Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0463500
Transcript ID	LotjaGi1g1v0463500.6
Related isoforms 7	LotjaGi1g1v0463500.1 LotjaGi1g1v0463500.2 LotjaGi1g1v0463500.3 LotjaGi1g1v0463500.4 LotjaGi1g1v0463500.5 LotjaGi1g1v0463500.7 LotjaGi1g1v0463500.8
Lotus japonicus genome version	Gifu v1.2
Description	Kinesin-like protein; TAIR: AT1G01950.1 armadillo repeat kinesin 2; Swiss-Prot: sp\|Q9LPC6\|KINUB_ARATH Kinesin-like protein KIN-UB; TrEMBL-Plants: tr\|K7LGB2\|K7LGB2_SOYBN Kinesin-like protein; Found in the gene: LotjaGi1g1v0463500
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:96857226..96868729) extracted from Lotus japonicus Gifu genome v1.2.

GATTTTGGTAATAATGATGGTGAAAAGGCCACAGAGAAGTTCATCGCATGATGAAGTTATAAGGTTTAAGGTTCCTCAAT GGTCATTAGCCAGTATGTCTAGAGATTCTAGATACGTTAGGGTTCAAGGGTTTAGTTTCTGCGAATGTCGTTATAATTTG TCTTTTTTATTTTGCATGAAAGCCAATTCTTGAAAGTTGAAACTAATCTGACTCTTAGATTCTTTTTCTTTTTTATTGTG CTTTCTGGTATGGAGGAGTTACTTCAACTTGCTATCTTATCTTTTTTGTGTACTGTTCAGTGCTTGGAAGAGTTCGAGTG GCCGTAAGATTGAGACCAAGAAACGCTGAAGAAATGATGGCTGATGCTGATTTTGCTGACTGTGTTGAAGTACAGCCTGA GGTGCATTTTATTTGATTAATAACTGTCAGGAATTTCTGTTTTTCGTTGATTTTCTTGGGTTGTTTCATGCATTACACTT GTTTGATGTTTAATCTTTTGTGTTTTTGCTCTCCTTCAGCTTAAAAGACTGAAACTTCGCAGGAATAACTGGGATTCAGA CACTTATGAGTTTGATGAGGTGCTTACCGAATATGCATCACAGAAACGTGTCTATGAAGTTGTGGCTAAGCCAGTTGTGG AGGTCTGTTATAATGGTGCACATCTCATGAACATCCTTTAACGAGCTATCCCTTTCCATTTGCTACTTTATGTTGGTGTT ATTTATGATTTGATAAACATCTGTGCTATTTTGATACACAGTATTCATCCCTACATTGTCATCTCTTTTTTATGCTCTGT AGCTTAACATGTGATTGATTTCTGGTTGCTTAGAGTGTTCTTGATGGTTATAATGGGACTGTGATGGCTTATGGTCAAAC TGGAACGGGGAAAACTTTTACTCTTGGACGACTGGGGGAAGGAGACACCTCTGATCGTGGGATTATGGTGCGTTCCATGG AGGATATTCTTGCTGACTTGTCTCCAGATACTGATTCTATTACTGTCTCATATCTGCAGGTTATATTCATATTACTATGT GCTTTACTGAATTTTGCATCATATCCATTGATTTTTATCTTCTAGTTTCTGTTCTTTTTATGCCCTATTTTATTTGATCA TGAAAGAGTTCTTTATTTTACGGAACACTTCTTGGCCATTTTAATTTTGTGAAAATTTTAACTCATTTTGTCTGACATAA CATAAATGTGCAGCTTTACATGGAAACTCTCCAGGACTTGCTTAATCCAGCAAATGATAACATTCCTATTGTGGATGATC CAAGAACTGGCGATGTATCCTTGCCTGGGGCAACTATTGTAGAAATCAGGGACCAACAGAGTTTTTTGGAGTTGTTAAGT GTAGGAGAAGCTAATCGAATTGCTGCTAATACAAAATTGAATACTGAATCTTCTCGTAGTCACGCTATTCTGATGGTGAA ATAAGAAACTATGTTTGTTTACCTTTTATATTTTTATTTATCTCAATTCAAGAAATCCAGTTAGCTACTGATTGCCATTT CTTAAGAATAATAGCCCATCTTGATGAAGTTATATTTTCCCATACTATCATACAGGTTCACATTAAAAGGTCTGTCATAG AAAATGAAGATATTGTATCTAGTCAAAATGGCGATACCTCTCACTTGATTAAACCTTCAAAACCACTTGTTCGGAAGAGC AAGTTGGTTGTGGTAGACCTAGCAGGTTCAGAGCGTGTCCATAAGTCAGGTATATACTGAATTTCAGAGCACGTCATGAA TCGATTATTCTTGCATGAGTGGCTTCCTGAAGAAGCATTGGTTATGTATGCATGCATGCACTATGATGTATTCTGATGAT CTGTTGCAGGAGAATATGGTTATCGCTAGAACTTTGCTTGCCATTTTTTATTCTTACATTTTAAAAGCTTGAGTAATTGA AGAATTAACAATGTTAAATTACTATTATTTGGAGTTGAATGCTTTGATTATAATTGTTTGATGAACCTAATTTTGTTACT TGTACTTTTGTCAATGGGATCAGTTATCTTTTGTATGAATAATTGTTAATTTACACAGTTCCTTGAATGTAATAATAAAT AAGGGCCTCCTACACTGGGTGATACGCATCCAAAAGTATTTGGTAATTGTTGTGCATTTTTTTGTATTTGTTATTTTCTG GAGATTTACACTGCTAAGTGCTAAATGGTGTTTGGAAACATCTAATGAGGTTTTTGGTTTGTTTTCTGTTTTTATTGTCA GGTGATTTGGTTTTACTAATTATTATGAACATTGTCACTTTATTTCCTGTATTCAAGATTTTATTGAGGAAATGGTGTAA ACAATTTTTACTTCATTTGTTTTTTGTTTTCAGGTTTTGTGAATGGTAGCTTTCACCAATTTCTTCATAGAATCTTGACA AAAGGAAAAATGAAAACAATCTAGCATTTTTATAATTAATATTAAAAATTAAAGACAGAAAATATTAATTGAAATGAAAA CTGAATTCAAATCAACCACCCTTTAATATATCTTGTATCTTGCCTTTTCAAAATTTGTAAGTCTATTCAGTGCTGGTCCT TGTCTTTATTAGAGTATACTACTCGTGTTAAGTAAAGCTACTGTTTGTAGCTGAGTTAGTGTGTTAGTTATGCTTGCTTA GCTGTCAAGCCTAGCTGGCATAACAGAATTTAGAGTTAGTTGTTAGAGTTTGTTAGAACTGTTAGCTTGTTCATCAAGCT TCATCTCCTTCTATAAATACTGTACTATGGTTCATTGTGCACTATCTTGAAATGAATGAGAATTAGATTTACAGAGTTCT GAGTTTTCAACAGTCTTAACTTTAAGTGGCTACGAGCTTCTGTTTAAGTTGGTATGTGCTGAAACTTTGCTTCTTTTCTT TTTCCTTTCCAGGAAGCGAGGGGCACATGCTAGAGGAAGCTAAATCTATCAACCTTTCACTTAGTTCACTGGGAAAATGC ATCAATTCTCTAGCAGAGAACAGTGCTCATGTTCCATTTCGTGATTCAAAGCTTACACGGATGCTCCGAGATTCTTTTGG CGGTAAGTTTCCTTAATCTGTTTTTTATTAGTAGCTTTCAGTTCTTTAATGAAGTGATCCAGTATTTTGGTTAGATGTCA TTTATGGTGATTGGTGAAGTTAACTGGTTTCTTAAATCCTTGGCTGACATATTTACTGTATCTTTCTCAGTCTTTGCAAC ACATGCCGTTATTCTTAAACTTTATTCCTATCTGTTGAAGGCTTCAGTGGTTTTGGTTGTATTATTCCCTGCTTGATGTT TTCCAATAATTTGCAGGTACTGCTAGGACTTCATTGATTGTGACCATTGGCCCATCCCCACGTCATCGAGGAGAGACTTC TAGTACCATATTGTTTGGTCAAAGGGTCAGGTTTCATAACTGAGTATCTGTTTTTTAATATACAGTTCCTATCTTTCCAA TATGCTTAAATGTCATTTTTGAATTTATATCCCTTCATGCCTGTTTCACTGTGTATTTGTTTTAATGTAATTTGATATCA GTTTTGAAAAGTATTTTGAAAATCCTTTCTTAGAGATATCGTGTCACAGGTTGTTATTTAGTGCATTTGTTTGATGATTT TAGAGATTCTGTACCTGCCTCCTTGTGTCACAGCATTAATATAACCTTGCTGGTGGTGTGGTGGTCTCTAAATTTGCTCA TTCTATCTTCATTCGTGATTGTTTATTTCAGCTTTTTAGAAAAATACTGACTTATTTTTGACAGCTTTTTGAGATAGCTT TTAAAAAAGGAGAAAGTTTCTTGTAAAATCATTTCTAAAATGTGCATTCATAATTAACTCATCACAGGTTTTGATTGACT TGTTACTGACATTTTATCTTTTTAAGCATCTCCTCCTCCTCTCCCTCCCCCTTATGACTATTAATTCAAATGAAAAGTTT TGTTAACAATTGGTATGGTTGGTTGTGAGTGAAAGATAAGTTAATGTGTGTTTTTTTGTCTCAGGCTATGAAAGTTGAGA ATATGCTCAAAATAAAGGAGGAGTTTGATTATAAAAGCTTGTCTCGAAAGCTTGAAGTACAATTAGATAAGCTTATTGCA GAAAATGAAAGGCAGCAGAAAGCTTTTGAGGATGAAGTTGAAAAAATAAATTTGGAGGCACAATGTCGTATTGCTGAGGT TGAAAGAAACTTTGCAGATGGTTTAGAGGTTTGTCTTATCATCTATATGAAAGTAGAACTATCCTGACTGCATTTAAGTC TTCTGTTTTTCACAGTGTTCTATGGTGTCACTAATCCATGTAGCTGAACCCACCCAGTGGAAAAAGGCTTTGCTTTAGTT GTTGCTATTAAGTCTTCTAGGTTTGAAATATTTTGTAAGCACTATGCATAATAATGTACAGATGAGTCTTTTAGTTGTTG CTAAAGTATGTGATGCATGATCTCTCAAATTAGGTCTCTCAAATTTTAATAATATTTATGGATTGAGTATACTTACTCAA TCTTCTAACAGAAGCTAATCTAACTATAGTTAAACCGAGTACCCAACTCTAACAAACATTTAACTATAGTTGGGCTGGTT CTAACTAACTAAGCAATACACTTCTAACATGGTGTTGTTCCAGCCTCTCAGTGCTGTGAACAAAACTTACATGCAACATA GTAATTTTGAGGTATGGCTTAGCTGAGCAGAGTCCAGGTCTTGTTGAGGAAGGATGGTTTCTGTTGGGTGTTGTTTTCAA AAGAAATTCCTAAGCCTGTGCTTTACGAGGATAAGAAATGATTTATCTAAAATAATGGGTTTCTCTGTGGCTTGAGTATT TTAAGTTTTAGGCATTTGTGTCTCATAGAACTAGACTGAATAATATTCTAGGATATAACATGTATTAATTTTTTTTAATG CTGTATAGTGCTCTGGGAATATGCCCTTCCAACTATTAAGTCCAAAAATGCTACATTATGTTTATTTAATTCTCATAATT ATCTATAAATGCTCTTTTAGATGCCCATTTTTTGCTATCCCTAGTTCTCTGCATTGTATTCTGAAGCAGAGATTAGGCAT GGTGCAAAACCTTTATGTTATATTCTTTTGAAAGCCTGCATTACGAAAGATGCTAACTTAAGTTTTTTTTTTTTTTTTAA ACATCTAATATTTTCCCAATTTCTCACATGGAGTTGTATGTTTGTACCCTGTAGAAAGAGAGATTGAAATGCCAGATGGA GTATATGGAATTGGTAAAGGAGCTGGAGCAGAAGTTGGTGTTGAATCAAGGAAGAAATGACCGAAATAGTTTTGTGGCTG ATAGTGGAGAGGTATTCCTTTTTAAACAGTATTACTACTCTACAAATCTTTGAGATGGATTAATTTGCCATTCCTTTTTA TTTATTGATGAGGTTTTGTTTGAGATATTATCATCTGTTACTGTTTCCTAATTTATATTTTTTTTAGAATGTTAGGTGTA TCGTAGGTTCATGGGCCAATTCTTGATTATTTTCTTTCATAGTTTTAGTGAGAGTCAAGAACCTAAATTCCTAGTTGATG TGATGTGTGAACCATGCTACTCTTTGGTGTAATTGGTTGGAACGTATGTCATGTATTTTCAAGGAGGTTTCTATGGAACA ACACTTAAGATAGGTGTTTAGTTTCTCTTTGGTTTAATTCATATTGGCGTTCTAATGGAGTTTTTCTAGCATATGTTTGG AATTGGGTGGCTCTGTTCCATCTTCTCTCTCTTTTAGTGCTTTTCTGTTTGTTATTTTATCATGGAGGATTGTTATCCTC CCTTCTCTTTGCAATTCTTTCTCTTCACCTTATTAAATTCTTTTATTAAAAAATGATTGAGTCAGGCTGTAAATAGGCCT TGGAGTTAATATGTTTCTATACTAAATCATATTGACACTCTAACTTCATATCCCTTTAGGCTAGTTTAGCTATAAATAGA TCGTGCTTATTAGGAGTTGATAGGTTAGCCTGTTAGGGAGGTCGTTCAGGGCCTAGCTTGAATATGATTCGCCATGGTCT TGGCCCTATGGAGACATTTTTAAATTTTTAGCTAAAAGGGCTAGACTTTGCCATCCAAAAAGCATTTTCAGCATAATAGT CCACCTACTTAAGCATGTTTAAATATTAAATTATTGTCTTATTGGATTTTCTTGGTAATTTATTGAATTTTTTCATTTGT GGGCATTTTAAAGGCTTAGACCCTAAAAGAAGGCCTATGTCAAATAATTAGGCTGGAGCTAGACTTATGGTTGGGGGAAT AGGTCAGGCTTGACCTGAACCATTTCTACTCCTAATGCTAATATTTTTTTTTTGAAAAGTTACTCCTAATGCTAATATAT TAGAGCTTACTTTTGTTCCAGACTTTCAGTAGTATATCTAGTTATCTACTTTGTTGTTTTTAGAAAATTGAAGAATTCTC TAAAAGATGACAATGAGTTTGTGTTGTTTTATTTGGCTTATATATATTTCCTTGTTTTTGTCTTTCAATCTCCTATTTTC GTAATTTCTCAGTAACGTTATCTTCACTTAAACTGCCATGGCCTGTACTAAATTAAATTGTATAATCACCAATCTTCACT GGTTCCGTTGTGAAGGTTTATGTTTTGCCAATTGGCTTGTCAAATTAGTATATTCAGTGCCTTGCAGAGTTGTAGTGTTC CATTTACCTTTTCTTTCCCTCTCTTATTTTATTCTTTGGTACTTTTATATTTATCTGTTTACGTCTTTTTGGCACAGGGG CCTGCACAACCTTCTCCAAATGAACTTGCCGAGGTCAAAATGCTGCTTGAAACTGAAAGCAAGCGGAGAAAGGAGGCTGA AGAAGAGGTAAAACGTCTAAAAAATCAGCTGGGGATATATACACAAGCAGACGTGAGTTCCAGTTAAATGGCTAACCTCT CTGAATTCTTTATTTTTCAATCATGGATTTCGGGTATATTAGAATCTTTTTGGTGTACTAGGCAGGAGGGGATTTGGAGA CTATAAAGCTTCACAACATGCTGGAGGATGAAGTAAATCAGAAAAAGAAACTTGAAGATGAAATTATAATATTAAGAAGT CAATTATTGCAATTGACCTTTGAAGCTGACCAGGTATTTGTTTTATGTTGGGTGCTGACTGAGCCTGCAGCATGAACGTG AATAATATTAAGTTTTGCTTGAATTCTATTGATTTGCTTTGCAGTTATGTATTTGATAAAATGCATAAAGCTCGTCAATA TCTCTGTGTGTCAGTTATAGAAAGTTAGAAACTTCTTTAAACAAACATGAGCAAGGCACCAAATAGAGGTCATAATCATA ATCCTACTCTGAACTAATGTGAGTGCTGAAAGACATGCATTAAGTTAATAGCCTTTCCAACAAAATACACTAAAGATTTG CATGACAGTCCAACTGTTATTAGGACTTTTGAATTTCAAAACAACTTGAACACTAAATGAAGCAGCACCAGAAGCTAGTT TCTGAGTCTATCTTGACACATTTTTATTCTAAAGCTCTTCAAAAAGTTCCATTAAAAAGAAGATTGGCTAGCACGTTGAA ATTTGTAGTGATTATGGGACCAAGGTTGTTTGGTCTCTCCTTAGCCTCTAGCTGCAAGCTACCTTATGTTCTTTTCAGCA TCACTTTGATACAGTATGGTTTAATGTTATGACAACAGATGAGAAGGTGTTTGGAAAGTGGAAGCTCTGGGAGCACATTT TCCGCCATGGATTCCTCCATGACACAGGTTAGGCATTCCCAATTCAAAGACACTGGGAATGGTCAGAAGTCATCTGTTGC TACACTCTTTGAGCAAGGTACAAGTTGTTTTTAGTTATAATTGAAACATTACAACATCTGTGTGTATATGACTTGCATTA TTTTTACAGTTGGATTGCAAAAGATTTTATCATTGCTGGAGTCGGACGATGCCAATGTACGAATTCATGCTGTGAAAGTG GTAGCCAACCTTGCAGCTGAAGGTAGATTCTAAAGTCTTCTTAAGCATCGGTTTTTGGATCATCTATTTCTACTAACTGT TTGCTGATGTTTGGCCAGCAAAATCTTCAATAAAATTCAAGCTTTTATGGTAGTGATACTAATGAATTTTATACTTGATG CATTATGTTAGGATTTGGTTTAGTTTATGTCTATCTTTAGATAAAGAAAATCTTTTCTTTTAGGAGTTTATATTTTATTT TAGGAATTATCTTTTGTTTTGGAAATCTATCTTTATTTCTTAGGGGATAAGTCTAGGATTAGTCTATTATAAATAAGTGC CCCCTCATTAGGTTAGGGTAAGTTTTGATTATGGAGTTTAGTGGAAGGTTTTTACCTTTGTAAGAGTCCCCTGTAAAAGA AGGATTTCCTTCTTGTGTCTTTTATTTTCCAGTACATATAATAAAAATACCAAAAAATTACTTTTTTTATCCTAATTCCT CCCTTGCCCCTGTTTGACTGTCTGAGTTAATTTCCAAACCCTAAACAATTTGATCCAACCTGGCCTCCTATCCTCTGCAT CTACCACACCGCATCACCCACTTCCCCAGTCGTACTGCTGCCGGACCTGCACCACCGCCACTGCCGCTCTCGCCCACCTC TGACGATGTCCAGGCTGCCGCCGAGTCAGACAGCCGCCGCCGCTGTTTTCTTGACCAGATTTGCATGTTTTTCTGTGTGA TTTTTTTAGGTTTGCACCTGGATTTGGCTGCCCGCTTCTGGGCCCATCTGGGGTTGATTTTTCCCTTCTTTTTGCTCTGA TTTCGCCCCATACATGTTGACCTGCTCCTCTGATTCGCACACCTTTCTTGTGTGACCCGTAGTGCACCATGCTTGTGTGG CTTGCTCTTCTGTTTTGCGCCCTCTTCTGTCTCAGTTTCACACCCTACTGTTCGGGCTCTATTTTCTATGGGCATCCAGA TCTGTGCGCCCACAACGACACATCTTCGTTTCTTTCATTTTGTTCTGGTTTTGGCCGTCATGGAGGAAGCTTTTCAGGAT TTGGAGGTCGAGCTTCCAGTGTTTGAAGGGGTGGATCCGGTGTCTTGGATCGCTCGGGCGGAGGAAATCTTTGAGGTACA CCATGTGCCGGAGGGAGAGAAGATGCAATTGGCATTCCTTAGCATGAAAGGGGAAGCCACTCATTGGTTTCATTTTCTCT GTTGCCATACTCTCGATCTTACTCGGAATTCATTGATCCCACTTTTGCTCAACGTTTTGGTGACGGTAGCAATAGTAATG TTTCCGACAGACTGAAAACTCTCAGACAAAGAGGTACCGTTGACGCTTATGTGCGGGAATTTGAAGCGTTGGTGGCCCAA ATTCCCAATCTTTTTGAAGTTCAGTTGTTGGGGTGTTTTCTGGGGGCCTCAAATGCTCAGTCTTTCATAGTCTATGCTCA TGTATTTGTAATTTATCTCACCCTATGTTTGAATGAATGATTTTAAAATTTTCAAGACTTGAATTTGACATATTTTAATT GCTGGTATTTATAAAATATGTTGTTTGGATACTGACTATGTAGTAGTGGCACAGTAGTTGGTTGGATTTTTGGGAGAAAG AAAAGATGGAGGATTTTCACAATTCCGTCTAATATGTTGAATTTCAAATTCCTTGTTGAGTTAAAAAAAGTCCCTATCAA AATACATAGTATTCTCAAATTCTTTCATTAGATATCCAAACAAGTTATTTTACTGTAAGTCATTAAAAATTCTCTGTACA AAGGCATTAGTTCCTAGAAACACTTATCCAAACACACTCAATGTATATGCAGAGGCTAATCAGAAGAGAATTGTTGAATC TGGCGGTCTTACTTCCTTGCTGATGCTTCTTCGAAGATACGAGGATGAAACTGTTCGGAGAGTAGCTGCTGGGGCAATTG CCAATCTTGCTATGAATGGTGATGTAGATAGTACCCCCCCCCCCCCACCCCACACCACGCACACACCCAAAAAAATTAGA TAACATGATGATCTAGCTTCAGACTTCGGTAACAGTACAATTTGTTTGTGGTTGTGCATAATTAGTATTGATATTGTCTT GCCTTCTTTTGTGGCAATTCAGAAGCAAATCAAGAACTCATAATGGCTGAAGGAGGAATTACTCTGTTATCAATGACTGC ATCTGATGCTGAAGATCCACAAACTCTTCGAATGGTTGCTGGGGCAATTGCTAACCTATGTGGAAATGGTATTTTCATTG TTTTCTAGTCATTCATGCCACTAAATGTCTGAGTTAAATTTATTGCCTACTAAAACAACTGGGAAGACACATCAAGTTGG TGATGTACTAATAATTAGTCTAATTTTGATGCCATGATTGGCCAGTGACCCTGAATGATATACACTGTCCTTGTTGGTAT CCTTTCTTGTTTCTTATTCTGATACTGCTTCAACGTAATTTGCCTGTTCAATGGGATTTATTTTGCATAATTTTGCAAAG TAATACCATATGCAAAGCTGAAGCGTTTCTTTGACTTTTCTATTTTAGAGATAAAAGAGTATTATTTCGACTTTCTTTAT GAAATGTGTTAGGTGAGTCATCATGTTATATTAAACCTTTGTGCTAGCTTCGTGCCAATTTTGTTCATTCAGTGTATCTG TCAACATTTAAGTTGTATTCGATGATGGTGCTTTTACTTGTAGATTTTACATTTGAAATCATTATTTTCATGTTTCCATT AATGGATACCTTTTGTCATTTATTTATAATGTTGTCTTGTTCTTTGTCCAGATAAAATATTGATGACTCTAAGATCTCAG GGAGGTATCAAGGCTTTACTTGGAATTGTAAGATGTGGGCATCCAGATGTTCTCTCCCAAGTTGCACGGGGAATTGCTAA CTTCGCAAAATGCGAGTCTCGAGCTTCTAATCAAGGTCTACTTCACTTCCTCCTTAATATTTGTTTCTCATCAGTAAAAA TGTTGAAAGTGTAGATGTTAAATTAGGTAGAAAATGGACAAAGTTGTTCCTCGGCTACTGTCACCAAAATGTCAGTCCTG CATTGATTTACATTAACTTGAATTCCGTGTTCCTAAATTCTGCAAGCCATTGCAGCCAAATTGTTCACTCACTCCTTGTG AAGCCATTGAAAATATTTATAGTGTCAGAGAGTAGCTAAAGAGATAAAGAGGTTTAGTTTGACGCCTTATAATTACATTT TGCACTCAGGGATAAAAAGTGGCAGATCTATTTTGATAGAAGATGGTGCACTTCCGTGGATAGTACAAAATGCTAACAAT GAAGCTGCACCAATCAGGCGTCACATTGAGCTTGCACTGTGCCACTTGGCCCAGCATGGTAACGTGACTTCTCATGATTG TTTTTCAGTTTTTCGAAATACATTATTGAAAAATTTCAAACAACTGAGGTATAAATATTGCAGAAGTGAATGCGAAAGAC ATGATTAGTGGAGGTGCCCTCTGGGAGCTTGTCAGGATTTCACGGGATTGTTCACGAGAGGACATACGGAGTCTTGCGCG TCGGACTCTCAGTTCTATCCCTCCATTCAAAGCAGAACTCCGGCGGCTGCGTGTAGAATATTGA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0463500.6) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAAAGTTGAGAATATGCTCAAAATAAAGGAGGAGTTTGATTATAAAAGCTTGTCTCGAAAGCTTGAAGTACAATTAGA TAAGCTTATTGCAGAAAATGAAAGGCAGCAGAAAGCTTTTGAGGATGAAGTTGAAAAAATAAATTTGGAGGCACAATGTC GTATTGCTGAGGTTGAAAGAAACTTTGCAGATGGTTTAGAGAAAGAGAGATTGAAATGCCAGATGGAGTATATGGAATTG GTAAAGGAGCTGGAGCAGAAGTTGGTGTTGAATCAAGGAAGAAATGACCGAAATAGTTTTGTGGCTGATAGTGGAGAGGG GCCTGCACAACCTTCTCCAAATGAACTTGCCGAGGTCAAAATGCTGCTTGAAACTGAAAGCAAGCGGAGAAAGGAGGCTG AAGAAGAGGTAAAACGTCTAAAAAATCAGCTGGGGATATATACACAAGCAGACGCAGGAGGGGATTTGGAGACTATAAAG CTTCACAACATGCTGGAGGATGAAGTAAATCAGAAAAAGAAACTTGAAGATGAAATTATAATATTAAGAAGTCAATTATT GCAATTGACCTTTGAAGCTGACCAGATGAGAAGGTGTTTGGAAAGTGGAAGCTCTGGGAGCACATTTTCCGCCATGGATT CCTCCATGACACAGGTTAGGCATTCCCAATTCAAAGACACTGGGAATGGTCAGAAGTCATCTGTTGCTACACTCTTTGAG CAAGTTGGATTGCAAAAGATTTTATCATTGCTGGAGTCGGACGATGCCAATGTACGAATTCATGCTGTGAAAGTGGTAGC CAACCTTGCAGCTGAAGAGGCTAATCAGAAGAGAATTGTTGAATCTGGCGGTCTTACTTCCTTGCTGATGCTTCTTCGAA GATACGAGGATGAAACTGTTCGGAGAGTAGCTGCTGGGGCAATTGCCAATCTTGCTATGAATGAAGCAAATCAAGAACTC ATAATGGCTGAAGGAGGAATTACTCTGTTATCAATGACTGCATCTGATGCTGAAGATCCACAAACTCTTCGAATGGTTGC TGGGGCAATTGCTAACCTATGTGGAAATGATAAAATATTGATGACTCTAAGATCTCAGGGAGGTATCAAGGCTTTACTTG GAATTGTAAGATGTGGGCATCCAGATGTTCTCTCCCAAGTTGCACGGGGAATTGCTAACTTCGCAAAATGCGAGTCTCGA GCTTCTAATCAAGGGATAAAAAGTGGCAGATCTATTTTGATAGAAGATGGTGCACTTCCGTGGATAGTACAAAATGCTAA CAATGAAGCTGCACCAATCAGGCGTCACATTGAGCTTGCACTGTGCCACTTGGCCCAGCATGTGAATGCGAAAGACATGA TTAGTGGAGGTGCCCTCTGGGAGCTTGTCAGGATTTCACGGGATTGTTCACGAGAGGACATACGGAGTCTTGCGCGTCGG ACTCTCAGTTCTATCCCTCCATTCAAAGCAGAACTCCGGCGGCTGCGTGTAGAATATTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0463500.6) extracted from Lotus japonicus Gifu v1.2 Proteins.

MKVENMLKIKEEFDYKSLSRKLEVQLDKLIAENERQQKAFEDEVEKINLEAQCRIAEVERNFADGLEKERLKCQMEYMEL VKELEQKLVLNQGRNDRNSFVADSGEGPAQPSPNELAEVKMLLETESKRRKEAEEEVKRLKNQLGIYTQADAGGDLETIK LHNMLEDEVNQKKKLEDEIIILRSQLLQLTFEADQMRRCLESGSSGSTFSAMDSSMTQVRHSQFKDTGNGQKSSVATLFE QVGLQKILSLLESDDANVRIHAVKVVANLAAEEANQKRIVESGGLTSLLMLLRRYEDETVRRVAAGAIANLAMNEANQEL IMAEGGITLLSMTASDAEDPQTLRMVAGAIANLCGNDKILMTLRSQGGIKALLGIVRCGHPDVLSQVARGIANFAKCESR ASNQGIKSGRSILIEDGALPWIVQNANNEAAPIRRHIELALCHLAQHVNAKDMISGGALWELVRISRDCSREDIRSLARR TLSSIPPFKAELRRLRVEY

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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
PANTHER	PTHR24115:SF857 View details on PTHR24115:SF857 Search for proteins/transripts with this domain View external data on PTHR24115:SF857	1	489	489	3.6E-244	IPR033291 Show description in modal box View details on IPR033291 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR24115 View details on PTHR24115 Search for proteins/transripts with this domain View external data on PTHR24115	1	489	489	3.6E-244	IPR027640 Show description in modal box View details on IPR027640 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	19	61	43	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	116	150	35	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	165	192	28	-	–
Gene3D	G3DSA:1.25.10.10 View details on G3DSA:1.25.10.10 Search for proteins/transripts with this domain View external data on G3DSA:1.25.10.10	224	331	108	2.6E-21	IPR011989 Show description in modal box View details on IPR011989 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00185 View details on SM00185 Search for proteins/transripts with this domain View external data on SM00185	232	271	40	26.0	IPR000225 Show description in modal box View details on IPR000225 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF48371 View details on SSF48371 Search for proteins/transripts with this domain View external data on SSF48371	236	485	250	2.27E-35	IPR016024 Show description in modal box View details on IPR016024 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50176 View details on PS50176 Search for proteins/transripts with this domain View external data on PS50176	242	284	43	11.742	IPR000225 Show description in modal box View details on IPR000225 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00185 View details on SM00185 Search for proteins/transripts with this domain View external data on SM00185	272	313	42	0.027	IPR000225 Show description in modal box View details on IPR000225 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00514 View details on PF00514 Search for proteins/transripts with this domain View external data on PF00514	275	312	38	8.0E-6	IPR000225 Show description in modal box View details on IPR000225 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50176 View details on PS50176 Search for proteins/transripts with this domain View external data on PS50176	283	326	44	14.822	IPR000225 Show description in modal box View details on IPR000225 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00185 View details on SM00185 Search for proteins/transripts with this domain View external data on SM00185	314	355	42	80.0	IPR000225 Show description in modal box View details on IPR000225 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.25.10.10 View details on G3DSA:1.25.10.10 Search for proteins/transripts with this domain View external data on G3DSA:1.25.10.10	332	495	164	4.0E-18	IPR011989 Show description in modal box View details on IPR011989 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00185 View details on SM00185 Search for proteins/transripts with this domain View external data on SM00185	356	396	41	1.9	IPR000225 Show description in modal box View details on IPR000225 Search for proteins/transripts with this domain View on EBI InterPro Service

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:0003777 View details of GO:0003777 AmiGO InterPro QuickGO	Molecular function	Microtubule motor activity	Catalysis of movement along a microtubule, coupled to the hydrolysis of a nucleoside triphosphate (usually ATP).	Subterm of View details of GO:0003774
GO:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	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).	Subterm of View details of GO:0005488
GO:0007018 View details of GO:0007018 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0006928 View details of GO:0007017
GO:0008017 View details of GO:0008017 AmiGO InterPro QuickGO	Molecular function	Microtubule binding	Interacting selectively and non-covalently with microtubules, filaments composed of tubulin monomers.	Subterm of View details of GO:0015631
GO:0032886 View details of GO:0032886 AmiGO InterPro QuickGO	Biological process	Regulation of microtubule-based process	Any process that modulates the frequency, rate or extent of any cellular process that depends upon or alters the microtubule cytoskeleton.	Subterm of View details of GO:0050794 Regulates View details of GO:0007017
GO:0048364 View details of GO:0048364 AmiGO InterPro QuickGO	Biological process	Root development	The process whose specific outcome is the progression of the root over time, from its formation to the mature structure. The root is the water- and mineral-absorbing part of a plant which is usually underground, does not bear leaves, tends to grow downwards and is typically derived from the radicle of the embryo.	Subterm of View details of GO:0099402 Part of View details of GO:0022622

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0463500.6, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0463500.6