Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0264700
Transcript ID	LotjaGi1g1v0264700.3
Related isoforms 2	LotjaGi1g1v0264700.1 LotjaGi1g1v0264700.2
Lotus japonicus genome version	Gifu v1.2
Description	Replication factor C subunit; TAIR: AT1G21690.1 ATPase family associated with various cellular activities (AAA); Swiss-Prot: sp\|Q9FXM3\|RFC2_ORYSJ Replication factor C subunit 2; TrEMBL-Plants: tr\|I3SKP0\|I3SKP0_LOTJA Uncharacterized protein; Found in the gene: LotjaGi1g1v0264700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:64737533..64747684) extracted from Lotus japonicus Gifu genome v1.2.

ATGGCGCCAATCGTTCAGAGCTCTCAACCATGGGTCGAAAAATAGTAACAATTTTCCTCTTCTCTCTTTCCCTAATTTCA ATTCTCTCCATTTATCTACTTTTCAATAATCTAATTTCATCCCTCCCAATGTACCAGCCGCCCAAAGCAAGTGAAAGACG TCGCTTACCAAGATGAAGTTGTTCGAGTCCTCACCAACACTCTCGAAACCGGAAGCGTAATAATTTCCATTTCCCTCTTT CTTCTTCAACCCCTCAATATATTCCATTCAATATTTATTCCCCTTTGTGTTACAGTGCCCTCACATGCTCTTCTATGGTC CCCCCGGTACCGGAAAAACCACCACTGCGCTCGCAATTGCGCACCAGCTTTTCGGGTTGGCATTTTTCCCTTGATTGTTC TATGAATTGGAGTAAAAATTTGTTGTTTTAATCTGTAATAATCATGCATTGCAGGCCTGAGCTGTATAAGTCCAGGGTGC TGGAGCTCAATGCTAGTGATGATCGCGGGATTAACGTTGTTCGGACTAAGATTAAGGATTTTGCTGCTGTGGCTGTTGGT ACTAACCCTAAGAAAGGGTGTGTGAAACCTAACCCCCTTTTGATGCTGTTGTTGCTTGTTATGTTTGTATAACTTACTTC TTATTTTGGTATTATTTATGGTACTTCAGTGGTTATCCTTGTCCACCATATAAGATTATTGTTCTAGATGAGGCCGATTC GATGACCGAAGATGCTCAGGCATGTTAGCTATGTTTTTCACTCCTAACATTGCTTGTCTTGTGAATTGCTTTAGTTTAAC GCTACCTGTGGTTTGGTGTGCAGAATGCCCTGAGGCGTACTATGGAAACTTACTCTAAAGTTACAAGGTTCTTTTTTATA TGCAACTACATTAGCAGGTACCTTGTCTTCCATTATACAGTTCGCTGGTTACTTCCTTTATCATTTTTTAATCTCACATC TTACAACGTCTATGAGAGAATTATAGTTGCCATGGCCCATGGATAAACATGATTTTCATCAATTTCGGAATTTGTCCAAA ATATTTGTAGCTTTAGTGTCCAGCTCTAATAGTTATTTATCTTTTATTACTATTGTTTAAATCCATTAGTTCGTTCATTT AATTATTTTGTATTACTTTGAATAGTGTATACTTATTTTTCTAAAATCTGCACCAATATTACAACGGTATCCTCTTGTCT TCAAGGATTTTCCTCTTTGCATGTATCATGTGAAGTATGCAGAAAAATGATAAGGCTAAAAAAATAATAATTATAGTCTT TTCTCCTTGTCAATCCTTTGCCAAGGATAGGTGACTGTGTCACATTAATTTCATTCTTGACAAGGTTGTCATTTTTTGTA GGATTATAGAACCACTTGCTTCAAGGTGTGCAAAATTCAGGTTCAAGCCATTGTCAGAAGAAATCATGAGCAGCCGCATA TTATACATCTGTAATGAAGAAGGAATCCATCTTGATGCTGAGGTAGGAACCTTGAATCTTATATTGATGGTTTCAATCCT TTGTCTTTAGAGGTTTTGTTGACATCATGGCGGATTATTTTAAGTGCCTTTGCTTCCGTAGGGTCTTTCTACCCTTAGTT CTATTTCTCAAGGAGATCTTCGTCGGGCCATCACATACTTGCAGGTGAGCGATACTTTTTTGTTAACACAGTATGTCTTC AAATATGAAATTATATTACAACTGTTTTAGTGAGTTTACATGGTTTTTATTTTCCTTGTAATTTTGATGAGTAATTGGTG TAACTGAGCCATTTTACTCTGAATAAACTGTGTATATCTTAGATGGCTATACTTCCATCCTATTCTGCGCTACTTCACCA TATTAGGTTGTAAATATCAATTTATGTGTGTTAATAGTGCTGCTTTTTAGGAAATAAGTAATATAAAGAAAACTACTATT TTTGGTAATGTTCTTAAGAAAGATTGTTTTGGTGTTCAGAGTTGTCTTATAGTAGCTATGTATGCTTTCATTTTTCATAC CTTTGATGCTGGCTCAAATTAAATAAAGGGATTGTTTATATTCTATTATTTGCCTTATGTATGGATTAGTTTCTTCAATA ACAATAGTGATCAAGCTTTAATGAATTGCATATGTATATCCTATTTATTATTTTAACTTACACAGTTCTAACGTTGCAGT CTTCTGCTCGCTTATTTGGTTCTCACATTTCTTCAAAGGACCTGATTTCTGTGTCTGGGGTAAGTTGTGGAACTAATTTC CTGTGGGTTGTTCTGTTTTTATTTTGAAAGCAAATAATGATATGCTCTTTAGTTGTATATTTATATTATTTTGTATAAGC GCAAAAAAAAGCACCAAAATATACATTATTTTGTATTCTGTTTTCATGTCTGACAAGGTACATTATTGTAAGCCTTAATG ATTGGCATAGTTATTAGCTGAAGGGCATGGAATTTTAGTTTTGGATTTGTTCTTATTCAGTAATTTTCTTCCTGGATTTT TAAATTATATGGTTAAAAGCTTGATTTGCTGGTCCAGATAGTTCCATCACTTGATATATAAGTTCACGAAATTGCAGTCT ATATGCCATTTTATGAAACATTGGATGTCGGCATCTATTGCTTTAAGGTTCTTTGTATGTGATATCTTACTTTCCTTGCT GTGTGCCTCCTTTATGCAAGGTTAACCAATTTTTGTTTAACTGGGTGGGTTTTTTTTGGACATAATTTCTGGTTATATTT GTTATAGAAGATCTTTTGCTCTCTTCCACCTTGTTCTTACTTTCTAAAATTTCAATCTATCAGGTTGTTCCAGAAAATGT TGTGGAGGCAATTCTTAAAGCATGTAAGAGTGGTAATTTTGATTTAGCCAACAAGGAAGTTAATAATTTCATTGCAGAGG GGTATCCAGCCTCTCAGTTGCTAACTCAGGTATTGTTTTTGCCAGTTTCATTGTGAATTTTTTGTTGTTGATGGCTGTGC TTACCCAGAGAGGTGTTCTAAAATGTAGCTGATTGATTTTCTTTTTTGTTCAGTTATTTGATGCCATTGTTGAAGAAAAA GGCACATCTGATAAACAGAAGGCAAGAATATGCAAGAAGCTGGGTGAAGCAGATAAGGTTACTCATGACCCTTTAGGATT TAATATACACAGTGACCCTCCTCCCTTTTTTTAAAAAAAAAAATCCTTTTCGGGCTTGTGGATATGATTTGACAGACTAC TATCTTGTGAATTTACATGTATTTTTAAATTTAGGTTAAATTTAACATATATACATTAAAAGAAAAATATGGAAAGGTCC TGGAGGAGGTAAAGGTATAAAATGACTTGCATAGTTATTCAATGAAATTATATACTTTGAAACTTTGGGAAAGAGTAATT CAACGAAGATTACAACTAGAGACCCACAAAACAGAAAATGACTTTGGCTTTGTGCCGAGAAGATCAACCATGGAAGCTAT GTGTGTTGCAGATACTGACGGAGAAGTATCTGATGAACCAAAAGGACTGTTGGAATCAAGAACAGAGAAAGAGAATTGGC TTATTCAATTGAACTGAAACTGAACCAAGATCCACAAAGTGTGAACCAATGGCTCTGAGATACAAGAATTGGAAAACTGC AACTGGAAACTATGAACCCTAGCTCCTCTGGAACTTCGAGAGTCCAGGACCTCCAACAAACTAACTGAATCTCTAACTAC TCAACAAACTACCCTGTTCCTCTATTTATAGGACAGGATCCTAACTGCCAACTCTAACAGACTAGTTACTAGGCTAGTCC TTATTACATTGATATCAGAATATAACAGAATTAGACTATACAACTGTCTTCTTCTTATTCCTTCTTTCATAAACCTTCTT TATTAGAGGACGATGTTCATCAATACCCCCCCCTAAAAGCTTCACCTTGTCCTCAAGGGGAAAAGTAGGAAAAGCCTCAT GAATGCGAGCTGCAGACTCCCAGCTGTTCTCACTAGAAGGTAGGGTCTGCCACTGAACCAGAACTTCAATTTCCCCCAGC TTGTCCTCCCTAATGTCCAACACAGCCTCAGGAGAAACCAACAACTCATGATCCTCAGTCAAAGCCTCGGGCAAAGGCTG GGACTGAAAATCAGTCCCCACAACCTTCTTGAGGAGAGAAACATGGAAGACTGGATGCACCTTACTCTGAGCAGGAAGAT CCAACTTATAAGCTACTGCCCCAATCCTTTCCAAAATCTGGTATGGGCCATAAAATCTGGGACTGAGCTTCTCATTCATC TTCTTAGCCAGGGATCTTCTCCTGTAAGGTTGAAGTTTAAGATAGACCCAATCTCCAATCTGGTACTCCACATCCCTTCT ATGCTTATTGGCATATTTTCTCATCTTGTCTTGTGATTTCAGCAGATTGGCCCGAAGGTCATCTAACAACTCATCTCTGC TACTGGTAAGATCATTAACCTCAGCAATCTTAGAAGGAATAGTTGTCCCTTTGAGCAAAAAGGGGGGCTCTTGACCATAG AGAGCCTGAAAAGGTGACATGCGAGTAGATCTATTGTAGTTACTGTTATACCAAAATTCTGCCCAAGGTATACAGGTAAC CCATCTCTTAGGTCTGGATCCAGTAAGACATCTCAAATAAACCTCAATGCACCTGTTTACTACTTCTGTCTGCCCATCCG TTTGTGGATGGTAAGCAGTGCTGAACTTCAACTGAGTTCCAGAAGCTTTAAAAAGCTCTTTCCAGAATTGACTAAGAAAG AGAGAGTCCCTATCAGACACAATAGTTGCTGGGAATCCATGCAATCTTACTACCTCTTGCAAAAACAGAGTGGCAACCTC AGGAGCAGTATAAGGGTGACTAAGAGGAATGAAATGAGCATATTTGGTCAAACGATCCACCACCACAAGAATTGTGTCCT TGCCTTTGGATTTGGGAAGGCCCCCAATGAAATCCATTGACACATCAGTCCAAACCTGAGTAGGAATAGGCAGAGGCTGG AGTAAGCCAGCAGGGGACAGATTGTCAAACTTATTCCTTTGACAAATGTCACACTTGGACACAAACTCCTTAACATCTGT TTTCATGCATTCCCAATACACCACACTTGTCAATCTCTGATAAGTTCTGAAATAGCCAGAATGTCCCCCCATTAGAGAGG CATGGAATTCCTTACATAGTAGAGGAATCCTAGAGGATTGTTTAGACAACACCAGCTTCCCTTTGTAAAACAATTTGTGG TCCTTAAGGGTATATCCCTTGTGAGAATCAGGATTGACTAGCAAATCCTGGGTAATGGCTTGCAATTTTGGGTCTTGAAG CAATTCAGTTTGCCATTCCTCATAATCATTAACTCTGAGGACAGAAAGTGCACAATAAGAACTTCTTCTAGACAATGCAT CTGCTGCTGAATTGTCTTTTCCAGGCTTGTACTGGATCTCAAAATCATATCCAGAAAGTTTAGAGACCCACCTATATTGT TCCTCCCCCAAGACCCTTTGCTCAGTCAAGAATTTTAGGCTTTTCTGATCTGTCCTGATCACAAATTGCCTTCCCATCAA ATAATGCCTCCATCTCTGAACAGCTCTAACTACTGCCATCAATTCCCTCTCATAGACAGACTTGGCCTGACTTCTATCTG ACAAAGTAGCACTCCAGAATGCAAGTGGTTTGCCCTCTTGAGTAAGCACAGCTCCCAGTCCAGTACCAGATGCATCTGTT TCCAATACAAAAAGCTTGGAAAAATCTGGAATGGCTAAGGTAGGAAGGGCTGTAAGGGCCTGCTTAAGAGTTTCAAAAGC TTGTTGTGGTTCTGGTCCCCACCTGAAACTATCTTTCTTCAACAATTGGGTCAAAGGTCTGGCTATTTTGCCATAATCCT TAAAAACCCTTCTGTAATATCCAGTCAGGCCTAAAAATCCTCTCAAACTCTTTAGATCCTTAGGGACTGGCCATAGCCAC ATGGCATCCAGTTTTTTTGGATCAGCTGCAACTGCTCCAGCAGTAATAACATGCCCCAAATACTCAATTTGTTGCTGGCC AAAGACACTCTTCTTCCCATTAATCTTCAGGTCATGTTGCTCCATCAATTGGAGAACTTGTGAGAGATGGAGAACATGGT CTTCTAAACTGGAGCTGTAGATCAAGATATCATCAAAGAACACTAAAGCATGTTTTCTTAGCACTGGCCTTAGAACCTCA TTCATTAAGGACTGAAATGTTGATGGAGCATTGGTGAGACCAAAAGGCATCACCAAAAACTCATAGTGTCCCTCATGAGT GCGAAATGCAGTCTTTTCCATGTCTTCCTCTCTCATCCTGATCTGGTGATAACCTGATTTAAGATCAATCTTGGAAAATA TCCTGGCAGGTCCTATTTCATCTAGCAGCTCATCAATGACAGGAATTGGGAATTTATTGGGGATAGTGACCTTATTTAAA GCCCTATAATCAACACAAAATCGCTACCATCCTTTTTCCTTACTAAAATCACTGGACTAGAATAGGGACTAATACTAGGT CTGATTATACCTGCATTCAACATCTCAGCTACCAATTTTTCTATCTCATTTTTTTGGTAATGAGGATACCTGTATGGTCT GATATTGGGAATGGCAGCTCCCTCCTTCAAATGAATTGCATGGTCATGCCTTTTTTGAGGGGGGAGTCCTGTTGGATTCT CAAACAAGGCAGGAAAATCAGCTAAAACCCTCTGCAATATCTCTGGAGTCTCAGCTATGGGTGCTACCTCTTTTTCCAAC ATTCTACACTTAACAACAAAACCTTCACCTTGCTGTTGAATCTCCTTCACCATAGTGTTCATGGAAGCTTTCTTCTTGGT CAGCTCAGGTTCACCTTTGATGAAAACTAATGTATCTCCCACTTTGAATTTCAAGGTCAATTTCTCAAAGTTGGCTTTAA TCTCCCCCAAACTAGCTAACCATTCCAGTCCCAGTACAATGTCCACACCTCCTAATTCAAACAAGAAGAAATCTTGCATA ATCTGATGTCCTTGAATCTGCAGGCTAATGTTTTTGCAAACCCCTTTGCAACTCACTTTATGACCATCTCCCACCTCTAG TGTATAAGATGGTGTTGCTGTAATTTCCAAAGCCAGAGATTTGGCTAATTTTCTGGAAATGAAATTGTGAGTTGCCCCAC AATCTATTAACACAATGATCTTTTCTTCCTGCAATTGTCCCCACACTTTGAGTGATCTTCTTGTAGTAATTCCTTCACTG CTGTTGAGGGAAAGTTGTTTGAGCTCTACAACTTCTTCCAGATCCTCCAATAGTTCATCTTCATTCCCATTTTACTCCTC TCCTCCATCTTCTTCTAAAAACATTACCCTAAGCTGTTTGTTCTTGCACACGTGATTTGGCCCAAATTTCTCCTCACACC TAAAACATTCCCCTTTCCTCAATTTTTCCTTCATCTCTTCTCCAGTTAATCTCCTGAATCCTCCCACTCTTCCTGGCCTC ATTGTTGACTTCTCTATCACACTTCCACTGGAAGATTGGGCAGTCCCCTGAGAAGTTGTTCCCCCTGTCTTTTGCTCTGT ATCCACAACAACAGTCTTTTGATATGTTGGGGTCCTGTATGAAGATCTAAAAGAGAGAGCATTCCTACTCCCAGTACCCA CTCCAGCTTTGCTGACTGCTAAATTCTTTTGTTCCACCATTAGAGCCTTCTTGACCATAACAGTCAAAGTCTTGGGCTCA TAGAGCTTGATTTCTGCTGCTATCTCCTCTTTCAACCCATTCACAAATATATCCATGAAGTGATCTTCCTCTATACCTTT GAGCATGCAGGCAAATCTTTCAAATTGCTCCACAAATTCTTCCACACTTTCTGTTTCAAACTCAGTAATGCTGCAAAAGG ACTCGAAGCTGTTGCGAGTTGGAAACGTTCTAACATGGCTTCTTTGAAGCTGTTCCATGTAGTAGCTTGATTACATGTCT CCCACCATTGGAACCAGCTCAAAGCTTTTCCATCTAAAGCCACCATAATCGCTTGTATTTTCTCTTCCTCATTGGCTACT TTCAAATGAAAATACCTTTCCAGTTTCTGAATCCAGCTATACGCGTCTTCTTCTCCCTGGAACACTGGTATATCCAGTTT CCTCCAACGCTCCATGTGAAGGTTGCCTTCACCGTGGCCTGGATCACGCTGGTGCCCCACCGTCTCTCCCAACCTGCTAG CTCCCCCGCTTTCCTCAGCGTTGATTTCTCCGCTCCTTCTCACGCCGCCGCTGCCGCTGGCGTCACGCGCACCCTGGATT CCCACGCCGTTGCCGCCATTAGCGTCGCGTGCTCCCTCGCCTCGGCGCGCCACTGTCTCCATGAAGTTTTCCAGAATGCG AAACCTCTTGTCGGTTCGCTCCTTCTCAATCGCTCGCTCCCTGCGTTCTTCCTCACGAATCCGTCGATCTTCCTCACGAT TCCTGCGTTCCACTTCACGATCGCGACTCAACTCCTCGATGAACCTCTCGATTGCATCTACTCGAGGCTCCATTCTGCTC ACAACCATAGATGAATCGATACCACAGCTCCTGGATGGAGCTCTGATACCAAATTTATGGAATCAAGAACAGAGAAAGAG AATTGGCTTATTCAATTGAACTGAAACTGAACCAAGATCCACAAAGTGTGAACCAATGGCTCTGAGATACAAGAATTAGA AAACTGCAACTGGAAACTATGAACCCTAACTCCTCTGGAACTTCGAGAGTCCTGGACCTCCAACAGACTAACTGAATCTC TAACTACTGAACAAACTACCCTGTTCCTCTATTTATAGGACAGGATCCTAACTGCCAACTCTAACAGACTAGTTACTAGG CTAGTCCTTATTACATTGATATCAGAATATAACAGAATTAGACTATACAACTGTCTTCTTCTTATTCCTTCTTTCATAAA CCTTCTTTATTAGAGGGCAATGTTCATCAAGGACCTACACATGGTTTTTGTTGATTTGGAAAAGGCATATAGTAAAGTAC CTAGGTAGGTGTTGTGGGCGGTTCTGGATAAAAACTGAGTCTGAGTTACTCACATAACATTCAAGCAATCAAAGATATAC ATAAGGGGGCCACAACTCACAACTAGTATTAGAATACTATGTGGCGATAATGGAGATTAAACCCTTAGCTTCTTGTCTTG GTTTTAGAGACTTAACACGTCCTAGAAACGCCGCAATACATGTTTTTTTGTGGAAGATAAAGTTTTAATTGGGGATTCAA AGAAGAAATAAATGAAAATATGGAGAGACTAGTCTGAGAAACACTTGGATTTGTCCTAATTATAAGTAAAACAAAGTATA TAAAACGTAAGTTTAACAAGAGACATTAACATTTTAATGTGGAGGTGAAATTGGGAGAATATACAAATAAGATACCTCAA GTTTCACATTGTAAGTGCTTGCTGTTTATCATATAAAATGACGGGAATTGAGGGAGATATTAAACTCATGATTAAACTCA TGATTCAAGCAGTGGATGAAAATAGTATATGCTTAAGGTGTTATTTGTGAAAGTACCATTAAAACTTACAAGAAAATTGT ATGACAATTATAAAACCTGCAATGTTGTATGAGACCTAATGTTGGTTGGTTAGGAGCAAAAAAAAAAGGATCAGTGATGC AGAGATGAGAGTGTTATGTTGGATGAGTGGATACACAAGACCAAATAGGATGTATCATTAGAGACGGTTGAGGGTAGCTC CTATTTTAGAAAAGATGTTAGAACCCTTATTTAGGTGGCTTAGACATGTATGGAGACAACATGTGGAAGCACAGGTTAGA AAGGTTGATCAAATGGAGGAGTTAGATTATAGTCAAATAGTTAGATGCAAGAGAAGACCAGGAAAAACAAGACAAATAAT TTAGAGATTTTGAGGTAAATGATATTTTTATAGACTTGGTGCATGACAGGGAATTATAAATGATCCATATTGGCGTGGCG ACCCCTTAATATTTAAAATATAGTGTTTCTGTCCACCGTGATTTTGGTTTGATCGTCGTTTTCCACCTTGTACCATATAT GCACTAAGTTTGGGTACAATTCTTACTTTTTACATGTGGAATTACAGTGCCTAGTTGATGGAGCTGATGAATACTTGCAG CTTCTTGATGTGATCAGCAATACAACGAAAGCCTTTTGCGACATGCCAGAAGGGTTATCTTACGAGGGTTAA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0264700.3) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCGCCAATCGTTCAGAGCTCTCAACCATGGGTCGAAAAATACCGCCCAAAGCAAGTGAAAGACGTCGCTTACCAAGA TGAAGTTGTTCGAGTCCTCACCAACACTCTCGAAACCGGAAGCTGCCCTCACATGCTCTTCTATGGTCCCCCCGGTACCG GAAAAACCACCACTGCGCTCGCAATTGCGCACCAGCTTTTCGGGCCTGAGCTGTATAAGTCCAGGGTGCTGGAGCTCAAT GCTAGTGATGATCGCGGGATTAACGTTGTTCGGACTAAGATTAAGGATTTTGCTGCTGTGGCTGTTGGTACTAACCCTAA GAAAGGTGGTTATCCTTGTCCACCATATAAGATTATTGTTCTAGATGAGGCCGATTCGATGACCGAAGATGCTCAGAATG CCCTGAGGCGTACTATGGAAACTTACTCTAAAGTTACAAGGTTCTTTTTTATATGCAACTACATTAGCAGGATTATAGAA CCACTTGCTTCAAGGTGTGCAAAATTCAGGTTCAAGCCATTGTCAGAAGAAATCATGAGCAGCCGCATATTATACATCTG TAATGAAGAAGGAATCCATCTTGATGCTGAGGGTCTTTCTACCCTTAGTTCTATTTCTCAAGGAGATCTTCGTCGGGCCA TCACATACTTGCAGTCTTCTGCTCGCTTATTTGGTTCTCACATTTCTTCAAAGGACCTGATTTCTGTGTCTGGGGTTGTT CCAGAAAATGTTGTGGAGGCAATTCTTAAAGCATGTAAGAGTGGTAATTTTGATTTAGCCAACAAGGAAGTTAATAATTT CATTGCAGAGGGGTATCCAGCCTCTCAGTTGCTAACTCAGAAGGCAAGAATATGCAAGAAGCTGGGTGAAGCAGATAAGT GCCTAGTTGATGGAGCTGATGAATACTTGCAGCTTCTTGATGTGATCAGCAATACAACGAAAGCCTTTTGCGACATGCCA GAAGGGTTATCTTACGAGGGTTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0264700.3) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAPIVQSSQPWVEKYRPKQVKDVAYQDEVVRVLTNTLETGSCPHMLFYGPPGTGKTTTALAIAHQLFGPELYKSRVLELN ASDDRGINVVRTKIKDFAAVAVGTNPKKGGYPCPPYKIIVLDEADSMTEDAQNALRRTMETYSKVTRFFFICNYISRIIE PLASRCAKFRFKPLSEEIMSSRILYICNEEGIHLDAEGLSTLSSISQGDLRRAITYLQSSARLFGSHISSKDLISVSGVV PENVVEAILKACKSGNFDLANKEVNNFIAEGYPASQLLTQKARICKKLGEADKCLVDGADEYLQLLDVISNTTKAFCDMP EGLSYEG

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
Gene3D	G3DSA:3.40.50.300 View details on G3DSA:3.40.50.300 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.300	2	174	173	5.6E-55	–
PANTHER	PTHR11669:SF20 View details on PTHR11669:SF20 Search for proteins/transripts with this domain View external data on PTHR11669:SF20	7	315	309	9.3E-134	–
PANTHER	PTHR11669 View details on PTHR11669 Search for proteins/transripts with this domain View external data on PTHR11669	7	315	309	9.3E-134	–
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	8	233	226	2.11E-51	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00009 View details on cd00009 Search for proteins/transripts with this domain View external data on cd00009	26	166	141	1.63871E-26	–
SMART	SM00382 View details on SM00382 Search for proteins/transripts with this domain View external data on SM00382	41	174	134	2.4E-14	IPR003593 Show description in modal box View details on IPR003593 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00004 View details on PF00004 Search for proteins/transripts with this domain View external data on PF00004	45	172	128	5.2E-17	IPR003959 Show description in modal box View details on IPR003959 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd18140 View details on cd18140 Search for proteins/transripts with this domain View external data on cd18140	174	233	60	3.60129E-14	–
Gene3D	G3DSA:1.10.8.60 View details on G3DSA:1.10.8.60 Search for proteins/transripts with this domain View external data on G3DSA:1.10.8.60	175	239	65	1.3E-16	–
SUPERFAMILY	SSF48019 View details on SSF48019 Search for proteins/transripts with this domain View external data on SSF48019	240	310	71	5.53E-16	IPR008921 Show description in modal box View details on IPR008921 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF08542 View details on PF08542 Search for proteins/transripts with this domain View external data on PF08542	240	310	71	4.9E-12	IPR013748 Show description in modal box View details on IPR013748 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.20.272.10 View details on G3DSA:1.20.272.10 Search for proteins/transripts with this domain View external data on G3DSA:1.20.272.10	240	279	40	2.1E-9	–
Gene3D	G3DSA:1.20.272.10 View details on G3DSA:1.20.272.10 Search for proteins/transripts with this domain View external data on G3DSA:1.20.272.10	280	314	35	2.7E-10	–

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:0003677 View details of GO:0003677 AmiGO InterPro QuickGO	Molecular function	DNA binding	Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid).	Subterm of View details of GO:0003676
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:0006260 View details of GO:0006260 AmiGO InterPro QuickGO	Biological process	DNA replication	The cellular metabolic process in which a cell duplicates one or more molecules of DNA. DNA replication begins when specific sequences, known as origins of replication, are recognized and bound by initiation proteins, and ends when the original DNA molecule has been completely duplicated and the copies topologically separated. The unit of replication usually corresponds to the genome of the cell, an organelle, or a virus. The template for replication can either be an existing DNA molecule or RNA.	Subterm of View details of GO:0006259 View details of GO:0034645

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0264700.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0264700.3