Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0166100
Transcript ID	LotjaGi2g1v0166100.1
Related isoforms 1	LotjaGi2g1v0166100.2
Lotus japonicus genome version	Gifu v1.2
Description	Vesicle transport protein; TAIR: AT5G23550.1 Got1/Sft2-like vescicle transport protein family; Swiss-Prot: sp\|O95562\|SFT2B_HUMAN Vesicle transport protein SFT2B; TrEMBL-Plants: tr\|I3SKB3\|I3SKB3_LOTJA Vesicle transport protein; Found in the gene: LotjaGi2g1v0166100
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:57607907..57620382) extracted from Lotus japonicus Gifu genome v1.2.

ACAAGAGGCATTTTGAAAAATTACGTTGTGCGTGGATGGTGAGTTTGCGGCTAGAGTGAAGATGAGATATTACTATTTAT TATTGGAGCTCTGATTAATTCTGCTACATCATTTTCACCTTCATTTTATATATCTTTCTTTTTTCTTTCAATTAAAACAA CTATCGTATGTATTACTTTCTCCTTCATTTCTTTCTATCTCTCTCTTCTCTCCACTCAATTTCCACTTAAATAATATGAG CGTTTTTTATTTTGGTTGATTCATGCTTAAATATGATTGCGAATAAAACTTAATTCTTGTTATCGCCCATAACTTTCTTG GATAAGTAGTGAGATTTGTTTTTGTCAAAAGTTATCACTCTTGCAAAAAGAAATGGGCTTTAAACCATGGGGCATGGGCC TAACTTCCAAGCCCAACTATCACAAAAAATCATCCAAAAACGTTGAAGAAAGAATGCTCCCTCTCCATGAGCTGAGTTTT AGTGAAGTGAAGTCGTTGTTGTTGTTGTATCTCTATCAAAATCAAAATCAAAATCCCTATCGTAAATTTTCTGAAAATCG AAGCAAGTTTAGTACTAGTTTAACCACAGATCCAGCGTTTTCTGTTTTCCCATTTTCCCGAGAAAGTGTGGGAAAGCAAT GGAAAAGATGAGCAAAGCCTTTGAGAAAGTGAAGATCATGGTGGGAATGGAAGTCGAAGACGAAGAGCAACAAGCTGCGG CATTGGACAACGACAACTCCTTCGCCTTCATGGATGAATTCAACCGCAACTGCACCTTGTCCACCAAACAGGTATTCAAT CGTCGTCGCTGCTTGTTTGGTTTCCGAGAAACAAAAAACGAATGAGCTGAGAAAAAGAAAGAAAATTTCATCGAAATTAG CTGATTCTGTGATGTAGAAAGTGGATATGCTCGGTTTTGAACATGGATCTACACCTGCGTTGTTGTCTTTGACATTGCAA TCTTGCGGCATTTGATTTTACATTCTTGTGGTTTTCCAAGTTCAGGTGTTTTGATATTTTGATCTGATTTGTTTGATAAG AAACTTTAGGTAGTAGTATTAAGCTGGAAGATAGTAAAATTTACTTGGCTATTTCCCCGAATTTATGCTGTTATTGAGGA AAAATAGAAAAATCTTGCTTTGTAGGAATATGTTTAACTAGGAGTTTACTGGAAGCACTGTATAAGGGTACAAGCTAGAA AGTTGCATGGTCATGATCATGATTTTTTGGGGGGATTTTATAGCTATTAGTTGTTCAAAACATTAAGAAGGTATTACTAT TTTAGAATTGATACATATAATAAAGAGATAATATAGAGGTTATGGTTTCTCATAGAAATGTTCGTTTTAGTTTTTTATGC ATTGTTGGAGTTAATTTATGCTGGCACTTAGGTGATTGGTAGAGAGAAACTCTACCAAGTAAAATCAAAGGAAGAAAATC AAAAGAAAACTAAGAAAAGAAGATAAAATAAAACTTTGTCAATTTTCTTGTTAATCTTTCATAATGGAATCCATACAACT TATACTAACTATCCACTCTAAGGGATGAAAGGTGACCTTACATGTGGCACCATCATAGAAAGTAGAATATTCTAGAACAT GATCTAAATAATAAACTAGAAATAAACATAGAAATAATAATAACTAATTATAATTGGCATAGTAACTTGAGGCCCATAAA TGATGTAGCTATAGAAGCCCATTGAGAATGCAACCCTCTACCATTACCATCCCCTTGAAAACATCCTTGTCCTCAAGGAT GGAAAAGTGAGCTAGCCATGCAACAAGAAAGATCCATGCTAGGAGAGTAATGTCAATGAGGCCAAGTCCAGGAAAAGAAG TAACTGTCATGTTAAATGAAAGCACCAAGGTAGCATGAAGGGCCAATAGAGTGACTTGATGTGGTGTGTAGTAACAAAAA ATGCCTTGTGTGCTGTCCCATGAAGCAAGAAGTTCACGCCATTTAATTTCATGGCCAATGGGGAAGCCTAGCCACGCTAT TAAGCTTTGTTGGAAAGACAATTCAAGTGGTGGACATAGGGAAGTCTTGTAAGACCAGCCCAATATAAGAAAGACCCAAT TGAAAGAGTGTTGAGCATGGTGAGCAAGCTTCGTTTGACCCCTTGTGAACAAGTGGGGTAGCCATGCAAGGATGAGAATC CAAGTAAGAAGAGAACAATATGTGACATTGTGAAGCACTGAAGCAAGCAGTGACTGTAAGAGTTTAATTCTCTGGTGCTC AAGCCACACGGTTTGTGCAGCAAAGCTGGACCAATCGAAGAGCTTAGGTGCTGCCACATTTAATGACAAAGAGTACGCAG ACACAGTTTGTGTTTGCAAGTCCTCAAAGATGAGAAAATGAGCCCGCCAAGCAACGAGAAGGATCCATGTGAGGAGCGTA CCGAGACTTGGGCCAAGTCCATGAGTGAGCCCCAACCTTTGCTCCAGGACGCAGAAAGAAATAAGGAAGGTTGTTGTGGG AGGAATGGAAAATGCTAGTAGGCTCAACATGGGAAAATCATTTGGAATTGGGCCCATCCAAAAACAGATTCCACATATTT GGCTATGAAGCATTTCATCATGGTAGTTGCAATAAGAGAGCAATGCTGTTTGCAGCAAAAGAACATGTGTGCATGGCCTA ATAAAAGACACCTTGTTCCAATTTGTTTCCACATTGCCAAATGAATTATATGCTACCGAGGTAGGGCCCGTGGGTAAAAG AATTTCCCATTCCATGTACCAAGTGGGATGCACGAACCCCATGTGTGAAAGAAAATGGGAATTCAACTCTTCATGCCTAG CATCCCATGGTCTTTGACAATGTGTCCCTATGGAGCTTGGAACAGGGAAAAGTAAGTGGATCACAACCAATGGAGCACAA TCACACTGCGTACAAGTGCTTTGATATGTTGCCGTAGAGTGCATTGAATCATGGAGAAAAGGTTTGAGCAAACCCTCCTC AAAATACAGTAAGCATCTTGTCAATTTATACCGTGTTATATGTGCTTTGGAGCTGAAGATAGCTTCTCCTGCTAGTGAGG AAGAACTGATCCAAAATGTAGTCCCAATTGCTAGATAGGAGTCTAAAAGGAATATAGCAAGTTGTCCCAGAGCAGAGGTG CTTGCCTCAAGTTCACCATCAACCTTGGTAGCAGTAGATATATCACAAGAGCTTAACCAAGCAGGATGAAAATGCCTAGC AGGCCAGTCAAAAATATTAGCTGTAGATGTCTGAGTAACATAGGTCAATGTAGCAGGATGAAGGTAAATCAACTTCAAAT TATCAGTAGCACATATAGCCAAGTTACCATTGGCTAAAATGGAAACAACAACATGAATTCCAGGATCAAACAGTGTGATA ATCATTTCATGTAATGCGGTATCAACATGATTTTCAAAATGAGTAGTATTAGCAAGTATCTTCAAAAGTTTCTTCTCATG CATTTTATCAAACATATGGTGCGGGATTCGATGAGTTATGTCTCTTGGAATGAGAAGTGAGTCAGAGTTCAATTCAAGGA TTGTACCAGGTGACCTTGTAGGTATGTTGTCCTCTTGGCTAGATAGAACGCATGACGTTGCCATAGAGATAGACATAGAG CTGAGAATAAGTTCAGCTATGGATGCCCAATCAAAATCCGTGTGACCATAGCTTTTCCACAATGAAAATCTCATAGGTGT GGCTTGTATAGGATAAGCATTGGGCTGACCTCCAAAGGCAGAGTAGTGCAAAACTGAATCTCTTGTAGCATGTCTTGAGA TAGCAGCATAGTTAGGTTGATCAAATACCAGAGTTAACATAGCAACCACTTGAACAATGCCAGGATCAAATAGTTTCATA CCAGGTCCAGATAATGATGAAAGTGCAATCTCTGATGTCAAATTCATTGGTCTCATCCTCTGCCAGTCAAGTAATAGGTT GATGTATGTTTCTAATAGCTTTTCAAAAGTATTATCAACACATATCCTTGTATTCCTTGTCACAAGCATTTTCTCAAACA CCTTAGGACATGGAACCCCAATTTTTTGTACATCAACAGTAGTGCTTGAATTGTGAAATTGCATAAGCAACTTGTCAAAA TGCTTTTCAAATCGAGCCTCATTATTTTTCTGCACAAACTTACCCTCAAGCAAATTTCCAAACACTTGGCGGGGGTTCCT AAGAACTAAGTCAGTTGTTTTCAAAACAAATGTTTTGTTTACATCAGGAGTAATAGCATCTGACCTTGTTGCATATGGGG TTGAATCAACTGGGGTAGTGATGAGAGAGGAGTCCTCGGATGTAGATGACTCGTGGGATTCAATCTCTGTTTCTGCACTA CCCAATTCCACCCTAGAAACCACCTCAGGTAGGAGATGCACGTCTGAAGAAGCCTCAAACGGGAGCTGAGCTCCATCCTC CAGTGTTGTTTCACTGAAAACAACCCTATGAGGAGAAACTTGTTCAGAGCTTCTCTGAATCTCAACCAATGAAGATTTCT CAAACCCATATTTGACTGTGGTTGTAGAAAATCCGTTGGGTCTGTTGTAGACAAAGTACAATCGGAACGCAACTTTGAAT TCCTCCCAGCTATGGATCTGTTGGTGGCTCAATCGGAACCATGTCAGGGCCTTGCCACCCAGATGTATTGCCAAGAGCTG GAACCGTGTTTCCCATGGGTAGGGATTTTGAAGGAAATAGCAATCTGCCATGAACAACCAGTATTCAGGGTTCTCTCCAT TGAACTCCGAGAGCTGCAGACTTGAATGTGTTTGTGGGTAATAAGATGGGACATTGTGACAGTAATAAGGTGATGTATTG GGCTGAGATGGGGGACTGTAGAAGATGGATCGGGGATCACGTTGTGCGGAAAGGATGGATGATAATACATCATAGTTGAG CACCATGATGCAATGGAAGGAAGAGATCAATGATGAAAGCACCAAATTGGTAGAGAGAAACTCTACCAAGTAAAATCAAA GGAAGAAAATCAAAAGAAAACTAAGAAAAGAAGATAAAATAAAACTTTGTCAATTTTCTTGTTAATCTTTCATAATGGAA TCCATACAACTTATACTAACTATCCACTCTAAGGGATGAAAGGTGACCTTACATGTGGCACCATCATAGAAAGTAGAATA TTCTAGAACATGATCTAAATAATAAACTAGAAATAAACATAGAAATAATAATAACTAATTATAATTGGCATAGTAACTTG AGGCCCATAAATGATGTAGCTATAGAAGCCCATTGAGAATGCAACCCTCTACCAGTGATACATGATAATGATTTACTGGC GGATTGCGGAGAAACAATTTATTATCTTCAAGTAATTCATAAAAAGGTGAAATCAAGGAAATAATCTGTCTTAATGAACT GGATTCAGCTGACAAAGCTGTCAATTAGATTATATCATATTTTGAGATTCTGGGAACCCAGAGCAAACATGCTGGCTGGT GTTAGATTGGTTTAGGAATAACATAATTGACCCAAAGCAAACATTAGACTTTTTAGAGCATAATGTTTTTTTTTCCCTTT TTCTTGTAATTCAAGTTTCCAGTTATTGTTGAGAATTGGTATGCTAAAACTTAGGAATATCAATTTTTTCTTGATGACAT GAGACCTGATGCAGTAGTTAACTCTATGGTTTGGGCCATTAGGCATTTATCCTTTATTTATCTGATATATTTCTTAACTT GTCTTGTTGCTCTGCATGTTCTTATATTTGGGATTTAATTGACTAATTGTGAGATAACCTCCTCGAGGTTTCTTCCTTAC ACAAACTTTTGTCTTGAAATGCATTTGATTCATCCAGCAAGTTTCTATCTATTAATTATCTTCAACAATTTAACTAATAA GCTCTCTATCTGTGACCAGAGACTGTATGGTTTTGCCATATGCTTTGCTGCTGGGTTAACCTGTACACTGTTGGTAAGTT TGACAGCATGATTTTTCTTTCTAATTTAGAATTTAGATAAATAATGATTATGTACAAGTTCTTCAGCTCAATGTGCATTG TGGAATATTATTTTGAAGCTTGAACCTTTCTTTAAATATGGCCACACATGAGTAATTATGTACCTGCGAGCTTTGAACTA CTTGAATTTGTTTGTAATTTTCGTTCCAAGTTTATTGAGTGCTATCATCATGCAACTAAGGTAGTTACCATGTTAGCTTT CCATTTTAACATGACTGTCACAAACCCAACTTGCAAAGGCAGTCATTTTGTAGAAATTAGATGAAAAATATCATAAGCTT ACATTCAAATTTATATGCGGCTTCTGATCAATACTAAATGGGTGCTAAGTGGACAAGGCTCTTACATTACTGGTAGGCTC TGGGGAGGGTCAGATATGCACAGCCTTACCTGTGTGGGTGGGTGGGTGGAGAGGATGTTTCTATGACTATAACCTGTGAC TGCCAAACTTAAGGCTGCAACCTTTGCCGAGTCTGACCCTCCACTTCTGATCAATAATTAATCCAATGAATGTTTCGTAT TTGCATTGATATTAGATAAATGTAATTATAATAGGGATGTTTCCGTGGTTCCCGTTGTCATGCTACCTCTTATGCTGTTT ACCTTGGGACTATACACTGATTTTCTACAAAACAATTAAAATAATTATTAACTAGGCCCCGGTTACCACAGAATTCTCCT TTTAGTATAGGTAATGCATAAGAAATAAACTCCTGCACTTTAGGAATTTGTGACTCAAATTTAAAGTTGTAATGTAATAG AGGGAATAAAAATGGCATATCTTCTATACAAGGATAAGGAATAAATCTCATTCATTTCTCATCACTGTCATGTAAATTTG ATGGAAATATAACTTATTTCACTACCTTCCTAAAAACTTGACTTACAAATGTTACTTTTTCTACCTTTATGTGGAATGTT AGCTTTTTAGCTCAAATTTATGTTGACAGACATGAATAACCACTAATTAATGGCAATTTTTTTACCCCATCTTACAGTCT ATGCTTGTTTTCCTCAAACCCATCAAGTTTGCAATAGCATTTACTCTTGGCAATTTGCTTTCACTTGGAAGGTATGTACT TTTTGTAGCTGTATAATTACACTATTATTTTGTATGTATATTTGTCAATATTTGGATTCTCTCTTTTTTTTTGAAGGGGG GAGGGGGAGAGGAACTATATTCCATTGGTACTGGCAAGACAATTGTTTACTATGATACCGACCTGATATTTTTATTGTAT TTTGGTAGTCCACTTTTCCTATTCTCTATAGAACTTTAGGGTGAAATGGGGAAGTAGTAAAGAGATACTTCCACTCAGTG AGAAAGCTTTCTCATTTTCTCTTTTTTTTTCTGTTCATTTTTTGTCCTATCAATCAATCTGTCACATCCCAAACTGAGTG ATTGAGAATTTCAATGTGATACCTAAGCCATGAGGCTTTTCTTTCCTGAAGGCTGGTTTCCTGGTCATTGGGGGTGGGCT CTCCTCATAGGCCTAAGTCATAACAGTTGGGCCACTTAAAAAGCTACCTACAGGCTGGATTAAGGTGTAGTGCGTTCTTG GGAACTCTGACTGCAGGGAATCCATTTCCATTGAATACTGATAGATGGCTGAAACCACCAAAAGGAAAAGGGCTACCACC AGGTCAGTGGACTAGGCTAGCTCTACAAGTCCTGGCTTCCTTCCCGTCTTTAACACTCGTAAAGACAGCATACCTTCATT GTTCTTCCTCTACCTGCTTCCTTATGTCTAGGCTGTTGCAGGAAAATCCCCTATGCATATTCCTTTTTAGCTCACCTCTC TTGCCAACATGGGTCATTAATCCACCTTGCATTAAAATGAGGGATGTTTCATGGTTTCTCTTCTAATGGATGAAATGCGC CCAATATCAGGAGTTCATTGTCATAATCAAATATTATATAATGTGGATTCTTCATGGTAAAAATCTAACTTGTTTTGTGA AAATTTCAACTTGTTCGTTTTCTAGATGAGTGGTCAGGGTGTAAGTTGCTAGATTGATTAGTGGTGAGACCACGGGTATT GAAGTGATAATTTTCCTGTAGGTGCACTCTTAAAGACTGAACTGTTTTTCTAACAATTAATTTGCTGTCAAGAAAAAAAG AAGAGATGATGTCTCTCTTTCTGCCTTTTGCTGTATAAATTGATTTCTACTTATCATTTCATCCTACTCTTAGAAGTTTG ACATTTTAAATTAAAATTGACTAAACCATTTACATCTGAAAAATTGTGGATGCCTCATTTTAATATATCATCCTTTAAAC TAGGTTTCACAGCTGTTCTGTTTCCTTGAAATGCTAAGCGGGAATCTTATTTATGGCAGCACAGCATTCCTCATAGGTCC TAAAAAGCAAATATCGATGATGCTTGATCCTGTTCGGATCTATGCAACAGCCATATACATTGCAAGTATGATAATTGCCT TGTTTTGTGCTCTTTATGTAAGTCAAAGCGCATCTTTGTTTGATTCCTTTTACTTCTGAAAAAAAGAGAGCTTTTCTTTT TTTCATTAGCTCAATATGTGATTCTTTTGCATTGAGCAGGTTCATAACAAGCTACTGACGCTTCTTGCAATTATCTTGGA GTTTGGCGCACTAGTTTGGTATGTCATAAATGCCTTCCTTTCTTGCTACTTTCTTTAATATTGACTTCAGTGTGCTCTAT GCGCACCAGGGTTATCAATCCTGGATTGTGGCACGCAGCGGCCAACCCCAAAAATGCTATAGCGGTATAGCGCATAGCAG GATGGTTGCTATGCTGAATTTTTTATGCAGTTTATATAATTTAATTATATACATATATAAATGCTTAAAAATGATAAAAA AGTTAAAATTCATAGCACTCATGATTAACAATAAAGAGTAATAGGTGTCTCGAGCAAAACATACAAGTAGCACAAAATAA TAGTTCTGAAGTTTTTATTTTATTTGAAACATGTTTATTCAAAATAATTTTCATGATTCATTTTATTTTATGTATAAACA TACAAGATTATTTTATTTGAATTTTCATAGTTCTTTCTATCACTTTCACTACTATCACTTCCTCCTCAAACTAGAGCCTT TTCAATATGTTTCTGACGCAAAACCCCTGAAACACACCCAAAAAATGCTGTAACATTAATTTTCAAGGGCCCTTTTTTGG TTTTTATCTGTTCCACCTAATAGCGCCACGATGGCCGCTTTTTCCTCCACTATAGCAGCCACAACAGCCGCTACATTGAG CTGCACCACTACGCTACAACTAGGTGCGGCTAGCTACCGCTACGCACCTCCATGGCGCTATAGCGCGCTATTGACAACTC AATTGTGCACATGTGACAAGACTGGAAGTCTGGAACAGATTGAGGAGGAACAAAACGTAATCTTTATTATTAGACACTCC TAGAACTAGCCTAATCCTTATATAAGAATAAAAAGACTACTTTTAATAATAACTTCCCCGATGGTTCAATCACTTCAATG CTTGTATGTTTTGATATTTTTTTATATTAATGTATTATGCATTACTTTAAAAGAAAATAATGATAATAAAAAAGCAAATT AAATATATAATGAATGTTCTTGGGTTAGACATGGCATAACAGATTAGAGTTATCTTTTACCTTAATCCAGCATATGATAT AATACGTCTTCGACCATGCAATATTAATCCAATTGTTACCCCATGCCTGTTTCCATTCTTGTGCATATGTTTTAATTCCT TCACCACTTTTCTGATTTTGATTGACAGGTATAGCTTGAGCTACATCCCTTTTGCGAGGTCCATGGTTTCAAAGATCATG GTTTCATGCTTTGACACAGAATTTTAGGTTATATGCTGAACGACTAAAACATTCTCTGTTGAACTGCATTGATCTCTTCA ATATCCTATCAAGCCAGCAGAAAGGTTGAGTCTGAAATACATGATTCTCCGTTGTGCGCTTTTTTCTATTGGAGTCTTGT GTAGGTTCCATTTGATTGTTAGATGTAAAATCTTGTGCATTTGTATTTTGTTATCTACAGGCTAATGTAAAGGTTTTTGT TTCTCCCAACATGCTGTCCTTTTTTTACTTGCTCTTCCTTTTCATTTCTTTTGTTTTTAAATCCCCATGCTGCTTTGGTC AAGGCTGTGTCTCAAAGAGTCATTAGTTTGCGGGCATTCGTTTTGGTACCAACCTTTTACATTCTTATACCACCCCCATT TTTGCTTTTTTCTGCTATGCGGAGTGTAGTTTTGTCTTCCACACTCATAAGTGTGGTATGTAAATGCTTCCCGCAAACAA AAGTGCAGTAGATTTGGGTGGTGAGAGAATGTAAAGGGGTGGTACCAAAACTAATGCCCTTAGTTTGCAACCTTTTATTA TAACAAGAAGAATTAAGGCATCCACAATGGTTGTAACTTCCAAAGATTGAGAAGATTGAATTGAACAAATATTGAATTGA ACAAATGAGTCACGATGGTATCACAAAGGCAAACTAGCCCCCTTTTAAAACTAGAAATAGGCAGCTCATGTGTAATTTAT AAATCCAGAAACAATATCTGAAGCTATGAATATGTTGCATCAACTAGTATTGTCTGCTGTAAAACCAAATGAAGCATAAG AAATAGAACCACCATCCCAACTATCATGCACAACTTTGGCCTTCGCGTTTTCCCCAGCTGCCCCCATTGCCACATGTAAT GGGAAGAAGTGATCCGGCCATGGATGAGCCATTTTTGCATATGGCGCCTTCTCTTCATATTGATTTACTTCTTCATATCT GCAAGAGCCATGAAGTGTGAAACACTTGCACTAAAAGGCTTATAAGAAGAATGGTATCTTTTAAATGAATGTGAAAAACA AAAAAATGGATTACCTTCCATGAAGAAGAGAGCTTTTTAACCATGACATGAAGTCCACTGCCCAGGGAGGAGGAGGGCTA TTGCGAGGTCCAATTGCTCTGAGGTTATGGGTAGCACTCCCAGAACCAATGATCAGAACACCTTCATCCTTAAGAGGAGC CAATGCCTTTCCCATTTCATAGTGATAAGTACCACCCATGCTTGATGAGACTGAGAGTTGACACACTGGGATGTCTGCAT CTGGGTACATCAACATGAGAGGAACCCAAGCTCCATGGTCAAGCCCACGTTTCCTATCTTCATCCACACGGCTGAACCCT GATGCTGTGAGTAGTTCCTTCACCCTCTTTGCCAAGTGTAGAGCACCTGGTGCTGGGTACTTGAGCTGCCAAAAAAAGTG CACAAGTTGAATAGATTGCTAGAGAAGGCCGCACCTAAATTATTGTTATATATTTTCCATCAGCTGTAAGTCTAAGGACA TCTAAAATGAAAAATAATAATTCAAAATAAAAATGCTTGGTTGTTGGCCATGTGAAAAAAGTAGTCGGCAGATGATCATT TTGACCAGACCCATTCAAATAAATTCGACATACGAATATGAATCCACTAATCAATTCTCCCTTTTACATAAACAAGACTG GGTCTTTCATCTTTGACTTTGTCTATATAAACCCCACTGAAAACCAAAATTATGCTCAAACTTATTAACAATTTATACCC ATACTTGTATAGCATGTTCATATCATTTTGTTTTTTCAGAATTAACTTTTTCAGCCAAAAACATCTCATAAGTTTTTCCC ATAATTGATTCTGAATCAATTGTGAAATGATTTCTAAACATCTTATTAATAAAATAGGGAGTTCAAAAACTTAAACCAAG TGTTAAACAATCTCATCCCAAGTGAAGCAGAAAATTATACTCATTTTTTACTTAAAAGTTTCTAATGAACAAAATTACAA ATCTACATAGGATTGGGGGGTTTAACTTCCATATCATCTGGTTCCAATAATGCTACAAGCTAAAATTGGAGTTATGATAT ATACACACATCTCCACTCATTTGAAAAAGGTAAAGCTTTTGTTTTTCCTTCTAATTAACAAAGCAAACATTCAAGGAAAA GATCTCAAACAACAATAACAATAGCAGCAGCAGAAAAGTAAAGAAAAAAAAAACTCAAAGAAATGGAGCAAACCTTGTAC ATGTTTTTGGGGAAACCATAGAAATCGTAGATGGTGTCATTCCGGTCAACGGCGTTGACGGTGGGGACATGGGTGTCCCA GTGGCCGGAGATGATGAGGATGGAAGAGGGTCGATGTGGAAACACCTCCTCCTTCCATGAATTCAAGAACTTCCATGCTG GGATGCTATCATCTATTGCTAGAGTTGGTGATCCATGGGATATGTAGAATGTCTCTTTCAACGCCATAATACTATTATTA TTAATATTCTCCTCTGTTTTTTTAGCGATTTCTGTCTCCTTCTCCTTCCTTGGCTTTGAATTAGCTGAACTGTGACAAAA TCTAAAGATGCTATTCATGGATAATGATGAATATATAAGGCTATAGAGAGATATCAGCAAAAATTAGAAGATGGTAGGTA CAAGTACAACTACAAATACATCTTCCCGAGCAAAAGAGAGGTTAATTTGTTCTGCTGACATTTGACCCGCCTAACT

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0166100.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGAAAAGATGAGCAAAGCCTTTGAGAAAGTGAAGATCATGGTGGGAATGGAAGTCGAAGACGAAGAGCAACAAGCTGC GGCATTGGACAACGACAACTCCTTCGCCTTCATGGATGAATTCAACCGCAACTGCACCTTGTCCACCAAACAGAGACTGT ATGGTTTTGCCATATGCTTTGCTGCTGGGTTAACCTGTACACTGTTGTCTATGCTTGTTTTCCTCAAACCCATCAAGTTT GCAATAGCATTTACTCTTGGCAATTTGCTTTCACTTGGAAGCACAGCATTCCTCATAGGTCCTAAAAAGCAAATATCGAT GATGCTTGATCCTGTTCGGATCTATGCAACAGCCATATACATTGCAAGTATGATAATTGCCTTGTTTTGTGCTCTTTATG TTCATAACAAGCTACTGACGCTTCTTGCAATTATCTTGGAGTTTGGCGCACTAGTTTGGTATAGCTTGAGCTACATCCCT TTTGCGAGGTCCATGGTTTCAAAGATCATGGTTTCATGCTTTGACACAGAATTTTAG

Download CDS Sequence

Protein sequence (LotjaGi2g1v0166100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MEKMSKAFEKVKIMVGMEVEDEEQQAAALDNDNSFAFMDEFNRNCTLSTKQRLYGFAICFAAGLTCTLLSMLVFLKPIKF AIAFTLGNLLSLGSTAFLIGPKKQISMMLDPVRIYATAIYIASMIIALFCALYVHNKLLTLLAIILEFGALVWYSLSYIP FARSMVSKIMVSCFDTEF

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	PTHR23137 View details on PTHR23137 Search for proteins/transripts with this domain View external data on PTHR23137	1	178	178	1.6E-70	IPR011691 Show description in modal box View details on IPR011691 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR23137:SF6 View details on PTHR23137:SF6 Search for proteins/transripts with this domain View external data on PTHR23137:SF6	1	178	178	1.6E-70	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	52	52	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	53	75	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	53	74	22	-	–
Pfam	PF04178 View details on PF04178 Search for proteins/transripts with this domain View external data on PF04178	63	170	108	1.7E-34	IPR007305 Show description in modal box View details on IPR007305 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	75	79	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	80	100	21	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	80	99	20	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	101	111	11	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	112	134	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	112	134	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	135	139	5	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	139	161	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	140	161	22	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	162	178	17	-	–

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:0016192 View details of GO:0016192 AmiGO InterPro QuickGO	Biological process	Vesicle-mediated transport	A cellular transport process in which transported substances are moved in membrane-bounded vesicles; transported substances are enclosed in the vesicle lumen or located in the vesicle membrane. The process begins with a step that directs a substance to the forming vesicle, and includes vesicle budding and coating. Vesicles are then targeted to, and fuse with, an acceptor membrane.	Subterm of View details of GO:0006810

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0166100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0166100.1