Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0079300
Transcript ID	LotjaGi1g1v0079300.1
Related isoforms 1	LotjaGi1g1v0079300.2
Lotus japonicus genome version	Gifu v1.2
Description	Syntaxin, putative; TAIR: AT5G05760.1 syntaxin of plants 31; Swiss-Prot: sp\|Q9FFK1\|SYP31_ARATH Syntaxin-31; TrEMBL-Plants: tr\|A0A151S1L4\|A0A151S1L4_CAJCA Syntaxin-31; Found in the gene: LotjaGi1g1v0079300
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:11445547..11457003) extracted from Lotus japonicus Gifu genome v1.2.

CGTGGCAGTGGGACCCAGTTTCTTACGAAGTTCCCTTCCCATTCGATGCTGAAACTGAAATCGCGTTCATGAGATCTCGG AATTGAAGAAACCTCTCTCCGATGGCATCCACATACCGTGACCGCACGTCGGAGTTCCGGTCACTGACGGAGACTCTGAA GAAGATCGGAGGAGCCACCGCGCCGCGAAACCAGCCGGAGAATGCTCCGGCGACGTCTCAAGCTTCCTCATATTCCAGAT CCGAATTCAACCGCAAGGCCTCGCGAATCGGGTTGGGAATCCATGAAACCTCACAGAAGATCGCCAGACTCGCTCAGTGT AAGTTCGTAACTAGCTTGTATTAGAATTAACGAAATTGATTCCAGGTAGATTCAGCTTTGCAAATTGAATTTCAATTAGA AACTCGTTATTCAAATAATGTTGATGAATATCAATGTAGCTATTTCAGAAACTGAGAATTGTTGAAGTAATAGTAGTATA AATTGTATTGTGTGAGATTTTTCCAGTGGCGAAGAAATCGTCTATGTTTAATGATCCGATGGTGGAAATACAAGAATTGA CGGGTTTGATTAAGAATGATATCACTGCGTTGAATTCGGCGCTTTCGGATTTGCAAAACATTCAGCAAATGGATATGGCT GAAGGGAATTACTCGGAGGATAGGAGTGTGCATTCAACTGCTGTTTGTGATGACTTGAAGGGCAGGCTAATGGGGGCCAC AAAGCACCTTCAAGATGTCTTGACTGCAAGGACAGAGGTTGGTTAATCGAAAACTGATTTTGTTTTGATCTTCTAGAGTG AATGTATAATTTGGTATTGATTGGATGGAAAGTGTTATTTGTGTTGTTTTGATGCTGGGAAGTTTGTAATTATTCAAATT TGGCAACGAAGTTGACTCGATAAGAAGTTCACCCCGCTAAAGTTGTTAATTTGCAAACAAGTTCACTGTTTAGGTTTCCA ATGTGTATAGTTTCAGGGACAAAAACAACAGAAGTAACATGTAACATATTTAAGAACCAAATTGCGGATTGCCTCAATTT TGTATGCATATTACATGTCTTGATATTTTTCTCACCTAATGTTGTCTATGTTGTGCAATGTGTGTGTATGTCCCAGAATA TCAAGGCTCATGAGAATAGGAGGCAGATATTTTCCAAGACCGCAGCGAGAGAGAACCCTTTCCAGCATCAGCCAAAGCCA GCAACTGAGCCACCACCTTGGTCAAATTCATCAAATGCATCTGAAAATTTGCAAGAGACATCAGGGTGAGTCAATTTTTT TTTCATGTCATATGTTAACATTCATTGGTATGCCCTTACATAAATATTCCATTCCCAACTTCCATAATTTAACACTAGGG AATCTGGCACAATATGAAAACATGAAAAACCTGGCTGCCGTGGTTGTTACTTTCTACCATGTTTCTGCACCAAGATAGGG GTTAGCTGTTGGTGTATCCAATTTTGTTTCTTCCAAAGTTTCTTATTCTTGAACTCAGCCCTGGGTTTTGTATCATGGGT TGGTCAATCTGACCATATGTTTGTTTCATTTCATCCTTCTTGACATGATTTATGAATTATTTTCTGACTATCCAAACTTC TTTTCCACACAATAGCATAATAAAGCCTTAGTTCTTGTACCGGAAAAAAGATTGACTAGTTCAACCTTGATACTTTCTTA ACTAGATGTTGCAAACCCACACTCTAGGCCCAGATTTGGCAAAGTCTATGAGAGGAGGCCCAAGCAAGGGACAGCTGTAC CTGAAGATCCACCTTCTAGAAGCTTGGATCCCAAGATAACCGACTAATGAGGTGGCAACACCCACATGGGTGAGGGGGGG ACCATAGGGTATCAACCTAGGGAATATATGTTGGTTTTGGAGAGAGAGTGAGGTAGGCAGAAATTAGTCTGGACTGGGAG AGATTGAGCACTCTCGAATTGCTCAAGTTTATCTTGTTATTTTCCTTCTTGTCATTTCCTTCTTGTATTTCCCTAAACAC TGCTTCTGGGTTCATACCAGAGGATTCAGTGCCTTAATAGCATTCAGTTTTCTTCTTTCCTATTACATTTTTCTGGTACC TAACATTGGTATTAGAACTCCCGATCCAAAGGGAGCTTTGTATGGTACTCACCCGCAGCGCTATGGAGAATCGGGTTGAC AACTTGGAGCGTTCCCTCACCGAGATGAAGGAAGTGGCTCACGAACAGTTTGAGGAGCTCCGACGACTCTTCCTGAGTCG CGACAACCGACGAAGGGGTCGTTCCAACACCCCACGCCATCGAAGAACCTCACGCGATGCGAGCTCAGTCACCGCAAGGA GAAGCGATATCGGGTCACAACCCGGGTCGCGCTCTTGGTCTCGAGCTGCGACGCACGATCGTGAGCAGCACGAACACTAT CATCACCGTCACCATCTGCGAGCGGTCACGGGAAGGCGAGTCGACATTCCGATGTTCAACGGAAGCGACGCGTATGGCTG GATAACGAAGGTCGAGCGTTTTTTCAGACTCAGTCGGGTCGAAGAGAGGGAGAAGATCGAGATGGTCATGATCGCCATGG AAGATCGTGCCCTCAGCTGGTTCCAGTGGTGGGAAGAGCAAGCTTAGGAGCGAGCTTGGGAACCGTTCAAACAAGCTCTG ATCCGCCGTTTCCAACCGGATCTTGTCCAGAACCCGTTCGGACCTCTGCTCAGTGCCAAACAGAAGGGTAGCGTCATGGA ATATCGAGAAGCCTTCGAGCTCTTAGCTGCACCCATGAGAAACGCTGACATAGAGGTGTTAAAAGGGGTTATGCTTTAAG TGTGGGGAGAAGTGGGGAAGGGAGCACATATGTGCCATGAGGAATTATCAATTGATTCTGGTAGAGGGGGAAGAGGAAGA AGAGGAAGATGAGGTTTTCGAAGAGGTTGAGGATGGGGAATTCATTTTGGAAGGAAAGGTGCTGCAATTATCCCTGAATA GCAAGGAAGGGTTAACCTCTAATAGATCTTTCAAGGTCACAGGTAAGATTGGGAGCATAGAAGTTCTGATATTGGTGGAT TGTGGGGCAACCAGCAACTTCATTTCACAAGAGCTGGTGGTGGAACTAGACATACCTGTGATTGCCACTTCAGAGTACAT AGTGGAGGTGGGAAATGGGGCTAGGGAGAGAAATTCCGGAGTATGTAAGAACCTGAAGCTAGAGGTTCAGGGGATTCCCA TTACTCAACATTTTTTCATCCTAGGCCTAGGGGGAACAGAAGTGGTGCTGGGAATGGATTGGCTTGCTAGTCTTGGCAAC ATTAGAGCAAATTTCCAAAAGCTGACCATTCAATGGGAGGTTCAAGGACAGAAAGTGTTCTTACAAGGGGAGCCATCCTG GTGTAAGATTGCTGCAGGATGGAAATCTATTAAAAAGACTATGGAGAAGGAGGGGGAAGCATATTACCTCTCTTATGAGG GGTTGACTGAGGATCCAAGGATTGCAACTGAGATTTCAGAAGAGATAGAGGGAATCCTAGCAGAATTTCCTGAAGTTTTT CAAGAGCCAAAGGGGCTACCTCCCAAGAGAGCAACGGATCATGCCATTTTGCTTCAAGAAGGAGCTTCCATACCCAACAG TAGACCCTACAGGTATCCATTCTATCAGAAAAATGAGATTGAAAAATTAGTAAAAGACATGCTCAAGGCAGGGATCATTA GACCCAGTACAAGTGGTAGTCCTGCTATATTGGTGAAAAAGAAAGATGGAGGGTGGCGATTTTGTGTGGATTATAGAGCC CTCAACAAGCTTACAATCCCTGACAAATTCCCTATACCAATTATTGATGAACTGTTAGATGAAATAGGAGCAGCTGTGGT TTTTTCAAAACTTGATTTGAAATATGGTTATCACCAGATTAGAATGAGAGAGGAAGACATTCCTAAGACTGCTTTCAGAA CCCATGAGGGCCACTATGAATACCTAGTCCTACCATTTGGCCTATCCAAAGCACCCTCAACCTTTCAAGCACTCATGAAC CAAGTCTTGAAGCCCTATCTTAGAAAATTTGCACTTGTATTTTTTGATGATATCTTGATCTACAGTGAGAGCGAGGAAAA GCATAGGGAACACTTGAGGAAAGTTTTGCAAGCTTTAGAGGATAACCATCTGGTGGCAAACCAAAAGAAATGTTCTTTTG GTCAACTGGAATTGGTGTATTTGGGGCATGTGATATCAGGACAAGGGGTAGCTGCTGACCCTAACAAAATCAAAGATATG TTGAACTGGCCCACTCCAAAAGATGTGAAAGGATTAAGAGGTTTCCTTGGGTTAACAGGGTATTATAGGAAATTTGTGAA GAATTATAGTAAGCTGGCCCAACCTCTCAACCATTTACTCAAAAAGAACAACTTCAGTTGGAGTGAAGAGGCAGCTCAGG ATTTTGAGAATCTGAAGGTGATCATGACAACTGTGCCAGTTTTGGCAGTGCCAAATTTTGCAAAAACCTTTGTCCTAGAG ACTGATGCATCAGGAAAAGGGTTAGGGGCTGTACTAATGCAAGATGGGAAACCAGTGGCTTATATGAGTAAGACACTTTC AGAAAGAGCACAGGCCAAGTCTGTATATGAGAGAGAATTAATGGCAGTAGTGATTGCAGTTCAGAAATGGAGACATTATC TCCTAGGGCAGAAATTCATCATACATACAGATCAGGAGAGCCTAAGATTCTTAGCTGAACAGAGGTTGATGGGAGAGGAA CAGCAGAAATGGGTATCCAAATTAATGGGATTTGATTTTGAAATCAAATACAAGCCAGGGATTGAGAATAAGGCAGCAAA TGCCTTATCCAGAAAAATGCAATTCTCAGCTATATCTTCAGTTCATTGTGCAGATTGGGAGGATTTAGAAACTGAGATTA TGGCAGAGGAAAAATATAGGAAAATCATGCAAGAGCTGGTCACTCAAGGCACTTCTGTGGCAGGGTACCAATTGAGGAGA AGGAGATTACTTTATAAAGGAAGGATTGTCATTCCCAAGGGGTCTGGGAAAATTCTCACCATATTACAAGAGTTCCATGA CTCTAAACAAGGAGGGCATGCAGGCATTTTCAGAACCTATAAGAGGATTTCTGCTCTCTTTTTCTGGGAAGGGATGAAGC TGGATATTCAGAGTTATGTACATAAATGTGAAATCTGTCAAAGGAACAAATATGAAGTACTCAGCCCAGCTGGTTTCCTA CAACCACTACCCATCCCTACTCAGGTATGGACTGACATTTCCATGGATTTCATTGGGGGGCTACCTAAAACCATGGGAAA AGACACAATACTGGTAGTAGTGGACAGATTCACCAAGTATGCTCACTTCTTTGCACTCTCACACCCTTATAATGCAAAAG AAGTTGCAGAACTCTTTATCAAGGAGGTAGTCAAACTACATGGATTTCCTACATCCATAGTCTCTAATAGAGACAGAGTT TTCCTAAGCACCTTCTGGACAGAACTATTCAAATTAGCAGGAACCAAATTGAAATTTAGTTCTGCATACCACCAACAAAC AGATGGACAGACTGAGATTGTAAACAAATGTGTGGAGACCTATCTTAGGTGTGTGACTGGGACCAAACCCAAACAGTGGC CTAAGTGGTTGTGTTGGGCAGAATTTTGGTACAACACCAACTACCATTCTGCCATCAAAACCACACCCTTCAAGGCATTA TATGGGAGGGAAGCACCTGTGATCATCAAGGGGACTGATTCTTTAACTTCAGTAGAGGAAGTTGAAAGGATGACTGCTGA GAGGAACCTACTTCTGGAAGAGCTCAAAGAAAATCTGGAAAAAGCCCAGAACAGAATGAAACAGCAGGCCAATAAACACA GGAGAGATGTGCAGTTTGAGATTGGGGACATGGTATACCTCAAGATACAGCCTTATAAGCTCAAAAGCCTGGCTAAAAGG AAAAATCAGAAGCTTAGTCCAAGGTACTATGGACCCTTTTTAGTGATAGACAAGATCAACCCTGTTGCTTACAAGTTGCA ATTACCAGAGGGCAGTCTAGTCCATCCAGTATTTCACATTTCCTTGCTCAAGAAGGCAATTAATGAGGGAACTCCTTGCC AACCATTACCCAGCTCATTAACAGAAGATTGGGAGCTCTTAGTAGAACCAGAAACTATTCTGGGAACAAGACAGAAGGAG AATGGGAGCATTGAAGTTTTGGTTAGATGGAAGGATCTTCCAACTTTTGAAGATTCCTGGGAAGACTACACTGCTCTGCT GGAACAATTCCCTAATCATCACCTTGAGGACAAGGTGATTCTTCAAGGGGGGAGAGATGTTGCAAACCCACACTCTAGGC CCAGATTTGGCAAAGTCTATGAGAGGAGGCCCAAGCAAGGGACAGCTGTACCTGAAGATCCACCTTCTAGAAGCTTGGAT CCCAAGATAACCGACTAATGAGGTGGCAACACCCACATGGGTGAGGGGGGGACCATAGGGTATCAACCTAGGGAATATAT GTTGGTTTTGGAGAGAGAGTGAGGTAGGCAGAAATTAGTCTGGACTGGGAGAGATTGAGCACTCTCGAATTGCTCAAGTT TATCTTGTTATTTTCCTTCTTGTCATTTCCTTCTTGTATTTCCCTAAACACTGCTTCTGGGTTCATACCAGAGGATTCAG TGCCTTAATAGCATTCAGTTTTCTTCTTTCCTATTACATTTTTCTGGTACCTAACACTAGATAAGTAATAGACAGTGTGA TAGTCATGTATGAGAAACAAACATGTATATATTTCCTATGTTAATTGATAGGTGATCCTTGTTTGTCTTGCTGAAAGATT TAAATCTTAGAGTTGGCAAAGAACTCCTGAATAGTGCAAGGGTAGACCAAATTGAGTAAATTTACTCTTCCGAATTCCAA TATGAATGTACGACTTAAAGGCTTAAACATGAAGTCCTGAACTATGCCGTAAACTTTTTGAGAGGAATAATAATCACTAG CCTTTTATTAGATTCCCTTTCAGGCATTCATTTTTGGTATGCTGCTTTAAACATATAAGTAAGACCTGGTGGAACATTGT AAAAATCTCTTAACTAATAATTATTTTCTAGCCCTAAGTACTTCTACAGTTCTACCACTGACAAATTTTTGGCTTCTTTA GAATGTAATGCAATAATTACAAGTTTTGGCATTGAACATGTGTCTGGGGTGTCGCAAAAAAGTGGGAACTTACAATGAAC TATGTCAGCTGATCTCAATTTTCTATGTAATGATGATACTGTAGTTTGGCTGTGCTATACTGTAATTATTTATTTAAATT TATGTCTTTAAAAAATTGTACGTTCTGAAGATCCTCTCATTCTATGTATTTACAAATCATTAATCTGTATTTATGTATAT ATTTTATTTATTCATGTTAGAAATGATAGGTCTCTGAAATTTTATTGCTGTTAAAATGATTATAAGTGTCTGTCGCATGC AGATTACCACCAAATGGAGCTCCAGCAGGAAATCAACTAAGGTTTGTTATAATTTCTTTTTACACTGTAAGATCAAAATT TTCATTTTTATGTAGCATTGTTATATGTTGGTCTAAGAACTCCAAATAACACTTTAAAAGTATAATTTATGAAAAAAAAG TGGCTTTCATTTGGTTCTCATGGATCATAGTACAGTGACTGTATTTGAGTTTGATAAAACCCAAACTAAGAAGAACAAAA AAATGGGAAGACCAAAGGAGCATTGTACTTACTTAATTAAACAGAAATAAAATCCTTACAAGCAGAGAATGATCTCAGAG AACCAGACACAAAATGGAAGGACAGAAAGAAAATGAAGAAGAACGAAAAAACAGAGGTGCTTTACACAGGTTGCCCTTCT TTCAGCCATAAAAAACTTCAGCTGTGATCTTTCCTGTCCAAAAAAGTCCCCTAACTTCCCTTTATTTCCCACCCCTAACC TTTTCAATGTCCTCATTCACACGCAATAGCATGTGACTCCCAAGGGTGATCCATCCCAGCCCAATGCTCCTCTGCATAAC TCACCAGGTAGAGACAAGTAAGGACAGAACTAGGGAAATTAGGTAAGGGGAGCAAAAATGTTACACACATTAGTAAAATT AACAATGACTAATTAGAGGAGACAACAAAAATATTTTGAGGGGGCAAATATAACATTTGAATATTATTCTAATGTTTTTT TCTCTATGGGGGACTGGCCAATTTGCAACATATGTAGTTCCGTCCTTTATGACCAGATTAATTGGCCTATCAGAGGTTAC ATTCTTTTGAGTGCATGTTGCTTTCTTGCGGTTTTGTGATGATAGTTTCAAGGCATCTGTTAATCATTCCGTAGTTCTGT AACAAGCATAATCAAATATTAGCCTGATAATGAGAGAAAGGATAGAAACTTTGATAAGTCTTCTTCTGGTTAGCACATTA ACCAGATAATGCGGATGGGAACTTGGGAAGTAAATAAAGGTTAACTTTATGTTGAGACTTGAGAACCACTTGGAATTTTA AGACTGTGGAGGCTCTGTCAAGCAGGTTAACGGATAGGTTTTCTCAGTTCAAACTTATTTGAACATCCTTCTCTTTCCGT GTGCATGAATGATCCTTGTTTATGCATTTTGCTTGAATGAATTGAACTTCTTGCCCAACATGAATATTGGCGCAAGTTAT TTTTTTGTTTTTAATTGGATATGGTTGGTCTATTAAGTTATTAGCAGTATTCAGTTGCAAATTAGATTATGTTTATTTCA CACACTGTCTTTTGAATCCTCAACTATCTGGTCGATGATTGTATTGGTGAGTTTTATGAGTCACTTCTTGTCCAGGTCCT ATAAATCGTCAAAGTGTTAAGCTTGGCTTTTCTTTTGTTTTTCAGCACTTAATACAAGGATTTTGTAATTGTGTACTGGT AGTATGCTTTAAACATTAGGGAGTGGAACTTCTTCTATGCAATTGTGTTTGTTCTAAGCTAGTCTAGCTTTCTTTGTAAG GGCAGAAGCATCACTTGTGCTTCCTTAAATTCAATTTTTGCTTATAAAAAAAATACAAGGATTTTGTATCTTATTTTGAC TGAGTTTAATCTGGATAGATATCATGTGATTAGTTATGTTAACTAGTAATTTTCTTGGCATAATTCCCCTATAATTTATT ACGTACCTACTTAAAGCTATGAACATCTCGATATTCCACTTTTTTCTTTTAATAGTTTGCCTCCATTAGTTGAATGGACA ATTATCAGAATGTCACAAAATATAGTTGTTTAATGTGGTTATTCAATCTGGAGGTTGTCGTGTCTCAATTATTTATCAAA CACCTTACCATGCTTATGAATGCTCTGTGGTAAGTTTACCCTTAGGTTGTTATGTGTAGCTTTTTGGGTGTGAATTGCTT AAATTTTCTTGGCATGCATGCTTTGGATGTACATATTTTCTAACTTAAACTACAACATGTGGTAAATTTTCTGATGCAGG CGAAGGTTAGCTGTGGACAACGCTCCATCCCAGCAAATGGAAATGTCTTTGGTACAGCAGGTTGTCCCTCGGCAGGACAA TTATGCTCAAAGTCGGGTAACTGCTCTTCACAATGTGGAATCTACTATCACAGAACTTAGTGGGATCTTCACACATTTGG CTACAATGGTTGCCCATCAAGGGGAGCTAGCTATCAGGTTCTTAACTTTTTACTTGAGTATTTGAAACTCAGATTGTTGC GGTGCACTACTTTTTCCTCCTCATATGACATTGGAGTATGTTAAAAGCTTGAACCAGAAAATGTATTTGAAGCTATAGCT GTTCACTTGTTCTAACAATTAGCATTATGTCTAACTGATATGGGTAGGATTGATGACAACATGGATGAGTCATTGGCAAA TGTTGAAGGAGCACACAGTTCTTTATTGAGGCATCTCAACCGAATATCATCAAATCGGTGGCTTCTTATCAAGATATTTG GCATTTTAATACTTTTTCTGATGATCTTCATTTTCTTCATAGCCTAATACCAATCATGAAAGTTTTTCTTCGCGGCTTGG ATCTGTCTTTGCCCCTCCTCTCTGGAAGCATAAATGCCAGAGCAGCTAAATGAAGGGTTATACATATGACGCATGTGTTC TGTTTGCATGTAGATAGGGCTTCCGTTGCTCGGCAATCTATAGGTGTTATGAATTTTTTTGCTGGCTTCTAAGCCCCACC AAAACATTGTAGGAATTTGAATGCAGCTGAAGATAGAAATATAGGCGTGCTGGGCACACTGATATATATAGACTTCAAAA TCACGTTAATATATAAGCTATAATACGAAGCTGTTCCACTAATGCAAAACAGTCTTCAGGTGCAAAAAACTGAGAGAAGG AAAAGACAACTTTTCCAATTATTGTAGTGCATGTATTGCCAGATACTTGTAAAAGTTATCGAATTGGTAGTAACATACCA GAAGTTCTTTGTTCAGTTACCTGTACAATGTAAGAAACTTTTGGATATTGTAATATGAAAATTGATTGATTCTTTGAACT TTGAAGTTTTGTGAGATAAAATTATTTTTATTGACCCTTTTTTTACGTTATTCATCAATATGTCTCTTGATTTATCTGCA GTATAATTTTTGGTAAGTGCAATTTAAGTTCTTGTGGTTGCATGTGTTAAATTCTCTGTGGATACTTGCTTTTTTTGTTT TTCTTTTTAGTGCACATGTGGGTTAAAGAAGGATTCCTTCCTTCCACTTAGTATTTCAAAATGCTATTTCACTTATTCTC TACTCTATAGAAAATGCATTTGTTTATTCACCATGTGGATATTTTGCTTTACAATTATAAGGATGCAGTCAAACACATAA AGCTGGTTATTTCACTTATCTTTTACTCCATAGAAAATACATTAATTTATTCACCATGTGGATATTTTGCTTTACAATGA TAAGGATGCAGTCAAACACATAAAGCTGGTTAATTATGTATATGTTGGACTGGAATCCACTAAGTTATTTGTTGCAGCTA ATGCTAGGAATCTCCCTTTCTTGCTTAGATTTAAAGTTTAATTTTACTAGTTCAGTTGTTTGCCAACAACTGTATTGATT TGTCATGGTTATTACTAAAAAACCTTCCAGACTCCTTATAAAGCATTTCTGATGCATTATGTTTGAACTCTATTAAAACT CTTGATGTCATTTGATTTTATTCAATCAATTGTGTTACATAAATCCTTTTAACATTATGATTATATGATAAGTGAAGAGG GAAAAAATATAAAAAATGCACATAACCGATGTGTTGATCCAAAAGTATAATGACACTCACTAAAGATTTCTCCTGAAGCA ATGACTTTTGTTGATTATACTCATCAAGAAAACTTCACATTCTTCATTGCTTTCTGTCTCTTTCCTAGCCTCTATATTTC TAACTTTATATGTAGTGCATTACCTAATTTACTTGTCAAGATAGGGACTTTACACACTTAAACTACCTAAAATAGATTCT ATGGTCTCTGTATAGTC

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0079300.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCATCCACATACCGTGACCGCACGTCGGAGTTCCGGTCACTGACGGAGACTCTGAAGAAGATCGGAGGAGCCACCGC GCCGCGAAACCAGCCGGAGAATGCTCCGGCGACGTCTCAAGCTTCCTCATATTCCAGATCCGAATTCAACCGCAAGGCCT CGCGAATCGGGTTGGGAATCCATGAAACCTCACAGAAGATCGCCAGACTCGCTCAGTTGGCGAAGAAATCGTCTATGTTT AATGATCCGATGGTGGAAATACAAGAATTGACGGGTTTGATTAAGAATGATATCACTGCGTTGAATTCGGCGCTTTCGGA TTTGCAAAACATTCAGCAAATGGATATGGCTGAAGGGAATTACTCGGAGGATAGGAGTGTGCATTCAACTGCTGTTTGTG ATGACTTGAAGGGCAGGCTAATGGGGGCCACAAAGCACCTTCAAGATGTCTTGACTGCAAGGACAGAGAATATCAAGGCT CATGAGAATAGGAGGCAGATATTTTCCAAGACCGCAGCGAGAGAGAACCCTTTCCAGCATCAGCCAAAGCCAGCAACTGA GCCACCACCTTGGTCAAATTCATCAAATGCATCTGAAAATTTGCAAGAGACATCAGGATTACCACCAAATGGAGCTCCAG CAGGAAATCAACTAAGGCGAAGGTTAGCTGTGGACAACGCTCCATCCCAGCAAATGGAAATGTCTTTGGTACAGCAGGTT GTCCCTCGGCAGGACAATTATGCTCAAAGTCGGGTAACTGCTCTTCACAATGTGGAATCTACTATCACAGAACTTAGTGG GATCTTCACACATTTGGCTACAATGGTTGCCCATCAAGGGGAGCTAGCTATCAGGATTGATGACAACATGGATGAGTCAT TGGCAAATGTTGAAGGAGCACACAGTTCTTTATTGAGGCATCTCAACCGAATATCATCAAATCGGTGGCTTCTTATCAAG ATATTTGGCATTTTAATACTTTTTCTGATGATCTTCATTTTCTTCATAGCCTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0079300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MASTYRDRTSEFRSLTETLKKIGGATAPRNQPENAPATSQASSYSRSEFNRKASRIGLGIHETSQKIARLAQLAKKSSMF NDPMVEIQELTGLIKNDITALNSALSDLQNIQQMDMAEGNYSEDRSVHSTAVCDDLKGRLMGATKHLQDVLTARTENIKA HENRRQIFSKTAARENPFQHQPKPATEPPPWSNSSNASENLQETSGLPPNGAPAGNQLRRRLAVDNAPSQQMEMSLVQQV VPRQDNYAQSRVTALHNVESTITELSGIFTHLATMVAHQGELAIRIDDNMDESLANVEGAHSSLLRHLNRISSNRWLLIK IFGILILFLMIFIFFIA

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	315	315	-	–
PANTHER	PTHR19957 View details on PTHR19957 Search for proteins/transripts with this domain View external data on PTHR19957	2	336	335	9.5E-163	–
PANTHER	PTHR19957:SF228 View details on PTHR19957:SF228 Search for proteins/transripts with this domain View external data on PTHR19957:SF228	2	336	335	9.5E-163	–
Pfam	PF11416 View details on PF11416 Search for proteins/transripts with this domain View external data on PF11416	6	21	16	0.0011	IPR021538 Show description in modal box View details on IPR021538 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	23	48	26	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	31	48	18	-	–
SUPERFAMILY	SSF47661 View details on SSF47661 Search for proteins/transripts with this domain View external data on SSF47661	45	300	256	7.46E-37	IPR010989 Show description in modal box View details on IPR010989 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	171	216	46	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	190	211	22	-	–
Gene3D	G3DSA:1.20.5.110 View details on G3DSA:1.20.5.110 Search for proteins/transripts with this domain View external data on G3DSA:1.20.5.110	238	337	100	3.7E-13	–
SMART	SM00397 View details on SM00397 Search for proteins/transripts with this domain View external data on SM00397	240	307	68	3.3E-12	IPR000727 Show description in modal box View details on IPR000727 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50192 View details on PS50192 Search for proteins/transripts with this domain View external data on PS50192	245	307	63	15.98	IPR000727 Show description in modal box View details on IPR000727 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd15844 View details on cd15844 Search for proteins/transripts with this domain View external data on cd15844	248	333	86	4.52782E-41	–
ProSitePatterns	PS00914 View details on PS00914 Search for proteins/transripts with this domain View external data on PS00914	251	290	40	-	IPR006012 Show description in modal box View details on IPR006012 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF05739 View details on PF05739 Search for proteins/transripts with this domain View external data on PF05739	282	333	52	1.5E-13	IPR000727 Show description in modal box View details on IPR000727 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	316	336	21	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	316	336	21	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	337	337	1	-	–

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:0005484 View details of GO:0005484 AmiGO InterPro QuickGO	Molecular function	SNAP receptor activity	Acting as a marker to identify a membrane and interacting selectively with one or more SNAREs on another membrane to mediate membrane fusion.	Subterm of View details of GO:0005515
GO:0006886 View details of GO:0006886 AmiGO InterPro QuickGO	Biological process	Intracellular protein transport	The directed movement of proteins in a cell, including the movement of proteins between specific compartments or structures within a cell, such as organelles of a eukaryotic cell.	Subterm of View details of GO:0015031 View details of GO:0046907 Part of View details of GO:0034613
GO:0016020 View details of GO:0016020 AmiGO InterPro QuickGO	Cellular component	Membrane	A lipid bilayer along with all the proteins and protein complexes embedded in it an attached to it.	Subterm of View details of GO:0005575
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 LotjaGi1g1v0079300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0079300.1