Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi6g1v0278400
Transcript ID	LotjaGi6g1v0278400.1
Related isoforms 4	LotjaGi6g1v0278400.2 LotjaGi6g1v0278400.3 LotjaGi6g1v0278400.4 LotjaGi6g1v0278400.5
Lotus japonicus genome version	Gifu v1.2
Description	DNA damage-binding protein 1; TAIR: AT4G05420.1 damaged DNA binding protein 1A; Swiss-Prot: sp\|Q9M0V3\|DDB1A_ARATH DNA damage-binding protein 1a; TrEMBL-Plants: tr\|I1K4D0\|I1K4D0_SOYBN Uncharacterized protein; Found in the gene: LotjaGi6g1v0278400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr6:59515993..59525466) extracted from Lotus japonicus Gifu genome v1.2.

GGAAGAACAGAACAAACGAGGGCTTTGCTTTACTTTGCATGAGAACGAGGGTTTGTTGCAGCTGAAGGAAGCAGCAAGAT ACGTAGTGCTTTGTGGTTGTGGTTGTGGTTGTGAGAGAGAGCGAAGAAGAAGAGATGAGTGAATGGAACTACGTTGTGAC TGCTCACAAACCCACCAAAGTCACTCATTCATGCGTCGGCAATTTCACTGGCCCTCAAGACCGCAATCTCATCGTCGCCA AATGCACCCGTCTCGAGATTCATTTGCTCTCTCCTCAGGAGGGCTTGCAGTTGCAGTTGCAGTTGCAGGTATATATCACA ACTTTGAAGAGAGGTGTCCGTGCTTCATAGCAGGAAGAATACTATTTTGCTGTTGTTTTAGTGCTTAATGGAATATTCAT TCCTTTTCCTTTTTGGTTGAGTATTGTAATAGAGTCAGATAGATAAATGTGAAGATTTTCTTTGCAGCCTATTTTAGACG TCCCCATATATGGAAGAATTGCCATCCTTCAACTCTTCCGCCCTCATGTACGTTTGTTGAATTTCTATCTAATATTCTAG TTTTTTTTTTCTTACATAATAGTCTTCCTCTTTATTCTTTCATTGCTTGTTTGGTATCAAACAGGGTGAAGCACAGGAAT GTCTGTTTGTTGTGACTGAAAAATACAAATTCTGTGTTCTTCAATGGGATCGTGAGACTCATCAACTTGTTACAAGGTAT GCATGAAAGAAAACACTTCTTCCCTTCTGAATGAACTTACTTATGTTCTGGCTTTTTTTTATTTGTATAGATTGAAATTA AAATATTTTTCTGGAAAAATTCTTCATAAATTATTGATGTGGGAGTCTGTCAACTGGTTGTAAATGTTATGTGGCTGTAA TAACAATCTCATTGTGATTTTGGTAATGCAATAATCCATTTAGTAAACTTGTTTTGGATGCTGAACTTAGTATGCACTAT GCAGTGTGTAAAAGCCAGTTTCATAACTTTGGAGGAGCACCTTTCTTCATAAAAAATCAATTTGTATAAGATTTACAGAG TCAATAGTCAATTAGTCATTGAAGCATATGGCTTTCAGGTGTCGCCATTGGCTAAAGAAATGAAGACAAAATAATGTTCT TGATGTGTGTTTTGTGGTGCTTGTTGTTTATCAGCTGCTTAAACACGATATATTACTAGAAAATCCATGTTGATGAATTT TTTATCCTCTCTTACATAGGAGTTAGAGCCTATGAAAAAGGAAATTAGCATCCTTTTGAAGGTAGGAAGGAATAACCATA ATCCATTATAATTTTTATTTTTTAGCATCCTCTCTTGTTTGGTTACATCTCCCCTCCCTAGACTGAGCCCCGTGCACTGG GCCTCCCTTTTACCTTCTGTGTATTGGAATCAGTGGTTGTTGGTTTCATAATTTTGAGTAGCGCCAGCGGCTTAACCACA CAAGCTTGGAATTTCAGTAAAGAATGAAGAATGGAAGTTTTTCTTGACATTGTCTTTGTCAAATTTTGATTTACTAAGGT ATATGAAAGGAGGGGTTTATCTCGTTGTTTGTTGAATTCTCTGTATTGTTGTCATCCAGGGCTATGGGGGATGTTTATGA TCGTATAGGACGGCCCACAGATAATGGTCAGGTATTTAAATTGTTTCACTTCTATCTACTAATTATTCATGGGTGGTGAT TGTGTCCACACAGTTCTGATAATTTTTAACAACACCAGTGCTTTATCTAGTTTAAGATCAGTTGAATATTCTTCAGTTCA TTTCAGCGGTTATCCATTTCTCTTTCTGCAGATTGGCATTGTCGATCCTGATTGTAGGTTGATTGGACTCCGTTTGTATG ATGGCTTGTTTAAAGTATGTAACTTCCTTTCTTTCATTATCCTGTAAAAATATTAGATTAGAAAGACAATACATTTAGGT TTTCAGTTTCATGTTAACAAATTGAATGATTTATTGTTCATTGATCTTCCAGGTTATTCCTTTTGACCATAACGGACAAC TCAAGGAAGCGTTTAATATTAAGTAATCCTATTATCTTTTGATTGTCTCCACACAAGATTTTATTTACAATTTGACCTTC ACTAGGTGTTCATAATTGTAGTAACTGAGGGTAGTACCTTGATTAATTATTACCAGTATACCACAGTCCTAACCATGTAT ATATGACTATGACCTAGAACCTTTCATGTTGAATATTGTGTCTCTATATAACTTGACATACTTTTCATGTGTCATACATT TGGGTCAATAAAGAACTTAGATGTAGTTTTCTCTTAGAGAATAAAAAGAAGTATGGGTATACTTTGATTAGCTGGTTTAA TCTATGTTTAGTTGAAGAGGTTGTTTTACAAGCCAAAGTTTGTACCAGTTAGGTGGTTAAGGTACCTATACTTCCTTGGG TTCATATCTCTGTCCTAAAGAAATCATTTGTCATGGTAGAAAAACTGAAAAGACTTTTTTATCAACGACGATGCTCCATT TATCAAATGTATGAGTCTTGTTTATAAAAGCTTTAACATGTAATTGTTATGGTGGAAATAATTCATGGCTATAAAAAGAT GTAGATACTGTTCAGTTTCTTTATGTCTTTTACATCGCGCCCCCTGTTACTTTGGGTAATGGCTGTGCTGGGAAAACAAC CCTAGCTTTCTGCTCCCCTGGTCTGATAGTAGCTTGTGAGTTTCTTTGTGTACATCTCTCAGTTGCCATAGCATTTAAGA AAACATTCTTACATATATGGGTGTAAAACTGTAAACCATTTCTTAAGTTATTAAAATGTCAGAGTTGACAGCAATGTAGG GGATATATGCAGATCCTTGTTTGCAACTTGCTGATAAATTTGTCAAATATAAATTATAAGGCTAGTAATTTCTGTTTCTT TTTCTGATTTAGTTTAGTATATTAAGATTATGATGCATCTTTTTTTCAGGCTTCAGGAGCTCGATGTTTTGGATATTAAA TTTCTTTATGGTTGTTCAAAACCAACTATTGTGGTTCTTTACCAGGTTTCTAATTCTATTCCACCTTTTGTTTTGGGGGT ATTAGTTGATTAGTTCATCAAATAGACTCCGTCTGAGCTGTTAACTTGTTTGCTAGTTTCTTTCCTTCACTCATTTATTT TGGATTTGGAAGAGGTAGTCAGGGAGTGGAGAAATCTACAACACCTGTTTCTGTTTGATTTTATGCACTTATTTTCTTAT ATGGATAGAAGAGCATGGGCTCTTGACTCCTTACTCCTTAGTGAGAATTCTTTTTTCCATTTCTTTTCCGCTCTGGGAGA AAAATTCATTTTTTTTAATGGCTTCACTTAAAAAAATGACTGTAAAGAAAGCATGTGATCAGTATAATAGCATGCGTTAA GTCAGTTTTTGTCAAATTAATTCCCTCAATTTTCTAATATTGCTATATATGAGAAACAGAAGATGAAAAAAAGATTACAG GCAAGTTATACACGTAATTTGTTATAGAAATGACTGAAAAGAGTTAGCATGACATTGACTTTTATTAGAATTTTTAAACA TGTATAACAGTATAAGACAATATTTGTAGTGTTGAGGTTTTGAGACCCACATGTCTTGTATTATTGCAGTTTGAGTTTAT GATTGGGCATTCATATTCTTGCATAACATTATCTATTCAATGTTTCTATGATTTTATTGCAGCTGTATATTTTATATTTC CCTTATGTAATATATTTGGTTGGAAACATAACTGCTTTTAACATAACCATTTTGTTGACTTTGGTATTATATTTAATTAA TGACAGGACAACAAAAATGCTCGTCATGTGAAAACGTATGAGGTTGATCTGCAGGACAAAAATTTTGTTGGGGGTCCATG GTCCCAGAACAACCTTGATAATGGGGCTAATTTATTGATACCAGTTCCCCCCCTCTTTGTGGTGTGCTTATTATTGGTGA AGAAACCATAGTATACTGTAGTGCTACTGCTTTCAAAGCTATCCCAATCAAACTCGGACCTGTATGTAAAAAGACTATTT GCTACTTTCATTTAGATCATCTGCATTCTTCAGTGAAATTTTAATTTTGGTGAACTGTATCTATATTACAATTTTTTGGA CTTATCTAAATTCTACCATATGATCTGCTTTTCAGTCACTTACAAAAGCATATGGAAGAGTTGATTCTGATGGTTCTAGA TATTTACTTGGTGATCTCACAGGAGCGCTTAATCTTCTTGTATTAACCCATGAGAAAGAAAAGTAAATGACCACCCATTG TCTTGTTTTACTTTTGTCTTAACAGATTTATTAATTTTCTCTGTGCACAAATTTGATGATTAAAGTAGTAATCTGCATTT TATCTTGAAAAACCAACGATGCAGTTTTTAACTTCTGAATATTATGGTTTGTCATGTACATTTTTATTTTGTAGGGTTAC AGGACTGAAAATTGAGCCCCTTGGGGAGACTTCCATTGCATCTACAATATCATACCTTGATGATGCATTTGTCTACATTG GTTCATGTTATGGAGATTCTCAGGTGGGATAGTAAATTTAAACATTATTGTATAAATGTTTATGAAGTCCATATGCATAT GGAATTTTAATTTTATCCAAAATTCTGATTCCCCCAACTCCTTCTTATGAACTTAGTATGGAGACTCTGGAATATTTATT ATTTATATGTGAAGTGGAGTCTGCATATTATGTTGGAAGTTGGGTAATTGCCTATGTTGAAGAGGCTTTTGAAAATGTTG CTTAAAAAATACTCCCTCCGGTCCTATTTATAAGCAACAAAAAAAAAATTCACATAGTTTAAGAAATGTAGTTAAACTAG ATAAAATGCATTAAATTTGTCTTGAATAAAAATAAACTTCCAAAATTACCCTTTGTTATTAGTGTTGGAAAGTGAGAAAG AGAGAGAATAATTAATGAGACACATTTTACAAGTTAGAATTAATAAGGGCATCATTGGAAAAAAATAATTAATATAGCTC AAACTTTCATTTGGTTCTTATAAAAAGGACCAAGATTTTTCTTCTCTTTCATGCTTATAAATAGGACCGGAGGGAGTATA TGCTATCACCCCACACATAATTTAACAGCATATGTATGGCAAATATTTAGCATTTCAACTTCATGACATAAAAAGTGAAA ACATAAGTCAACAAGACAAATTAATGATCACCGCTTCCTGTTCTTAGCTTCTTCACCAAAATCTCATTTAGGTATTTGAT GTGTTTTCTTCATATTTTGAAATGTATTATGACTTATCCTTAGCTGTTTACTTTTACGTGCATATTCAGACATGCCATTA ACAATTTCTGATGGATGCAATTCAGCTTATAAAACTAAATCTACAGCCTGAGGTAAAAGGCTGTTATGTGGAAGTTTTGG AAAGGTATGCGAATTTAGGGCCAATTGTTGACTTCTGTGTGGTAGACCTCGAAAAGCAAGGCCAAGGTCAGCTTGTAACC TGCTCTGGAGCTTACAAAGATGGTTCTCTTCGCGTTGTTTGTAATGGAAGAGGGATCAATGAGCGGGTCAGTTCCCCTTC CTATCCGCCCAGAATGGGACTTCTGTACCTAAGAAATTTTAAGAAGAGATAAATTAAACTGTATCAAGCAACACATGTTT TGTAAAATATTATTTTATTGATGTAGGCATCTGTAGAACTTCAAGGTATCAAAGGAATGTGGTCATTAAGATCCTCAGCA GATGATCCTTTTGACACTATCCTGGTTGTGAGTTTTATAAGTGAAACGAGAATCTTAGCAATGAATATTAAGGATGAGCT GGAGAAAACTGAGATTGAGGGATTCTGTTCTCAAGTACAGACATTATTTTGCCATGATGCAATTCACAATCAATATGTAC AAGTAGGTTCTGATCTTATTTTCCTGCTTTGGTATTTTTCTTCTATTCTTGTTGATTTTAACGCCTGCATCTCTCTATCT AACTCTTAAATGAAGTCAGATTTATTAAAAGAAGATAATCAAGATATATCTTGTGCACATGCAGACAACTTCATTAAGTG GGATAAGGCTCAGTTGTTGTTGATGCTGTCTTTGATATTTTTCTTTTGTTTGAAAAATATAATATAATGAAGGGAATTTG ATTCAGAGTGTGAGGAGAATACGCTGATATTGATGGGTCTTAATCTGAGTCATAAAAGAATTGGAATCCATTGTAATTGA AAGAAACAGATTTGAAATTATGCTTTATGTTTCTGGAAGCTTCTTGTAAATGCTTAAGACTTGCATGGTCGATTATAGTT TGTCTGTAATCTTCGTAAGTTGATACTATAAATTTACATTCATCATTTGCATGCTTCTTTGTTTTTTTTTTTTTTGCTTA TTTATTTTGTTGAAATGATAGCTTCCAATCATTAGCTAATAAACCAACATAACAGGTCACCTCAAGCTATGTAAGACTGG TTAGTTCCACAACTAGGGAGCTCCGGAATGAATGGCATGCACCAGAAGGCTATTCAGTAAATGTAGCTACTGCAAATGCT ACCCAGGTTTGATTCTTATTTTAAAAAAAAAATATTACATTTTAAACTATAGGTGATATTTCTTGGTGATACCTCTTGAT TCTCCAATTACTCTTACATTAACACACATGTCAGATGTTGGATTTTACTATCTAAACACAACTAAGTTTGTATCGAGTTG GTAATTATTGTTACACCTGGATTCAGGTTTTGTTGGCCACAGGCGGTGGACATTTATTTTACCTTGAAATTGGAGATGGC ATACTACGGGAAGTAAAGCGCACCCAACTGGAGTATGAGATCTCATGCCTAGACATAAATCCAATTGGTGAAAACCCCAA TCAGAGTCATCTAGCAGCAGTTGGAATGTGGACTGACACAAGTGTTGGAATTTTTTCTCTTCCTGACCTGAATCTCATCA CAAAGGAGCATTTTGAAGGAGAGAAAATACCTCGATCTGTTCTTCTTTGTGCGTTTGAAGGGGTGCGCTTTCCTTGACCT ATCTTGTTGTGTACTGGTTTTTTTGCTTCTGCGTAGGGCATACTAATTTTAAAAAAAAATGCCCGAATACCATTTGGGGT GCTCATCTCCTAAGTTCTAATTTTAGAATGGGTATTTCGGATTTTACACATTCAAATGGTTTTGGTGGAATAAGCAAGAT CAGCAACATTAATGTCTATTTTACAATTCTGCTCAAGTTACATATTTATCTAATGATGCTCCAAGGATTGATGACACATC TGCTAAGCTTCCAACTTATCTTTCTTAATTTTAATTGTAGTTTCCTAGTTTAAAGATTTCTATTAAAGTGTGTTTCTCTT TTCATATTGTTCTCCAGATATCTTACTTGCTATGTGCCCTTGGTGATGGTCATCTCTTAAACTTTATGTTGAACACAAGT TCTGGTGAGTTGACAGATAGGAAAGAGGTCTCTCTTGGCACACAACCTATTACACTATGGAATTTCTCATCCAAGAATAC TACCCGTGTTTTTGCTGCATCGGATCGGCCAACTGTGATTTATAGTAGTAACAAAAAATTACTATATAGTAATGTGAATC TGAAGGAAGTGAGTCACATGTGCCCTTTCAACTCTGCTGCTTTTCCAGACAGGTACGGTTGTCTTTTTTAGCTTGACATC CAAGAATGGTTGATTTATCCCATATTGTTGTTTCTGGGCCTTGTACTTTTGATGCAAAATCCATTATCGGTGATAGTACT TTGCCCCTCATAATTTCAACAGTTTGGCAATTGCAAAAGAAGGTCAGCTCACTATTGGCACCATTGATGACATTCAAAAA CTTCATATTCGCTCAATTCCACTGGAGGAGCATGCACGGCGTATCTGTCACCAGGAACAATCCAGGACTTTTGCTATTTG TAGTTTGAAGTCCCCTACAAGTGCTGAAGAATCTGAAACGCACTTTGTTCGCTTGCTGGATGACCAGTCTTTTAAGCTCA TATCGACTTATCAACTTGACTATTACGAGTACGGTTGCTCTGTAATTAGCTGCTCCTTCTCAGGTGATAATAATGTGTAT TACTGTGTTGGAACTGCATATGTATTGCCAGACGGAAATGAACCAGACAAGGCAAGTTGAGAAATCTATATTATTTTCAG CTTTGATCTAGTCAAAGCCTCTGATATCCTGATTCATTGGCCTTTTCTAAACAAATGTAGGGAAGAATTCTTGTTTTTAC TGTTGAAGATGGAAAGCTACAACTAATTGCTGAGAAAGAGACTAAAGGAGCTGTTTATGACTTGAATGCGTTTAATGGTA AATTGCTTGCTGCTATTAATCAAAAAGTTCAGCTGTATAAGTGGGTGCTCCAGGATGATGGCACCCATGAGTTACAGCCT GAATGTGGATTTCATGGACACGTCCTAACTCGATATGTGCAAACTAGAGGAGATTTCGTTGTAGTTGGCGATCTGATGAA ATCAATTTCCGTATTAATATATAAGGTAAGCCTCTAAGTGGTCTTAATGCTGAAGTTCATTTGCAAATGAATTTACTATC TTCAATATAACTTTTCTAACCATGCCATTTACTTTGTTTTTGTTGAATTTTGAACTGCTATGATCCTTATTGTGGATGAA TAGTTAATTTTCTGGATATTTGCTCCATTTTCTTTTGGAATGATAAATTGTTGCTCTTTATTATTTAAGCATGAAGAAGG TGTTTTTGAGGAGAGAGGTCGGGACTACAATGCAAATTGGATGTCAGCTGTTGAAATCCTTGATGATGACGTATACCTTG GCGCGGAAGTTAGCTTCAATCTCTTTACAGTTGGGAAAAATAGTGAAGCATATCCAGGTCGTCTGGAAGTACTTGGTGAG TATCACCTTGGAGAACTTGTCAATCGGTTCCGGCATGGCTCCCTTGTCATGCGCGACGATGGTGCAGGAAAGATTCCAAC TGTTATCTTTGGCACCATTAATGGTGTTATTGGGGTAATTGCTTCTCTTCCTCATGAGCAGTATGTTTTCTTAGAGAAGC TTCAGTCAAACTTGAGGAAGGTGATTGAAGGCGTTGGAGGACTAAGCCATGAGCAATGGAGATCATTCAAGAATGAGAAG AAAACTGTGAAGGCCAGAAACTTTTTGGATGGGGATTTAATTGAATCATTTCTTGATCTCAACCGCAGTAAGATGGATGA GGTTTCCAAGGCATTGGATGTTTCTGTAGAGGAGTTAATCAAGAGAGTACAAGAGTTGACTAGGTTGCACTAAGTTTATC CTAATTTGGAGCTTCTTTGTTCCTTTGTTATATCTTCTCCTTAAACTTTTACTTTCCTTTTTGTGAATGTGGATTAAAGT GACAACAGTTTATGTCTCATCTTGTTTCCCTGACCTTTTTCCCTCAGCTATGCTGAAACTAGTGAACAGTATGCATTTTA CAATATGGAGCACAAGTATGTATGGAGTGCACTGTAAAAAAATTATCCATTTAATCCTAATATTTTTTTTAAAAATCCAA TGAGGTTTGAAATATTATGTATAAGTTATTATCC

Download Genomic Sequence

CDS sequence (LotjaGi6g1v0278400.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTGGTCATTAAGATCCTCAGCAGATGATCCTTTTGACACTATCCTGGTTGTGAGTTTTATAAGTGAAACGAGAATCTT AGCAATGAATATTAAGGATGAGCTGGAGAAAACTGAGATTGAGGGATTCTGTTCTCAAGTACAGACATTATTTTGCCATG ATGCAATTCACAATCAATATGTACAAGTCACCTCAAGCTATGTAAGACTGGTTAGTTCCACAACTAGGGAGCTCCGGAAT GAATGGCATGCACCAGAAGGCTATTCAGTAAATGTAGCTACTGCAAATGCTACCCAGGTTTTGTTGGCCACAGGCGGTGG ACATTTATTTTACCTTGAAATTGGAGATGGCATACTACGGGAAGTAAAGCGCACCCAACTGGAGTATGAGATCTCATGCC TAGACATAAATCCAATTGGTGAAAACCCCAATCAGAGTCATCTAGCAGCAGTTGGAATGTGGACTGACACAAGTGTTGGA ATTTTTTCTCTTCCTGACCTGAATCTCATCACAAAGGAGCATTTTGAAGGAGAGAAAATACCTCGATCTGTTCTTCTTTG TGCGTTTGAAGGGATATCTTACTTGCTATGTGCCCTTGGTGATGGTCATCTCTTAAACTTTATGTTGAACACAAGTTCTG GTGAGTTGACAGATAGGAAAGAGGTCTCTCTTGGCACACAACCTATTACACTATGGAATTTCTCATCCAAGAATACTACC CGTGTTTTTGCTGCATCGGATCGGCCAACTGTGATTTATAGTAGTAACAAAAAATTACTATATAGTAATGTGAATCTGAA GGAAGTGAGTCACATGTGCCCTTTCAACTCTGCTGCTTTTCCAGACAGTTTGGCAATTGCAAAAGAAGGTCAGCTCACTA TTGGCACCATTGATGACATTCAAAAACTTCATATTCGCTCAATTCCACTGGAGGAGCATGCACGGCGTATCTGTCACCAG GAACAATCCAGGACTTTTGCTATTTGTAGTTTGAAGTCCCCTACAAGTGCTGAAGAATCTGAAACGCACTTTGTTCGCTT GCTGGATGACCAGTCTTTTAAGCTCATATCGACTTATCAACTTGACTATTACGAGTACGGTTGCTCTGTAATTAGCTGCT CCTTCTCAGGTGATAATAATGTGTATTACTGTGTTGGAACTGCATATGTATTGCCAGACGGAAATGAACCAGACAAGGGA AGAATTCTTGTTTTTACTGTTGAAGATGGAAAGCTACAACTAATTGCTGAGAAAGAGACTAAAGGAGCTGTTTATGACTT GAATGCGTTTAATGGTAAATTGCTTGCTGCTATTAATCAAAAAGTTCAGCTGTATAAGTGGGTGCTCCAGGATGATGGCA CCCATGAGTTACAGCCTGAATGTGGATTTCATGGACACGTCCTAACTCGATATGTGCAAACTAGAGGAGATTTCGTTGTA GTTGGCGATCTGATGAAATCAATTTCCGTATTAATATATAAGCATGAAGAAGGTGTTTTTGAGGAGAGAGGTCGGGACTA CAATGCAAATTGGATGTCAGCTGTTGAAATCCTTGATGATGACGTATACCTTGGCGCGGAAGTTAGCTTCAATCTCTTTA CAGTTGGGAAAAATAGTGAAGCATATCCAGGTCGTCTGGAAGTACTTGGTGAGTATCACCTTGGAGAACTTGTCAATCGG TTCCGGCATGGCTCCCTTGTCATGCGCGACGATGGTGCAGGAAAGATTCCAACTGTTATCTTTGGCACCATTAATGGTGT TATTGGGGTAATTGCTTCTCTTCCTCATGAGCAGTATGTTTTCTTAGAGAAGCTTCAGTCAAACTTGAGGAAGGTGATTG AAGGCGTTGGAGGACTAAGCCATGAGCAATGGAGATCATTCAAGAATGAGAAGAAAACTGTGAAGGCCAGAAACTTTTTG GATGGGGATTTAATTGAATCATTTCTTGATCTCAACCGCAGTAAGATGGATGAGGTTTCCAAGGCATTGGATGTTTCTGT AGAGGAGTTAATCAAGAGAGTACAAGAGTTGACTAGGTTGCACTAA

Download CDS Sequence

Protein sequence (LotjaGi6g1v0278400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MWSLRSSADDPFDTILVVSFISETRILAMNIKDELEKTEIEGFCSQVQTLFCHDAIHNQYVQVTSSYVRLVSSTTRELRN EWHAPEGYSVNVATANATQVLLATGGGHLFYLEIGDGILREVKRTQLEYEISCLDINPIGENPNQSHLAAVGMWTDTSVG IFSLPDLNLITKEHFEGEKIPRSVLLCAFEGISYLLCALGDGHLLNFMLNTSSGELTDRKEVSLGTQPITLWNFSSKNTT RVFAASDRPTVIYSSNKKLLYSNVNLKEVSHMCPFNSAAFPDSLAIAKEGQLTIGTIDDIQKLHIRSIPLEEHARRICHQ EQSRTFAICSLKSPTSAEESETHFVRLLDDQSFKLISTYQLDYYEYGCSVISCSFSGDNNVYYCVGTAYVLPDGNEPDKG RILVFTVEDGKLQLIAEKETKGAVYDLNAFNGKLLAAINQKVQLYKWVLQDDGTHELQPECGFHGHVLTRYVQTRGDFVV VGDLMKSISVLIYKHEEGVFEERGRDYNANWMSAVEILDDDVYLGAEVSFNLFTVGKNSEAYPGRLEVLGEYHLGELVNR FRHGSLVMRDDGAGKIPTVIFGTINGVIGVIASLPHEQYVFLEKLQSNLRKVIEGVGGLSHEQWRSFKNEKKTVKARNFL DGDLIESFLDLNRSKMDEVSKALDVSVEELIKRVQELTRLH

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
Pfam	PF10433 View details on PF10433 Search for proteins/transripts with this domain View external data on PF10433	1	136	136	2.6E-28	–
PANTHER	PTHR10644:SF17 View details on PTHR10644:SF17 Search for proteins/transripts with this domain View external data on PTHR10644:SF17	1	680	680	0.0	–
PANTHER	PTHR10644 View details on PTHR10644 Search for proteins/transripts with this domain View external data on PTHR10644	1	680	680	0.0	–
Gene3D	G3DSA:2.130.10.10 View details on G3DSA:2.130.10.10 Search for proteins/transripts with this domain View external data on G3DSA:2.130.10.10	1	302	302	3.7E-208	IPR015943 Show description in modal box View details on IPR015943 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	21	41	21	-	–
SUPERFAMILY	SSF50978 View details on SSF50978 Search for proteins/transripts with this domain View external data on SSF50978	66	462	397	2.56E-12	IPR036322 Show description in modal box View details on IPR036322 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.130.10.10 View details on G3DSA:2.130.10.10 Search for proteins/transripts with this domain View external data on G3DSA:2.130.10.10	303	569	267	3.7E-208	IPR015943 Show description in modal box View details on IPR015943 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF03178 View details on PF03178 Search for proteins/transripts with this domain View external data on PF03178	344	650	307	1.5E-73	IPR004871 Show description in modal box View details on IPR004871 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.980.30 View details on G3DSA:3.30.980.30 Search for proteins/transripts with this domain View external data on G3DSA:3.30.980.30	596	681	86	2.1E-29	–

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:0003676 View details of GO:0003676 AmiGO InterPro QuickGO	Molecular function	Nucleic acid binding	Interacting selectively and non-covalently with any nucleic acid.	Subterm of View details of GO:0097159 View details of GO:1901363
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:0005634 View details of GO:0005634 AmiGO InterPro QuickGO	Cellular component	Nucleus	A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent.	Subterm of View details of GO:0043231

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Expression data

Expression pattern

Expression pattern of LotjaGi6g1v0278400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi6g1v0278400.1