Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0044800
Transcript ID	LotjaGi1g1v0044800.1
Lotus japonicus genome version	Gifu v1.2
Description	Disease resistance protein (TIR-NBS-LRR class); TAIR: AT5G36930.1 Disease resistance protein (TIR-NBS-LRR class) family; Swiss-Prot: sp\|Q40392\|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr\|K7KBB2\|K7KBB2_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0044800
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:6082519..6094228) extracted from Lotus japonicus Gifu genome v1.2.

GATCTTCTTCCCTTCTCAGCTTGAGTTAATTAGTTTTCATTCATTATGGCAAAGTACGATGGAGAAGAGTTGCACATTTT CAACTATGACGTTTTCATCAGTTTCAGGGGTGAAGATACAAGGCACACCTTTGTAAAAATTCTTCACAAAGAGCTCAAAC GAAAGGGGATCAGAACTTTCGTTGATGATGAGATGCTTAAGGCTGGGAACGTTATTTCACCTGCTCTTTCCAAAGCCATT GAAGAATCCATGGTTTTAATTATAGTGCTTTCTAAGAACTATGCATCTTCTACTTGGTGTCTTGACGAGCTCGTCAAGAT TTTAGAGTGTTCAAGGAGGGGTAATCAACAACTTGTTTACCCAATTTTTTACCATGTAGAGCCCTCCCATGTACGCCATC AAAAGGGGAAATACGGTGAAGCAATGGCAGCACATGAGAAAAAATATGGCATAAACTCTGACAGAATTCGAACATGGAGG TCAACTTTTGTTCCTGTATGGAACCACAGACTAAAGGCTAACCAGTTTAGAGAGCAAACGAAAGTAACAAAGTGAATAAA AATGCGTGAAATGATAGGTCTCCACCGCTTGGGCGGTCCTCTTTTATTTATAGCTTGGGTTTTGGTCCGGCTGGACCATG GGTTGCCCGACCCATTAGTTACATGATATTGATTAGCCCATTCGGTCCGCCCATATCAGTCCACAGGCCCACAAGACACT GATGTTTTAGAACTAAAACGAAAGTGTCTTATTGAGGCTTACAACTTCTGGTACGCCCGTGTACAATGTGAACCAATTTG TGAGCACGCAGGCTTCAATGAAATAAGGCTAATCAACAAAGTAAAAATATACTAGGCTAATCATTATAAAATAATTCTTT CTGCGTGACACGTGATGTCTAAGTGACGCTTTGCCCATCACCTCAATCACTATGCACCATATCAATCACCTTCCGGATTT TTGTACCTGCAATAATCATCACAAATATACTACAGATATCTTGGAACTTGTAATGTAAAAAACCTACCTAAGCTATGCTA TTCGCATTAATTGAAATGTGCATTTAAAATCCACTCATGGGATAACTTTTCTCTGAAACGACTCTTCTACTTCGAAACGA CGTTTACCTGCCAACTGACACCCCTCTCTGCTCAAGCGTTACTTTTTCCAAACGTCACCTCTTAATGACGCGCCGGTTCA CCGCCTCAACAAATTCAAATGTGTGGCCTGAATGAACGCGTGGATTCACACAAACCACACGCATGCTCACAGTTTGCCTC AAGTATTTTTAACCACACCTTTTTGACACACCTTTTCATCTTCTACCTTCTCTCTATATATAGCAATCCTTTTTACCCCC AAACCACTTCACTCTTGCATTTCAAAATTTTCACCATTCCTCCGCAATTACCAAATTTCTTGCATTTAACTACAAGTGTT CTTGCACATTACCAGAAGTCCTCCAGATTTAACCGAGTTCATCACAGCCTTTTTCACTGGTAAGCATTCTTCACTCTGTT TATTCATGAAATCTTACTTCCTTTTACACTAAAAGGTTTCATCTAAATTCTTCTTCTTCCTCATTCGCTTGTTTATCCAA ACCAAACTCTACTTAAAATCTATTCTTCCCCACAATTCCAACTTACATTTTACCCTTTTATATTTCATAACCCTGGATCC TTTATAATTTCAGGAATTCTTTTGAAAATGGATGCAAAACACACCCGTAGGACCTCTAAAGCTCCTAAAACTTCTTCCAT TGCATTCGATACATGGGTCACTAGCAAAGTTAAAACTAGGTTCACTAAATTCTGCAATGTTAAAACTGTAATGGATTTAA TCACTGAAAACACTTTTCGCTCTGATGGCCAAGATGTGTACCTTGACATAGTCCCCCGTTTACCTACTGAACCTTGTTGT TTTGGGGCTCCTGACCCTACCGGCAAAAACCACACCTATTTCTTTGAAAACATTTTCACCGATCTAAAATGTAAACTCCC TCTCTCAGATTTCACTTGCTCCGTTTTAACCTTACTAAATGTTGCACCAACACAACTCCATTGTAATAGCTGGGCATACC TGAGGGCGTTCGAACTTCTGTGTCAAGTGTTAGGTATCGAACCCACTAGCAATAAGTTTTTTTACTTCTTTGAAACTAGT GGTAGAAGCATAAAAGGCGAATATCTTTCTTTAGCCGCCGCTAGGGGAAAAGGCCTATTTACCTTATTTAGAAGCCATTA CAAACAGTTTAAAGGGAAATTCTTTAGGCTAAACGAAACAGAGAAGTGCAAGGATGTATTTTATTTCAATGATGGAAGCC CAAAGTTCCCTTTCTACTGGACCGCCCGTTATGAGGCTATCATCAAACTTCCTGATGACTCCCTCACCCCTGAGGAAATG GTGGATTGCACCTTTCTATCTAGCATTGACTTGAATCTCACCGAATTTCTAGATGCCCATTATGAAAACAGATTGGGTGA ATATGTGGGTAAGATTCTTAAATTTCCACATCTTTGTATCTCGAGTATTTATTTTATTTCTAACCCTACCATTTTGTTTC AGCAAAAATGACTCGCCTCTCTGATGATGATATCCTCCGTTTCCGTCGAGAACAACAGGCTGCAAGGGAAAAAAGAAACC CAGCGAAGACTCTGTTAGATGTCGATGCTAGTCATTCAGGCACCGAATCGAATCGCCCTCAAAAGAAAAAGAGAAAGAAT GAAACACCTGAATCGGCGAAAGGAAAAGACTCTTCTCAGCCCTCAATGGAAAAATTTATGGTGAAGGGTAATCCTCAACA TATGACACTCAAAGCTGGGTCTTCAAGTGCTCCGCCCCCTTCATGGAAAAGCCTGCTGAAAGAATTTGAAGAACTCACTT CTGAAGAAGTGACCTCGCTATGGGACTCCAAAATTGACTTTAATTCGCTGGTGGAAACAAATTTGGTGTTTGAGGCGGAT CGGGAAAAGGTTAAGAAGATCGGATTAAAGGAAGCTTGTCAAGCCATCATGACGAAAGGACTTGAAATTGCGGCGATTTC CAAGATGATTGACCTGGAGAGCGCTGACTTTGATGGGATTAATTCCGCCAAGCAGTTAGAAGAGAAAGAAAGAGAGATCC TGAAGATGAAAGCTACTATGAAATTGTTGGATTCTGCCAACAAAGTGAATGAGAAGAAAGCCGCAGATTTAGCCCAAGAA AATGAACGCTTAAAGAAGCATGCTGAAGACTTAAACATCACTCAGAAAGCTAAAGAGGAAGAACTTGTGAAATCCAAAGC GGAAATCACTCATCTCAATTCCTCCAATGCTGAATTGAAAAATGACAATTCTAAATTGCATTCAGAAGTTTCTGAACTGA AGAATTCTGTCCTTGATCAATTTGAAGCCGGATTTGCAAAAGCCAAAGAACAAATTCTTTTCCTAAATCCTCAAGTTTCC ATCAACCTTGCCGGTTCCGATCCTTATGCTAGGATTGTCGATGGCAAGTTGATCAGCCCTGACACTGGTGATGAGGAAGA CGAAGGAGAAGAAGATAAAAATGAAGAAGATGAAAATGTCAACGACAACGAAGGCGAAGGGGAAAACCATTAGTTCTGTC TCTGTTTAAGAATGACTACCGTTCTAATCCATCCTTTAGCTCTCTTTTATTTCCTAAGTTAGTTTAAACTCGTTTATAGT TTGTCTTTTGTATTTGTAAGTGTTGAGCGAGTAGCTCCACAGTTTATCTTAAAATATTATGTAATGTTTTATTAAGTACT ATTAAGGTAATATGTTTTCTATATATCATTGGCTGCAAATTGGTTAATCCTGATGGCTCTGCATCATACTTAGATAACTG TAATACTTAAATTTATACTTTCTACCCTTAAATTATTATTGTCACTATCCATTCTCATTGAAAACATCAGATCTTAACTT AATACAAAAATTACTATGTTATTCCTTCTAACTTAAGAACATGATCCATTTAATAACAACTATATCAATTAGACAATCAA AATAATTAATAATACTGCGCTTTACCAATCTTTTAATAAAAAATTTCAGAGTATAACTTAGCATGAATAACATTTACTAA CCTTTAACCAAATTTGATCCGCCTTCGTTGTAAGATCAAGATTTGGTCATGTGGTACAACTCTATGTTTTGATGATAACA AGTATTTATTTGTGGATGAACAACTATGATACTCTAATGTTTGTCTTGAGTGTTTTGACAAACAGGTTCTGATTCTGACA CCAGAAGATATATTCGTCAGAAGTTCTGAAGATCAGAAGATCAGAGGATCAGAAGATCTGAAGAACAGAAGTTCTGAAGA TCAGAAGATCAGAGGATCAGAAGCTCTGAAGATCAGAAGATCTGAAGATCAGAGGATCTGAAGATCAGAGGATCTGAGGA TCAGAGGATCAGAAGATCAGAGGATCAGAAGATCAGAAGGATCTGAGGATCAGAGGATCTGAGGATCAGAGGATCAGAAG ATCTGAGGATCAGAAGATCTGAAGACCAGAAGCTCTGAGGGACCAGAGGCTCTGAAGGTTCAGAAGCTCTGAAGGTCCAG AAGCAGAAGTTACGAAGGTCAGAGGATCCAAGCTTCCCTCTGACTCTGATCACCAAGCTTCACAAGTTCCAACACGAAGC ATAACTCTGATCAGAAGTCAATGGTTAAAGGCAAATGTCTCTATCGAGAAGTACAAGAGCAGTGTACTATTCTGAAATGC CTACCTACCAAAGTTCAGCCACTGCAGGTTCTGGAAGTTCCAGAAATGCCCTCCAACGGTCATATTCTCTCAACAGAAAT ATCCTTTGCACCTTGGACTATAAAAGGCTGAAGAAAAGAAGAAAGCAAGAGCGAGAGAAAACAAAGAGCTGCAATACAAG AAAAGATTCAAGCCTCTACTTTCTTCATCTATTCTTATTTGGTTTACACTCAGCTTATTTAGAAGCAAACCTTTGTAAAC ACCAACCTCAAACAGTTGTTTGATTTTCCTTAAGGGACCGGGTAGGTCAGTATCCTTAAGAAGACTAAGAGAGTGAATCT TCGTGGTGATTCCTTTAGGAGATCAAGGTTGATCGGATCCTAGAGAAGACTAAGAGAGTGAATCTTAGTGATAGCTAAGT CAGTGTATTGTTAGTCACTTGTAGGTTTCAAGTGCAGTTGTAACAATTATCTGATTAGTGGATTGCCTTCATTCTAAGAA GGAAGAAATCACCTTAACGGGTGGACTGGATTAGCTTGAGGGATTTATCAAGTGAACCAGGATAAAATACTTGTGTGCTT TTCTCTTCTCTCTATCTTTATCCGCTGCACCATCTATCTTAGAGAAACCGAAAAGATTTACTTTAAATCTTAAGGGGAAA GTTTTTATATTGAAAACGCTATTCAACCCCCCCCTTCTAGTCGTTTTTCACACCTTCATTCGTCGTTTAGTCGAGTATGT TACGCCCACATTTTACTGTACATAGTAAAATACCCTTGAATGAATCTCTTTAAATGTCGTAAAGTTTAAACTTAACCAAC TACTTTGGAATCATAAGGCCTTTGTGTGACATAACTTAGTCAAATTTTTCATTTTTGACATAGTTACTCATGGAAATCAA AGTCAACATATTTGATTTCATTAGTATGCTCGCGTGGAGACTTGTGCTTAGTTTGGACAAGCTTAAATCCAATTTAAGAC TGTGCTTATGAATTCGTGGCCGAATGCTCTTGTTTTAAGAGACTTACTTTTTTCTCAATTGTCTGACGTCGCCCAATTGA TAGACCTTAGTTGATAAGTTTCCGCTATGGGTAAAAGAAATAAATAAAATGATAAGCCCTTGATCATTTTAAAAAGGTTA TGCCTCGTTAAAAACTCTCCCGCCTGGGGTAGAGAAAAGAGTGCATACCTGTTATTCATTAATAATTGATGCCTCGTTAA AAACTCTCCCGCCTGGGGTAGAGAAAAGAGTGCATCGAATTTAGTCTTACACAACAAACATAGTCTTAAACAATACAACC AACAAACGTAGACTTCAACACACACAAACTGAAACAACGAAACATAGTCTTGGACAAACATACACTGAAACAAACTGTAC AAAACCAAACAAACCGAACGAACCACTTTGCACTTCAACTGTAATAATAACGGAGATGCTGTGCATTCCAAGCCCTTGGG ACCCTTCGCCCCGATAACTCCTCCAAATGATACGCCCCTTGACCAAGCTCACGCAGAATCCTGTAAGGTCCTTCCCAATT AGGTGATAACTTCGAATCATCAGGCCCCTTTGCCTTCCTACGCAGAACCAAATCACCAACTCTCATTTGCCTCGGAACCA CTCTAGAATTGTATCGCCTTTCCGACCTCTGTTTTACCATTTCCTGCCTCAAACGAACCTCTGCTTGCGTTTCCTCTGCT AAATTGAGATCAACCACTCTATTCATGTCGTTCTGCTCTTCATTATAAGTTGCCACCCTGAAAGTTACATCTTGTAATTC TGCTGGTATCATCGCATCTACCCCGTAAGTCAACTTAAAAGGTGATTCGCCAGTAGTTGATTGAGGAGTAATATTGTACG CCCAAATGACCGTGATTAACTCTTCAGCCCATAATCCCTTAGCTTCGCCTAGACGCTTTCTAATTCCATTGAGAATGACT TTATTCGCTGACTCCACTTGTCCATTTGTCTGAGGGTGCTCAACTGAGGCGAAACGCATCTCAATTCCCATTGCTGCACA AAAATCCTTCACACTCCTGCTTGTAAACTGTGTTCCATTATCTGAGACGATAGTTGCTGGAACGCCAAATCTGCAAACCA ATTTTCTCCAATAAAATTTTTTGACTTTTTCTGCTGTTATTTTCGCCATTGATTCCGCCTCAATCCACTTAGTAAAATAG TCCACCGCCACCAAAATAAATCTGATTTGAGAACCTGCTGGAGTGAACGGTCCCAGAATATCTACTCCCCACATTGCAAA TGGCCACGATGAACTCATTGAGCTAAGAGTCTCAGGCGGCGCCTTATGTAAATCTGCATAAATTTGACATTTACCACACT TCTTCACATATTCCATACAATCCTCTCGTAAAGTTGGCCAATAGAACCCTGCCCTGAGCACTTTCGCCGCCAAAGATCTT CCCCCTACATGACTTGCACACACACCTTCGTGAACTTCAAACATAATTCTTTCCGCTTCATCCTTAGAAACACAACTCGC CTCGCCCAACAATGTGTAACGACTCGCCTCGCGAATTTGATCCTTAGAGAATGTCAACACATTAGAGCCTTCTGCCTCCA AACACTGTTTGATACGCCCCATCCAATCTGAATTCGCTAAATTTAACACCATCATTGTCTCATCTTCTTCGATACTTGGG CTACTTAAGACTTCCTGGATAACTGACTTATTGTTTCCCGGCTTCTTGGTGCTTGCTAACTTTGATAGAATATCCGCCCT TGTATTCTCCTCCCGCGGAACATAATTGACCTGCACTGTGCCTATCTGCTTTATCAATCCCTGAGCTTTCAATAAATACT TAGCCAGCTGTGCGTCCCTCGCCTGATATTCACCCTGAATTTGCCTGGAAACTATCTGAGAATCTGTTTTAATCATTATG TTCTTGACCCCCATCTCGATCGCCAACTTCAAACCTGCAATTATAGCTTCATACTCTGCCTGATTATTGCTTGCTTTAAA GTCAAACTTGAGTGACTGCTCAACTGTCACGCCACCTGGTCCTTCTAAAATTATGCCAGCTCCACTTCCCTTTAGACGAA CCATCTACAGACAAACTCCATTCGCCAACTTCCATATTTTTCTCACTGGAAGACATTTCATTAACAAAATCCACCAATAC CTGTGCTTTAACTAGACCTTTCCTGTCAAAAGTGATTTCAAATTCTGACAATTCAACAGCCCAAGAAACCATTCGTCCAG CCAGATCAGGCTTTTGCAAAACTTGGCGAAGTGGCAAATCTGTTTTTACCACAATTGGAAAGCCTTGGAAATAAGGTCTT AATTTCCTGGCGGATATGATTAGAGCTAATGCAGCCTTTTCAATTTTTTGGTATCTAATTTCAGCTCCTTGAAGAGCATG ACTCACAAAATATATGATCCTCATATCATCCTTATTTTCTTGCAACAAAACTGAACTAATTGCATTATCAGAGATGGAAA TAAACAGTGATAATGAAATACCTGGAACTGGTTTGGCTAAAATTGGTGGCTTGGACAAATGATCCTTCAAACTTTGGAAC GCCCTCTCACATTCTTCAGTCCACTGAAAAGTTTTGTTCTTCCTTAAGCATTGAAAAAATGGTGCTGATTTTTCCCCAGA ACACGGAAGAAACCTGGATAAAGCTGCTATTCTTCCTGTTAACTTCTGCACATCTTTAACTGAGGTTGGACTCTGCATAT CGAGTATCGCCTTACACTTATCAGGGTTCGCCTCAATTCCTCTCCTCGTGATCATGAAACCCAAAAACTTTCCGCTTTGA ATTCCAAACGAACACTTTTCCGGATTAAGTCTCCTGTTATGCTTTCTTAGTTCGCCAAAAGCTTCTTCGAGATCAGAACA ATGCGCCATCATTTCCTCTGACTTGACCACCATGTCGTCTACATAAATCTCCATGTTACGCCCCACCTGCTTGTCAAACA CCTTATCCATCAACCTTTGGTATGTTGCTCCCGCATTCTTCAGCCCAAACGGCATAGTCTGATAGCAATAGTTCGCCTGA TTTGTCATGAAAGCTGTTTTCTCCTCGTCAGGCTGATACATTCTTATTTGATGATATCCTGAGTATGCATCCATGAGGCT AAGCATTCTGAATCCAGATGCCCTATCCACAAGCTTATCAATATTCGGTAAAGGATAAGAATCCTTAGGACAGTGCTTGT TCAAATCTGTATAATCTGTGCACATTCGCCACTTGCCATTAGTCTTCTTCACCATAACAACATTCGCCAACCAAGTTGGA TACTTTACTTCCCTAATGAATCCAGCCTCCAGTAACTTATTTGTTTCCACCTTTACAGCCTCTGCCTTTTCTTCGCCCAT CTTTCTTTTAAACTGAACAATAGGTTTCACCCCGGGATTTAAAGCCAATTTGTGACATATAAATTCCGGATCGATTCCTG GTAAATCTCTTGCACTCCATGCAAACAAATCCATATTCTCAGATAATAATTTTACCAACCTGTTTTCCTGACTTGTAGTT AAATTGACACCAACTTTCAAGTTTCGCTCACCAATTTGGATCGCCTTAGTTTCCTCTTCTGATTTCATCTTGTACTCACT GAATCCTTCTCGAGGATCCAAAATAATTTCTGACTGTTCTAAATCCACCTCATAGACTCGATGCCCCTCTTTCACTGCTT TCTTACCCATGTGCCCATACTGCTTAAAACTTTCTGAATAACACTTTCGAGCAACCATTTGATCAGCCTTTAAAATTCCA ACTCCTCCTTTGCTCAATGGATACTTCGCCGTTAAATGTCTTGTAGAAATTATCGCCCCCAATCTGTTTAGTGATGGCCT CCCAATAAGTACATTGTACGGTGAAGTACATTTTACTACTAAAAACTTAATAGCAAATGCCTCCGCATTCTTCCCTTCTC CAAAGACAGTTTTCAATTCCACATATCCTCGAACAAATACTTTTTCTCCAGAAAAACCCACTAAAGAACCATCATAAGGC AACAAATCAGATTCATTTAGCCCCAACTTTTCAAAAGCGTCACCATAAATCAAATCCGCCGAGCTTCCTTGATCCAGAAG TACCCTCTCAATTTCATAATCAGCAATCCTCAGCATTACAACAATTGGATCGTCTTCGTGAGGCTGTATTCCCTCAAAAT CTCGCACAGTAAACGTTATATCGGGTTGATTGGTTGCCCAACTTCCCCAATCGTTAGAGTAAACAGCATTAATGGAGTGA ACGTACCTTTTACGAGCTGAATTAGTCATTCCTCCGCCACGAAATCCACCAAAAATAGAATGAATTCGCCCCTTTGCTTT TCCATCTGACTGTCTATCTTGACCATCGCCCTCAATCTCTTTTCCATCTTCAGTTCGTCTTATTGAAGTTCCTGCTTCAT CAGAATTGCTTCGCCCTTCAAGCTGCTTCATATACCCAGCCTTTATCAATTTGTCAATCTCCTTCTTCAAAGTAAAACAG TCATCAGTATTATGCCCTGAAATCCTATGATACTCGCACCACTTCTTCTTGTCCACGTAACCCGTTGACGGCTTTGGCTG CCGTGGAAAACGAATAACATTCGCCTCCAAACACGTGTGCAAAGCTTCAGTCAAATTAACCGCCAAAGGTACTGCACGGT CGTTTTGGTTCCGAGTCCACGTCATCGAATGTCCTGGCCCACGCATTCCATACGGTTGAGCACGATTTTTGAAATTAGAA CGGTTATCAAATCGGCAGTCATAACGGTTACGATTATTATACCCTGCGTTGCCACGTTCGGTCCATCCCTTCGAATATTG ATCTGCAACCGCTCCCTTCTTCGTCTCAAACTGCTGTTTCTGCCCTGGAACCGCTGCATTCGGGCGGTTGTTCTTGATCC GATCACTCTGCTCCTCCCTGATGTATCCTTGTACCCTTTCGCGCAAATGCACCATTGTCTCCACAGGTTTTCTACTCAAA TTACTGTTCAAACCACCCGGCTTCAAGCCCAATTCAAAAGCTGCAATGCAAATTTCTGGCATTTTATCCTCCAAATGAAC AGATAATTGATTGAAACGCCCCATGTAAGACTGCAAAGTCTCATTTGGTCCTTGACGAACATTAAATAATGTCGCCGGAG TTACTTTTTGTGCACGACTGGTAGAAAACTGAGACAAGAACTTTGTAGATAATTCAGTAAAATTGACGATTGACCTTGAC GGTAGAGTGGTAAACCAAATCATCGCTGATTTCTTAAAAGTTGATGGCAACATTTTGCACTTCAACGCGTCTGATGCGCC TACAATGACCATTTTCGTGTTGAAATACACTAAATGGTCCTTTGGGTCTGAATCGCCATAGTACGAGTCAAGTTTCAATG TCTTTAAATTGTCTGGGACGGCAGTGTTCGCTATTTCCTCTGTAAAAGGTTGAAAGTCCACCACCGTCTCAGCCATTCTT CGATCGCCCTCTTGTAAACCCTGAGTCTGATTGATGTCAGTAAGTTGATTCTGTAACTGTTGATTATGTTGACGAAGTTC ATTGAGATCGTCCATGATCCGCTGAAGAACATCGGGAGGAACATCATTTTGTTGAACATGATTCCTCTCTCCGTTCGCCC CGGATCGAGTCACCATTGCGGTGAAAATTGAAGCCTAGGAAAGTATCCAGGGCCCCACGGTGGGCGCCAATGTTCCTGTA TGGAACCACAGACTAAAGGCTAACCAGTTTAGAGAGCAAACGAAAGTAACAAAGTGAATAAAAATGCGTGAAATGATAGG TCTCCACCGCTTGGGCGGTCCTCTTTTATTTATAGCTTGGGTTTTGGTCCGGCTGGACCATGGGTTGCCCGGCCCATTAG TTACATGATATTGATTAGCCCATTCGGTCCGCCCATATCAGTCCAACTTTGAATGAAGTTTGTCAACTAGTAGGGCATCA TATTAGTACCACTGGCTAAGTTTCAATTTTTTTTTTAATTTACAGATAAATTCACATGATAAGATCATTTTCATTCTTTC ATGTACTTACTGCCTAGTTCAAAAAAAGAA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0044800.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCAAAGTACGATGGAGAAGAGTTGCACATTTTCAACTATGACGTTTTCATCAGTTTCAGGGGTGAAGATACAAGGCA CACCTTTGTAAAAATTCTTCACAAAGAGCTCAAACGAAAGGGGATCAGAACTTTCGTTGATGATGAGATGCTTAAGGCTG GGAACGTTATTTCACCTGCTCTTTCCAAAGCCATTGAAGAATCCATGGTTTTAATTATAGTGCTTTCTAAGAACTATGCA TCTTCTACTTGGTGTCTTGACGAGCTCGTCAAGATTTTAGAGTGTTCAAGGAGGGGTAATCAACAACTTGTTTACCCAAT TTTTTACCATGTAGAGCCCTCCCATGTACGCCATCAAAAGGGGAAATACGGTGAAGCAATGGCAGCACATGAGAAAAAAT ATGGCATAAACTCTGACAGAATTCGAACATGGAGTCCAACTTTGAATGAAGTTTGTCAACTAGTAGGGCATCATATTAGT ACCACTGGCTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0044800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAKYDGEELHIFNYDVFISFRGEDTRHTFVKILHKELKRKGIRTFVDDEMLKAGNVISPALSKAIEESMVLIIVLSKNYA SSTWCLDELVKILECSRRGNQQLVYPIFYHVEPSHVRHQKGKYGEAMAAHEKKYGINSDRIRTWSPTLNEVCQLVGHHIS TTG

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	PTHR11017 View details on PTHR11017 Search for proteins/transripts with this domain View external data on PTHR11017	9	161	153	1.0E-75	–
PANTHER	PTHR11017:SF242 View details on PTHR11017:SF242 Search for proteins/transripts with this domain View external data on PTHR11017:SF242	9	161	153	1.0E-75	–
Gene3D	G3DSA:3.40.50.10140 View details on G3DSA:3.40.50.10140 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.10140	10	162	153	1.4E-59	IPR035897 Show description in modal box View details on IPR035897 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52200 View details on SSF52200 Search for proteins/transripts with this domain View external data on SSF52200	11	155	145	1.96E-40	IPR035897 Show description in modal box View details on IPR035897 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50104 View details on PS50104 Search for proteins/transripts with this domain View external data on PS50104	12	154	143	29.537	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00255 View details on SM00255 Search for proteins/transripts with this domain View external data on SM00255	13	154	142	1.9E-42	IPR000157 Show description in modal box View details on IPR000157 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01582 View details on PF01582 Search for proteins/transripts with this domain View external data on PF01582	13	150	138	6.9E-44	IPR000157 Show description in modal box View details on IPR000157 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:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	Molecular function	Protein binding	Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules).	Subterm of View details of GO:0005488
GO:0007165 View details of GO:0007165 AmiGO InterPro QuickGO	Biological process	Signal transduction	The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell.	Subterm of View details of GO:0009987 View details of GO:0050794 Part of View details of GO:0007154 View details of GO:0023052 View details of GO:0051716

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0044800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0044800.1