Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi6g1v0218000
Transcript ID	LotjaGi6g1v0218000.1
Related isoforms 2	LotjaGi6g1v0218000.2 LotjaGi6g1v0218000.3
Lotus japonicus genome version	Gifu v1.2
Description	Deaminase-related family protein; TAIR: AT5G28050.3 Cytidine/deoxycytidylate deaminase family protein; Swiss-Prot: sp\|O34598\|GUAD_BACSU Guanine deaminase; TrEMBL-Plants: tr\|T2DMP6\|T2DMP6_PHAVU Cytidine/deoxycytidylate deaminase; Found in the gene: LotjaGi6g1v0218000
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr6:52035802..52047359) extracted from Lotus japonicus Gifu genome v1.2.

CTTTCATAATCCCTGAAGTACACATCTTGCTTAAGGTGATTGAATGGATTCTCTCCGCTCAAAAACCAAACATGCTATAA TTATCAATAAAGTAATGTCCGATCAAAACCAAACAGTTTCATCCAGAAGGCACCGACAAAACTAAACATGCATAAGAGGA TCCAATAGATTGGGATTAGTGTTTCCAAATTAAACTTATTTAAATCTGAAAAGCCATTGGATAGGAATGAAGTCATGGTG GTGCGTTTGGTGACTCACGAAATCATGAAACACATTCCACCTTTTGGCTGATCATGAATTCATGATGTATTATATTGTCC CATAACTAATAGTAGTAACTACAATGTGGTCCGCATCAAATGTATGGACATTGGGATCAAGAGTCGTGTATATCAAGCCC CATTCACATGCTTTTTCTAATTTTATTTGCATCTAATTCTTGCCAGCATGATCCGATGTGTTTTCCCTTTATTTTATTAA TTCACACATGAGGGGACCATATTCTGCATTTTTTGCGTTTTCTCTTTCATTTGAATCTTGGTGTGCTCTATATATATAGC ACATGAAGCTCACTTATATATTCGACCTCAAGGATTTCTAGTTAACTAATCAAATTGGTGTTTTGGTTTTGTTATTGACA TCAAAGAAGTCATGGAAGAAGTGAATGGTATGCATTTTTTTTCCCTGGGAAAGAATTGTTACATGTACCTCATTATCTAT CTCTATTTTCCTTTCCTTTACTCTTTTTCATAGTCAACTTTTCTCCTTGTGAGTGAATGTTTGATTTTATATTAGAAATT CTTAAAATTATGACTTTGAGACTATTTTTATTTTTATAACTCGGTATTCGGTCACCCTTTGAATGACCACTATTCTAAAT TTAGGATTTAGTCACAGTTTATAATGATACTCATCATCCCTCCCCGTGAGTGCATTGTGTCGTGCGGGGATCGAACCGAA GACTCTTTCCGCATACTTAGTTAGCGTTGCCAACTGAGCTAACCGTGTTGGGTAATCACAACTTTTACTAAAATGATTGT GAGAGAGGTCCTTAACTTACCAAACACATTAGTAGCAATGTTGAAGTTTATGAAACAGTCAATGTTCAATTTTTTTTTCA TTGATGTATTTATGACTTGTTTGTCTTCTTGATCATCCCAGTGGTGCAGACTAAGAATGGAACTGTTGCAGTAGCATCTG CATTTGCTGGCCATCAGGAAGGTAATGCTTCTAAACGCTTTAGCTCACTTGCTGCACTGTTTCTTTGATTATGAAGGAAA CATGTTTGATGTATTGATACATTGAGGTCCTCTCTTGATTGATTGATTCTTCAGTATTCACCCCTTAATTTCATCATTTC TGATTTGGTTATTCATATTGGAAAACATTGGACTAGATGATCAATTATTACTTTGCTTCTGGTGTTGTATTGGCCAATCA GCTATACAGGATAGAGACCACAAATTTTTAAGAAAGGCCATTGGAGAAGCATATACAGGGATAGAATATGAAGATGGAGG ACCTTTTGGTGCTGTTATAGTTTGTAATGATGAAGTAGTTGCTAGTTGTCACAACATGGTTCTGAGGAACAATGATCCAA CTGCTCATGCTGAAGTCACAGCTATAAGAGAGGTTAGATTATAAGTTGCCAAATAATTTCCTTAAATTAATGGCATTAAA ATCCATGTTTTCATTTTGAACAATGTAGGTTACCTTTATGCTTTTCTATCTGACTGATGCAGAGTTCATCATAGCAAAAG AGGGATATGCCCTGCCCCCTTTAGCAATTGATTATATATGTGCAATTCTTTATTCTTGTAATGCAATGAAGGGTGTTCAC AATTAGACAACAATGATTTGATTAAATTTTTTCTAAAGCTAACTTAATTTATGGAACTATTGGAAATTTAATGATAAACC CATGATTTGATTTTGCAGGCTTGTAAGAAGCTAAATCAGATAGAACTTTCAGAATGTGAAATATACTCTTCTTGTGAACC TTGTCCAATGTGCTTTGGTGCAATCCACCTTTCACGAGTTAAGGTTGAAATTTCCTATGCTTCTCTCTTTCTTCTGGTAT TTCTGTTTTACTGATTACCAAGCTTATCTTAATTTGGATAAACTTTCTTACAATTTTTCTTTTTAAATAGAGGTTGGTTT ATGGTGCAAAGGCAGAGGCAGCAATTGCAATTGGGTTTGATGATTTTATTGCTGATGCATTGAGAGGCACTGGGTTCTAC CAGAAAGCATGCTTGGAGATTAAAAGAGCTGATGGCAATGAGGCCATCATTGCTGAAGAAGTTTTTCAGAAAACAAAAGA AAAGTTCAGAATGTTTTAAATTAATCTGTCATTTCCCTGATGATAATTAACTTCATCAATAAGCTTGCTAGCCTTGTACC AGAAGAATAAGCTTGTTAGCCTCGTTTACCATTCTGTATGTGAAATAATTATTACATATGGAGAATCAGAAATGTAAATT ATTTACTAATATTGTCACGATCCAAAAATCCCAAGCCGTGACCGGCGCACGGACTATCACCCCAAGTCCGGCAAGCCTTT TACACATAACCCGTTTATAACCAATTCACCAACATAAATACGTCCGCATAAATTTAAAAAAAAAAAAAAAAAAACGACAG AGTCTCCTCTGTATTTCTGTAATCTCAAAATAACATAACCTGCTAAATAATATTCTCCAAATCCATAATTTCAGGAAAAG GTACAAAACCAAAATTCGACGCTCAGCGTCAACTTTTAAAATAAAACAATGTCGTCAACCCCAAACTAAAATCACCTATG ACTCCCTATAGTTGCAGATAACTAGAGTCAAAAGAAAATAAAATAGCAATGAGGCCACCAGCCAATGGAGGCCTACCAGC AAGACAACTGACAATCTGAATCCAGGAACAGCCTGCTACTCAGCTGCTGAAGAATCTGTGGATAAAATAATAAAGGGGAA TAATAAAGGGGTAAGTCACAAAGACTTAGTGAGGATTTAACAACCACCATGAACAGGAAAGGGGAAACATATGAAGCACG AGTTTTTTTTCACTATCAGTTCAGAGTGGATAACATATATAATATTAATAAAATTAATAAGCATCAATTCAAATAAGAGA TGATCAAACTGTCAGGTTTATAAATAACTGTTTCAATGAAACTGAATAAAAAAATTCATGTCAGTCATGTGAAAGCATTT AAAAATCAGAAATATAATTTAATAGGGTCACACATGTAGAACCGTGAGGCGGCTCCATCTCGTTGATAGCCCTCTCCTCC TAAGGGATGGCCTATCCGATAGGGGCGGCTCCATCTAACGGATAGCCCTTTCCTCTCTCGTATCACATGTCGAATCGTAT TACCGGGGGAAGCTACATCTCGTTGATAGCCCTCTCCGTGCACTGGCGGCTCCATCTAACGGATAGCCCTCTCCTCCCGG AATCAATCTAACTAGGTGCACCTAGGCCGTTACCTCCGTTAACGGCTACGGGGTTCTATCAAGGATCCCCAAAACCGTTT TCTCAAATCAGTTCAAGTCTCATCAAGAGTCTCAAAATCAACTTTCCAAGTTCATAATCTCAGTTTCACATAATTTCCAA AATCAAAGTAATATAAATTGTTTTCTCATGTCAGTTCAGAATCAGACTCAGATCATTTTCATAAAACCAGCTTTCAGATA ATTCACGAATTGTAAAGCATGTTTCCCTAATTTAAATAAATATGCAATATGCTAAAATAATCAAATCATCAGTTGTATAA TTATTAAAAGTAAGTCACAGTGATTGGAAAATCACTCACAGCTATAACGAGCCAACTGGATCGTCCTCAGAAATTTCGCG ACAACCCAACGAACCTTCACCCGTCGAATCTGAATCACCAAAATTAAATTTCAACCTTCGGCAACTATAATCTTATGTCG TACTACCCGTGAGCAACTACAGAAACCCCAATTATATACCTAAAGCCCTAAATAATTTTACCTTCATCTAACATACAGTA CAATGCTAATCTCCAAATTTGTGGGTTGAGAAATATACCTTAAAGAAAATTAAACAATGCAACTTGAATGGCCAAGTACT CCTCTCTGCAACTCTGGTTTCCAAATATTATTCCCAAGGTCTCCCACGTGAATGCCAAAGCTTTCCAATTTGAATTCTTT CCAATATGAATGTGTATCTAATATGGTGGAATAACACTTCCTTCACTGTCACCTATCTCACGTGGGTACTGTAGGGTTCT TTTATTTGAAGAAGAATTGGAGTTGAAGGGAAAGAGATTGTCACAAGGTAGCGCACATGAGGAGAAGGATGGCGGCGAAT TCAGAGAGAAAGAAATTGGGTTTCACTGTTTGCTAAAAGGGGTGTGTGGGGCTGCACGTTGCAATCTAATTTTAATTAGA CAATTGTTTTTTTTTTTCTCCTTTTTTTTTCTAATCTCCTTTTTATTAAAACAAACCAAATTAATATTAAACGGTACGTT TCAATCTTCCCCCCTTATTCAAAATTTGTCCTCGAATTTTAAAGTCATACTAACCTTGAGATTCGAACAAGTGGGGATAC TTTTCACGCATGATATCTTCGGTCTCCCACGTCGCCTCTTCACCCGATGGTCCTCTCCAAAGAACTTTAACTGAACCAAC ATCTTTAGAACGTAGACGCTTCACTTGTCTATCGACTATAGCTACCGGATGCTCTGTGTAGGATAAGTGTTCATCTAGCT GTACATCCTCATGACGGATAACGTGAGAAGGATCATATAGGTATTTCCGCAGCATAGAAACATGAAACACCGGGTGAACT GCAGAAAGATCTGGCGGAAGTGCCAAACGATAAGATACGGAGCCAACCCTCTCTAACACCTCAAACGGTCCAATGAACCT TGGACTCAGTTTTCCCTTTTTACCAAACCGTAGAACTCCTTTCATTGGAGAAACACGTAAAAAGACATGGTCACCAACCG CAAACTCTAAAGGGCGTCGCCTCTTATCCGCATAAGACTTCTGCCTATTTTGAGCTGTAACCAAGCGATCTCGAATCAAC TTAATCTTCTCTATTGCATCCTGAATAAGTTCTGGACCTACCAGTTTAGCTTCTCCAACCTCGAACCAACCTATAGGTGA TCTGCATCTCCTACCATATAAGGCTTCAAATGGAGCCATCTGAATGCTAGATTGATAGCTATTATTATAAGCGAATTCCA TCAAAGACAAATATTGCTCCCAGCTCCCTTTGAGGTCTAATACACAAGCACGAAGCATATCCTCTAAGATCTGAATAGTC CTCTCGGATTGACCATCAGTTTGAGGATGGAAAGCGGTACTCATTTTTAATCGAGTTCCCAAAGCAGTTTGAAAAGACCT CCAAAATTGTGATGTGAATTGAGCTCCTCGATCTGAAATTATAGACACAGGTACACCATGCAAGGAAACAATCTCATCCA GGTAAATCTTAGCATATTGAGACGCAGTATAAGTAGTCTTCACCGGCAAGAAATGGGCAGATTTAGTCAACCGATCTATA ATCACCCAAACAGAATCATGACCCTTAGAGGTTCTAGGCAAACCTGTTACAAAGTCCATAGCAATACCCTCCCACTTCCA TTCTGGTATCTGAATAGACTGAAGTAACCCAGCTGGCTTTTGGTGCTCCGCCTTCACTTGCTGACACACCAAGCATTTAG AAACAAATTCTGCTACGTCTTTCTTCATCCCTTCCCACCAATAAAACTCTTTTAAGTCTTGATACATTTTATTAGAACCT GGGTGTATAGTGTAAGACGAATGATGAGCCTCCTCCAAGATTCTCATTCTCAAACTATCTACATTAGGCACACACAAGCG AGTTCCAAATCGCAAAACACCATCAGAGCCAACTGAAAATTGTGAAACTTTGCCACCTGCAACATCTCCCACAATCTTCA CCACCTCCGGATCTTGGCCTTGAGCTTGTTTAACATCATCAATCAAAGTGGAGTGAAGTTGCACGTGAGCCAACAATGAA TTAGAATTCTCAACCTCAAATTGTACGCCACTATCAACAAGTTCTTGGAACTCTTTAACTATGGGTCTTTTCACTACAGC TAAGTGACTAAGACTACCCATGGATTTTCTGCTTAAGGCATCAGCAACCACATTTGCCTTGCCTGGATGATACAAGATTG TGCAATCATAGTCCTTCAGAAGCTCCATCCACCTCCTCTGCCTTAAATTCAAGTCTCGCTGCTCAAAGATGTACTTAAGA CTTTTATGATCTGTAAAAATCTCACAAGTCTCACCATAAAGATAATGCCTCCATATTTTAAGAGCAAACACCACTGCTGC CATTTCCAAGTCATGCGTGGGGTAGTTCTGTTCATGCCTTTTCAGCTGCCTAGAAGCGTATGCAATGACCTTGCCATGTT GCATAAGTACGCAACCAAGTCCCACTCTAGAAGCATCACAATAAACTGTGTAACCTCCACCGCCTGAGGGTAGAACTAAG ATAGGCGCTGAAGTCAGACATTCTTTCAACTTCTGAAAGCTCTCCTCACATGCATCAGACCATTTAAACTCAACTTTCTT CTGGGTCAGCCTAGTCAACGGGGATGCAAGTTTAGAGAAATCTTTTACAAAGCGACGATAATATCCGGCCAAACCAAGAA AACTCCGAATCTCCTTCACTGTAGTAGGTCTCGGCCACTTCTGTACTGCTTCTACCTTGCTCGGATCAACACTGATCCCA TCTTTTGACACCACATGCCCCAAGAAAGCCACACTATCAAGCCAAAATTCACACTTGGAGTATTTGGCATACAACTGCTT CTCTTTCAGTGTCTGCAAAACCAACCTAAGGTGCTGCTCATGCTCCTCTTTATTCTTCGAATAAATAAGAATGTCATCAA TAAATACAATCACAAAGTGATCCAAAAATGGTTTAAAGACTCGATTCATCAAGTCCATAAAAGCAGCAGGGGCATTTGTG AGTCCAAACGACATGACCAAAAACTCATAATGGCCATAACGCGTCCGGAAAGCTGTTTTCAGAATATCTTCATTCTTTAT CTTCAACTGGTGATATCCGGAACGCAAGTCAATCTTTGAAAAACATTGAGCTCCTTGCAGCTGATCAAATAGTTCATCAA TGCGAGGTAAAGGATATTTATTCTTTATTGTCACCTTATTTAATTGCCTATAGTCAACACATAACCGCATTGTCCCATCC TTCTTTTTCACAAACAGAACAGGTGCTCCCCATGGAGAAGTACTAGGGCGAATAAAGTCTTTGTCAATGAGATCCTGCAG TTGTTCTTTTAATTCCTTAAGCTCAGCTGGAGCCATACGATAAGGAGGTATGGATATTGGCTGAGTGTCAGGAGGTAAGT CTATGGAGAACTCTATCTCTCTATCAGGTGGTACTCCAGGAAGATCTTCAGGGAAAACATCTGGAAATTCACACACTACG GGAACAGCTTCTAGATTTAACTTAGTTGCTTGAGTATCCTTCACCAAAGCCAAGTATCCATGACAACCCTTCCTTAGTAA CTTGCTAGCTCTTAGTGCTGAAACGAGATTATATGGTGCCCAACTTTGCTCTCCTTGAAACGAGAAAGGTGACTCTCCGG GTATCTCAAATCTCACTACTTTGTTATGACAGTCTACAGTAGCATGACGAGAGGCTAACCAATCCATACCCAAAATTACA TCAAAATCAACCATATCTAGAGCTATCAAGTCTACCAATAGCTTCCTACCCCCAATAATTATCTCACAAGAACGGTACAC CAATTCAGCTAACATAGACTCCCCAAGAGGGGCAGAGACAGTCAACTTCTCCTCCAAAGGAGAAGAACATTTGTTAAGTT GAGAAGCAAACAACAATGAGACAAAAGAGTGTGTTGCTCCAGGATCAAACAAAACATGAGCAGCTCGTGAACATACAGAG AGTGTACCTGTAACCACTGCATTAGATGCATGAGCATCTTGACGAGTCAAAGCAAAGACTCGAGCTTGACCTCTCCCTGC CTGTCCCTGACCTCTGCCACCGGGTCCTCTTCCATTCTGCTGAGACCCTCCATGACCACGACCAAAAGAAGAGCCAACCT GCCTCACAGGTGCTGCGGGAGACTGAGAAGATGCTACATTCGCTCCTGCTGGAGCTAAAGCAGGACAATCCCTCCTAACA TGACCTGAACGACCGCACTGATAGCACACCCTATTATCTCCAAAACAAGTTCCAGAGTGGAACCTACCACAAGTAGGGCA TGGTGTAGCTCTAGCACCAGAATGTCTCTGAGGGGTAACAGACCGTGAAGACCTACCAAAATCAGATCTGCGATTTTGCA CGAAGCCTGAAGAATGGCCACTAGAAGCATTCCCAGATACCACTGTCCTTGACTGCCCCTGGTGACGAGGTGTAAAACCA CTGCCTTGACTCGAATGAGTACCCTGAGATCCCTCAAAGCGCGGCCTCTTCTGTGAATTCTGTGTAGCATTCCCCTTCTC CTTTTGTCGCTGCTCAACCAGAAGTGCCAAACTCAATACCTCGGAGAAAGTGGAAGATTTAGACCCAACTACAGATTTAA ACAAATACTCTTTGAGTCCTCTGACGAACCTCTTGACACGCTCCTCCTCTGGAAGAGGATAGGGAACATATCTAGATAGA TGGGTAAAATGAGCACTGTACTCAGAAACTGTCATGCCCTCAGCTTGTTCTAGCCTCTCAAAATCACGAACAAAGCCATC TCTAACACTCTGTGGAAGGAAGCGGTTCATGAATTCCGCCGAAAAATCAGCCCATGTCCATGGAGGTGATCCCACTGGTT TCGCACGAGTCAAGCCATCGTACCAATCACGTGCTACACCCTCTAGCTGAAATGATGCCAACTCCACTGCCCGTGTATCT GAGCATCCCAATGCCCTCCATAGCCTCTCCAAAGCATCAATGAATCGTTGTGGCTCATCGCTTGTACCAGATCCACTAAA AGTAGGGGGTTTCAGCTTCATAAAATCAATCAGTGTGACTGCAATCCCCTGAGTAGCCCCCACCAATTGCTGCCCTCTCG CTCCAACCTCTGTCTGTTGCCCAGTAACCATCTGAAGTTGCTGTCCATCACCAAGTGTTTGCTCAGCCTCATTTGTTATT GGCTCATTGTCTGAAAGATCTATCGCTCCTAGAGTTCCTCTTCTTCGTCTAGGAACTTGAACATTGAATACATTAGCAAC AAACCTGCGCTCGCCAGCCCTGGTTGCCCCTCGCCTGCCCCCACCACGACTTCCAACAAGATCCCTCAGAGGAGGGTCAT CAGGTTGGGGAATAGCATTGCGAGAAGTCGTCGCTCTAGTAGCACCCCTAGTCTTTGGTGGCATCCTCACCTAAGAATGA GTAGACATAGAATGTAAGACAAGACATTGATTCAAATGAAGGAATAGACTCGAAGCAAACAATTGAAAGAGACACAATGA CTATCATGAGGAGTTAATAGCATCTTGGAAGTAAGTTGTGCCGCGGTTCACAATTTACTAGCAAGATTCTATTACCACCT CATGTCTGCAGCTAATAGGACCTAAAACCAAGGCTCTGATACCAACTTTGTCACGATCCAAAAATCCCAAGCCGTGACCG GCGCACGGACTATCGCCCCAAGTCCGGCAAGCCTTTTACACATAACCCGTTTATAACCAATTCACCAACATAAATACGTC CGCATAAATTTTAAAAAAAAAAAAAAAAAAAAAAACGACAGAGTCTCCTCTGTATTTCTGTAATCTCAAAATAACATAAC CTGCTAAATAATATTCTCCAAATCCATAATTTCAGGAAAAGGTACAAAACCAAAATTCGACGCTCAGCGTCAACTTTTAA AATAAAACAATGTCGTCAACCCCAAACTAAAATCACCTATGACTCCCTATAGCTGCAGATAACTAGAGTCAAAAGAAAAT AAAATAGCAATGAGGCCACCAGCCAATGGAGGCCTACCAGCAAGACAACTGACAATCTGAATCCAGGAACAGCCTGCTAC TCAGCTGCTGAAGAATCTGTGGATAAAATAATAAAGGGGTAAGTCACAAAGACTTAGTGAGGATTTAACAACCACCATGA ACAGGAAAGGGGAAACATATGAAGCACGAGTTTTTTTTCACTATCAGTTCAGAGTGGATAACATATATAATATTAATAAA ATTAATAAGCATCAATTCAAATAAGAGATGATCAAACTGTCAGGTTTATAAATAACTGTTTCAATGAAACTGAATAAAAA AATTCATGTCAGTCATGTGAAAGAATTTAAAAATCAGAAATATAATTTAATAGGGTCACACATGTAGAACCGTGAGGCGG CTCCATCTCGTTGATAGCCCTCTCCTCCTAAGGGATGGCCTATCCGATAGGGGCGGCTCCATCTAACGGATAGCCCTTTC CTCTCTCGTATCACATGTCGAATCGTATTACCGGGGGAAGCTACATCTCGTTGATAGCCCTCTCCGTGCACTGGCGGCTC CATCTAACGGATAGCCCTCTCCTCCCGGAATCAATCTAACTAGGTGCACCTAGGCCGTTACCTCCGTTAACGGCTACGGG GTTCTATCAAGGATCCCCAAAACCGTTTTCTCAAATCAGTTCAAGTCTCATCAAGAGTCTCAAAATCAACTTTCCAAGTT CATAATCTCAGTTTCACATAATTTCCAAAATCAAAGTAATATAAATTGTTTTCTCATGTCAGTTCAGAATCAGACTCAGA TCATTTTCATAAAACCAGCTTTCAGATAATTCACGAATTGTAAAGCATGTTTCCCTAATTTAAATAAATATGCAATATGC TAAAATAATCAAATCATCAGTTGTATAATTATTAAAAGTAAGTCACAGTGATTGGAAAATCACTCACAGCTATAACGAGC CAACTGGATCGTCCTCAGAAATTTCGCGACAACCCAACGAACCTTCACCCGTCGAATCTGAATCACCAAAATTAAATTTC AACCTTCAGCAACTATAATCTTATGTCGTACTACCCGTGAGCAACTACAGAAACCCCAATTATATACCGAAAGCCCTAAA TAATTTTACCTTCATCTAACATACAGTACAATGCTAATCTCCAAATTTGTGGGTTGAGAAATATACCTTAAAGAAAATTA AACAATGCAACTTGAATGGCCAAGTACTCCTCTCTGCAACTCTGGTTTCCAAATATTATTCCCAAGGTCTCCCACGTGAA TGCCAAAGCTTTCCAATTTGAATTCTTTCCAATATGAATGTGTATCTAATATGGTGGAATAACACTTCCTTCACTGTCAC CTATCTCACGTGGGTACTGTAGGGTTCTTTTATTTGAAGAAGAATTGGAGTTGAAGGGAAAGAGATTGTCACAAGGTAGC GCACATGAGGAGAAGGATGGCGGCGAATTCAGAGAGAAAGAAATTGGGTTTCACTGTTTGCTAAAAGGGGTGTGTGGGGC TGCACGTTGCAATCTAATTTTAATTAGACAATTGTTTTTTTTTTCTCCTTTTTTTTCTAATCTCCTTTTTATTAAAACAA ACCAAATTAATATTAAACGGTGCGTTTCAAATATCTTG

Download Genomic Sequence

CDS sequence (LotjaGi6g1v0218000.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGAAGAAGTGAATGTGGTGCAGACTAAGAATGGAACTGTTGCAGTAGCATCTGCATTTGCTGGCCATCAGGAAGCTAT ACAGGATAGAGACCACAAATTTTTAAGAAAGGCCATTGGAGAAGCATATACAGGGATAGAATATGAAGATGGAGGACCTT TTGGTGCTGTTATAGTTTGTAATGATGAAGTAGTTGCTAGTTGTCACAACATGGTTCTGAGGAACAATGATCCAACTGCT CATGCTGAAGTCACAGCTATAAGAGAGGCTTGTAAGAAGCTAAATCAGATAGAACTTTCAGAATGTGAAATATACTCTTC TTGTGAACCTTGTCCAATGTGCTTTGGTGCAATCCACCTTTCACGAGTTAAGAGGTTGGTTTATGGTGCAAAGGCAGAGG CAGCAATTGCAATTGGGTTTGATGATTTTATTGCTGATGCATTGAGAGGCACTGGGTTCTACCAGAAAGCATGCTTGGAG ATTAAAAGAGCTGATGGCAATGAGGCCATCATTGCTGAAGAAGTTTTTCAGAAAACAAAAGAAAAGTTCAGAATGTTTTA A

Download CDS Sequence

Protein sequence (LotjaGi6g1v0218000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MEEVNVVQTKNGTVAVASAFAGHQEAIQDRDHKFLRKAIGEAYTGIEYEDGGPFGAVIVCNDEVVASCHNMVLRNNDPTA HAEVTAIREACKKLNQIELSECEIYSSCEPCPMCFGAIHLSRVKRLVYGAKAEAAIAIGFDDFIADALRGTGFYQKACLE IKRADGNEAIIAEEVFQKTKEKFRMF

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	PTHR11079:SF170 View details on PTHR11079:SF170 Search for proteins/transripts with this domain View external data on PTHR11079:SF170	1	184	184	6.3E-114	–
PANTHER	PTHR11079 View details on PTHR11079 Search for proteins/transripts with this domain View external data on PTHR11079	1	184	184	6.3E-114	–
SUPERFAMILY	SSF53927 View details on SSF53927 Search for proteins/transripts with this domain View external data on SSF53927	24	144	121	1.42E-39	IPR016193 Show description in modal box View details on IPR016193 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.140.10 View details on G3DSA:3.40.140.10 Search for proteins/transripts with this domain View external data on G3DSA:3.40.140.10	29	186	158	1.0E-46	–
ProSiteProfiles	PS51747 View details on PS51747 Search for proteins/transripts with this domain View external data on PS51747	29	143	115	22.713	IPR002125 Show description in modal box View details on IPR002125 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00383 View details on PF00383 Search for proteins/transripts with this domain View external data on PF00383	30	129	100	1.6E-23	IPR002125 Show description in modal box View details on IPR002125 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd01285 View details on cd01285 Search for proteins/transripts with this domain View external data on cd01285	35	142	108	2.86954E-45	–
ProSitePatterns	PS00903 View details on PS00903 Search for proteins/transripts with this domain View external data on PS00903	81	118	38	-	IPR016192 Show description in modal box View details on IPR016192 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:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	Molecular function	Catalytic activity	Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic.	Subterm of View details of GO:0003674
GO:0008270 View details of GO:0008270 AmiGO InterPro QuickGO	Molecular function	Zinc ion binding	Interacting selectively and non-covalently with zinc (Zn) ions.	Subterm of View details of GO:0046914
GO:0016787 View details of GO:0016787 AmiGO InterPro QuickGO	Molecular function	Hydrolase activity	Catalysis of the hydrolysis of various bonds, e.g. C-O, C-N, C-C, phosphoric anhydride bonds, etc. Hydrolase is the systematic name for any enzyme of EC class 3.	Subterm of View details of GO:0003824

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Expression data

Expression pattern

Expression pattern of LotjaGi6g1v0218000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi6g1v0218000.1