Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0277100
Transcript ID	LotjaGi1g1v0277100.1
Related isoforms 3	LotjaGi1g1v0277100.2 LotjaGi1g1v0277100.3 LotjaGi1g1v0277100.4
Lotus japonicus genome version	Gifu v1.2
Description	Hexosyltransferase; TAIR: AT5G53340.1 Galactosyltransferase family protein; Swiss-Prot: sp\|Q94F27\|B3GTB_ARATH Hydroxyproline O-galactosyltransferase HPGT1; TrEMBL-Plants: tr\|G7J676\|G7J676_MEDTR Hexosyltransferase; Found in the gene: LotjaGi1g1v0277100
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:67824753..67832620) extracted from Lotus japonicus Gifu genome v1.2.

GAAAAATAAAAAATATGATTGGTAATGTGATAGAAAAAACTTGGTCAATGCACCACAGCTGTTATCTCTTTCTCTGGGAC TAGGACTACACCATTCTGTCTCGTTGAGCTTCCGTCTCTCGTATGCTACTGGGTGTCCCTCCTGGATCAAGACTCTTCCA AATTCCAATGGTATAGTCTGATGCTTCAGTGTGCACTTCGAAAGGTACAAATATAGTCTGACAACTTCAATACATGTTGT CATTTCGTGGGTTTTGTTTCGCACGGTATAGCGCTACTCTCATTTTTTCTTCATCGGTAAATAGCACTACTTTTTAACTT AAAAGTGTCCTTGTATGATGGTTTAAGTGGTAGGAGCTGGGGATATATGAGTTGGGTAGGGAAGGTTCAGAGATCAAATC TTGGCGGATGCAATTTATCTTTCCGATCATAAAAAATATTTTTTTGTATTGTCATATGCTGAATCCCGAATATAGGGGTA ATTGATATACTTATCCCTAAAAAGAAAGAAAGAAAAAAACTCACTCACTTACCCAGTGGTTGCTGCTGGTGGTGGTGGTG ACTGGTGAATTGTCTCACCAGCACAAACTTTGCTAACTTTGCTTCTTCCGAGTTCTCTCTGCAAACCGTTTTCGTCGATC ATTTGCAGTTCAAAATGCAAAGCAAGAAGGGATCGAGCCATAGACTGAGCAACATGGCTCATCGATCCCGCATATCTTCA CTTCTCATCTCCATGTTCGCCACTTTCGCCTCCATCTACGTCGCCGGAAGGTTAGCTTCCTTCCTTCATCTTCTCTCACG CAGAGTACAATTTTCTGTACTTGATCTTAATTTTCTTGTTCAGGTTGTGGCAGGACGCACAGCACCGTGTTTATCTCATC AAAGAACTCGATAGAATCACTGGCCAGGTCACTCCCTACTCTCTCTCTCTCTCTCTCTCTCTCTTGATTCGTCCTCACTT CAATTTCAATCACGCTTTTTTGATCGCTTCTCACTCTCTTGCACCGGATTTGCTATGAATCATTGTGAATTCAGTTACTT GAAGTTAGGGATCCGATCTTCGAACTGTGAATGCGTTTTCCTTGTTTAGTGTAATTGCAGTATCAATATTGTTGCATTTG AGTTTGATCTCATAGTATGATTTTGAGAAATAGTTTATTTCGTTGCTGAATGACTCACTGTCACAGTAGTTTACTTGAGC AAAGCTATGTGGCGCGATCAATTCGCAGATGAAACCGGCGAAAACCACATCCAATGGCTTAAGTTAAATAAGAAATTGAC AACACAGGGATAAAATTGCAAGCTGAAACTTAAACACAGGGATATATACTTAAGTCGTGAATGGAATCCATCGTGGTATT TAGTTTTTTCCTATTTACTTTGACCTATTTGAGTTGAGATCACTCTGTCAGGGACGTATATATATGTTTGACACATTAGG ATATGGACATGTGTTTCTACTTATTTTTCTGGCTAAGTTAACCACAAGATTCTTACTTATTCTAGGGACAATCTGCTATA TCAGTGGATGATACATTGAAGATCATAGCCTGCAGGTGAATTAATTTTTCTTGATAGAAAATTGCAAAAAGTTATTGATT ACTATTTCATTTTTTTTTTTATCTGCTTTTGTGTTGATATAAGCTTCTTAACTTCTTTCATGATCGTACTGTTTAATTAT GTGATCGTTCAGGGAACAACATAAGAAGCTTGAATCCCTTGAGATGGAACTTGCTGCAGCTAGGCAGGAGGGTTTTGTTT CAAAGCCCTTGATACAGACTAATGGGACTTACTCTGAGAGAAGGCCCTTGGTAGTGATGGGTATACTAACAAAGTTTGGC CGCCAGAAGAATAGAGATGCAATTCGCAGGGCATGGATGGGAAGTGGTAATTATATTCTTTGCTTTCTCTTGCTCAGTGA TGAAAGTCTGTAACATTGTGAATAACCCTGCCTCAAATATATCTAATCTGAGTCTTGAGTATACAGTTACGTATATAGTC ATTTAAAATGAACAATAAAACAGAAAATATGAAACTTTATGTAAAGAATGCTTAGTAAAGCCTGAACTCTGAACACTTAA TATATCATGATGCTATATGGAAAGAAAAGTTCCACAGGGAAATCTAATGAATGTGTAGTAACCAATCAAGAGAGGACTGA TAGGAAAACATGGGTATGGCCGTACGGGTGAAAATACATGGGGAGGTTTGAAAATCAATTTACACTCTTTGTAGTATTGT ATAGTTTCGTCCTTCAAATCTTTGTGCCATCAAGTGTTTTTCATCACTTATTACTTACATCATGAGCTGATGCGAGTACA ATAATAAAATTATGGTCTTTTTTTCATTACAGCTGCACGTCACCCATTGATAATGAGTTAAGGTACAGATAAAAAGACAT GAGGACCTTGGCATTTTTAGTTTCCTACCTCTATGGAGAATGCTTCTCTCTTTGATTTCCATACTAGAGAGGAATCAGCT TCTTCTTATTATAATATTTTAATTCCTTTGATACCTGATATCTGATATTAAATAAATAAAATCAAATGTAACTCTGTTTT ATAGTATATTGCGTTCAATGATTTATTTCATGGATCCTGAACTTAGTTATTTCTTTGGTTCATGATATATTTAACTTTCT AGTGTATTTTGGATTGTTTGTTTACAGCTTTTTTATAAAATGGGTTACAGCTTTTTGCACTAAGATTGTGGTTTAGAAGA GGTTTTAATTTTAAAGCACTATATTTGTAGGTACAGCTTTGAAGAAAATAGAAGATGGAAAGGGCATTGTTGTGCGATTT GTTATTGGTAGAAGGTTTAAGTTCTTACTTTAGACTTGTTGGGGTTGGGGGTGATTCCGTAGGAACCATCACTTATGAAT TACGAATGACTTTGCAGTTCAAATCGCGGGGACAGTCTGGATAAAGAGATTGATCGAGAGAATAGGCTGAATAATGACTT CTTAATTCTTGTATGTTTGACCAATTTATGAATTTTATTCCTTAATGTGCTTACAAACTTTCTATATTATCCAGACAGAA AATTTTACAGGATTTGATTTTATACTTATATCATTTGGCATTCACTTTTCTGTAAAAAGCAAGTAAATTTTCTCATTCTG AATTTGACCTGAAGCTTCCAGAACACTGTTGCAATCAGTTTGTCAGCAGTTTCAGAAACCACTGTTGTGTTTTGATAAAT AGTTTTAACACTGAGCATTTTATATTTTATTCTTCTAGTTCCAATGTTAAAATTGCACTTGTTGTATTGAAGCATTAGAA AGCCAAATACTGATCATATTTGAGATGAAATCAATTTGAATGGTGTACTCATTGTGTTTCTTTAGAGTAGTTTAAATTAG CAGGCAGATATGAGGTTAAAAGTAATACATTGGCACTTATAGTTGCCTAACATCGTTAATTCTTAGTTCTTACTGCTTAC ATAACGTTTGTGATTTGCTTCCTCTGAGTGGAGCAGGTTCAAGAGCATTAACTTGTTACCTCACCACCTTCAACAATTAT GTTGGCAGGATGATCATGTGGAAGAAAATGCTGGATACCCAAAGAAGGCTAAATTGTTCTTTGCTCATGCTGCAGACAAA TGGGATGCGGAGTTTTATGCTAAAGTCAATGATGATGTTTATGTAAATATTGGTTAGTTTTTCTTTGACTGGTTGAGATG ATAACTTTTTCAATGCAATTTACCTATTATTTCACTGTTGTTGTTGTAATATGTTCCTTTTATTTGTTAATTGAAATCCA CTGCTAAATCATTCCATGTTTTAGAGAACTCCATTGTTGCAGATGGAAAATGATCTGCTTATAAAAAAAAGATGGAAAAA TGATCTTATGACATTGATTTTCTGGTCAGCATATAGAAAGTAGTGGCAATCAATGATCATTTATTAAATTATGGATAATT TTACCATTTTTTAAGTCCTAGTATAGCTCATGTTGATGGGTTTCTAGGAAATAGCAGAAATCCCTGAAAATCACTTTTTC TCATAAGCTACATTTTGAAGCTTCTTAAAAAACCCACTGTGATTGAAGATGGAGATGAAGATTGGGAATCAGGTTTTGAA TTTTTAAGGACAATATTATCCAATATGATTTTTCATATTTACAACCCCCGTCCTCACCTCTATGTTCCTCTCTCCTTGAT AGTTCCTGGAAATTCTCTAACAATTTCTCATGGATTCCTCTCTGCATCTTGACTTGGAATCTTAGCTAGGTCCATTTATT CTTCAATTTTTCAATGCCCTATCTCTATTTTTGTTTTTCCAGCAGCATATTTTTTTATTTGACTTCTGCTTTCTTTGCCA TATGTTTGGTTGCTTTTCCTAGTCATGCCTTTGTTTTGAAAATTGTCGTCTTCTTTTCCGAAAGAGTGAAAGTATTGAAT TTTTATTGGATTTACCTGAGATGATGTACCCATTATCCCGCAAGGAGTTGTTTACTGTATTGTTTTCTTTCGCTCGGTCG TGGTTTTAGAGAATAATCAGAGGCTGTAAGCTTGGTCTGTTAACGTACTAAATTTTTCTTAGTTACATGAAATTGTTTAC ATAGATCATCTTGCAGTTGTACATAATAAAATTTTGCATTATGGCCTTAAAGTAGCTATGGAACTGGGGGTTACTTTTCT GTTAAGTTCATCTTTAAAGCAGTTTAACTGGAAAATATCAATCTTTTGATGGCAAAGGTTTTTGCACTGCCCTTGTAATA GGTTTCTGTCTTTTTATGGTTTCTACTTTCTAGTCTGTCCTTCGTTGCCCTATTTAATAAAATTCCAAAGAGGTTGCTTC AAATTTTCAGATGGATATATGTCTTGCAACTTAATTGATTCTTCCTTTGCAGATGCCTTGGGAGCTACACTAGCAAATCA TTTGGACAAACCTCGGCTTTACATTGGATGCATGAAATCAGGCGAAGTTTTTTCTGAGCCGTGAGCCCCTTATCTTGTTC AAACTTTGAAACGTCATTTGCTTTATGAAGAATTCATTTTATGGTTCTCATACTGGTGTCTGTGAATTATGGCAGGAACC ATAAATGGTATGAACCAGAGTGGTGGAAATTTGGTGACAAAAAATCGTAAGCCAAGAAACCAGTTGTTTCATTTGATTGA ACAATTGCACTAATTTTACAGCATGTCAAACTTAGATGAATTAATCATGTATGATACAGTATTAACCAGTTTTGAATAGC TGCATGTGGATCCATGTTGAGTCCTTGTTTATTTTTCTTGATTATCTGCAATGCTATGCGTTTGTTGATCCCATTAGTAA AAAACTGCATTATGAGTTTTGATTTTGCTTCTCCAAACAATCTTTAGTGGAGAAGCCTATTATGTTACATTATCATACTT CTGCCAAAATCCTATGGCCTTGCAAAATAGAACTCAATGTATCATCTATCATGTGATAGTTGAGGATTTAAACCAAGAGT TGGCCAGTTCAATATTTCGTTTGTCTGGTATTCTGGGCACAGATGTGGGTGCATTGATGTGTTTTATGTATCACAAATAC TTATCTTCATATCTATTTATCTCGTAATGATTATTAAATCTCCTGTTTAACAGATATTTTCGTCATGCATCAGGAGAGAT GTATGTCATATCACGAGCTTTGGCTAAATTCATATCAATAAATAGGTCAGATCCACTCTTTGCTTCGATTATACTGTTAG TTACTGTTCAATGCATCAATCTTGAATTCGTTTGAATTGGCAGATCTATTCTTCGTTCCTATGCCCATGATGATGTGAGT GCTGGATCCTGGTTTATTGGGCTTGATGTGAAACATGTTGATGAGGCAAAGTTTTGTTGCTCATCTTGGTCAACAGGTCT GTCTCTGTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCCCC CCCCCCCCCATGTTTGTGTGTTGCATGTCCACATGTGCTAGTTTAAAATTCAAGTTCATAACATAGTCTCGTAGCCACTG AAAAGACGGCCTTTGAGTAATGTGCAGAATTTACTTGACATGAATGGTTGGCATATGTGTCAAATTTAATTTGCAACTTC AAGCTAATGCAACATGGTTTTGTTTTTCAGGAGCAATTTGCGCAGGAGTTTGAGTTGATTCCAGTGCGTTCTTGTGAGAA GATTACCATCGTACCGAAGAGTCGCCCATTGTTAAAAGGTTTTCCTAAGATCTTTTCACCTTTATTGGAAGCTGAGTGAT TCCTGTAGATTTTCGCTGGAAAATTGCTTCTAGATTTGAAGTCTATTCGGCAATATAGTTCCACTAACCTGCGACCATAG TAAATTTGTGGGTTGAAGGCTTACTTGCAGTTATATGGCATGCAATATTGCAATATAGTACAGCTGATAAAGATTTGCCT TTTCAGCCATAATATAAGTTCTATCATTTTATAGTTGATTCATTCATTCATGGGCATAAAGGAAGATGGCTTTTCTTGTT GTAGATCCATAAATGTTACAGTGAAAGTATTTATAGGAAAGGTATTTGTACATGGCAGTGGCAGGGAATTTTGAGTCATG GTGATGCTCTATTTATAAGTAAACAGTTTCTGTTGACATTATCACACTTACATTATAGATTACGCGGGCCATGAATCAGT GCTTTAGATTCGTAAGATCTTAAAAGAGTGGCAGGGTGCCAGAATCAAGCACAGTCCCGATTCAACAATCTATGCTGTCC CAGTAACCCACGAATCTATTTATTATATAATTTTTAAAGTGCGAGTGATGATGTTGACACTTCCATATTGCTTTGTTTGA GGGGAATGGAGGGAAGGGAAGGGGAGGGGAGGAGTTTTTTTAAAGTTAGTATGTTGCTTCATTTTTTAGAAGGGGAATGG AGGGGGCAAAAACCCCTCCTCTAAGTCAATTTTGTGTCCCTCCAAAAGTGGAGAAATTGGAGGGGAGATTTTTTATTGGA CAGTAATACCCTTCTTTAATTTTAAAACTCTTCTTTATTTTACTGTACTGTTTCTTTTTCCCAGCCTTCGTCCCTTGACC GTTTTCATCGTCCTCCTTCTCTGGTTCTACCAAAAGTTCCCTTCCATTCTTTTAATTTACAACATGGTTAAATATCTCTC TCACATTAGAACCTGCACACCCTAAATAAACGACAATCCCAGTGATATGGATTGATGCTGAGGAGAAATAAAAAACGGCA GAATATTTACATTTTTGCAAATATGTATCCAGGAAAAAGATATTTGGTACGACCAAAGAGCGTACGAACCGGCACGAGAC GTGCAATTGTTCAGTCCGTTTCCCTTTCTCTTTTAGGTGGCCTTATTTTTCCCATTCTCTGCTACTTTCCAAAATTACTC GTTTTTCTCTTCCACTTTCTATTGTCTCAAACTCTCAATTGCAACCATTTTCTTCTATGGACTACAAAGACCCATATCAG TGGTGGATTGGGTGCAGCGTGACCACACAATACACCTACAGCTCTTGCTGGAAAAAAGAAAATTGCATGTGAAGAGTGAA TCATGATTGACAATTCATGATTGGAATTAACAGAATGAAAATAGGGAAATGGAAAAGAAATGGGAAGGAAAATACAGGGA TGGAAGTGGAAAGGGGAAGAAAGGGCTCACCAGATCTGATGGTGTAAAAGGTGGGTGGCGGTGGTGGCGTGAAAACGGCG GCAACAGCGGTGACTCATCGGCGACAACGGCGGTTATGTCGAAGGGAAGGGTGCGCGTGACTCTGTGGACTGTGGGTGTT GGTTCCCAAATTATTTCACTGTTTTGGTTTTGTTAATTTTTTTTTGCTTTTAAAAATGGCAATTTCTTTGGAACCCTTTC AAAAATAGAGGGTTCCATACCTTTTAGT

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0277100.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCAAAGCAAGAAGGGATCGAGCCATAGACTGAGCAACATGGCTCATCGATCCCGCATATCTTCACTTCTCATCTCCAT GTTCGCCACTTTCGCCTCCATCTACGTCGCCGGAAGGTTGTGGCAGGACGCACAGCACCGTGTTTATCTCATCAAAGAAC TCGATAGAATCACTGGCCAGGGACAATCTGCTATATCAGTGGATGATACATTGAAGATCATAGCCTGCAGGGAACAACAT AAGAAGCTTGAATCCCTTGAGATGGAACTTGCTGCAGCTAGGCAGGAGGGTTTTGTTTCAAAGCCCTTGATACAGACTAA TGGGACTTACTCTGAGAGAAGGCCCTTGGTAGTGATGGGTATACTAACAAAGTTTGGCCGCCAGAAGAATAGAGATGCAA TTCGCAGGGCATGGATGGGAAGTGGTACAGCTTTGAAGAAAATAGAAGATGGAAAGGGCATTGTTGTGCGATTTGTTATT GGTAGAAGTTCAAATCGCGGGGACAGTCTGGATAAAGAGATTGATCGAGAGAATAGGCTGAATAATGACTTCTTAATTCT TGATGATCATGTGGAAGAAAATGCTGGATACCCAAAGAAGGCTAAATTGTTCTTTGCTCATGCTGCAGACAAATGGGATG CGGAGTTTTATGCTAAAGTCAATGATGATGTTTATGTAAATATTGATGCCTTGGGAGCTACACTAGCAAATCATTTGGAC AAACCTCGGCTTTACATTGGATGCATGAAATCAGGCGAAGTTTTTTCTGAGCCGAACCATAAATGGTATGAACCAGAGTG GTGGAAATTTGGTGACAAAAAATCATATTTTCGTCATGCATCAGGAGAGATGTATGTCATATCACGAGCTTTGGCTAAAT TCATATCAATAAATAGATCTATTCTTCGTTCCTATGCCCATGATGATGTGAGTGCTGGATCCTGGTTTATTGGGCTTGAT GTGAAACATGTTGATGAGGCAAAGTTTTGTTGCTCATCTTGGTCAACAGGAGCAATTTGCGCAGGAGTTTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0277100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MQSKKGSSHRLSNMAHRSRISSLLISMFATFASIYVAGRLWQDAQHRVYLIKELDRITGQGQSAISVDDTLKIIACREQH KKLESLEMELAAARQEGFVSKPLIQTNGTYSERRPLVVMGILTKFGRQKNRDAIRRAWMGSGTALKKIEDGKGIVVRFVI GRSSNRGDSLDKEIDRENRLNNDFLILDDHVEENAGYPKKAKLFFAHAADKWDAEFYAKVNDDVYVNIDALGATLANHLD KPRLYIGCMKSGEVFSEPNHKWYEPEWWKFGDKKSYFRHASGEMYVISRALAKFISINRSILRSYAHDDVSAGSWFIGLD VKHVDEAKFCCSSWSTGAICAGV

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	PTHR11214 View details on PTHR11214 Search for proteins/transripts with this domain View external data on PTHR11214	1	338	338	3.6E-174	IPR002659 Show description in modal box View details on IPR002659 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	1	19	19	-	–
PANTHER	PTHR11214:SF74 View details on PTHR11214:SF74 Search for proteins/transripts with this domain View external data on PTHR11214:SF74	1	338	338	3.6E-174	–
Pfam	PF13334 View details on PF13334 Search for proteins/transripts with this domain View external data on PF13334	18	96	79	1.5E-8	IPR025298 Show description in modal box View details on IPR025298 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	20	41	22	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	20	42	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	42	343	302	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	76	96	21	-	–
Pfam	PF01762 View details on PF01762 Search for proteins/transripts with this domain View external data on PF01762	130	325	196	1.2E-35	IPR002659 Show description in modal box View details on IPR002659 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.90.550.50 View details on G3DSA:3.90.550.50 Search for proteins/transripts with this domain View external data on G3DSA:3.90.550.50	193	319	127	6.2E-6	–

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:0006486 View details of GO:0006486 AmiGO InterPro QuickGO	Biological process	Protein glycosylation	A protein modification process that results in the addition of a carbohydrate or carbohydrate derivative unit to a protein amino acid, e.g. the addition of glycan chains to proteins.	Subterm of View details of GO:0006464 View details of GO:0043413 Part of View details of GO:0009101
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

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0277100.1, 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…

LotjaGi1g1v0277100.1