Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi6g1v0097300
Transcript ID	LotjaGi6g1v0097300.1
Lotus japonicus genome version	Gifu v1.2
Description	Membrane protein insertase YidC; TAIR: AT1G24490.1 OxaA/YidC-like membrane insertion protein; Swiss-Prot: sp\|Q9FYL3\|ALB31_ARATH ALBINO3-like protein 1, chloroplastic; TrEMBL-Plants: tr\|I1MYL3\|I1MYL3_SOYBN Uncharacterized protein; Found in the gene: LotjaGi6g1v0097300
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr6:21111124..21122309) extracted from Lotus japonicus Gifu genome v1.2.

GGAGGAGGAGGAAAGGAAGTAACGAAACCCCATTGCACTCCAACAACAATATCAATATCACCACCACTTGCGTCGCTCCA TTCTTTCTTCCACTGCTCTCTCCTCTTCTCTGCTCACTCTACATCACTCATACTAACGAACCGAACCGGAAACCCCTTTA AACCAACCACCGGTTCATTTCTGAACCCAAGAAATGGCCGCTTTGTTACCTTGCGTGCCCAGCTTAGTCTCCGTTCCGTT CGGGAACAACTGGAGCAGAACCCATCTACCACACCGACCTCACTCCTTCTCCGGTTCGACCAGGCACTTCCTTCGCGGTT CGCTCTCCGTAGCCCGGTTCGGTCTCAAACCCGGTTTCTTGCCCGACCCGGACGCCGCCGCCGCAGCCGAAGGCGTTATC AGAGAGCTGTTCACCCGAGCGGAGGGTTTTCTTTACACGGTTGCCGATGCCGCCGTTTCTTCTTCCGACACGGCGGCCAC CACCACCACCACCGCCTCTGTCAAACAGAACAACGATTGGTTCTCTGGAATCGCCAATTACATGGAAACCGTTCTCAAGG TATATTAATTATCCTCCGGATATTATTCTCAAATTGATTTTTGAATTTGAATTATCAAAATTCAACACACTTGAGGTTGA GGGAGCTTAATTCAGCGACTACAAGTTAATTTTGTTGTTTCCCAGAAGTTGAAATTAAAGTGGAAAAGTAAGAGCTTAAT ATTGTGATGTTTGCTGTTGTAGTTGGGAAAATTCACTGGTGAATAGGATTTGATTTCCCTGTTTTTAGTCCCATGATCTT TTGTCTCCACCAAATGCAAAATATCATTGTTTCTTCCACTCTGGTTCTAGCTACACAATTTCCCATACTTAGGGCCCGTT TGGAAAAAAACAGCTTAATTAAGCGCTTATGGTCATAAGTGATCATAAGCGTTTAAGACTTCATAAGCTATTTTAATTTT TTTATTGAAATAGCTTGAAAATAAGCTGTATATAAGCAGAAACTCTTTTTCATAAGCTATCCCGAGTAGCTTATGAAAGT AAGCTCAAAACAGCTTATGGTAGGCCATAAGCTGTTTGCATAAGCTCTCCCAAACACTTGCACAAGCGCTTATGCTATGG GCCTTACTAGGTATAGGTGCCTTGGGAAATGGCTTTATAGTTATGGTGATGATAATTTTCACATGGCAAATGTCAATTCT TACTATTTCTAAGCTCAATTGTTTAAACTACTGCTTTGGACATTGCTATCTTGACAAACTGGAATATTTTTTCTTTTGTT GAGACTGTACACGATAGAATTATTAAACCAATGTGGATTCTTCCGCTGATGACGAATGATGGCTTTATACACAAGTCTAT GGACTTAGTAACTAATAACAATCAAGGGGGGTTGCAATTCGAAAGGCCATCCTTTTTCATATGCTTTTTCCTTATAGTTC TCCTATTGAAACTGATGAAAGTTGTGAACTTCTGACTTATTTGTTTGCCTGAATGAGACAACTATTATGATTTAAAATTG TTCTTATATTTGTTCGTGAGATATCTATTTAGAATTAAATTTGTACTTGCATAACTTCCCATGGGACTAATGCTGCAATT ATAATGTCTAGTGATTTTGATGGGAAGTGATTTACAATTTTTCAGATACTCAAGGATGGACTTTCTTCTGTACATGTGCC ATATGCTTATGGTTTTGCAATTATACTTCTCACGGTTCTCGTAAAAGCTGCCACATTTCCATTGACAAAAAAACAGGTTT GTTGTTATTGAGATGTGCTTCTCTAGTGTTAAAGAGCTTAAAACAATCAGTATAAGTCATGTTCTTTTGAATCTTTGATC CTCCTAATTATAGTCGTAAAATGAGTATTATTGGCTTTATTTGACATTAAAAAAGTTCTTACTTCTTAATTTGATAGTAT TTTTCCTTATGTCATCTTCGTCATGATTCAGTTGAATAAAATTTGACTGGTTGTTCTTAGGTTGAATCTGCCATGGCTAT GCGAACTTTGCAACCACAAATAAAAGCTATCCAGCAACGGTATGCTGGTGATCAGGTATTTTATCTGGCCTCTATAAATG TTAGTATGTCACTATCAAAATCTCTTCTATAACAATGAAAATACTTTGGAAAGCCTCCTTAATGTTAGAAGAAAAACCAT TGGATCTAGTCCACATAAATGATCTCCGCTATGAATTATGAAATGGGAATTGATGAGATAGTGATTAGATTTTTTTTTAT TGGATGAATAATTTCCCAGTTAGATTGATTATAATCCTTAAACATTAGTGATTGACTATATCGCTTTTTTGTATATAAAT ATTGTACCAAGTACTTTAGGAGAGATATGGAACATGATTTATAGTTCAGTATTAACATGGTATCAAGAGTCTGGTGCTTA TCCATCAAAATCCTAACGCTAAATCCATGGTTTAGGAAAAATCTCGGTCTATAGACTACATGTGTTTGGCATGATCTCGT GGGTTACCCTGAAAAGACCGAACCTGTATGTTCTCGGCCGTATGCGCTGTCGCCGGAAAATTTATACAGCAGAAATCACC GCCATCTAGTTCTTTGGAAGTTTAGCTATGTACTGCCCAAGTTTGAACCCCAATATGTGAGTCACGCCTACACAGACAAT TTTTTTGACAACTTTACCGACATGTGGGAGTCACTTGCCGCCTTCTAGACATCTGTTTGCTGCATTGCTAGTAGCATTTA TATTTTCAGCCTTCTCAAGTTCATTGGAACTATTTTGGCTTGTGGTCTCATGTTTGAGAGTGGATTTAGCTGTCACATTC TTTGAATGCACACCCTCCATTACAACCTTAGATGCTTCTTCAGTTAACATGGACTCGGTCCCTTACGTAATGCCTTATGG TGCCTATTCCTACTACTCTAGATGTATTAGATACTACTTTAGGACCACCAAAGTCTGATCCTGATGTCACCAGTTTGGCA AAACCTTTCTGTATCGATCACTGTCTACTCTTCCGCTTTTGTTGTTGAACCTAATTATTCAGCTCTTGTTACAATCTTCA CTCCTACTTCCGTTACACCTATCTCCCCTGACTTGCCCCTTTCCCTCCGTAAAGGTAAATGTCCTACTTTCAACAGCAAT ATAGTACAGTGAGTGCTTTATACATTTTGAATTGTTTGAGGTGATTTATCGTCTTAAGCTCATGTCTCTCTCTCTCTCTC AGATTACAAGAAAAGATCTCTCAAAGAATTACAAAAATTGATGAATTTTTTTTATTCAAGTCTCAACCTTCCTATTTTTA GGAGAAGATTGAAAACAACAAACAAGCACAATAAGTAGTCAATAAAGAGTCCTCATTTTCCATCATTGGGAGCTCTCGGC CACCCTTGGGAACAGAAAACTCAATAAATGTGCAGACATCAGGACGCCCAAACTAGCCGCCCTTGGGAACTCAGTTATGG AGAAACCTTATAAATCTCCCCCTTTTGACTGATTGGGATGTCATGGAGTTAGCACCAACGCAACTGTCGGAGAGCTTCTT GATTGGAATCGTCTTGGTCATCATATCAGACCAGCTATCGTCTTATGCATCTTTCTGTGCTCCAATAGTCTTTCTTCTAA AGCTTATCGTATCCAATTATAAGGAAAATCACTGTGCTTTGAACTGGATCTGAATGTTGGATTCTTAGCTAGATGGGTTG CACTTTGATTATCTTAATAAACCACATATGTCTTAAACATGTTGGAGCTCATGCGGTAAATTCCTCTTCCATACTTCCTT GTATGCTTCATATGCTGCAAAATATTCAGCCTCAATGGTTGGAAATACAGCATACAGTTGTAACTTGGACTACCAAGAAA CATCTCCCCTCGCAAAAGTAGTTAAATAATAAAATAACATAGTGTATACTTTTCAGAATCTACATTTCCAGTCATGTTTG CATCTATAAATCCTTCAAGAATAGGTTTTCCACTACCAAAATCTAAGCACCTTTTGGCAGTTCCTCTTAAATACCTGAGG ATCCACTTCATTGCATTCTAGTGCTCTTCACCAGGATTGGCTATAATCATCTCACCACTCCAACTTCATAAGCAATGTCT AGTCTTGTGTAAATCATACCATGCATAAGGCTTCCAAGTTCCAACAACATATGAATATGAAACCCTGTTCATTTTGTTCT TCTCCTCTTGACGGACTGTTTCTCACCCAGTCTAGTGCACAACAAGTAGAACAGTGATTGGCTTTGCACTCATCATATTA AACCTTTTGCAAGACTTTGTCAATATATTTTTTCCATGGATAACCACGACAGCCGGTTGGAATTATTTTGACAAACTTCA TACCAAGGATTTGATTTGGTGGTCCTAAATCCTTCATGGAAAAGCTTTTGCTTAAAGCCTTCTTGGGGGCATTGACATTG TCCATGTCATGGGAAACTAACAAGATATCATCTACACATAACAATAGGGTAATAAAATCTCCATTTTCATACCTCTATTT AAAATACAATGGTTTGCAGAAGTTTGGTTGAAATTATGCCATCTCATAAATTTAAACATGAGATTTGATTCCTAGGATGA AATTTGATTTTAAAATTAAATCATTTCCTATTTTGAGGATTCCAAACTCAAATATTAGCGTTTTGGTTCTGTAACCTCTA ACCAGTGGATTTTTTTCATTCAAGTGATTATATTTCTATTGTTTTCTTGCAGGAGAGAATTCAACTTGAAACGGCTCGGT TGTATAAATTAGCAAACATTAATCCTCTAGCAGGTATTTATGACATGATTGGCTTTATTGCAAAAGGGTTAAGATATTTT CTCTCGAATAAGACGAGGAAACCTAGCAGAGCTAACATATCACAAGTGTGTTTGTTTTCTAAGTTAATCACACAATTTTG CTACTAATATTTCTTACATTAGTTCACGGAACTATAAACATTGTTCTATCTTTGATATGCAAAAGGCTTTTTATGGCTCA GGTAGGTAGATGGAGGCACAGAAAAACCAGTAAAAAGAATAAATCTATGTTTCTTAACCTGTCTTCACTTTTTTCCAGGA TGCCTCCCCACACTCGCAACTATACCAGTGTGGATCGGGCTATATCGAGCACTTTCAAATGTGGCAGATGAGGTATGTTT ATTTGCGAGTTCATAGTTTACAGTTACACTACTGTTTTTTGGGTATATGATTCCATCTTCCATGGCTAATATTATATTTT GGTCTAATGTACTAAGGGACTGCTTAATGAAGGCTTCTTCTGGATACCTTCTCTTGCTGGTCCAACTACAATTGCAGCTC GTCAAAATGGCGGTGGTATCTCTTGGCTTTTTCCTTTTGTGGTAAATATCCCACTTAGCAAGTCAAATTACTTGTGTTAA GAATATAAACTTTGTAAACGTAAGTATTATTTTCTGCACAGCTTATCGACTTTCATGCTAAAATTGTATAAAACTAAATT GTGAATTGTATTTTCATTTGATCATTAATAAAAGGCATATTTCTTTTTATTTTTCTAATTGTTTAGTTGCATTGATTGTA GAGAAATAGTTGTTTGATTTTGATGATTTTCTCATTTTGGTAAGCATGGGATTTATTTATAAAATGTTGGAAGTTGAGTT TCTTTTGGAGTGTGGTCGTAGTAGAGAGGGGAAGATTTTATGTGACGAGTTTGGTAATTACCGTGTTTGGTTGAGGCAGG CAAATGCAAAACAGTGTTTAAGAACCCATATTTAATTTAGTTAATTGGTTGGGACCACAATGGTCATATTATATCCTTTC TGATTTTCAATTTTTGGCATTCTTTTCAAGGTTTCCATGGTTGGCAACTTGAATTCAAACAAATCAGAACTTCAGAAGGC TCTTCAATTTTTCTTTCCTCGTTGTGTTTATAATAGGAGAATGCCATACTCTACATTATTCTAATATTTCCTCCTTCTCT TATATGAGAAGATTTCTTCTTTGCCAATCACAATTTACCCAAAATCATAAGGAATGCTCTACCTTTTAGGGGAACACAAT CATCATATACACACTGGCTGTAGAGGGTATGCAAGTTAAAATATTTGCTTGTGAAATATTCTGCAAGCAATCTGTGGCAT ATTTGTTTACTAAGATGGTATGTGTGCGCATTGGTCCATTAGTGCGGGTTACACTTCCGGAAAATGCAGGATAACTGAGT TTATATAAATGGGAATAGCTAAGATTTATATTCTACTTTTTTTCCTTCAAGCGGAACATATTTTCTTAATTTTGAATCAC CTTTGTTGATCTAGATATTGTACGATTTTCCGTACTCTTTTTTTTTACTAGTGATTTGTGGCTGATTCTGGGTGGATTTA AATATGAAGTTTTTGTTTCTCTAATCTTTTAACTTCAGGATGGTCACCCTCCCCTCGGATGGTCAGATACATTGGCTTAC CTTGTATTGCCGGTCTTGCTGGTTTTCTCTCAGTACATCTCTGTCCAAATAATGCAATCATCACAGGTCAGTCATGTTCC AAGTACAATCAAATTGGATACTTGTTCATCCTAATTTTAATAACATTGTCTCTAAACCTTATTGATTTGACAAGTATTTT CATGTTGTGCTGTGTATGCTTTAATCATGGCTTGTTATAACTTTAAATAGAGCACTTTGCAAACTAGTTAATTAACAAAA TATGTTGGTATAGCTTTTGGCATTTTGTATCCTTAGCCAGGCTGTCTAACCAGATTACCTTTGTGTCTATTATGTCCTTA ACCCCACCCTTCTCGCCTTCTACAATAATTTAAGAAAACTATTCATTAAAATGTCCTGAATCACTCATCATTTTTCATGT CACTTTCAGGCTAATGATCCCAACATGAAGACTTCTCAAGCCTTAACCAATTTCCTTCCATTAATGATTGGTTATTTTGC TCTCTCAGTTCCTTCTGGTCTCAGCCTTTACTGGTAAGTATAAATAAAAGGGTTAAGCATCATATTAGTCCCTGTTTTTG TGTCTCCGTCTGACCTAGGTCCCTCGCGGGAAAATTTATTGGAAAAAGTCCTCTTCTTTATAAAACATTTGGAGCAAGTC CTCGCCGGAGCCCGGAGCTCCGGCGAGTGATGAAGTGTCATGCTGACCGGGTTAAATGAGCTGACATGGATTTAAAAAAA AATTAAAAATTAAAACAAAATTACATGTCAGTTTTATTAACCTAATTAACCAAAATTAAACCTAATTAACTATCTAACCC TAATCTAATTAACAAACCCAAATTCCCCCCCCCCCCAAATTAACCCCAAACCCTTCTTCTTCTGCAAAAATCCAGACCCT TTTTCTTCTTTCTCTCCTTCAGGCTTCATCAGAAAACCACCACAACAGGCCGTAGCGCACCCACTTCTCCTCTGGATCGC TGTCACCCTCTCTATGGCTGGTTATCCCTCTCGATCCCTTCATCCTCACTCTCGATCTGGGTTGAATGGTTGGCGGTGGT TGCTTCAGAGGCGAAAAAAGGCTCACAATCTAGCTTTCTCTTCAGATCTGGATTTCGATGGTGAATGGGATCACAATCTG GCGGTGGTTGCTTCGATGGAGAATAGGCTCGATCTTGCAGAAGACGGCGGGGAGAGAGGCTCACGGTGAATGTCGTCGTG GTTGTGGCCACCGCGAGCATGGTCGTGGTGCAGGGGTACGGGGAAGGTTGCTAGAACGCTGGGCCTTCAGGTGGTAGCTT TTGGAGTTTCGGTTGCAGGTGGGGTTGGGGTTTTGGTGGGGGGTAGGGTTTCGGTTGGGAGAAAGAGAAGGAGAAGATGA TGAGGAAGAGGAACAGAGGCAGAGGCTGGAGGTGAGGGTGGGCTTGTTGAATGTGAAGATGAAAGATTGATTAATGTTAT GACTGTCTGATGCTGCTACTATTATCTGCTGGGGCCTTATGTTGCTGTCTTGCTTTCTACTTGGTTCTCTATTTTTTTTC GTTCTGGTTAAGTGTGACTGCAGGGTCTTGTTTGTGTTTGTTTGAAGGGGGTTGTGAGTGGTTGATGGACCCTTTTCGTT GACAGTGTGGGGATGCCAAATTGGGAATCTGTGGAGCAACTAGGATGCGTGCATCATTGGCTACTCAGATCATGATCATG GTGGATGTGTCCCTTTGTATCTCACTTTGGTGGTTTCTATGGATGATGGAAGAGCTGTCCAAGAATTGATGCTTATCTCT TATGTAGAAATGCCCTCTATTTCTTTTGCCCTGTTTCGTTGTTTATTTCTTTTGCACACCTTACTGTACATTCTCTTCTT TTTATCTTTGTTCCCATGTGCCTCTTTTTATATAATTCATGGCTTACTCAAAAAAAAAAGTGACTGCAGGGTCTGGTTTT GTTCCTCCCCTGTTTTGTTCGATGGCTGGGTTTGGGTGGTGGTGGTTGGGTTTGAAGGTGGGAGTTTCTGATGAATGGGT TTCATGGTGGCTGGGTTTGTTGAAGGTGAAGATGAAAGGTTATTTTTTGAATTTTTGTTGTTAATTCTGGGTTGGTTGAT CTTGTTTGGGTTTGGGGAATTTAGTTATTTGGAGACGGTGATGAGATTAAGATGAAGGACATGGTGAAGATGAAGAGGAT TTGGAGTTAATTTGGGTTTGTTAATTAGATTAGGGTTAGACAGTGTTTAATTTTAGTTAATTAGATTAATAAAACTGACA TGTAAATTTTTTTAAATTTTAAATTTTCTTAAAATCCATGTCAGCTAACTTAACCCAGTCAGCGTGACATCTCATCATTC GCCGGAGCTCCGGGCTCCGGTGAGGACTTGCTCCAAACGTTTTACAAAGAAGAGGACCTTTTCCAATAAATTTTCCGGCT AGGGACCTAGTTCAGACGGCGACACAAAGACAGGGACTAATATGATGCTTGACCCTAAATAAAATCTTATAATTGGTCTT GTATATAACCCTGTTGTCTATTTTACTTATTTTGCTAAGTTGTGCAGGTTAACAAACAATATACTGAGTACTGCACAACA AGTATTTCTTCAAAAGTCAGGAGGTGCAAAAAACCCTGTGAGTCCGGTACAAGATGATATCATGAAGGATAACCTGACGC AGATTCCGAAGCCATTATCTAAACTCAGCTCCACAAAAGTGGAAGACGCCACTCAAGCCAGGCAAGGTGAGAAATCGACA TCAGAGGGGCCTCAACGTGGTGAGAAGTAAGTAATTCAAGGTGCCACACTCATTGCACAATGATGTTGGTTTATTTTCAC CTGTTATAATTGTGCTTCTCTTTCTGTTACAGGTTTAGGCAAATAATGGAGCAAGAGGCAAGGAGAAAAAAGCAGAGAGA AGAAGAAAAAAGGAAAGCCGAGGAAGCAGCAGCTAAAGCAACACATGATAAAACAATAGAAGGGGGAAATCAAACCGAAG GTGATTTAGTTGTTGAAAAATCTCAGTCTGTGGCTGCTGATACTGATCTACCCATATCTGGAATAGTAAACGGTAACCAA TCAAGTAAAGATTTGGAAGGAAATCAGAATTCCACATCTACATCTGAGACAGAAAACGACCAAGTTTCTGCTCATTCCAA AGTTGGAATAAATGACAAAAGTCTAGACCAGGTATTATTGCACATATGAATGTTTTTAGGTTAAGGATAAATTACTTCAT TTGTAGGTATGCTAGAAAATGTCTTTTGATTTCTATTGCTGAACATGTAAGTAAGGTGGTGCTCTGGGGAAATATCACAT GCTTTTGACAACTTTGTTTCCCTCCATTTGTTGCCTAGGGATGTCAATGCATATGATGGACCTTCTCAATCACCCTTTCA TTTTGGCTCATGTTATGAGGTTCATACAAAAGATCAATTTTGTAGTAACATCTCTTCTGATATGGACTGTGAATGACAAT GTTACTTACCTTTTATGAGCCTTCTTACAGCGAGTGATATATTACGTTTGACATGCTTCAGGCTTCTACTATTTTAATGG TTAATTCTTACAATACAATCAATACACACCACTATCCTTAATTGTAGTGTTCAATATTATTCTGCTAATTACTGAGTTAT GATTTGTTGATCTGAAGGCAGTTGATAGTATCATGCTTTATTTTTTCTTCTTCTTATTACTTCTCTGGGGCAAAGGGGAA ACATTCTTTTACCATCAGCATACAGATAATCATTTCATATATCATAAAACTTATTGTCTAATCCATAATTTTACAGGAAC CAAGAGAAGTATTAACAACCACAGCCACCACAAAAAAGCAACCTCCACGAGAAGACCAAGATCATGTGGCAAAGGATTGA GGAGTTATATATTCAGCTGCTTGCAGATTGACTAGCCCCTAGTTGCCATCGATAGGCTATATTAGCAATGGATCCTCCCT TTCAAATTGAGGTCTCTGGTTGACACGGTACAATGCCACAGAAATGATGGGATCAACAACATTCCAGGTTTCTACAATTG CTGTGAGCGACATGTCGGGTTTGATGGCTAAGTTCGCAGCTTCTAGTTTGAGTTGTATTATATCGTTTTAATCAATTTTT ATTAATTAATGAAGATAATAAATACCTGTTTAAGGTAGATGCTTCACAAGAATATCACAATATAAAGTCTGATACTGTTT TTGTTTCTCCTTGTATGATGGTTATGTTAACATCCGGCCTGGGTTTGTATACAATATGCTGTTGCAATAGACGGTGATTG GAGTTATCCATAATGTGTTTATTCCCCACAAAAGTGGAAGCATGTAGTAGGACTACACAGTAGATGTTTTAATTTTTTGA GGAATAAATAACTTTTTATCCCCCCATTTTGCAGTTAAATTTTTATTTTTACCATCTTTTTTTTTGTTACACTTTTTACT CCCCCATTTTACAGTTAGATTTAATTTTTGATATGACATTGTTAACATGTAATGTGGCTAACATATGGTAATGTTACCAT TGCTACATGTGCAGTGTCACGCAATTTAAGCAACTCTAATGACTCTTTTAAATATAAAAAATTGCACTGTCACTGTGTCA CACACAACTCGATTTCAGGGCCCTTATTAATGTGGCGAATTTTTATGAAAGAGTTCGCTATCATAAAAATTAAGTTTCGT CATAAGAGAGATCAATCACGAGCCACGAATTTGACTCTGGAATGTGAAGTCCATGTGCGTCACTAATGGTAACGCAAGAA ATTACCATCGCACCGAGGATTGTTTCGTGTTCTTCAAAACATCGACTTCGAAGTTCAAGATGAGGG

Download Genomic Sequence

CDS sequence (LotjaGi6g1v0097300.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCCGCTTTGTTACCTTGCGTGCCCAGCTTAGTCTCCGTTCCGTTCGGGAACAACTGGAGCAGAACCCATCTACCACA CCGACCTCACTCCTTCTCCGGTTCGACCAGGCACTTCCTTCGCGGTTCGCTCTCCGTAGCCCGGTTCGGTCTCAAACCCG GTTTCTTGCCCGACCCGGACGCCGCCGCCGCAGCCGAAGGCGTTATCAGAGAGCTGTTCACCCGAGCGGAGGGTTTTCTT TACACGGTTGCCGATGCCGCCGTTTCTTCTTCCGACACGGCGGCCACCACCACCACCACCGCCTCTGTCAAACAGAACAA CGATTGGTTCTCTGGAATCGCCAATTACATGGAAACCGTTCTCAAGATACTCAAGGATGGACTTTCTTCTGTACATGTGC CATATGCTTATGGTTTTGCAATTATACTTCTCACGGTTCTCGTAAAAGCTGCCACATTTCCATTGACAAAAAAACAGGTT GAATCTGCCATGGCTATGCGAACTTTGCAACCACAAATAAAAGCTATCCAGCAACGGTATGCTGGTGATCAGGAGAGAAT TCAACTTGAAACGGCTCGGTTGTATAAATTAGCAAACATTAATCCTCTAGCAGGATGCCTCCCCACACTCGCAACTATAC CAGTGTGGATCGGGCTATATCGAGCACTTTCAAATGTGGCAGATGAGGGACTGCTTAATGAAGGCTTCTTCTGGATACCT TCTCTTGCTGGTCCAACTACAATTGCAGCTCGTCAAAATGGCGGTGGTATCTCTTGGCTTTTTCCTTTTGTGGATGGTCA CCCTCCCCTCGGATGGTCAGATACATTGGCTTACCTTGTATTGCCGGTCTTGCTGGTTTTCTCTCAGTACATCTCTGTCC AAATAATGCAATCATCACAGGCTAATGATCCCAACATGAAGACTTCTCAAGCCTTAACCAATTTCCTTCCATTAATGATT GGTTATTTTGCTCTCTCAGTTCCTTCTGGTCTCAGCCTTTACTGGTTAACAAACAATATACTGAGTACTGCACAACAAGT ATTTCTTCAAAAGTCAGGAGGTGCAAAAAACCCTGTGAGTCCGGTACAAGATGATATCATGAAGGATAACCTGACGCAGA TTCCGAAGCCATTATCTAAACTCAGCTCCACAAAAGTGGAAGACGCCACTCAAGCCAGGCAAGGTGAGAAATCGACATCA GAGGGGCCTCAACGTGGTGAGAAGTTTAGGCAAATAATGGAGCAAGAGGCAAGGAGAAAAAAGCAGAGAGAAGAAGAAAA AAGGAAAGCCGAGGAAGCAGCAGCTAAAGCAACACATGATAAAACAATAGAAGGGGGAAATCAAACCGAAGGTGATTTAG TTGTTGAAAAATCTCAGTCTGTGGCTGCTGATACTGATCTACCCATATCTGGAATAGTAAACGGTAACCAATCAAGTAAA GATTTGGAAGGAAATCAGAATTCCACATCTACATCTGAGACAGAAAACGACCAAGTTTCTGCTCATTCCAAAGTTGGAAT AAATGACAAAAGTCTAGACCAGGAACCAAGAGAAGTATTAACAACCACAGCCACCACAAAAAAGCAACCTCCACGAGAAG ACCAAGATCATGTGGCAAAGGATTGA

Download CDS Sequence

Protein sequence (LotjaGi6g1v0097300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAALLPCVPSLVSVPFGNNWSRTHLPHRPHSFSGSTRHFLRGSLSVARFGLKPGFLPDPDAAAAAEGVIRELFTRAEGFL YTVADAAVSSSDTAATTTTTASVKQNNDWFSGIANYMETVLKILKDGLSSVHVPYAYGFAIILLTVLVKAATFPLTKKQV ESAMAMRTLQPQIKAIQQRYAGDQERIQLETARLYKLANINPLAGCLPTLATIPVWIGLYRALSNVADEGLLNEGFFWIP SLAGPTTIAARQNGGGISWLFPFVDGHPPLGWSDTLAYLVLPVLLVFSQYISVQIMQSSQANDPNMKTSQALTNFLPLMI GYFALSVPSGLSLYWLTNNILSTAQQVFLQKSGGAKNPVSPVQDDIMKDNLTQIPKPLSKLSSTKVEDATQARQGEKSTS EGPQRGEKFRQIMEQEARRKKQREEEKRKAEEAAAKATHDKTIEGGNQTEGDLVVEKSQSVAADTDLPISGIVNGNQSSK DLEGNQNSTSTSETENDQVSAHSKVGINDKSLDQEPREVLTTTATTKKQPPREDQDHVAKD

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
PANTHER	PTHR12428:SF40 View details on PTHR12428:SF40 Search for proteins/transripts with this domain View external data on PTHR12428:SF40	1	453	453	9.9E-222	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	134	134	-	–
PANTHER	PTHR12428 View details on PTHR12428 Search for proteins/transripts with this domain View external data on PTHR12428	1	453	453	9.9E-222	IPR001708 Show description in modal box View details on IPR001708 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	133	155	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	135	156	22	-	–
TIGRFAM	TIGR03592 View details on TIGR03592 Search for proteins/transripts with this domain View external data on TIGR03592	137	351	215	2.6E-54	IPR028055 Show description in modal box View details on IPR028055 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02096 View details on PF02096 Search for proteins/transripts with this domain View external data on PF02096	137	351	215	9.1E-54	IPR001708 Show description in modal box View details on IPR001708 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	157	202	46	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	197	219	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	203	223	21	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	224	274	51	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	271	293	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	275	293	19	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	294	313	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	314	336	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	314	336	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	337	541	205	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	377	541	165	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	390	446	57	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	410	440	31	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	470	507	38	-	–

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: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:0032977 View details of GO:0032977 AmiGO InterPro QuickGO	Molecular function	Membrane insertase activity	Mediates the integration of proteins into a membrane from the inner side of the membrane. Membrane insertases are highly conserved and include the bacterial YidC family, the plant chloroplast Alb3 family, and the fungal and animal mitochondrial Oxa1/Cox18 family.	Subterm of View details of GO:0008565

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi6g1v0097300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

Loading expression data from ljgea-geneid. Please wait…

LotjaGi6g1v0097300.1