Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0440500
Transcript ID	LotjaGi4g1v0440500.1
Lotus japonicus genome version	Gifu v1.2
Description	Galactokinase; TAIR: AT3G10700.1 galacturonic acid kinase; Swiss-Prot: sp\|Q8VYG2\|GALAK_ARATH Galacturonokinase; TrEMBL-Plants: tr\|G7LJJ0\|G7LJJ0_MEDTR Galactokinase; Found in the gene: LotjaGi4g1v0440500
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:81405558..81415609) extracted from Lotus japonicus Gifu genome v1.2.

ATTTAGTTGAATGGCTTTATCATTGTGATGTGATTATTAGTGGTGGTGGGTGAGTCTCACAAACGAAGAAGAAGTGAGCC GATTTTGCCGCTTCACCAACCGCTAATTCACGTTCATTTCATGTATGATAGAGATTGAGGAGCAAGTGCATTATCTCATC TCACTATGAATGTGCCGTGCTGAATCCATTTTCCAAGCTCCTTTCCGTTTCTGAATCCTCCTTCGCGAAATCACAAGCTT CCAATTGCGGAAATGGCTGGAATCGCTTGGCCTCCTGAATCTGAGGTACGTCAACATTCCGATTCCGATCCGTTCCTTAA CATTGATCTCGCTCAATTTTTCACAATTTGCATCGCATTGTCACAATGTGCGTTCTCTATGCTCTGAACATATGAATCGA TCTTGCTTTGCATTGTTTAGCTTGAAATTGAATGTTTACCTGGAATGTGATATTTACGTTTTCGTTATGATTACTTCAGT GTGTGTTTGATTCTGTTTGCCTCAATGTAAATTGGAAATTGCAAATCTCAAAGCACAAACCAAGAAGCAATGTCATATTG AAACTGAAATCAACATAGATCTGGTTGAGTTCATTAGAAATTCAAACACAGACTTAGATGCATAGGGATCGCCGGATCGG TAACTGCCATCATTTGCGTAATGCCTTGTGAATTGTAGTATTTGCGATCAATTTTATTAACTTATAACGGCGTCTGCAGT GTCGTTGTTGATATTTTTGAGCCCTATGAAGATTGAAGGAATTGAATATTGCAATGGAAATATAAAGAATTGAAAAATAT TAAGAGAAAACCTGAACAAAAAGTTAGATTGAAGGAAGTATTACGTTTTGATAAACTCTTTGATACTTACTCAGTGAGTG ATGTGTATGTATCTTGCAGCTAGATGAAATAAGAGAGATAGTTTCCAAAATGGCAGATGTGAGTAAAGAGGAAGTTCGAG TTGTGGTATCTCCCTATCGAATTTGTCCTTTGGGAGCACACATTGATCATCAGGTACTTTGATGCATGTTTCTGTTATGT TTGTGCAAATGAAACTCAAAGATTGGTATTTAGAAAGTTTTATAGGGAAACTTCTGTTTAAGCAATGAGTAATATAAAAG TTGGGGAATGGCAGATAAATTTCACCTGTTCAATTACTGAGCAATATTCTCAAAAATTTCTGAAAAGAGTTCTCTAACAC TTGGTACTTGCAGGGTGGGATGGTTTCAGCTATGACAATTGATAAGGGAATACTTCTGGGGTTTACTCCTTCTGACAGTA ATGAGGTGCAATTCGATCATGTTCTCAATTTCCAATCTTGAAAAACATCAGAAAACATCTGGAAATATCCTCTGTTCAAT TTGCAGCTAAGCATATCATTAAGCTGTATCAGTACTGTTTAAATTGACCTTACATACACACAGGCTTCTTATTTATGTTG CTTTCATTCATTTATTGAATGACCCATGGGACTTTTCTTGCAGATTGTGATTCGTTCAGGACAGTTTCAAGGGGAAGTCA AGTTCAGGTCTGTGGTCAGTAATCATAATGCTAATTTTCTTTTCAAAGGTTCTCTTCCATTGCTTGTAAAGTAATCTGAG TATTGCTAGTTATACTTATCTAACCAACTCTTTTCAATACACTATTATTAGTGAAATTCATGTAGGTCCAGTTGAACCCA CTCTTATTTGGTGAGATCCATATGAAATTTATCTAATAAATAATAATGAGTATGTTGAAAAGAGCAAGTTAGAAAATGTG TTGCTAGCATTTCTCAAAATCATTGTGGGTGAATGTAATTGTTAGATATGTACCTCCTCTGCACAAAATTGCAAATTATT AGCATTACAAGACATGTTGAACAAAATCGTTAGTGAAGATTAAATCCAAATTTTTAGCTCATACTATTTGATAAATGAAG GGAAGATTTCACTGGCTATCATTACTTATATGGCTGAATCGTGGGTTGTTTGAGCAGTAACTGTTTTATGATTTAAACTG CCATTTTATTTGAGGTCGTGATTTACACTGGAAGGGCTAGTGGCAGGGTAAGGGCCGGGTGGGGGGGGGGGGGTAGATGG CCTGGTTAAGACTCAAGCCTCTAACACAATCATCACACCCAAGTCTTCTAGACTTGGGGAGAAGACTTGGGGAGGTGCCA ATCGAGCTACTAGCTTGTTGGCATTTCAACTGCCCTTCTGATCCTACTCTGCTATTCTCATTTTCATTGCATAATTTTGT TATCTTGAAATTCCCGAATAATACTATATAATATGCCCAATATTGAGTTATAAAGCGATTGGCATTTGATAGGATTGATG AGAATCCACAGCCAAAACGATCCACGTCAAAAAATGAGAACACGGTAAAGGATTCTTCTGTGCTCCAGGAACAATGTAAC TGGGGTCGGTATGCTAGAGGAGCCATATATGCACTGAAGAGTAAGGGAAACAATCTTTCTAAGGTCAGAGATGATCCATG ATGCTTTACCTTTCTGCTCACCACTTGACTATGCTAAGCTCTTTTTACACAGATATAGCAGCTCTGTATGATAATCTTGT TTAACTTATTATACTTTTCGCTTTGATAATGAGAATGATGGAATAAGAAAATATACTTTTCTGTTGAATATCTTTGCTCT ATACTGTAGTTTACTTGGACCCTAAAAAGTGTTTAGTAAAAGGCATACTTAGCCCTAAGCTCCGTGTTCTGTAAAAGGAT CCGTCCATTGTATATTATGATATTATCTTAGTATGACCCTCGGTTGCAATAGCTTGTTGTCAACTTCCACATGAGTTTTC TTTTATGTTAAATGCTAAAATCAATTAGCAGATCAAACTAAAGCAATTTTTTCATAATTGTTTTGTCACGGTGATTATGT TTTAAATATTTCATCTCACCTAATTTTTACAATCCATTCAGCTAAGAAATTTTGCATATGCCATTATAATATAATCCTTA GTAATTATGTATTTTTTAGGTGATTGCCATGGTTGCTATTTACTAAATATTGACGTTGACTTTCGGTGATTGTTTTGCAT CTTTACGGGGCAGAAAATTTTTATGTTTATCAGCAGTCAGAACGCGTGTAAAGAAGCCTATGATTTAAGTATAATGGGCG TTGCTTGCGTTTTGGTCTTAGGTTGCCTTGTCTTCTGTGAATAATGATACTAAAAAGTTGGTGCAGTGTGCATACAGAGA AAGTGAACTATACAAAAGAAAGAAATAGTTTGAAATAATCAGAATATTTCCAAGATTTGCGCTTTGCTGTATATCAGAAA TGCACCTGAGTCAGACTGTTTTATTCACCATGCAATAGTAAACGCAATAAATAAGGACGCTTAGAAATCAGCATAAGTTT ACCAAAAGGACTAACGAATTAGGTGGGATCTTTAGATCATGCGCTTGGGTGTCACGTTATAAGGTTCTAATTTGGCACAT CCATATTATATTAAATTTTAATTGTTTCAAAGTTTTTGTTGTTCTTCATACAAAATTTTTAATGATGGCATTTGATCTGC AGTACTAGAAAATAAGCATGGAATTTATCTGTCAATTTGATCCAGTATACCTAAAAAATTACTTGTGATGCATTTGTGGT TTTCTTGCAATGAAGATCACTGTATGGAAGTAATTTCGATTATTTTGAAAAGTATACCATCCTAGTCACAAACTCACAAT GTTTACAGGGTATCATAGGATACATATGTGGTTCTGAAGGCCTGGACAGTTCGGGCTTAAGCTCTTCTGCTGCGGTAAGA TAACAATTCCTTCCTGTCTATTTTTTTTTGTGGTTAAAATTTTGAAAAGTCTGAATCAAAGGGCCGTGTAATGAAAATTG AAACAAAGTTCACCTGAACTTGAATCCAGCAAATTTAGCTTCTTGAGCATGATTCAATTTTGTTTTATTTTTTAATAAGC TTTTCATTATGGTTTTCTTTCTGAAAACACTACTACAGATCCCTAATTGCTGACGCTTTGGGAACTGCTCATGTTTTATG GTTTTTATGGGGGGGTTTCAACTTTTATTGTTTGACAGGTTGGAGTAGCTTACCTCTTGGCTCTGGAACATGCAAATAAC TTAGTAATATCTCCCACAGAAAATATTGAATATGATAGGTAAGTTTATCCGAACCCTTGGAGACTGTTACAAACTTACAA TGCATTCTTCTTCAACCATGAACACATGTATGAATCAGGGTAGTCAAAGGCCCACCAGATGTGGCGCTAGAAGGCGTTAG GAGTTAGGACCTCTTGGAGTTTTAGAAGCGCCTTAAAGGTTAACAGTTACATAATATCTAAAAGACCATTCAACTAACAT GCCAAATGGTCAGAATGTTAAAAGAATACGTTAGTTCTTGGACTTTGGGAGTCGGGACTTAGGTCCGAATGCCAAATGGC AAGCAGCTTATGGCTTTGTAAATTTACCTTCATGATCTTTTAGATTTACTGTGAATGTTATGCGAGGGAAGTTAATTTAT ATGGAAAATAATGTAAAAAAGTCAAATAATTTGAATGACTTTCCGCCAAAGCTAATGTATTATACTATCTTAGCAAGTCT TTGGCTCCTTTATAGCTCAAGGTGTGAAAACCCCCCTGCACCTTTTGCCTTTAATTACCTTGGTCTGAGTGGGCGGTTTA TGGTTTGATAAATGTCAATATTATTTTCAATCCGCCCCTTACAGTTTTGTTGCACCTCTTTATGCTAGCTAGTTACTCAT ACTACGTTGGATAAAATTATACTTCCAAATTGCCACCAAAGTTCAAATGAAATTAGAGCTTTAATCTTTTCAGTCATTTT GGTTATAGATAAGCCACTGAGTTATTACTTAATTGTCTGGTGATAATCAGCCCTCCTAAGTGTTACTTTTCTGTTTTCTC ATTGCAGGTTAATTGAAAATGAATATTTGGGTCTGAAAAATGGTATAATGGATCAATCAGCTATATTACTTTCAAGCCAT GGTTGTTTGATGTGCATGGATTGCAAGGTAATATCTATATCTGGATTAATGTCTGGCTTTGCAAGTTCTAATCATATTTT ATTTTTAATTTTATAGCATATCCATCGATTGCAGAATCAGATTTGATATCGGGCATGCTGATCATGTTCCCTTTTGTCAC TCTAACTTCGTGTTCTGTCTGTATGTTATCTACGAATATATGTCCTTTTCATCTTTATAGAAGGCTGTACTGAGGGCGGT TGTTTGAAAAGCATCCAAACAGGGAATTCATTTTAAAATACAAGGCAAACCAGAGTCACTACCCTCTCCTCCTTTCTCCA CCCTAGAAATAAGTTGCAGCTCATCTGAATTCTCAGCTAAAATGTTTTTATATTTCTGTTTCTAATTTTCTTGGAGAAAA GAGACTTTGCTAAATGCTAGGGAAACTACAACTGTCATCCAAAACACTTTCAATTTCTGCCCACTAACTTGTGGCATAAT TTTTTATCTCACAAATCTAGAGTTCCTTGTTGACTTGTTCAACTAACATATGCTAACTGCTGAATCTTTTTCATGTTTGC ATTGGTTTTTTAAACGGGCTTAATTCATGTCATGTTTGCATTGTTTTTTAATATGGTACAAACAACTGGTTTCTTGTTTA TTTTATTTTACATTAGTTTCGCTTAAAGCCCTTTCTATGGTATTTACTATTTATTGGGTCATTTATCTGCTGGTTTTAGC ACAATAAAAAAATATAACTATTCATTCATTAGCCACCAGTTGACTTCCTCAAATCTTATATTCATAGCAAGAACTATTTT TTAAATAAAAAATATTTTTTTGTTAAAATAACAGTAAATTTTTATCAAATATATGACACGCTTGTTTATGTGGGTGGCTT CTTTGGTTGGATCACTTTCTTTGAATTTCGAATATCTGATCAATAAACTGTACACATTCCGGTTAAAGAACATAAATGCA TTTTATGTCTACACAACACTGTTCTTGACTTGTCGCTGTTATTGTCATCATTCCTCTGTTTCATATATTTTTAGTTTGGC ATATGCAGACGAAAGAATATGAGCTTATACATCGACCAAAAGTGGAAGAGAATGAAGAGAGTGAGGAACCAAAAGCAATC AAAATATTGTTGGCTCTTTCAGGGATTAGGCAAGCTTTGACTAGCAATCCTGGATATAATAAGCGAGTTGCAGAGTGTCG AGAGGCAGCACGAATTCTACTAGAGTAAGTTTTTTTCTCATTTTATTGAACATGTATCGCTATTTTCATTCATTTTTTTG TGTGTACTTTACATGCATTGCAGTCATGCTGAAATGCATAAATTAAGAGAAAATATAATATTTTTCCTATTTTCTCTAGC TCCAATTTCTCGACATTGAAATTTCTTATGAAGTTGATCATCTTTAGAAATTTCCATATAGATAACAAAACTAACTGATA TCTCATCCCATTATTTTATTTTAACGCAAAATATATTTTTTTAAAATATAAGTAAATATTCTCTAACATACTTAATAATG TTTGTTATATGAAATTTAATATACACCATCATGAAAATAATATCACATCATTGAATAAATTGATTGGTTAATTTAGCTTG ATAATCAATATTTACTCAGGTATTTATTTTATTTTTTAATTCATTCTGCAGAGCATCTGGAGATTATGAAGCAGAGCCCA TCCTATCTAATGGCCAGTATTTTGACTCTCACATTTGAACTTAGTTATTATTATAACATTTATCAAATCGCTAAGTGATC TAAGTTATTGTCCTTTTCCACTGAACAGTTGCACCAGAAGTTTATGAGACTCACAAGGTATAAAACATTGACATTCTGTG ATATAATGCACCATTGACATCTTCATTAATGTGAATTTGTCTGGCATAAGTATTTCGTAAAAATGAAGGCAAACCACTGT CATAAAAGATGATTTAAACATGGAGGCTCGTAAACCATCTTCCATGTATAGAATGCTTTCTCAGTTTCGAAGCCACTCAC ACTTGACTTTGGGTTAGATTTTGGATAGTACCAAACCAAGTGCTAGTAAATCGCAATTATGGTTGGATATGTGAAATTCA TAAATTACTTCCTTAGAGTTCCTTCAGAGTACAAACAGCATAGTAAAATCTTATATGGAAGCCGTATATGGTTAAATATT TGTATGTAACTTAAGCAGTCTCTTATCTCTTGTGCATTCATGCTCAAAATAGGCTTTAAAATGATATCCAATGTGGAAAC GGCATATTCCATATGCCAAGATTTAAGGGAACTTGCATTTTAAAAGTTTACCAGTTTGAATGTTCAAATTGCTCATGAAA TTATGCATGTTAAATCAAAATTCGGAAGAAGTTACTGTTATCCCCAGCAGCCGTTTCCTTCTGTGCTAGTTAATTAATGT ATTCTGTTAAATGTTGCTTGTTCCAGGTTATTTACTGTTGTTTTTCATTTGTGTCCTATGTAAAATTTGAATTCTGCAGT TCTGCTTACGATTTTAGCACAATCAAGTAAGTCCTGCATTTTTTTTGTGCAGTGCAAATTAGAACCAGATCTAGCCAAAA GAGCAGAGCATTATTTCTCAGAGAATATGCGTGTTTTGAAAGGTACTATCTATTTAATTACTTCAACAAATCTGAACTTC AGAGGTAAGTTTGAGTCCTACTAATTTCTGCTTTTGTTATTTATTTAATGTTTAATCCAGGGATTGAGGCTTGGAAAATG GGCAAGTTTAATCATTATGGAAATCTCATTGCTGCTTCTGGACGGAGTTCCATTCAAAATTACGAATGTGGTATAACCTA AACCCTAAAATTCCTTATGGAATATTCTGAAATTCTATCTTGCTGTAAAAGATGAAATTGACTTGAAATAAACAAAAACT ATAGGGGCTGGAAATTTCTTAAACAGTTTTCAGCTTTGCAATATCTTTCTATTGAGTCCTGAAAAGTTAAGCAAAACACA AAATTGAGTCCCCGGAAGCTACTATACCATTTTACGCAAGAAAGTGTTGGATTTTGAACTCATATATTGTTCCCTTTACT ACTTAGTTTTGTTCTTCCCCTCTTTTATTCTATATTTTCCTCTAAACATTCTTTTTCTTTGTTGCTTTCCTAACCATTCT TCCAAGCCCTTAGTAAATGATGTTCTCTACTGAAAGTTGAGATTCTCAGCAAAGCAATATGTTTTATTTTCTAGTCTAGT TCTCCCAATTCAGTTTTTCCTGATCTCAACAACAGATTGGGGTTTTTCGGGTGTTACCAGTTGCAGTATATCTGGAACTT ATTGATAAACTGAAGACCAAATGCAGCTTCTTATGAATTATTAAGAACATTTTAATTATTGAATCAAACACTTCATGATT AATTTTTCCCAAGCTTTGTTTTAAAAAAAGTTGGTGGGGCTAGAAGTGATCCATAAAGTGATTAGAGATCCTGGGTGGGC TTAGTTGACATTCATAAAGCTGCTGAGGTGTATTTGGTGTGTAGAACAAATGAATTGTTGTATAAGTTTAGTTGTCAAAT AAAAGTCTTCAACCGCTGCTAGTCTAAGGTTGGAAGTTTGCTGATGTCTTTGTATATGACAACATCACTAAATTGCAGCT TTCATGGTGTGTTAGGAAACTTGGTATGTTTTCAGGTTAGGAGGAGAAGTGATTATGTGAGAAGCTCCTGAGAGTAGAGA AGTGATTCTGGGAGGCTTAAGTGTGGATCCAAACATACTGGTACTCGAGGTTTAGTTGTCTAGTTAGCAGATATAAATTT TTTCTTGACTTTATCCCTTTTATGTAAATGCAAAAATCTCTATCCAGTTTTATTTTTTCTAGTTTAAGTTAAAATAATTT AATTATTTGAGTTTATTAAATTCACTGGGGCCTGCTTTGTGGGGGCTTTATAGCAAAAGTCCTTTGAAATTAAGAGTGAA ATATTGAATGTAAGAATTAAAAAATATATTTGATATACTTTCATTTTTACGTTTACAATACATGAAACTTAACACGTTGT CCTTGCATAATTTGATGACTACGAGTAACTAATGATGATTATGTGAAATGATGTGTCTCCCAAGGTTCTGAACCACTAAT TCAACTGTATGAGATCCTTCTGAGAGCTCCTGGCGTACATGGAGCACGTTTCAGTGGTGCTGGGTTTAGAGGGTGCTGCA TTGCATTTGTGGAGGCTCCCCTTGCAACCGAAGCTGCTTCATTTGTTAGAAGAGAATATCTAAAGGCTCAACCTGAGATA GCTAGCCAAATAAACGAAGACACAGCAGTTGTAATATGTGATTCTGGTGATTGTGCACGTGTAATTTGAACAGCATTTTT CTGTTGCTTCCACTTAATCAAGGTCCAGGGTTCGTGTATTGTGTATGGAAAAAACATCTGCCGGGAGAGCTAATCCTACC AGGATGTTGATGTTCCCGGCCCGAAGAGGATTGCCTCCGGTGCAGGATAAATGGAGTCTTCTTCATTCTTTCATTTATGT ATCTATTGATTTTTCTCTTTGTGGGGTTTAAGTTGCCAATTTTAAAAGAATGTAAACTACAATGGATCAATACTAAGATT TAGAATGCAGCATTACAGCAAGCAATGTCCTAATGCATGAAATGATCTTTAGAACATTCAAGTCTCTCCAGCCTTAGATC AGAGGCTATAAATATTAAATTTCATCAACGCGATAAGGAAGAAGAGGCTAGACTCTATCTTCAACATTAACTCAAATATT TCAAGTGTTATACTCCTTCTGCCTCTTCAGTTCCTTCATTGTTTTAGTGTGTAGTACCTCTTATGTGTTAGATTGAGTGT ATTTTATCGTTTGTAATCTTTTATATTTTACTGTGAAAGGCATGCATGTGGTTAATAATAGATATTCAATTCAATAGGTT GGAAATTAATATGAAAGTTCAACTCAATTATGCTACAACCTTTGCCAGTTATGCTACAGAGTTTAAATAACATTTAACTT TTATAACGGCTTATCCAAATTTTACTCTTAGTTGCTTCAATTTTATTTATTTTGAAAGGGTGCTTCAACTTCAATTACAG TTTAATACAATTTTATTATCACTAAATAGTATTAAATAATAATCACTTGGCC

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0440500.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCTGGAATCGCTTGGCCTCCTGAATCTGAGCTAGATGAAATAAGAGAGATAGTTTCCAAAATGGCAGATGTGAGTAA AGAGGAAGTTCGAGTTGTGGTATCTCCCTATCGAATTTGTCCTTTGGGAGCACACATTGATCATCAGGGTGGGATGGTTT CAGCTATGACAATTGATAAGGGAATACTTCTGGGGTTTACTCCTTCTGACAGTAATGAGATTGTGATTCGTTCAGGACAG TTTCAAGGGGAAGTCAAGTTCAGGATTGATGAGAATCCACAGCCAAAACGATCCACGTCAAAAAATGAGAACACGGTAAA GGATTCTTCTGTGCTCCAGGAACAATGTAACTGGGGTCGGTATGCTAGAGGAGCCATATATGCACTGAAGAGTAAGGGAA ACAATCTTTCTAAGGGTATCATAGGATACATATGTGGTTCTGAAGGCCTGGACAGTTCGGGCTTAAGCTCTTCTGCTGCG GTTGGAGTAGCTTACCTCTTGGCTCTGGAACATGCAAATAACTTAGTAATATCTCCCACAGAAAATATTGAATATGATAG GTTAATTGAAAATGAATATTTGGGTCTGAAAAATGGTATAATGGATCAATCAGCTATATTACTTTCAAGCCATGGTTGTT TGATGTGCATGGATTGCAAGACGAAAGAATATGAGCTTATACATCGACCAAAAGTGGAAGAGAATGAAGAGAGTGAGGAA CCAAAAGCAATCAAAATATTGTTGGCTCTTTCAGGGATTAGGCAAGCTTTGACTAGCAATCCTGGATATAATAAGCGAGT TGCAGAGTGTCGAGAGGCAGCACGAATTCTACTAGAAGCATCTGGAGATTATGAAGCAGAGCCCATCCTATCTAATGTTG CACCAGAAGTTTATGAGACTCACAAGTGCAAATTAGAACCAGATCTAGCCAAAAGAGCAGAGCATTATTTCTCAGAGAAT ATGCGTGTTTTGAAAGGGATTGAGGCTTGGAAAATGGGCAAGTTTAATCATTATGGAAATCTCATTGCTGCTTCTGGACG GAGTTCCATTCAAAATTACGAATGTGGTTCTGAACCACTAATTCAACTGTATGAGATCCTTCTGAGAGCTCCTGGCGTAC ATGGAGCACGTTTCAGTGGTGCTGGGTTTAGAGGGTGCTGCATTGCATTTGTGGAGGCTCCCCTTGCAACCGAAGCTGCT TCATTTGTTAGAAGAGAATATCTAAAGGCTCAACCTGAGATAGCTAGCCAAATAAACGAAGACACAGCAGTTGTAATATG TGATTCTGGTGATTGTGCACGTGTAATTTGA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0440500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAGIAWPPESELDEIREIVSKMADVSKEEVRVVVSPYRICPLGAHIDHQGGMVSAMTIDKGILLGFTPSDSNEIVIRSGQ FQGEVKFRIDENPQPKRSTSKNENTVKDSSVLQEQCNWGRYARGAIYALKSKGNNLSKGIIGYICGSEGLDSSGLSSSAA VGVAYLLALEHANNLVISPTENIEYDRLIENEYLGLKNGIMDQSAILLSSHGCLMCMDCKTKEYELIHRPKVEENEESEE PKAIKILLALSGIRQALTSNPGYNKRVAECREAARILLEASGDYEAEPILSNVAPEVYETHKCKLEPDLAKRAEHYFSEN MRVLKGIEAWKMGKFNHYGNLIAASGRSSIQNYECGSEPLIQLYEILLRAPGVHGARFSGAGFRGCCIAFVEAPLATEAA SFVRREYLKAQPEIASQINEDTAVVICDSGDCARVI

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
PIRSF	PIRSF000530 View details on PIRSF000530 Search for proteins/transripts with this domain View external data on PIRSF000530	3	436	434	8.2E-89	IPR006206 Show description in modal box View details on IPR006206 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR10457 View details on PTHR10457 Search for proteins/transripts with this domain View external data on PTHR10457	6	434	429	4.8E-125	–
PANTHER	PTHR10457:SF6 View details on PTHR10457:SF6 Search for proteins/transripts with this domain View external data on PTHR10457:SF6	6	434	429	4.8E-125	IPR000705 Show description in modal box View details on IPR000705 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF54211 View details on SSF54211 Search for proteins/transripts with this domain View external data on SSF54211	28	230	203	9.87E-31	IPR020568 Show description in modal box View details on IPR020568 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF10509 View details on PF10509 Search for proteins/transripts with this domain View external data on PF10509	28	64	37	1.7E-7	IPR019539 Show description in modal box View details on IPR019539 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.230.10 View details on G3DSA:3.30.230.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.230.10	30	229	200	5.2E-84	IPR014721 Show description in modal box View details on IPR014721 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00959 View details on PR00959 Search for proteins/transripts with this domain View external data on PR00959	35	59	25	9.6E-21	–
PRINTS	PR00959 View details on PR00959 Search for proteins/transripts with this domain View external data on PR00959	147	169	23	9.6E-21	–
Pfam	PF00288 View details on PF00288 Search for proteins/transripts with this domain View external data on PF00288	152	208	57	7.9E-8	IPR006204 Show description in modal box View details on IPR006204 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00959 View details on PR00959 Search for proteins/transripts with this domain View external data on PR00959	190	209	20	9.6E-21	–
Gene3D	G3DSA:3.30.70.890 View details on G3DSA:3.30.70.890 Search for proteins/transripts with this domain View external data on G3DSA:3.30.70.890	230	400	171	5.2E-84	IPR036554 Show description in modal box View details on IPR036554 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF55060 View details on SSF55060 Search for proteins/transripts with this domain View external data on SSF55060	245	418	174	5.58E-31	IPR036554 Show description in modal box View details on IPR036554 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF08544 View details on PF08544 Search for proteins/transripts with this domain View external data on PF08544	339	407	69	5.0E-6	IPR013750 Show description in modal box View details on IPR013750 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00959 View details on PR00959 Search for proteins/transripts with this domain View external data on PR00959	375	392	18	9.6E-21	–

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:0004335 View details of GO:0004335 AmiGO InterPro QuickGO	Molecular function	Galactokinase activity	Catalysis of the reaction: D-galactose + ATP = alpha-D-galactose 1-phosphate + ADP + 2 H(+).	Subterm of View details of GO:0016773 View details of GO:0019200
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0005534 View details of GO:0005534 AmiGO InterPro QuickGO	Molecular function	Galactose binding	Interacting selectively and non-covalently with the aldohexose galactose (galacto-hexose), a common constituent of many oligo- and polysaccharides.	Subterm of View details of GO:0048029
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:0006012 View details of GO:0006012 AmiGO InterPro QuickGO	Biological process	Galactose metabolic process	The chemical reactions and pathways involving galactose, the aldohexose galacto-hexose. D-galactose is widely distributed in combined form in plants, animals and microorganisms as a constituent of oligo- and polysaccharides; it also occurs in galactolipids and as its glucoside in lactose and melibiose.	Subterm of View details of GO:0019318
GO:0016301 View details of GO:0016301 AmiGO InterPro QuickGO	Molecular function	Kinase activity	Catalysis of the transfer of a phosphate group, usually from ATP, to a substrate molecule.	Subterm of View details of GO:0016772
GO:0016773 View details of GO:0016773 AmiGO InterPro QuickGO	Molecular function	Phosphotransferase activity, alcohol group as acceptor	Catalysis of the transfer of a phosphorus-containing group from one compound (donor) to an alcohol group (acceptor).	Subterm of View details of GO:0016772
GO:0046835 View details of GO:0046835 AmiGO InterPro QuickGO	Biological process	Carbohydrate phosphorylation	The process of introducing a phosphate group into a carbohydrate, any organic compound based on the general formula Cx(H2O)y.	Subterm of View details of GO:0016310 View details of GO:0044262

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0440500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0440500.1