Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi5g1v0256700
Transcript ID	LotjaGi5g1v0256700.2
Related isoforms 4	LotjaGi5g1v0256700.1 LotjaGi5g1v0256700.3 LotjaGi5g1v0256700.4 LotjaGi5g1v0256700.5
Lotus japonicus genome version	Gifu v1.2
Description	Mitochondrial carrier protein; TAIR: AT1G14140.1 Mitochondrial substrate carrier family protein; Swiss-Prot: sp\|Q9XI74\|PUMP3_ARATH Mitochondrial uncoupling protein 3; TrEMBL-Plants: tr\|I3T406\|I3T406_LOTJA Uncharacterized protein; Found in the gene: LotjaGi5g1v0256700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr5:56542873..56554909) extracted from Lotus japonicus Gifu genome v1.2.

GAATGAATTTTTTTTCCGGTTATTTCTCGACATTGCTACAATAGAACGAGTACGCATGAGTTAGATTGTCTCACCATCTC CACACACCACGGGTCCAATTGTCTCAGGTAATTCTGTATCTTATTTCGGAATCCATCATACTTGATTATTGTTAAATTTG TTGATGTGATGTGATGTGTGGAAATTCGATATAAGCTTCACTTTGATTTTTAATATGCTATTTATTCAGATATTGGAGGA AATTTGTAGCTTGATTTATGATTCTCTCAATGTGTAGTAGGAATCATCATAGCCCAATTTCATTTTTCATATAATTTGGG TCATTCTTGTATGTAGTAGTACCCATGAAATCATCAGGCCATCAACATGGTGGAGTTGATAACACTCCCACAAAGCTTGT ACTGACATCACTGTCAGCAATGGTAGCTGAGACCACAACTTTCCCCATAGACCTCATCAAGACCAGGCTCCAACTCCACG GCGAGTCGCTTTCCTCGAGTCGTTCTACCGGTGCGTTTCGAATAGGTTTGCACATTGTTCGCGAACAAGGGACCCTTGGC CTTTACAAGGGCCTGTCTCCAGCAATTGTCAGACACCTACTCTACACGCCTTTTCGGATCGTTGGATATGAGCACCTGAG GAGTGTTGTTTCTGATGATAACGGGTCACTGTTTATCGTTGGCAAGGCTTTTGTTGGTGGAATCTCTGGTAGCTTGGCTC AGGTGAGAACTGTGTGGTCTGGGAATGTGGTTTATATTTCTGCAGAAAATTCTTGTCAATTTAGTCTTTTCTTTCAATGG ATGTAAGCGGAAACTTTGGTAATTGGTAGCTTATCGATTAAAAATGTTACCCATCAATGTTATAGTTAAAGGATAAGAAT CTAAGAATATATAGTTACAGCCTCTTGATTCTGAATTCTATTAATGAGATGTTCAATGATAGAACTTTATGCCTTCGAAG AACACCATCGCAAGATTTTTAGACTCATCAGTTCTCAGTGTTATACGATTGATTGATATGGTATCAGATGTAGCATGGCT TTTGTTGGTTTTTTTTACTGATGTTGATATTAGTTACTAGAATTTTAAGCCTAATTGGACTATCTAGGAGACTAATCAGG TTTATACATTGCATCGGCCTTGTCTTGGTCCTGGTTATGCATGTTTCTGGTTTGTCCTCTGACAGTTCCCCTCAAGCTTA AAGTATACTAAGCTAAACATAAGACAAATAACACCGCCCACCTCAACCAAGTAACTTCAGTAACTAAAAGCCTTTTAGAA AGGGAAAGAGATTCATGTATTGAACTAATAGGAAATCTTTCAAATTTTCCCACCCCAGTTGGAGAGGTAGAAGCAAAAGA ATAGGATGATGCTTTCAGCAGTTAGATACAAAAGTAGACTTTAGATACTAATGGATAAACAAATATCAAAGATAAATGAA GAAATATCTTGTTAGCATTATGTTAAAATAGGAAATCTTTCAAATATTCACACCCTGCAGACAGTAAAATGTTTTTTTTC TTCTTCGAGTAATCACTGTTTTATCCAGAAGGTTTTAATTAACGGCTCACTATTATTTATTTTTCTTTGAAAGTTACAAT GTTCTATTATTTACTCTTAGTGGTACAGATTGTAGCAAGCCCGGCTGATCTTGTCAAGGTGAGGATGCAAGCTGATGGCC GAATGGTGAGCCAAGGTCTTCAACCTCGGTATTCAGGGCTATTTGATGCTTTCAACAAAATTGTTCAAGCTGAAGGGTTA CAAGGACTATGGAAGGGTGTTTTTCCTAACATCCAAAGAGCCTTTTTAGTGAATATGGGAGAATTAGCCTGTTATGATCA TGCTAAACAAATTGTTATTAAAAGTAAAATAGCTGAGGATAACGTTTATGCCCACACATTAGCTTCCATCATGTCAGGTC TCGCAGCAACTTCTTTAAGTTGTCCAGCTGATGTTGTGAAGACTAGAATGATGAATCAGGCAGATAAAAAGGAGGGGAAA CTCTTATATAACAGCTCTTATGATTGCCTGGTAAAGACTGTTAAACTTGAAGGAATAAGAGCACTGTGGAAAGGGTTCTT CCCCACATGGGCAAGGCTTGGCCCATGGCAATTTGTGTTCTGGGTTTCGTATGAGAAGTTAAGAAAAGTTGCAGGGCTCT CTTCTTTCTAATATAATTTTTTATTTATACTGTGAGACATTCATTCATGATAAATTTACAATCCACATCTTCCAGAGTAC ACAACCTTATACTATAATTTGGAAGCCTTTCTGTAGGTATGTTTCCACCAAGTTCTACTTCTTTTCGACATTTTATTTAT ATTGCTATTATTCCCCTTAAGTTCCACCTCCCACAATGTTTGACATCTTTCACCTCCACCACCATTGGGCATCATTCACC ACCACCATTGCTATTATTCCTAAGTTCCACCTCCACATGATAAGTTCCACTAGTGATGGTTTAGGCTGTCAGGTTGCAAT GGAGGTGGAGTTTCGTGTGACGGTGTTGAGCAGTGGTGATGAAGGGTGCTTGGTGATAGTGATTGTAGTGGAAGGTGCCT AGCGGCAAGGGTGTTGTATGCCAATGATGGTTGATGGTGTGCGGCAATGATGGCAGTGGTTGGGATGTCAGGTGGTGGTG CTGGTGGAGGGTATTAAGCAATGGTAGTGGTTGGTGCCTAAAAGTAGTTCTGGTGGTTTGTCATGCGGCAGAGGTGGGTG ACATCAGTTTTGGAGGGTACCGAGTGAGATTCTAGTGAAGGGTGTTGAAAGATGGTGAAGGAAGTCAGACGACGATACCG ACAATGGTGGAGGTTGTTGCGTGGTGATGGTGATGGAGGGTGCTCGACTGCGGTAAGAGGTGTCAAGCAGCGGTCGTGGC GATGGTGGAGAGTGACAACGACTTTAGGTGCTTGGCAATGGTGGAGGGCAAAGTGGTGGTAGTGATGGTGGATGATATTG AGCAGTTGTGGTATGTTGGTCTTGGGTGTATACTAATTGTCTAATTCATTTAGTGGTTACCAAATTCAGAACAAAAAACA TTTTCAGGAGAATAATAAAATGTACCTTGCTTTAATTTTTTAAGGGACTATGTTCTTAAATTACATTTTCACCAAGTTTA GTTTCTTTAAAGAAATTTTTTGGTAGTGCTTATAATTGCAACAAATAATTCAATGAGTCATGTCATGTGCTTTTGTTTAG TCATTTGCCAATGTAGCATTTCCTACTTGTAATCTCAAGAAATAATTCCATTTGGTTGCACGTGCTCCATAAACCTTCGA CTTAGAAGATCTTATTTGATATAATCCAATGAACAACACTCCTATAAAACCTGTAAGGGACCTAAATAGGAAGAACTCAT CAACAATTCATGTACATGTAGCAAAAGGGACATTATACCCTTCCTTTGATTGTGCTTAATCCAAAGCCCAAACCTGCAGC AAGAATCCATGGAGGAAAGGGGGTTAATGGAAAGAAGTAACTTAGTTATATTATTATCATGATTTATGACTGTTATGATG ATAAGGGCCTAACCTGGATTTTGCCATCAGAGGAACCAACAAAAAGCATCATACCATCTACATCTGATACTAATGATGTA ATTTTTGTGTGACCACCAGCCATTTTGATGGAAGCAACCCGGGTAAACTTATCTTTCAGCCAAACCTCAATGGTGCCAAA TTTTGTACCAGCAAATATGAAGTCACTGTTGATGGCTATGCGATGAATGTCAAGCCCAGTTGAGAGTGATCCCACCACCA TTTTTTGGGAAAGTGAAAATATCTTACAAACATCAATTGAAGGGAAGAGTTAGTTTAACAATGAAGGATGCTTATTTATA ATGACAATGACTATGTTTGGATATCAGCTGGGCGTAAATGGGCGTTAGCACATATTTTAAGACAAAAACTGAATGAAACT TCTTATGAGTTGAGATGAAAATCCGTTTATGATGAACACTAGTATCCAAACACACACAATAACTTTGTCTTGGAGTTAGA ATTGGCATTTACCTTTCCGGCAGTTGCATCAACTGAAGAACCACAAGCAAAGAGGTAATCATCATGTATTTGAAGGGAGT GTATGGTTTGTTTCCCCAACAATTTTCTTGTACCAGTGAAGAAGGAATTTGATGTATATGTTGACAAGTCAACCTCCTGC CATATTCACCCCCATAACTTGTAAGGAAGATGGACAATTTCTAGAGAAACTTTTGGATGCATTGAAAGAACACATGGATC TTAACTGATAGATACCAACCAATAAGAAGAAGAAAACTGATATTATTCGAGTATATAAACTACAACGATGCTGAGTAATT TCAGAGTCTCAGCACCTTTCCTTGATTCGCAATTACAGATGATCCTAAAAGGTGATATTTTTCACTATCTATCTCTTGTT TATAATATTTCCTCTCTCACCCTCTAACTAACTCTCTCAAACTAACTAAAACTACCTCGACTGACTACCTAACAACTAAC TAGCTACGGTTACCTATCATTAACTCTTAAGCAATCTTTGTTGGTTGGTTACATCAGCTAAAGATTCTACAAGAACATGA AACAATGTAGGAAGATGGTTGCTTACCTGGATGCTGTAACCAGAGCAACCACAATACAGCTTGTCCCCAGCAACAGCAAG GCTTTTCACATATTTGCTGAAATTGATGAGCTTTGGAGCCTCTGACCAATTAAAAACCTGTAAATATCAAATTTTATTAA TTTTATCTTATGATGGAACTGGATTTTATGAGTTGATCAAGCAAAATGTTAAACTTGCCTTAACACCAGTTCCTTGAGAG ACATAGCATGCCAATTTATCATTGGCTGCAAGCTCATGCACTGCCTCCTTAATGTCATAAACATCTATACATTTAATACC ATCAGATTTAATTGTCCAAACCTGTGCATAAGAAGTATTAATCAGTTATACATATTCAATGCTCTATTAAAACACAGGAA ACACTAAGATGCAAGTAATTTGGGAAGTAAACATAAGGTAAGTAACTAACTACTCATAAGATTCACTCTACTATTTGTTT TGGTTAATTAAGAGTACATAACAAACTATAAGAATGCACTAGCTTTTTCTATGGTAAACAAACTCATTTCTATTTGCATA TTCCAGTAAACTTTATTAACAAATTTATTGCAGGAAAATCACTTTATTCTATGCTGGGAATGGATAATTATTTTCTTTTT CTCTTTATTCTATGCGAATTTATCTTGTAACAGCAAGAAAGTTTACCCTGATGGTTTTGTCTAAGGAGCCACTGTATAGT CTATCACCTGAAGAACAAAGAGATGTTACAGCTTTTGTGTGTTCATGAGTTTCTTGAATCACTCTTGGTATTCTCTTCCT TGCATCCCATACCTAGTAGGAAGATATCAAATGACACTGTTAGAAAAATTAGCCAGACACATGCACGCGACTATACTGTT TCTGATTGTTAGGACACTCTACCTTGATAGTTCCATCAGTGTGTCCACTCAAGACTTGACCATTCAGATAAACCATAGAA AGCACCTCACCATTTGAGCTCAAATCTAACTCAACAACTTCTTTACAACTCCACAATTCTGTCTATAAAATAGAAATTGA AATAGTTACTGTTCTAAATCAATACATCACATGTAATGAACCAGATCCTAAGTCACCATTCCACTTACCACATCGACAGA TTTTAAATTTAGTATGACTTTCATAATATCAACTGCAACCACTGAATATTTCTTCAGCCTCCTCAAGGTTCTATAGATGC TTTTAGCGTAAACTCTAAGAGCTTCATGAGTACCTGAAAAATTGACACTTTTCAAATTAGTACTCCTTTTTATAGTAACA CACACAGACAGTGTCTACAACTATTATAACAAACCTACTTGGATCACTAATGAATGTCTTCAAAGCTAGGGTAGCCAGGA TCTTCTCCTCCAAGTTCTTGGACGACTGAAGAACATTTATAACTTCTTCAAGCAAGGATTTGCGAGCAACATCCCTTACA CCGGTATCGGGAAGAGTATAGAGCATGTGTGTGAGCCATGTGGCTAGAACAAGGCATGACTTTGCCATCTTTAAGGAATT ACTTTTTAGGCATTCTTCCAAAGCCTTAAATATTGAACCATTTTCATGATTACAAAGCACAGATGCTATTCTTTTCTGCC AAGAGTTCAAAGCATTTTTTTCATCCTCCTATGTAAGAAAATTTTGTGTTAGTATGGAGAAAAGTCAGTTATCAACCAAA TCCAAAACAACAACCAAAATTTCACAAAGTCCTATACCATTGTTTCTATCAAATCATTGTCATGCTGTCCTAACTGCTCG ACCTTCATTAAAGCATTGTAAGGTTGATCAAATCCTGCAATCTTGAGCAACCAAGCTTCAGTGTATGACTTTCCGGAGGA AGAGATGTGTCCAATAAGAAATAGTAAAGCATCTAAAGCCTTCATTTGGGTATTTGAGAAGTCTTTCTGCCAAAGTGCTT CTATCAGAGTCTCTACAGCTTCTTCCCTGTAAATGCTCATCTTTCGTGGCTCAGCCTGAAGATTTAACCAGAACAAGAAA TATATTTAGGTTTTGTTTTCACATCTAATAGAGAGGGGAATAAAATGGAATAAGATGGCATGAAATGGAAAGGAATGGAA TGAAGTAGTAGAGCTACCATTTCATTATTTGGATATTTGAATGAATTAATTGAGAAGAAAAAAAATACTCCTTTTCATCA CATTCTGCACAAATTGGAAGGGAATAAAAAGTGGAATAATGGGATGGAATGAATTTCATCATGTTCCATTCCATCTTATT TTAAAAAATCTAACTAATGAAACCTATTATCGTTCCCTTCCATTCCATCTCTTTCCATCAATCCAAACATGGTTAGGCAA CAGGAGAGCATAGACCACATTTTATTTTAATAGGAAGAATTTTATCTAAAAAGGCTGACCAGGAGATCAAGCTGAAGAAG GAGACTAGCAACAGCAAGTTGATGCTCCATAGGAGCCATCTGAAGATATACAAGAAATGTATGCATTGTACTGAATGCTC CTTCATCCTTAATTGTGTGCAGTATCTGGTTGCAGCTTGTCCTTCTGTAGCACCATAGAAAAGTAATGATAAGTTCTTGA GTCTGTAATGGATGTGAATAGCACAACAGTACAACTTGTAAAAAACATGACTTCACAGTTTAATATAATAAAGGCAAACT CCTGTAAATTAAAATGAGGGGAATGTTTAATAGGAAAAACATTTAAGTATTACTTCTTCTGATTGGTGTGAAAAATATGC ACCTTTTCCACATAATGAGTTATTACTGGTGAAAAATAAACTATTATGGTTGCTTTAATTTCTCCATTTTAGTGTAAACA TGAAACTGATGTTTCTCACATGAATATGGTTTCTATCATCTTCTAGCAGGAAGCATAGACAGACTGTTAATTTCTCCAGT TATGCACCTCTAAAACATTGAACAAGATGAAAACAGTAACACATCAATGGATATTTCATTTTACAGTGAATAGCTGAAGA GAGGAAGATTTTTTGTACTGTAAGAAAGCTGCAAGCTTACCTATTTAATTGAACCAGTTCTGAGAGAAACTCCACACATG TTCCTCTCACACTATCATTTCCTGAGTGGAATAATTCAAGAACAGGAGACAATTCAATTCTGTTTGCTATCAAGTTCTTG CAACTTTTTTCAGCTTGCATACAACACAAGAGCACGGAAACCACAGACCTCCTTCCTTCCATCCTCTCCAAATACTTCAC CAAGGTTGGAATTCCATTTGCTGAAATAACACTCGAAGCATTAAGAGACCTGCTATATTCATCCCCTCCCATTAAAGTTT GTTCAAGAATAGCTATGGCAGCGTCTTTGGGGTCTATAACTAACTGAAAATCATCTAACTCCTCATTTTTGTTCTGGATC ACATCAACAAGAGAGGGTATAAGTTCATGAGCTGAAAGCTGGGCAAAAACCGGCCGTAGTTGGTAAATAAGAAGAGCAGC CTCAGCCAAACCATTCTTGAGTAGAGTAGCCAAGCAATCAAAATCAGAATCTACACTATTAAGTGTTTCTGCAACACTGT CATCTGTGAAAATCAGCTCAGAAAGAATATAAATTGATGTTCTCAGAACTTCTCTATTCCGAGAAGCTGAAAGAATTTCC ACTAAACCATTTATAATAGTTGGCTTTGATAAATAAGAATGAATCTGAGGATTAGTCTTTGAGTCCTTTAACAATCTTGC TATTTTCAATACAGCTTCTTCACATTCTGGCAAGTTCTCTGATGTGCATAGACTTGAAATGTAAGGTTTCAAGGAATTCA CAATTGTTTCAACTGCAGCTTGAGATAGCACACTTGTCGGAGACGTTGTGATAGCAGCTGGCATAAATCTATTGCTCCTT TGTCTAGCATAATCTTTGTTCTTATGATTTGGTGAATCAGTTGTTCTTTGCCTAGTTGAGAGCATTGGGATGTCTTTTGC TGATGGAGAACAGGAAGAACCCCTTGGTGTGTTAACATTTGAGAACTCTTGAGCTAGTTCAGGATTCTGTTCTTTCCAAG ATGTAATCAATCTCTTCAAAACATAGTTTGTTTTGGGTAATATGCTTGCAGATAGAGGCTGTCGCGTGATGGGGCATGTT GTGTTTCCTGTTCTGAGCCACTCTTGAATTGCTTTTCTCTCATAGGTTTGGCCAGTTTCAAGGGTGACAGGATCACAGAA TATCTGACCTGTAATTGGGCAAACAAAATCTTTGGGTGGTTTTGATCCCATACTCAGCTTCTCTAATTTTGGCAATGAAT TGAAGCTTTGATATCCATCATCACTTTCACAAAGGGAACTGCAAACCCAAATGCAAAGATTTTTTTCTTACTTGTCACAA GCACAAAGATTAGCATAAAAAACCTCTAGGCGCATCCTAGAATATACCATATATAAAAAGTGGTGATTACCTGCCATTTA GTATCAGGCTGTTCTCATTCTCATGATTCATACTCAGTGTTTGGTTATCATTTTTCCTCTGAATATTCTTCAAGACCTAT ATTCCAAAGAACTATTACATTGTTGAACTTAAAAAAAATAGTAATTACACCTCGCAACAATTAAAAAAGATACAAGTAAT AGTAACTAATGAGCTTATATGGATCGTATCTGACTCACCATCACTTCGTTATCAGCATTTGAAATGTTATCAATGCTAAT GTCTGGAGATGATGTTAAGGAGTCAGAAATAGTTGGTTCCCTGATGCGGCTAGATGATAAGCGCAAAAACTTGGAATCTC TTTTACTATGCATATCAGGGTTTGGAGATGAATTATTTGGAGCAGTTCTTGGAGAATCCAAGGGAGAGAAGATATCAGGA GAAGGTATTTGATTCCTCTGGCATGATAGATCAACTTTTGTTTCAACACCCTCATACTTCATCATCTTCATTCCAGGTGA GAAAATATTGTTTTTGTCATCAGAATCCACAGATTCATTCTCAAGCTCAGAATCTGAATCATCTTCATTCTCTTCAATGA TGGTATCCTGCATATGATAATTATTCATAAGGCCTATACACACATGCTCTTCTAATTCCATTTATCAAAAGCTATATTAT TAGCAACAAGCATATAAATAACTTTCTTTCACCTTAGCACCCCATATGGATAATTTTTCCTCCTTCAAGTTGCTGGAAGT TACATTCTCTCTGTTGAAATTCAGCAGCCAAAAAGTACATAAGGGTATTAGGAGGCTCAAATGAATGGAAAAAGATTACA TGCTGAACTTTCTTGAGCTATGTAGATGACCAATATAACGAACATTTTGATAGTGAATATTGAAACACACACAAGCACAT GCAAAACAGTAACAGGCACGGCAACCCGTGTGTTAGAAATATGATATAAAACCATTGTGTATGAATTCTAACCTGATTGT TTCATTTAAGACATCTTTAGATCTTGGTGCCAGAGAAAAACCAGCACTCTTAGGTAAAATAGGACCAAATTTAACAAAAT CTGGAATAGTCCGGCTCAACTCATGCAAAGGAGTCATTGGGGGCTCAGCAATTGGCAACATAGGAACCGCCTTCTTACTT GAAGAGGAATCAGAGTTCATGCAATCGTTATAGTATTTTGCATATAGTTTTGTGTTTTCATCCAAGGACTCTCCATAAAG CTGCTCCAGCTTTTGCAACTTTTCCAATTGATGTGGCCTCATAGTAAGCACCAAAGACTCATTGAAAAATTGCTCAAAAT CAGCTGTGAAGGACAAATCAGCAGAGTCAGGTATCACCTCCATCATAAGCCTGTGCCTCTCCTCTGAATACCACCCCACA ATTGAGCTCATGTGTGGAAGAAACAGGCTTTTCCAGAGTTCTGGAGCGAAATCAATCCGAGTGAAAAAGGGATCAACGAT GAACATCTCAAGAGCATGAGAAATACAATTCTGAACATTATTCCTCAGCTTCCATAAATAGGATAGGTTTAGGTGTGCCC AAGCTGAGAGGTAGGAGTTTGGAACTCCAGCAATCTTTTGCTTAGGGTTCAACATTGCACACACTTGCAACATCTTCTCA GCATAATCTAGCCTTGCAAGCTTGGTTTCCATGTTATAGGTATTGATGGCTTCCTCAAGGGCTTCAATACCCCAATCAAG ATTTGCTAATACTGCTTGATCAGAGTATTCCACCTCAGTGTCTTTGTCACCACTTCCATCTTCTGCTGCTAACCTCTCTG CACACTGTTCTTTGTGTTGGGTTCTTTGCTCTTTGTTGATTAATCGATCTTGAATGAAACTATCAACAGTTGTAGTCAAG AATCTAACAATATCCTTCTGATCCATCATGAATCTGAAGTTTCCTGCCATCTGCCAAAGTACAACCACAAAAAAGAAAGC TTAATACAACTTCAACATGCAAAGATTAACAAAGAACCAAATCCATAGTAGATTCTTGGAACCATACAATTTCTGTCAAC TCCAACAAAATTTCATGTTGCAACCATACAATTGATAATAGAAAAGGAGTATAAAGGAAACTAAAGCAAAGAAACTGAGA AGGAGAACTGAGTATTAAGCACAATCCATCATATAGGAAACAAACCAAATTCATCTATAGGTACACCAGGACTTTAAGTA CCAACATGCTTTTCAAAATAAATCAGAATTTTCAACCTCAACCAACATTTCTAAGTCAAAACATGTGCAATTTTAAGCAC AAAACCTACAGAACTTAAGAATAAGTTGACCAGCTAAAAACAGCCAAAAAGTACTTTTAAGTACCTAACCAAATTACCTA CCGTTTTAAATATCACTGGTATATAAATATATATACTCACAATCTAAAAGGGTACAAGAATCAAAGCAAAACCTTGATTC TGATATACCCAAATTAGAATTTTCTACAAAGTTTAGATCTTTGACCTTAGCTCCTTTGTCCCTTCTTCTCTTCAAGCACT ACAGGTTAATTTCCACTCTGATCCTTCATGAGATGTAACTACTAACTAACACCCCATGATCTTCAGAATTTCCTGCTAGG CATGCAGCTAGCTGGTGATGATGGCGGTCCACAGAGAAATTCAACTTAGTTGCAGCGTTGAACAACTCAAATGCTGACAC CAACTTTTGGCAGCTTTGACTTTTATCAAAGAAGAAGCACTTATATGATCAAGGACATGATGATGAATGAGCCAATTCTG GGAACTAAGTCCTTGTAACTTTTAGCTTATGCCAACAAGAACAATTAAGAAGAAATGGAGAGAGAAGATTATATTATGTG TCTGTATATGGTGCAAGGTTGGAAATAGCTAGTAGCTCTGCCGGCAAAGAATGAGGAAGGAGTATGATGAGTTTGATGAC AAAAGCAAAGCGTGGACCAAGAAATTAAGGCACGTACTAAATATTATTTTTTTTTTTGTTGTATTACATTGTCCTCCACC GGAATCAATCATGTTTTAGAATCGAAAACATTTGCATATATCAACGATTATAATAACTATTCCAGCGATAATTTTCTCCA TTCATATTACTCGAACCAAAGACCTCTACAATATTAG

Download Genomic Sequence

CDS sequence (LotjaGi5g1v0256700.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAAATCATCAGGCCATCAACATGGTGGAGTTGATAACACTCCCACAAAGCTTGTACTGACATCACTGTCAGCAATGGT AGCTGAGACCACAACTTTCCCCATAGACCTCATCAAGACCAGGCTCCAACTCCACGGCGAGTCGCTTTCCTCGAGTCGTT CTACCGGTGCGTTTCGAATAGGTTTGCACATTGTTCGCGAACAAGGGACCCTTGGCCTTTACAAGGGCCTGTCTCCAGCA ATTGTCAGACACCTACTCTACACGCCTTTTCGGATCGTTGGATATGAGCACCTGAGGAGTGTTGTTTCTGATGATAACGG GTCACTGTTTATCGTTGGCAAGGCTTTTGTTGGTGGAATCTCTGGTAGCTTGGCTCAGATTGTAGCAAGCCCGGCTGATC TTGTCAAGGTGAGGATGCAAGCTGATGGCCGAATGGTGAGCCAAGGTCTTCAACCTCGGTATTCAGGGCTATTTGATGCT TTCAACAAAATTGTTCAAGCTGAAGGGTTACAAGGACTATGGAAGGGTGTTTTTCCTAACATCCAAAGAGCCTTTTTAGT GAATATGGGAGAATTAGCCTGTTATGATCATGCTAAACAAATTGTTATTAAAAGTAAAATAGCTGAGGATAACGTTTATG CCCACACATTAGCTTCCATCATGTCAGGTCTCGCAGCAACTTCTTTAAGTTGTCCAGCTGATGTTGTGAAGACTAGAATG ATGAATCAGGCAGATAAAAAGGAGGGGAAACTCTTATATAACAGCTCTTATGATTGCCTGGTAAAGACTGTTAAACTTGA AGGAATAAGAGCACTGTGGAAAGGGTTCTTCCCCACATGGGCAAGGCTTGGCCCATGGCAATTTGTGTTCTGGGTTTCGT ATGAGAAGTTAAGAAAAGTTGCAGGGCTCTCTTCTTTCTAA

Download CDS Sequence

Protein sequence (LotjaGi5g1v0256700.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MKSSGHQHGGVDNTPTKLVLTSLSAMVAETTTFPIDLIKTRLQLHGESLSSSRSTGAFRIGLHIVREQGTLGLYKGLSPA IVRHLLYTPFRIVGYEHLRSVVSDDNGSLFIVGKAFVGGISGSLAQIVASPADLVKVRMQADGRMVSQGLQPRYSGLFDA FNKIVQAEGLQGLWKGVFPNIQRAFLVNMGELACYDHAKQIVIKSKIAEDNVYAHTLASIMSGLAATSLSCPADVVKTRM MNQADKKEGKLLYNSSYDCLVKTVKLEGIRALWKGFFPTWARLGPWQFVFWVSYEKLRKVAGLSSF

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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	PTHR45618:SF8 View details on PTHR45618:SF8 Search for proteins/transripts with this domain View external data on PTHR45618:SF8	12	306	295	1.7E-139	–
PANTHER	PTHR45618 View details on PTHR45618 Search for proteins/transripts with this domain View external data on PTHR45618	12	306	295	1.7E-139	–
Pfam	PF00153 View details on PF00153 Search for proteins/transripts with this domain View external data on PF00153	15	104	90	6.3E-19	IPR018108 Show description in modal box View details on IPR018108 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.50.40.10 View details on G3DSA:1.50.40.10 Search for proteins/transripts with this domain View external data on G3DSA:1.50.40.10	15	304	290	7.2E-89	IPR023395 Show description in modal box View details on IPR023395 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50920 View details on PS50920 Search for proteins/transripts with this domain View external data on PS50920	16	101	86	21.312	IPR018108 Show description in modal box View details on IPR018108 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00926 View details on PR00926 Search for proteins/transripts with this domain View external data on PR00926	17	30	14	1.2E-6	IPR002067 Show description in modal box View details on IPR002067 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF103506 View details on SSF103506 Search for proteins/transripts with this domain View external data on SSF103506	17	297	281	3.92E-75	IPR023395 Show description in modal box View details on IPR023395 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00926 View details on PR00926 Search for proteins/transripts with this domain View external data on PR00926	30	44	15	1.2E-6	IPR002067 Show description in modal box View details on IPR002067 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50920 View details on PS50920 Search for proteins/transripts with this domain View external data on PS50920	109	201	93	27.018	IPR018108 Show description in modal box View details on IPR018108 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00153 View details on PF00153 Search for proteins/transripts with this domain View external data on PF00153	111	205	95	1.4E-20	IPR018108 Show description in modal box View details on IPR018108 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00926 View details on PR00926 Search for proteins/transripts with this domain View external data on PR00926	124	142	19	1.2E-6	IPR002067 Show description in modal box View details on IPR002067 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50920 View details on PS50920 Search for proteins/transripts with this domain View external data on PS50920	210	300	91	26.224	IPR018108 Show description in modal box View details on IPR018108 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00153 View details on PF00153 Search for proteins/transripts with this domain View external data on PF00153	211	300	90	3.8E-21	IPR018108 Show description in modal box View details on IPR018108 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00926 View details on PR00926 Search for proteins/transripts with this domain View external data on PR00926	219	241	23	1.2E-6	IPR002067 Show description in modal box View details on IPR002067 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:0005347 View details of GO:0005347 AmiGO InterPro QuickGO	Molecular function	ATP transmembrane transporter activity	Enables the transfer of ATP, adenosine triphosphate, from one side of a membrane to the other.	Subterm of View details of GO:0000295 View details of GO:0005346 View details of GO:0008514 View details of GO:0015238
GO:0055085 View details of GO:0055085 AmiGO InterPro QuickGO	Biological process	Transmembrane transport	The process in which a solute is transported across a lipid bilayer, from one side of a membrane to the other.	Subterm of View details of GO:0006810

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Expression data

Expression pattern

Expression pattern of LotjaGi5g1v0256700.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi5g1v0256700.2