACCTTTATGGCTGGATTAACCTTGTTAATCATTCTCTGTTGGAAGGACTTGCTTGGTGTGTAGGCAT CTTAGTGAAACTGTAAAATAAAAAATTATGATATTTTATGCTGTTTTATGTTTAAGGCATCAAGAGAAAGTGTACTCCGT CAGATATCTGAAGGCGCTATCCTTCCTTCTGAATCAAGAGGGACCTCTCAGCAGGCATTTGCTTTGATAATTGATGGAAA ATCACTTGCTTAATCTGTTGAAGATACATGAATACTTCTATATTATATTTCTAACATTTTGCTTAACCTTTATGGCTGGA TTAACCTTGTTAATCATTCTCTGTTGGAAGGACTTGCTTGGTGTGTAGGCATCTTAGTGAAACTGTAAAATAAAAAATTA TGATATTTTATGCTGTTTTATGTTTAAGGCATCAAGAGAAAGTGTACTCCGTCAGATATCTGAAGGCGCTATCCTTCTTT CTGAATCAAGAGGGACCTCTCAGCAGGCATTTGCTTTGATAATTGATGGAAAATCACTTGCTTATGCTCTTGAAGATAAT ATGAAGAACATGTTTCTAGAGCTTGCAACTCGATGTGCATCTGTTATCTGTTGTCGCTCATCGCCAAAACAGAAGGCACT GGTATGTTTAAGCCATCCTATTCTGCGTTTCTCCCCTCTATTTGACATCATGTCCTCATTTTTTCAGTTAATCCTGATAA TGGTTCTAGTCACAGCTTTTAAAACTAGTTTTTGTTGGTTTCTCTGATAAAGGTTACTAGACTGGTCAAATCTGGAACTG GTAAGACAACGTTAGCTATTGGCGATGGAGCTAACGATGTGGGAATGCTTCAAGAAGCACATGTAGGGGTTGGAATCAGT GGTGTTGAAGGAATGCAGGTACAAGATAAATTGACAAACTACTCAAGTTTTGTTTTGTTTTAATTGCTTTTCCCTTCCAT ATCATAACCAGTTTAATTACAACTTTTTGTTCATGCTCTCTCTCCCCCCTAGGCTGTTATGTCTAGTGATATTGCAATTG CGCAGTTCCGATATTTAGAAAGATTACTTCTTGTACACGGACACTGGTGTTACCGAAGGATGTCATCAATGGTATGGCCT CTCATACTGGCCCTCAAATTCTATAAATCTTGAAACCTTCAGTGTTTGGATTAACTTGTTCATTCTTCTGACAGATATGC TACTTTTTCTACAAGAATATCACATTTGGCTTCACTCTATTCTTATATGAGGTCTATGCATCATTCTCTGGACAGCCTGC GTACAATGATTGGTTTTTATCTTTCTATAGTGTTTTCTTTTCTTCACTTCCCGTGATTGCCCTTGGGGTCCTTGACCAGG ATGTATCTGCCAGGTACTGCCTCAAGGTAAGCTAACTGTTCATCATCTAATATGTTGTCATGCTTGTACCAAACTACAAA TAAATCAGAAATGGAAAATTTCAATCATCCTATTCTAAGATAGTATGCTGGTTTATGATATATATATATAGTGGATGTAT CATATGAGAAATGTGTTCTTATATGAGAAAATAAGAATAAATTATGACCGTTAGATCTAATCATGAATGGTCAAGATTAA AACAATTTAATGCTCACATAACCTCTACACCTAATTGATACCTAATTGTGGCATTTTGTCTTGCTTGAAAGCACCAAGTC CATGATAGTAACTTGTGTATTACATCATAGATAAACCACCCTTGGTGTTGTGTTTGAAATTAGAATGCAGCAAGGACCTA CTTATTTTCTCTGATTGGTGATGTTCATTCCTTACTATTTCTATTTGAGGTTGCAGTTTCCTATTTTATATCAAGAAGGG GTACAAAATATCCTCTTTAGCTGGCGTCGAATACTCAGCTGGATGCTCAATGGATTCATCAGTGCCATAATAATATTCTT CTTCTGCACAAAAGCAATGGGGATTCAGGCCTTTGACGAGGAGGGAAGAACCGCCGGAAAGGACATGTTGGCGGCAACCA TGTACACTTGCGTGGTTTGGGTTGTGAACTTGCAGATGGCACTCGCCATACGGTACTTCACCTTGATTCAACATGTTTTC ATCTGGGGATCCATTGCTTTCTGGCATCTCTTCCTCTTGGCATATGGAGCATTGCCACCGAGCATTTCTACAAATGCTTA CAAAGTCTTCATTGAAACTCTGGCTCCATCTCCATCCTTTTGGATTGTCACGTTCTTTGTGGCGATCTCAACGCTTATAC CGTACTTCTCATGCTCAACGATTCAGATGTGGTTCTTTCCCATGTACCATGAAATGGTACAATGGACGAGGTACGAGGAG AAGACTAATGGTCCTGAATTGAATACTGTAATACAATGAGGCAAAAGAAGCATTGTAATATAGGGCACACTTGCTGGAAG TAAGAGCAGTTGAGAATGCAGATTCTGGGTAATATACTTAGATTTTGGTTTAGAAGTGTAATCTGTGCTATAGTTAGTGA GTGTTTGGATTAGCTTACTTTAAAATTATTATAATTTCTTTTTTTTTCTTTCTATTCTAGGTTCCGAAGAGCCCTTATAG GGGAGAATATGATTATTTGCTAAAAAAATCAAGTTGTGAAATTTTGTGGTGAAAAAAAGTCTAATTAGAACAGGAAAATA CAATACTAGGATTGTTTGGATAACATTGTAATCAATATCTATTATAGTA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0194400.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGGGCCAGTGGCAGGAGGAAGTTGAAGCTTAATTTCAGCAAGATCTACTCATTTGCATGTGGTAAAACAACCTTCAA GAGAGATCATGCACAGATTGGGGGATATGGCTATTCCAGGGTGGTCTTATGCAATGAACCAGATAGCTCTGAGGAAGGGT TTAGGTATTATGCAGATAACTCTGTCAGGTCCACAAAGTACACTGCTGCTACTTTCTTGCCCAAATCACTGTTTGAGCAG TTTAGGAGGGTTGCTAATTTCTTTTTCTTGGTAGCTGGGATCTTAGCCTTCACAAAGCTTGCTCCTTATACAGCTGTCAG TGCTATCCTTCCTCTGTGTCTGATCATTGGGGGAACTATGGTGAAAGAGGGTATTGAAGATTGGCGTCGGAAAAAACAGG ATATTGAGGTGAACAACAGAAGAATTATATTGCATAAAGGTGATGGCATCTTCGATTATACAGAGTGGAAGAATCTGAGG GTGGGCGATATAGTGAAGGTAAAGAAGGATGAATTTTTCCCTGCTGACCTTCTACTGCTTTCATCTAGTTATGAGGATGC AGTCTGCTATGTTGAGACCATGAACTTGGATGGGGAGACAAATTTGAAGTTAAAACAAGGATTGGATGTAACTTCTTCCT TAAATGAGGACTTCAATTTCCGTGATTTTAAAGCTACTGTCAAATGTGAAGACCCGAATGCTAATTTGTACTCATTTGTC GGGAGCATGGAGTTTGAAGGGCAAAAGTATGCCCTTTCACCTCAGCAACTTCTTCTGAGAGACTCTAAACTTCGTAATAC AGAGTACATATTTGGAGCAGTCATCTTTACCGGTCATGACACGAAGGTTATTCAAAATTCCACCGATCCCCCTTCAAAAA GAAGCAAAATTGAGAAGAAGATGGATAAGATTATCTACTTCTTGTTTTGTGTTTTATTTCTAATTGCATTTATTGGATCT ATTCTCTTTGGCATTTCAACTAAAGATGACCTGGACAATGGGTTGATGAAAAGATGGTATCTAAGACCAGATGATTCCAC CATTTTCTTTGATCCAAAAAGGGCAGCTGCAGCTGCTATATTTCATTTTTTGACAGCCTTAATGTTATATAACTTCATCA TTCCTATCTCATTGTATTTCTCAATTGAAATTGTCAAAGTCCTCCAAAGCATCTTCATCAATCAAGATATCCATATGTAC TATGAAGAAACAAACAAACCAGCTTATGCACGCACTTCAAACTTGAATGAGGAACTTGGCCAAGTTGACACTATACTTTC TGACAAAACTGGAACTCTGACCTGCAACTCAATGGAGTTCATCAAATGTTCTATTGCTGGGGTAGCTTATGGCCGTGGTG CTACAGAGGTTGAGCAAGCCATCGATAGAAGTAATCGTTCACCTATTATTCATGAGCATGCTAATAGTTTTGAATCAGAA TCAGAATCAGATGCAATCAGAGAATCTCCTGATAGAAAAGAATCCATCAAAGGTTTTAACTTCATAGATGAAAGGATAAT GAAGGGAAACTGGGTTAATGAGCCTAATACAGATGTTATACGAAAGTTTTTCCGCTTATTGGCAGTCTGCCATACTGCCA TACCAGAAGTGGATGAAGACACAGGAAATGTCTCATATGAAGCAGAATCACCAGACGAAGCAGCATTTGTTATTGCTGCA AGAGAAATTGGTTTTAAATTCTACAATAGGACTCAAACTAGTTTGTCTATGTATGAATTCGATCCAGTTTCTGGTGATGA AGTTGAAAGGACATACAAGCTTCTCAATGTTTTAGAATTCAATAGCTCAAGGAAGCGAATGTCAGTGATAGTGAAAGATG AAGAAGGGAGGATTTTGCTTCTTTGTAAAGGTGCTGACAGTGTCATGTTTGAAAGACTTGCCTTGAATGGAAGGGAGTTT GAAGAGAAAACTTTGGAACATGTGCGTGAATATGCTGATGCAGGTCTAAGGACCCTGATACTGGCCTATCGCGAGCTTGA TGAAGAAGAATACAAAGAGTTTGATAATATGTTTTCTGAAGTAAAAAACTCAGTTACTATAGATCGTGAAACACTAATTG AGGAAGTATCAGATAAGATCGAGAGGAATCTAATCCTTCTAGGTGCCACTGCTGTGGAGGACAAGCTCCAAAATGGGGTT CCTGATTGTATTGACAAGCTTGCTAAAGCTAGAATTAAGATATGGGTTTTGACGGGGGATAAAATGGAGACTGCCATCAA TATTGGTTATTCTTGTAGATTGCTTAGGCAAGGAATGAAACACATTACAATTCATTTGGAGATTCCAGAAATTCGAGCAT TAGAGAAGGTTGGAGACAAGATGGCTATTATCAAGGCATCAAGAGAAAGTGTACTCCGTCAGATATCTGAAGGCGCTATC CTTCTTTCTGAATCAAGAGGGACCTCTCAGCAGGCATTTGCTTTGATAATTGATGGAAAATCACTTGCTTATGCTCTTGA AGATAATATGAAGAACATGTTTCTAGAGCTTGCAACTCGATGTGCATCTGTTATCTGTTGTCGCTCATCGCCAAAACAGA AGGCACTGGTTACTAGACTGGTCAAATCTGGAACTGGTAAGACAACGTTAGCTATTGGCGATGGAGCTAACGATGTGGGA ATGCTTCAAGAAGCACATGTAGGGGTTGGAATCAGTGGTGTTGAAGGAATGCAGGCTGTTATGTCTAGTGATATTGCAAT TGCGCAGTTCCGATATTTAGAAAGATTACTTCTTGTACACGGACACTGGTGTTACCGAAGGATGTCATCAATGATATGCT ACTTTTTCTACAAGAATATCACATTTGGCTTCACTCTATTCTTATATGAGGTCTATGCATCATTCTCTGGACAGCCTGCG TACAATGATTGGTTTTTATCTTTCTATAGTGTTTTCTTTTCTTCACTTCCCGTGATTGCCCTTGGGGTCCTTGACCAGGA TGTATCTGCCAGGTACTGCCTCAAGTTTCCTATTTTATATCAAGAAGGGGTACAAAATATCCTCTTTAGCTGGCGTCGAA TACTCAGCTGGATGCTCAATGGATTCATCAGTGCCATAATAATATTCTTCTTCTGCACAAAAGCAATGGGGATTCAGGCC TTTGACGAGGAGGGAAGAACCGCCGGAAAGGACATGTTGGCGGCAACCATGTACACTTGCGTGGTTTGGGTTGTGAACTT GCAGATGGCACTCGCCATACGGTACTTCACCTTGATTCAACATGTTTTCATCTGGGGATCCATTGCTTTCTGGCATCTCT TCCTCTTGGCATATGGAGCATTGCCACCGAGCATTTCTACAAATGCTTACAAAGTCTTCATTGAAACTCTGGCTCCATCT CCATCCTTTTGGATTGTCACGTTCTTTGTGGCGATCTCAACGCTTATACCGTACTTCTCATGCTCAACGATTCAGATGTG GTTCTTTCCCATGTACCATGAAATGGTACAATGGACGAGGTACGAGGAGAAGACTAATGGTCCTGAATTGAATACTGTAA TACAATGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0194400.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGASGRRKLKLNFSKIYSFACGKTTFKRDHAQIGGYGYSRVVLCNEPDSSEEGFRYYADNSVRSTKYTAATFLPKSLFEQ FRRVANFFFLVAGILAFTKLAPYTAVSAILPLCLIIGGTMVKEGIEDWRRKKQDIEVNNRRIILHKGDGIFDYTEWKNLR VGDIVKVKKDEFFPADLLLLSSSYEDAVCYVETMNLDGETNLKLKQGLDVTSSLNEDFNFRDFKATVKCEDPNANLYSFV GSMEFEGQKYALSPQQLLLRDSKLRNTEYIFGAVIFTGHDTKVIQNSTDPPSKRSKIEKKMDKIIYFLFCVLFLIAFIGS ILFGISTKDDLDNGLMKRWYLRPDDSTIFFDPKRAAAAAIFHFLTALMLYNFIIPISLYFSIEIVKVLQSIFINQDIHMY YEETNKPAYARTSNLNEELGQVDTILSDKTGTLTCNSMEFIKCSIAGVAYGRGATEVEQAIDRSNRSPIIHEHANSFESE SESDAIRESPDRKESIKGFNFIDERIMKGNWVNEPNTDVIRKFFRLLAVCHTAIPEVDEDTGNVSYEAESPDEAAFVIAA REIGFKFYNRTQTSLSMYEFDPVSGDEVERTYKLLNVLEFNSSRKRMSVIVKDEEGRILLLCKGADSVMFERLALNGREF EEKTLEHVREYADAGLRTLILAYRELDEEEYKEFDNMFSEVKNSVTIDRETLIEEVSDKIERNLILLGATAVEDKLQNGV PDCIDKLAKARIKIWVLTGDKMETAINIGYSCRLLRQGMKHITIHLEIPEIRALEKVGDKMAIIKASRESVLRQISEGAI LLSESRGTSQQAFALIIDGKSLAYALEDNMKNMFLELATRCASVICCRSSPKQKALVTRLVKSGTGKTTLAIGDGANDVG MLQEAHVGVGISGVEGMQAVMSSDIAIAQFRYLERLLLVHGHWCYRRMSSMICYFFYKNITFGFTLFLYEVYASFSGQPA YNDWFLSFYSVFFSSLPVIALGVLDQDVSARYCLKFPILYQEGVQNILFSWRRILSWMLNGFISAIIIFFFCTKAMGIQA FDEEGRTAGKDMLAATMYTCVVWVVNLQMALAIRYFTLIQHVFIWGSIAFWHLFLLAYGALPPSISTNAYKVFIETLAPS PSFWIVTFFVAISTLIPYFSCSTIQMWFFPMYHEMVQWTRYEEKTNGPELNTVIQ

Download Protein Sequence

Domain prediction

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
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	80	80	-	–
PANTHER	PTHR24092:SF160 View details on PTHR24092:SF160 Search for proteins/transripts with this domain View external data on PTHR24092:SF160	10	1169	1160	0.0	–
PANTHER	PTHR24092 View details on PTHR24092 Search for proteins/transripts with this domain View external data on PTHR24092	10	1169	1160	0.0	IPR006539 Show description in modal box View details on IPR006539 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF16209 View details on PF16209 Search for proteins/transripts with this domain View external data on PF16209	44	108	65	4.0E-20	IPR032631 Show description in modal box View details on IPR032631 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF81665 View details on SSF81665 Search for proteins/transripts with this domain View external data on SSF81665	54	1150	1097	5.36E-57	IPR023298 Show description in modal box View details on IPR023298 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR01652 View details on TIGR01652 Search for proteins/transripts with this domain View external data on TIGR01652	57	1157	1101	0.0	IPR006539 Show description in modal box View details on IPR006539 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd02073 View details on cd02073 Search for proteins/transripts with this domain View external data on cd02073	59	1021	963	0.0	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	81	97	17	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	84	98	15	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	98	102	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	103	121	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	103	125	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	122	303	182	-	–
SUPERFAMILY	SSF81653 View details on SSF81653 Search for proteins/transripts with this domain View external data on SSF81653	145	285	141	1.96E-14	IPR008250 Show description in modal box View details on IPR008250 Search for proteins/transripts with this domain View on EBI InterPro Service
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	304	326	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	304	325	22	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	326	354	29	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	355	380	26	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	358	380	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	381	934	554	-	–
SFLD	SFLDG00002 View details on SFLDG00002 Search for proteins/transripts with this domain View external data on SFLDG00002	408	923	516	0.0	–
SFLD	SFLDF00027 View details on SFLDF00027 Search for proteins/transripts with this domain View external data on SFLDF00027	408	923	516	0.0	–
SUPERFAMILY	SSF56784 View details on SSF56784 Search for proteins/transripts with this domain View external data on SSF56784	421	927	507	1.15E-32	IPR036412 Show description in modal box View details on IPR036412 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00119 View details on PR00119 Search for proteins/transripts with this domain View external data on PR00119	426	440	15	5.8E-6	–
ProSitePatterns	PS00154 View details on PS00154 Search for proteins/transripts with this domain View external data on PS00154	428	434	7	-	IPR018303 Show description in modal box View details on IPR018303 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	472	492	21	-	–
SUPERFAMILY	SSF81660 View details on SSF81660 Search for proteins/transripts with this domain View external data on SSF81660	499	708	210	2.14E-23	IPR023299 Show description in modal box View details on IPR023299 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF13246 View details on PF13246 Search for proteins/transripts with this domain View external data on PF13246	530	632	103	6.3E-11	–
Gene3D	G3DSA:3.40.1110.10 View details on G3DSA:3.40.1110.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.1110.10	543	707	165	2.3E-21	IPR023299 Show description in modal box View details on IPR023299 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.1000 View details on G3DSA:3.40.50.1000 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.1000	708	912	205	5.9E-55	IPR023214 Show description in modal box View details on IPR023214 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR01494 View details on TIGR01494 Search for proteins/transripts with this domain View external data on TIGR01494	844	954	111	1.4E-31	IPR001757 Show description in modal box View details on IPR001757 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00119 View details on PR00119 Search for proteins/transripts with this domain View external data on PR00119	872	891	20	5.8E-6	–
Pfam	PF16212 View details on PF16212 Search for proteins/transripts with this domain View external data on PF16212	900	1150	251	2.0E-79	IPR032630 Show description in modal box View details on IPR032630 Search for proteins/transripts with this domain View on EBI InterPro Service
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	933	955	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	935	952	18	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	953	963	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	964	984	21	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	965	984	20	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	985	1016	32	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	1017	1039	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1017	1041	25	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1042	1052	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1053	1075	23	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	1054	1076	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1076	1081	6	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1082	1101	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	1083	1105	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1102	1120	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	1120	1142	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	1121	1141	21	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1142	1175	34	-	–

Gene function (GO predictions)

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0000166 View details of GO:0000166 AmiGO InterPro QuickGO	Molecular function	Nucleotide binding	Interacting selectively and non-covalently with a nucleotide, any compound consisting of a nucleoside that is esterified with (ortho)phosphate or an oligophosphate at any hydroxyl group on the ribose or deoxyribose.	Subterm of View details of GO:0036094 View details of GO:1901265
GO:0000287 View details of GO:0000287 AmiGO InterPro QuickGO	Molecular function	Magnesium ion binding	Interacting selectively and non-covalently with magnesium (Mg) ions.	Subterm of View details of GO:0046872
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0015914 View details of GO:0015914 AmiGO InterPro QuickGO	Biological process	Phospholipid transport	The directed movement of phospholipids into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. Phospholipids are any lipids containing phosphoric acid as a mono- or diester.	Subterm of View details of GO:0006869 View details of GO:0015711 View details of GO:0015748
GO:0016021 View details of GO:0016021 AmiGO InterPro QuickGO	Cellular component	Integral component of membrane	The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane.	Subterm of View details of GO:0031224
GO:0140326 View details of GO:0140326 AmiGO InterPro QuickGO

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0194400.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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