Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0275700
Transcript ID	LotjaGi1g1v0275700.1
Lotus japonicus genome version	Gifu v1.2
Description	Glycolipid transfer protein domain-containing protein; TAIR: AT1G21360.1 glycolipid transfer protein 2; Swiss-Prot: sp\|Q6NLQ3\|GLTP2_ARATH Glycolipid transfer protein 2; TrEMBL-Plants: tr\|I3S0X7\|I3S0X7_LOTJA Uncharacterized protein; Found in the gene: LotjaGi1g1v0275700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:67441462..67449411) extracted from Lotus japonicus Gifu genome v1.2.

GTTGATGATATCTATAAGGTCAAATTTAAAGTCCCCATCAAGGGCATACAGAAGACATTGAAAGCACATAATATTATTAG CAAACCTTAATAAAAAAAAGAGAGGGAAAGAGAGTTGAGACCCAAGAAGCTATTTTACCAAATATATATATATATCAATG TCAAGAAGAATTAACAATTGACACAGTTGGCACTGGGCACAGCAAGACTCACTCCTTTGATTCAGCAACTTGATTCTCTT CCTCTCCTTCTGTCCATGACATTTTGAACAGTTGATTAGAGTTAGAACTTAGAAGTCCACGCTCAAGGTGTGTTTATTCA TAAAAAAGACCAGTTGGGTCTATATTATATATATCTCAGATTGGAAGAACGAGGTGGGAAGATAAGGGAAAATGAAGAGG ACCAGAGATATGGAGAAGAGGTCAGAAATAAACTCTGCCATTGAAGAGCTTTCCATGCTGGTTATAGTCAAACCTGGATC AAATCAAGAGGATGCACACATCCCCACCAAGCCTTTCCTATCACTATGTTACTTGATTGTACAAGTTCTTGGTGGGTTTT GCTTATTTCATTTCTTCATTTTCAAACATGAATGTGATGCAACTCCAAACATTTTGTCATTATGCTTGATTGATTGATCC TCTTGCAGATAAGATTGGGCCAACAATGGCTGTTTTGAGACAAGACGTTTACCAAAATATCAAGGTAAAAAAAGAATTTT AAGGCATAGTGAAACTCTTAAATCTGTTCACATTACTTGAATGAAAACTATCTATGCATAGTAGCAGTAGCTTTCTTTCT TTTTTACCTTTTAAACTTTTGTGTTAGTTGTTGTTGTCTATTAGCATGAGGTGTGTTGACTTTCAGTTTTTCAGTTAACA TGCTACTAATAGCATGAGGTGTATTGCCATTGCTACTAATAGCATGTATGGATGAACTTATTTTTCTTTTAAATCAATTA TGACATCCAAAAACTTATCATATAAGCTTCTCTCCAGAATCAGTTGTAGAAGAGTTCTCAAACATGCCTATATTCTTTGT TATTGCAGAGGTTGGAAGCCATGCATGAATCAAATCCCTCAGTGAATTCAAATTTGGTTGAGATATTGAAATCAGAAGCT AGCAAAGGCAACGCCAAGTCAACGTGGTGTAGCTGCAGTAAATCCTTTGTTTGGCTCACTAGGTGAACATATATCTGTAG TTTTCTTTTGTTTACTTATTTAGTTATTCCTCACACTCAGAATAAATAATGGAAGGCATTATCTTCCGTAGTTTATTTTC AATAAGTTGAATAATTTTCACTAACAGATGTGCCACCCTGCAGATCCCTAGATTTCTCCTCAGCCTTGTTACAAGCACTA GCAAAAGATCCTAAAAAGAATATGGAGCAAGCAGTTCAAGAATCTTATGCTGCAACTTTGACACCATGGCATGGATGGAT TGCATCAGCAGCTTTCAAGGTAATAACAATTTGCTAAGAAATACTGACATCCTTACTTTACGTGTCAGACATATTTTTGC GGTGTCTGAGCAATTTTTTTCCGGCTTGGACACTTCAAGCCGAGACCTCCGGTTGGCTGGACACATGTGGGACACAGATA TTGATGGATTCTTAGCATGTTTAGATCAGCTTCTCTTTCATCGAATCAATTCCGTAAATCGTGCTGCTTTTAAAATCAAT TACAAAAGGCTTTACAAATATGCATAACTTAGAATGGTAATTAAGCAAATATATAAATAGAAAACTTGCATAGTTTAGCA TGGTGACCAAAATTGTGCATTTGTTTTCTGCTGAACTAACAGAAATGGTGCTGCAGGTGGCTGTAAAACTAGTGCCTGAT ACTGAAACTTTCGTGGATCTCCTCAGGGGGAAAAATGAAGACTATGAGACCCTAAAGGAGAATATGCAGATCCTGGTTTC TTTGCTTGTGCCTTTTCTTGAGGATATCCATTGTCTTCTGGTAAGTGTCAATTTTGTGTTTCCTTGCATAACATCAATTG GTCATGCTAATTGGATTTCCTATCATCTACTTACCTTATGAATATATTTTTTGCAGAAAGCATATGACTTGGACAAGCTT AAGTCAAGCTGAAGTCAAGATAGAAGAACTTCTCAACAGCTTTGTGTAGTGTATATAGTTTGGTTTCTTTGTAAATTGCT TGTATAGTAAATTTTGTGTCAACACAGCACTGTAGTTACAAGTTTGTATCCGGATGGTCAATATAGATGGTTATACACCA TTTTTGTTATTAGAATTTGAGTTATATTTCATCTACCTAGAGGATCTAATTCGGTGACATGAACACTAATTTGAGTAACC AATTTCCAGCTTAACATTAAATGACATAAAGAGTGTCATGAAAATTCATCCATTAAATGAAATTCATTTGCTTTAATTGT AATTGCCAGCGAGAAGTTTTCTAGACTTTCCTTTTTCCTATATGTATTCTCATAGTTCAATTCCTCCAAGATGTAAGAAT TTGAACATATATTCTTGGAATCAAATGAACATGTTTAAATAATAAATATAGATTCAAGTCCATCCCCACAAGGAGTTTTT TATGTCCTGTGAATTAGAAGGAGGATCTTGAAGTGCAATCAATGCTGCAACTAACCCAGCATTGCTTGCAATGTTTGGCT CAGTGAACCTTTGGTTGCTCCTTTGATCACTGAACTTATCATCTGTGTCTGGCCCTCCCACCATGGCTCCCAAAAGAACT TGTGGATTCGGGTCTTTCGAGTTTCGCCATTTCTTACCATCATCACAATTTTTATACCGGTTATCCCAAGGGATTGATGC ACCTCTGTGATGAACTTGGACTGGATACCTGTCACCATAGCCCACTAAATAGCTCATTTTCATAGGATTTTGTCCAAGTA TGTAGTTAACCTGAAGCACACAAAACAGAAGGGAGCAAAATTAGTACTATTTTCAATTTATATAGGTCACAATATGAAGA ACCATAAGGCAAGGGATTTGCCTGAGAACTAGAAAAGTCGCGAAGCATTTTCACTGAGAATTCATCATTCTTGCAACTTG CACTAGTCATTTTGAGATGGTCCAGGTAATCACTATACAATTTACTGAGAAAAGATGCTGTTGCAGCATACTGGAGTAAT GGCCCCATATCAGGTTTCAAGATAATCAATCCACCTACCATTATGTTTAGCAAGAATCATATACATAGATAACATATTTA TGCCTCAGTAGTTGGACCCTAATCCCACACTAGCAAATAATGTATGTTACAATTGATCAGAAATTAATTACCAGGTGTCC TGCTCAAATATTTGTTGAGTAGATAAGAACACATGAGTGAGTCTGTAGAGTTTGATGAGAGTTTCAAAACATCTTCATAT GGGAATCCAGGATCTTGGAAATATCGAATACCCGTAAGCAAAACCTACAAACATAAGCTGAAAAAAATTATACTAAGATT CATTGTCAAATCTCAAAATCATCTAACAATTCAGATTGTGTGGCCCTGAAGTTACCGCGATAGCATTGAGCTTGTTATTC CAATCAAACACCTCTTTGTTAAAATTTGTTTCATCAGCCTTGGCTGACAAAAATAATGCAGTTGCATTTGCAAGATAATC AGTCTCTTCAGTAGCAAGAAATAACCAAGTTGCTCCCCAGGCCAATTCATCTTTGTGACTAGTTGAGTTGTAAAGCATTC TAGCTTGTTTTCCACAGGCATCAACATTGGTGTAGGTCCCTTGCTTCTTAGGATCTTCCTTTGTAACTGCCTCATATAAA TTCTCTGCTGCTTGGATTAGTTTCCTTGAGTAATCTTGGTCTTCTTTGAATACCATAGATGCTGCAGATAATGCTGCCAC TATTTCGCCAGCTAAATCTGAAGCAGAGCCATCACATGTTGAAACAAGTCTCTCATACTTCATGTCTTCAGGTCTTTGCC AGCAACTTATATCATTGGGCTCATTGTTATTACTAATGGTACTTCCAACCTGATAAATTGTAAAAACACACAACAATTCT ATTCATAACCAATAGAAACTAACTCAGTAGGAATTGCAGGACAAAACTTAGACACAGGTATATATATACTGTTGTCATTA AAACATGACACATGGGTTGAAAAATGGAAAGTTAAGGGAAGTTATCGCATTAATAAAATTAATAAATATTAAGAAAGTGG CTGGTGAGTTTTTCATTGCGCAACAACACAAACGATACATACACTAGTGTTCATAGAGTTCCATGCCCTTGACCTAACTC TTATTAGATCAGTTGATTGAAAGAGTAAATCTATTTATTTTGCCAACGATATAAATCATTTTGACCCGAGCTCCTTGCCC ATGACCTTACTCGGTCATACCGGTCCAACTATCATGTTGAAGTTTTTTCCTTCAAAATTTAATTAACTTGCCTGGGAATA CATTGTAAGGTTGGATCCGGATTTTGAATCTGGGGGGATGAACACCTTGAGCAAGTAATCACTGCCCCATCTTATGATTT CCCTGACATGGTGAAGCTCACCAATATCAGCATATTTACCTTGATATTCCATTGTACTCCAACTCAACAAGGTCATAGTA TAAGCAGTGGTGAAGGTAAACTTAATGTTGTTTCCAGAATCATAAAATCCACCAGTAAGATTAGCCTTAGCTGAATTCCC ATCCTGTAATCCCGAGTCTCCTCGAAATTTCACTGGACTGTTCCTTGGATAGTACCCAGCTACCAAAAAAAGGCAAAAGA AAACAATGTTGAATTACAAGAAGAAAGAAAGCAGAATGTGCAATACAAAGAAAACTAGAGAAGTAGTACATTTTTGGGCA TCATAAAAGGTTAGAGCTTGGTTCACTGCCAGTTTGAGATTGATTGAAGAACCATGATGCTTGTTCTTCTGAGGTAAAAA GTGCACCAATAAAATCACTGCTGTGATAGCAAATATTATTGCCACTGAAACTATGATGAAACGGTGAAAATGCTCCCTGT CAGTGATGACAATGTTGTAGTCAAAAGATTTTGGGTAATGGGAAGGGATGGATTCATAAGCAGCAGAAGACTTAGGAGAA TGATTAAATTCAGGTGCTAGGGAGTTCCCTCTGGATGAAGCAAGAAGGCGACCTGTCTCTAAAACTGTATGCACATATGT AACAGGTTGCTTTTCTGTCTCAAGAGTCAATGGCACTGTTGGTGCCATGATTGATGAAGAAGATGCAGGGTTCTATTTTC AGTAACTTACTATAATATGTTAATGTTGCATTGGGTTGATATTCCAAAGCTTGGGTTTGTCTTTTCTTTGCCGTCCAAAG TATAGCATTACATGGGAAGTAATGTACAAATTATACAAATAAAGGCAAAATATTTCCTTACTAGTGCCAAAATTGTATTC TTATAATGATAATTAAGTTCTAAACGTTGATGCTGAAGGACTAAATAGCCTCATCTGTTCCTGTAGCAGAGGTAAAGCCA AACCAGATGAAGATGATGGTAGTCGTATTATGTGAGGAACAAGGCAAATAAGAAACAAGAAGAATAGATGAAGTGTTAAG CTTAGTTGCAAATTAGATTCCATGTCTTTAAGAGTTTTATTCAAGTTATTTGCAAACACTCTCAAAGATTGAATAGCAAG ACTCCTGAAAAGACTCAGAAGCTGATAGATATAATGATAACTAACTGCATAAACTCATATAATTTGATGTAGTAGATGGC AAATATGATTGTGCTGTTGTCAAGAGACAGGCTAAGAGAATTTTCAAGTAAATGTAATGGGAGAAGAATATAAAATTTTT TTTTTTTTGATCAAGAAAGAAGAATATAAAATTTCGTGGAATAAGAAAAGTGATTTTAGTGGAGCACAATGTGCATTTTA TATTATCATAGTTATAGCTAGTCATGGAACTAATCACAACTACCTAGCTGATCCGCAACTAACCAATCTAACTGGCAATA ATTACATTCTGATCATGGCCTAAAGTCCCTTTAACTTTGTAATTGAACAAGAGAGTCTATTGAACAACGAGTAATTGGTT TAAGTTGTAAATATTTAATTCATTTTTATAAGGTGTCCGTTCGAGTATTGTAAATGGAGAAACCTCTTAGTCCTACCAAA ATAATGATGTGTTCGGCTTTAACAAATAACAAGATTTTCGTCCATTAAGTATCCCTATGCTCAGAAAAAAATAAAACTAT TTGCTTAATTTATCTAAAATCCATGATGTATACACCAACAAATTTGGGAACATGGAAGATCTAGCCAAAGAGCTTATCTG AGGAACTCCTAATTGAGTATTCACCAAGCTTGTTACACAGGGGTATTATTACTACCTTATTTGCTTGTATTATTATATGT TCTGTTCAAATTTAAAGTTCCATTTGCTGCTCTACCCAGTGTTCCTGAGAATAGGACAACTTGAAACACCACCTTCAGTA CTACCATCAAACTCAGGACCTTTAAGAAGACCTCCAATCAGTTCATTTGCATCAAAAAAGAACTCCACCTTCACGATTTT CGAATCCTCATCCAACTGCGATCCAAAAATAACAAAAACATAAAATTGTTGCAGAAGAAAGGAAGAATCACTGTCTAAAT CACCTCAACTAAATATGAGGTAAAATTAAAATCACCTCAGTCTTAGGTAGGTCGATAATATTTTGACATGTATCTTAGGA AATTTCACCTCATAACATGTGTCAAAATATTAATGTCAAAATTTTACCTCTTATTAACTTAAGCTACGCATAGTAATTAT CATCATAGTTGTTATTTTACCGTGAAAATAGCCATTCCATAGAATTCAATTTTTTCTCCAGTTGGAGCGTGGCCTTTGAA AGGACCCTCCATGTAGCCCCAGTGTCTAAACTTGTAGACAATTACTGGCGGTCCAGAATACACTTGGAGAATCTCCAAAG CAAACCCTCTTGGTAAAGTAGTAGTAAAAGCTATGTGAGATGAATATCTTGTTTCTTTGTCTGGGTCATAAGGCCTCAGT TTTTGAGGTAGGGATGTTTGCAACATGGGAATGTAGCCCCCACCAAGTTCCCCTATCTCTTCCAAACTCATAGGCTTTCT CCCTGCATCATAACAACCAAGATTTCTTCAGATTGATTAAATGTTAACTTCAAAAACAGGTGTTTTAAATTCTGTAGATG CAATAATAGCTGGTAATTAAATCATGCTAACCATTTAGGCTGAAAGTAAATTTCTTAGGATCAATTGATCTGAACTCGTT TATATCAACTTTGTGGAAAAATTCCATTTCCCAATTTTTAACTAAAGTCTGCACCTGCTCTTCAAGTGATCCAGGAGGCC ATTCCTGCAGCCATGAAAAGCATATAGTCGGTTGCAAACGTCAACTGACAAACTAGAATTTGTCATGTTGAAATTAATCA GAGAAGCAAGATTTGCCACATCAAATTCAACATGAATCCATATTCAGTTCAACGAAAATCCAAACAGGCATTCGGATTTG TCATTGACACATGAAAGGTGTTGTTTACTATTGAATTGAATTGAATTCTAACATGAACACTCTCATACATATTCATTACA CTAGAATATTGGGAGATGAGAAAAAGAGAGACCTTGGTTCTGCCTTCTTCAAATAACTTATTCACAGCCTCATAGTTAGG TGGGGCACCAAATCTCCATTTGGTGTTCTTCTCTTCATCTCCGTGCAAATAGGTGCGGTACTTGTCCTTTTCAACACTTG GTGATGCCATCTTTGGCTACAAAAAAGAAGGAAGATAAGGTTTATGATATGAATAGAACTTCTGTTGAATATATATAAGA TGTATGTTTTTTTTTTATAAGCAAATGTTAGTTGTTAATTGTTAATAAATTAGTTCCTTCGCCGGAATTTGAACTCTCTG GTGGCATCCTGCAAATCTCTTCATTTGATATGAATACATATAAGATGTATGTTATGAGAATGTATGACTGTTACATTTTA CATTTAATCATAAATGGTTAAGATTAAAAC

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0275700.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAAGAGGACCAGAGATATGGAGAAGAGGTCAGAAATAAACTCTGCCATTGAAGAGCTTTCCATGCTGGTTATAGTCAA ACCTGGATCAAATCAAGAGGATGCACACATCCCCACCAAGCCTTTCCTATCACTATGTTACTTGATTGTACAAGTTCTTG ATAAGATTGGGCCAACAATGGCTGTTTTGAGACAAGACGTTTACCAAAATATCAAGAGGTTGGAAGCCATGCATGAATCA AATCCCTCAGTGAATTCAAATTTGGTTGAGATATTGAAATCAGAAGCTAGCAAAGGCAACGCCAAGTCAACGTGGTGTAG CTGCAGTAAATCCTTTGTTTGGCTCACTAGATCCCTAGATTTCTCCTCAGCCTTGTTACAAGCACTAGCAAAAGATCCTA AAAAGAATATGGAGCAAGCAGTTCAAGAATCTTATGCTGCAACTTTGACACCATGGCATGGATGGATTGCATCAGCAGCT TTCAAGGTGGCTGTAAAACTAGTGCCTGATACTGAAACTTTCGTGGATCTCCTCAGGGGGAAAAATGAAGACTATGAGAC CCTAAAGGAGAATATGCAGATCCTGGTTTCTTTGCTTGTGCCTTTTCTTGAGGATATCCATTGTCTTCTGAAAGCATATG ACTTGGACAAGCTTAAGTCAAGCTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0275700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MKRTRDMEKRSEINSAIEELSMLVIVKPGSNQEDAHIPTKPFLSLCYLIVQVLDKIGPTMAVLRQDVYQNIKRLEAMHES NPSVNSNLVEILKSEASKGNAKSTWCSCSKSFVWLTRSLDFSSALLQALAKDPKKNMEQAVQESYAATLTPWHGWIASAA FKVAVKLVPDTETFVDLLRGKNEDYETLKENMQILVSLLVPFLEDIHCLLKAYDLDKLKSS

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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	PTHR10219 View details on PTHR10219 Search for proteins/transripts with this domain View external data on PTHR10219	3	220	218	6.8E-109	–
PANTHER	PTHR10219:SF81 View details on PTHR10219:SF81 Search for proteins/transripts with this domain View external data on PTHR10219:SF81	3	220	218	6.8E-109	–
Gene3D	G3DSA:1.10.3520.10 View details on G3DSA:1.10.3520.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.3520.10	8	221	214	1.1E-44	IPR036497 Show description in modal box View details on IPR036497 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF110004 View details on SSF110004 Search for proteins/transripts with this domain View external data on SSF110004	32	218	187	5.36E-47	IPR036497 Show description in modal box View details on IPR036497 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF08718 View details on PF08718 Search for proteins/transripts with this domain View external data on PF08718	37	178	142	2.0E-37	IPR014830 Show description in modal box View details on IPR014830 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:0005737 View details of GO:0005737 AmiGO InterPro QuickGO	Cellular component	Cytoplasm	All of the contents of a cell excluding the plasma membrane and nucleus, but including other subcellular structures.	Subterm of View details of GO:0044424
GO:0120009 View details of GO:0120009 AmiGO InterPro QuickGO	Biological process	Intermembrane lipid transfer	The transport of lipids between membranes in which a lipid molecule is transported through an aqueous phase from the outer leaflet of a donor membrane to the outer leaflet of an acceptor membrane. This process does not require metabolic energy and can be either spontaneous or mediated by lipid transfer proteins (LTPs).	Subterm of View details of GO:0006869 View details of GO:0061024
GO:0120013 View details of GO:0120013 AmiGO InterPro QuickGO	Molecular function	Intermembrane lipid transfer activity	Enables the removal of a lipid from the outer leaflet of a donor membrane, transports it through the aqueous phase while protected in a hydrophobic pocket, and brings it to the outer leaflet of an acceptor membrane.	Subterm of View details of GO:0005319

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0275700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0275700.1