Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0274400
Transcript ID	LotjaGi3g1v0274400.1
Lotus japonicus genome version	Gifu v1.2
Description	DNA polymerase delta subunit 3; TAIR: AT1G78650.1 DNA-directed DNA polymerase; Swiss-Prot: sp\|Q9EQ28\|DPOD3_MOUSE DNA polymerase delta subunit 3; TrEMBL-Plants: tr\|I1LV82\|I1LV82_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0274400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:53884902..53894656) extracted from Lotus japonicus Gifu genome v1.2.

CCCCACTCGAGGGATTAGTGACCATATCTTTTTTCACATTGGCGGGAAAACGAAACGGAGGGCCTTTCCCTAACTCTCCT TCAGTCATCGTTCTGTTCCGATGGCGCAAACCAAAACCCTAGCCTTGATTGACGAGATCGAATCTCTCGTCTCTGATAAG CTTCAAGTGGTATTTCAGAAATTTTGGGTTTCCTTGTTCTAGTTTAGCCTTTCAATTTGTTCTTCTGGCCTTACTTTTCT TACCCTAGATTTGAATTTCGGAGGGTTTTTGTTTAACTTCATGGCAAATATTTGATTTCACACCGTATCGTTTCTTCTCC AGGTTTCTTACAAGTGGCTAAGTCGCAGTTATATGATATCATCTGATGAAGCAAAAAGGTGGGATTTTTTTCCAAAATAA AAAAGAGAGAAATGGGTGAAAAGCTTTACCTTGTAAAAATTTCAGGCTTTTTATGATGTGCTGTGATTTAATGAGCAGTT GAACATTTTGTTTCATGTAGGTTGCTTCAGGAATTTGTTCAAAAGCATGAAGGTGGGTTGGAGGTGGTGTATGCTTTGTC TGGTTGGTTAAAGAGTAGCCATCCTAGTTACCACATAAGGCTTGTTAGCGGGTCAAAGGTTGCAGGTACTAGGATCTTTT TAATAATAACAATAACAATCAAATAATATGTATTTTTGTGATTTTCGTTCTATCTTAAACCAGGACATGGATCAAATTGG TGTTTCCTTGACTGACCAGTCTGGTATGAGGAGTTCTTTCTCTATTCAAAGAACTTCTTATCCAGGACTTTCACTAATCA TATTTAATGTACACAATTAAGCTTTTTAGTATACAGTTTTGGAATCATAGCTACTGAATGGTTTGTGAAAGAAAAAACTT CTACCAACCTTGGATATGGAGAGGCTTACAAACATTTGGAAGTAGGAGTAACATGAAACTGTTTCCCACTATTGTATGCA GAAGCACAAAAAGTTTTTGATGGGAATTGCTCAGTCCAGGTATATAGTGTGCAAGCAAGCATTCCAAAGGATCCAGCTGT GCTTTGGAATACAGAATTCATTCAAGCAGAGGAGCTTTTCAAGCAGCCTTTCTCAGTTGGCAACTGCTTGAGAGATAATA GGTAGGTTCCATGCCTTGGAATATCTACATAGTATATATGGCTTTCGTTTGATCATGTGATGGCAGATATACGGTGAAAG TATTAAACTTGTTGAAGTTTGTTTATAATTTCAGTCCATTCGCTATTACCAGTTTTTAATTTGGTTTGATCATGTGATGG CATATGAACATGAAGATGAAATTTTATTTTATAACATTATATGTGAATTGAAGGAACCATGTATGCTGTACAGTTGCAGT ATGTAAAACTTCTATAAGTTAACAAATCACATTTTACCTTCAAGTTTAGACAGGTTTCCTGATCATTGCTTCCAGAATTT GCGAATTTTTAGGGGTATGTGCTCTATTCAGTCAGATTAAATGGTTAAAGATTCCTAATTATATAAAAGAATTAAATTAA GGAGGTAATTTCTGTTGAAGTTAAGGGATCTTATCATTCATGGGCTCTAGCTATAGCAATATCAGGTGACAGCAATTTAT TTTCTTTTTAGATAAGAGGAATACATTTGCTTATTGAAACAGAAAGAAACATATAAGTGAAGTATAAGACACTCTGCAAA ACAAAAATTTTCTACAAAGCAAGTTATCTTAATTCTACGTGGAATGCCTTCTTTTTTATTCTGATTCTCTGGATGAAATT GTGCCAGGAGATTCAGTGTCACTTATATTGCACTGATGAGTTTTGTTTTCTTTTTTGGTCTTTGCTAAGGAGGCTAGCAA TACCTTTCTGTTTACACTTGACAAGAGACCAGAAAGAATTTAGGAATGGTTTACATGAATTACTTGAGAGGGAATACTCA GTATCCTTGATAGTTATATATGTACAAAAATAATTGTATTTTTATTTTTGCAAGAACAATAAAGAATTAAACTATTTCCT ATGACTGTAATAACATTCCCATGATACCTTGACTCCGAGAATTCCCAATGACATGTTAATCATTATAACTATTTCAAAAC CTTGCCATTTCTCTCCTTAATAATGTCTTTCTAAAAAAATAACCAAAAAATAGTTTTCAACCAGAGATAACTCATAGAAT TAAACTAAGATCCTTCTGCCTTCCGCTTTTGGAAAATGCTTTCAGCATGGGAATGATGGAACACCATTTTAGGGTTTATG GAGAGTGATTAGCAGAATGTCTTCATTATTTTATGTGTGCATAGTGCATAGTGTTAGTTGGAAGACTCCTTGCTTTCCCT GGTGTCATTTTCTTCTCTTCATAAGAAAATGTAGAATATATAATCTGATTTGGGTTTCTGTTTTTCTGGGAAAGGATAAA GAAAAAATGCTATGACATTACAGTGTATATGTGCTGGAGATGTAATAGCATGAAACCTTGAAAAAGAGATACAGAAAAAG ACGCTTTGAGAATTAAGGGAAAAGGTTTTGGTTGGTATTGTTTCAGATCAACTAGAAGCGGTTCTGATGTGGCTTTGAAA TTGGAGATTCTTTGACATATTACTGATTTTGGCAGCGAGAAAGAATGTGATGATTTGATTTTATTGTCTTCACTTGTATC TTTGTGTAATATGTTAGCCTATTTTAAGATCTCAGTCTGCTGGCTGTTCCTTACTGCTGTAACATATACTTTCATAAATA TAAGATTTATCATCTAGGATCTCTTTATTCATTAGTAGAGAATGTAGACAGTGAAAATGGTTATATCAATTTATATACAT CCAGGTGCGCAGTATATGTGCATGCATATCTAATCATATACTAGTCCTTGAAAGAAATATGATGTGTTTAGCTCTTCATT ATTATTATTTATATTTTTTTTTTGGGGTATCCCTGGTGACTGGCTGCATACTTCTCAGGTTCTGTGGAATCTCTAATTCT TATGTGCAAAGGAATGTTGATGGCTCAACAGCTGTTTTTGCCACTCCACAGACAAAGTCTGTAGTAGGCATGGGATCAAC TAAGAGTAACATAGTTCACCAACCTCCGAAGCATATACCACATGATTCGATTTTTAATGTTGATCTCAAACCACAGAATG TGGTGAAAGATGTCAAGAGTCTAAACAATGGTATAGGGAATACTGAAGCTGAAGATTACGCCAATAAAACTACTCCAGAC AAAGGAAGGGCCCTTCCCTTGCCCACAGACAAAAATATTGTACAATCTAACAAAAATGGTCCTGTTACTGGTGGTTCATT AGCAAGCTTTTGGGGTCGTGCATCTGCAAAATCCAAGCCTTGCTCTCCGCCAGCAGAAAATAGTAGCACGGTTTCAAATC CTTCTGGTTGGTTTCCATTGCAGTTTGTTCCATTTGCTTTGTTTTAGATTTTCTGATTATAACTATAATAGTAGTAGAAA TATTACAATGCAACTCCTTGGGATAATGAGAATAGTAATATAACAGTTGAGCACCAATGCTTTTTATTGACACAAATGTC TTTCAGAAGCTACTGAAGTTGCCCAAACTTGTGCTCATGAAGTGAGAGATGGTGACAGTGGTGATGATGATTATCAAGAT ATCGCCTCAAAAAGATCTTCCAATAGGAAAAGGAGGGTTGTCTTAGATTTCTCAGATGAAGATGAAGATGTCATCAGTTT AGCATCACCTGATTTCCCATATAAAAAGTCATCTCAAGATTCCAGCCAAAATGACAAAAGTTCATCAGAGAAACCCACTT TGAATTTTGACTTGGAGATAGAAAATAAATCAAGGGTTAAAGAAGAGAGAGTAACTCAACAAAAAGCTCACCAGCCACAC AGAGGAGATTCATCAGTTATCAGCAAGTGCACAAATACTGGGAGGTCATCTTCTGAAAAGTTTCATAGTTCTGCTTCTGA AATTTGTGTAAATAAGGATAGCATAAAAAATGCTACCCCAGGTTCACCTAAGAGGAAAAAAGTGATGAAGACCAGGATTG ATGAACGGGGGAGAGAAGGTACTTATAGCATACAAGCTAACTTTATGTCTCAACTCTCAATACCAGTTAACTCACTTTGT ACTTCATGAAATATCAATTTTCACCTTTTTTGTATTAGATATGTTTGTATTTTCTTAGTTTATTTTATTTTTCAGTTACT GAAGTAGTCTGGGAGGGGGAGGAGACAGAAGCAAGCAAAGCTTATACAGTCACTACAAACAAAGCTGACAGTAATCCGTC TACCAAAGCTGTCAACAGGTTAGCACTCTTCTTCCTTATCCTTCATACATTTGAACTGAGTGACTGGAAACAACCAATAC TTAAAAGGAGGACACCTTGGTAGTTGTCCCATAAAGTATAAAAGGGTTCCTTGTGAGGTTTGCTTTGCAACTTCCAATGT AGTTTTAAAGTTGCTTCCAGATCTTTTTACATTAAAAAATCTTAACTTTATGATCTTGAAACATGCACTCGGTTCTTTTG AACTGATTCAAAATATTGCTGAGATTTGTAGGTTGAAACTACTACAGTCAAGATACTTGACCATTTTAAGATTTATGCTT GCACTGATCCCATTTATTTATTTATTATTTTTTGATAGGCATTTATTGAGAGGGGGCGAATTGCTACGACCTCAAGATGT TTGTTTAAATTAAGGAATCTCTTTTAGAAGACTTAGATTATTGTTTGATTTTATCCTTAGTTTCAACTGCTGCAAAACCG TCCCTTTGTACCTCATACCTGTCTCGCTCATAGGACTCTCGGTGGCGTAGCATCCTGTGATAGAACCACCCTGAAATCTG ATATTATTTCTTACAAATCCCTAATTCCCAAATTGGGAACTAGAGCAGAATACAAGAGAGTCCACACCCTCTTCCTAATC CCAATACCCAAATGATACAAAAGATAACCAACTGACTCTAACTTCCCCTTATTTATAGGAAACCGACCTCTTTAATCCTC TAACTAACTAACCCTCCCAACTAACTAACCGAAAGTACCTATTAATATGTGAGTACCTATCAATACTCCCCCCCTGAAAA TTCACCTTGTCCTCAAGGTGAAGGAAAAATTACCAGCAATCTAAATGAACAGCTATGCGAAAGAACCAATGGTGACCACA CTTCTTCCATCTGGATCCCATAGCATGAAGCACATAGCCTCAGTCATTTATGAGTGGTTGAACACATTCCCTGGGCGCCC AAAACATATTCTGTGAAGAGTCATATGGCAGAAAATCCAGCAGATGCCAACTAAAAACAACCAAGGATCAGCAACTTCCC AGCTAAGACTGTGTTGGTAAGCATCTCCCCATATCCAGCCCCCAAATGCTCAAAGAGATCAATACTTGAATTGGCAGGTA TCTTCCCATAACTAGCCAACAAAGTCTCAAGTAGTCCAATACAGGAATCAACACTAAATTCAACCCTCCTCCAAGTGACC CAAGGTGGAACAGAGTCCAACTTGCACAAACATAAACATGCTGATACCAAAACAGAAAATTAAACTCAACTCCTTGGGAA TGGTCCATCACCCATTGAAGTAGCAAGCAAGAAAAATCCTCAAAAGCAACCCCCCCAAGCCATTAATCCCCAAACCACTC TAATGCTCAATTTCTGCTACAACCGCTTGAGGAATTGGTGAAAGCAAAAGTCCCCCAAATCAATTAATAACCCGAAATAT TGTCATGCTTCTTTCCTGTACCATGTTGTAAATGGCCTAAACTAGCAATAAAAGCTTCAACATTCCATTTGTTCGTACTA CAATGGCCTTGTTCCAATCTACCAAAAAATTTATATGCATACCTGTGTTGCATCTCACAATCAAAGCTGAAGTATAATTT TGACACAACAATCCTATCCTCCTCAATGCCCACACTTGTAGTCAACAACATAGTTCCAGCAAAAACTTGAAAGTCACCAA AATCTCTTTCCCTCGACCTTTGCAATTTCCCTTGTGAACCTCTGAGTTGATTTCTGGTTCCTTGCTGCCTCAAGTAAATG GTTGAATTGGGTTTTAACCCAAAAGTTGAAAAGTTGGCCCAATATTCATCAAGGCCCAATTCCTTCCAACTGATATTTGG GCTTGGCCCATTTGGATTGTAAGTCCAAACCTTCATTTCATCTCCGTGTTCCTCCATCCCAACCTTCTGTGCGTTTTCCC TTCCCTCTCAGCTTGACCAATCAGCAACGGAAAGACCTCACTGCAGCCAACCGATAAATCTGGCGGTTCTGGCGGTGGCT GTTTTCCCTCCGGCGGCTTACAAGGATATTGGTTCAACAACCTTGACGTTGGTCTTCTATTCCACTTTGATGAACCTCCC TCATGCAGCAATTGCACTGCGTTGTCAGATGGTGTCGGTGGCGGCCATTGGAACGAGCCCATCACCATCAATAGAAAACC AAGATTTGATGGTTCACCAATGAAATTCTGGCCACCGTGGTGCGTCAGCTTTGGAGGAGATCGCTCAATCACCACTATCA TTGTTGCCCGTTCTACGCTCCACGCACGTTCTTGCTCTGTCTCTGCTTTAACCTCTGTTTCAAGATTGAGGTTCTGAATC GCCTCCGCCACTGCTAAATCTGTCATAGTCGCGGCCTCCAAATTCGCCGGCGATGCCTCCGCCGCTACTCGCTTTTCCTC TGCCGCTTCAAAATTGGATTTCTGTCTCTCCTCAGAGGTCAAGTCTTCCTCTGCTTCAGGTGTTTGCACACCCACTGTAC TGTCTCTCTCTTCTTCTGGTGAAGTGTCGGATTCACCCTCTGTTTCACGATCAACTCGCTGAATCGCCACCGCCGCGACT TTCTCTGTCTCCGCCGAATCAAGATTGGGTTTGTGCGGCGCTGCAATCTTTGATGGCCTCTGAAACACCTTTGCTACCGC TTCCTTTCTTGTTCAATATAGATGGATTTTTGAATAACCCCAGAAAGAGAGTGAAGTTCATACAATCGTACCTCCATTCG GATCTCCTCCCTCAATCCTTTCAAGAAGATGCCTTTGACAAATTCTGGATCAATTCCTCTCAGAGCTCCGATGTAATTCT CGAATTCCACCACATAATCCTCCATTGTTCCATTCTCTTTCAGAGAAAGAAGCAACTCAAATGGATTCTTAGACTTGGAA GGCTGAAACCTCCTCACCACTGCAATCTTGAACCCTTCCCATGATGGATTGGGATTACAACTCGTCCACCATTGAAACCA GGTTAGAGCCCTTCCTTCTAAGGCATGCATAGTCGCTTGCATCTTGTCTTCCTCTCTCGCCTTCTTCAACAGAAATAAGC GCTCCAAACTGTGTGTCCAATCATACACATCATCACCCCTAAAAATTGGAATTTCCCTTACCCATTCCTCTGAAATTCTC ACCCTCGTCCTTGTCTCTTCCATAACGCAGCAAGGAAATTGTGGTTTAGGCACCAGATCGGTGCTCTGTTACCAATGATA GAACCACCCTGAAATCTGATATTATTTCTTACAAATCCCTAATTCCCAAATTGGGAACTAGAGCAGAATACAAGAGAGAG TCCATACCCTCTTCCTAATCCCAATACCCAAATGATACAAAAGATAACCAACTGACTCTAACTTCCCCTTATTTATAGGA AACCAACCTCTTTAATCCTCTAACTAACTAACCCTCCCAACTAACTAACCAAAAGTACCTATTAATATGTGAGTACCTAT CATCCTTGCTTCGAGCGACTCAGCTCCAGTGATAACTCTAGTGAATATATTTTTAATTTCTTTCCCCTAACAGCTTCTTG TACTTCGGTTCTCCCCATCTCAATCTGAATTTGTGTTCTTTGAATGTTCTTGTCCCCCCACCCCCCTAAAAAGAAGTCCT TGTATGTTTCTCAGTAGACACTCCTCTCTTTCTTTTTAACATATTCTACTTGCCTTTATGATAGCAAACTTTGGTTCTCA CTCTCCCACTGTTATTCCATGATTGCTGCCACTTCCTTTTGTTAGCTTGGGTTCTTCTGGTTTTGTGTTTATCATTCCAC TTACCTCATTTTCTGTTTGTTGCCATGTTCCAATGTCGCTCACTTACACTTTCTTTTGGTTGATCTGATAGTGTTACATT TGATTGTTTTCTATAAATTCCGATTATTGTTCTTCACATAGGTATTTGTTATTTTTTTATTTAATTGTGTGCATATATAT ATATATATATATATCACACACACAAGCACGCACACAGATATATATATATATATATATATATATATATATTTATATATATT ATTTTTGCATGTATATATTTGTTCTTTTTAATATATTTTGTATATATATTATTTTTTTATAATGGTAGCCATGGCTTCCA CCATAATCTGCGATGCCATCTGCTATATTTCTGTTGTGGATTTTTTACTTGCAGGCATAAACCGACATCGGTTATATTTC TGTGGTGGATTATTCGGTGATGGAAAAGGACTGAAAATGTCAAAGAAGTTTGATAATGTGCTTAGGGCCATTTTAAAAGA ATGAAGTACAAAATAATTAATTCGTGTTTGAATATGATGTATAAAAGTATGTTTTAAAAACTAAATGTTGTTTGAATAGA ATAAATTGAAGTTAATTATACAGATAAAGTTACTAAAATAGATATAAGATGATAGTATATAATAGAGGCAATGTATATAT AACATGGATAATATTGTGAAATAACTGCCAACTCACTTTTTTCTAACCCAAAATTATGTTTAAACTTCTTTTTCTAAACC TAGATTTTATGGTTAAAAATCCACTTTTACTTAGCTGAATGAAAATACACAAACGGCATGGCACTAAAAACTGTTGCTGG CACCATAATTTTTCTTAGATATAAGCCTATCAGGGATATAAGAGCGTGTTCTTACCAGATGATTAGAGCTGAAAAGCTTG TAGGTTCCCCTTAGTTTTGATCTGGTTTATGGTTTAAATTCCAATTCCAATGGTTGTAATCAAACAATGACTGCTTTATT ACAAGGTTGTAGCTTGATTATCATTACTAACTTTATTTCATTGCAATTCCAGTGCTCCAGGAACAACTAAGAAGCCACCA GCTACTGGGAAAGGAGGAAACAAGAGAGCAGGAAACTTAAAGGATCCCAAACAAGGCAATATTCTTTCTTTTTTCAAGAG AGCTTGAGATCTTCACGAAGAATTGCAATGCTCAGAGGACAATCCACTTAGCAAGATAATTCATCAATGGTAATGTGATA GTGAGGATTTTACATTATGTAGATCTGGCTCTTATTCTGCTCTGGGGTTTTAACTGGAATCTACATTCCGACTAGTTTAA ATACCTTGTGTGTTTTTCCCCCTTACGCTTGATTTTGCCAAGATAACTGATTTTATTACTCATGTTGTTCTTGCCCGAAT AAGCATAATTTACATACTGGTAAGTAGTGCACAGCGAATTCACGGTGACATGAGATGAACGTTTGATCTCTTCTGCTTGA TGAGATTCAAAACCTAGGCTTCCAATGTGTTTAATTCCAAAGGTTAAATTTTCAAGATCACCCCTTTTCCTTCCTCCCTC TGCAAAAGAGTAAAATAAAATTACTCGTAATATCTTTTTACAAAATATACATATATACATGTATGGTTTGAGCATGGGTT CCATACACTCCACTTCACATACCTATTTTTTTTTCTTCTTTTATAAGCCCATTGTATTCAACCTTAGCACAACGAGTGCT AAACCCAAAATCAAACAAGAAAAAAAAGGCCGGAACAGACCGTAACCTAATAGAATGGAATAGGACAATAATGTT

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0274400.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCGCAAACCAAAACCCTAGCCTTGATTGACGAGATCGAATCTCTCGTCTCTGATAAGCTTCAAGTGGTTTCTTACAA GTGGCTAAGTCGCAGTTATATGATATCATCTGATGAAGCAAAAAGGTTGCTTCAGGAATTTGTTCAAAAGCATGAAGGTG GGTTGGAGGTGGTGTATGCTTTGTCTGGTTGGTTAAAGAGTAGCCATCCTAGTTACCACATAAGGCTTGTTAGCGGGTCA AAGGTTGCAGAAGCACAAAAAGTTTTTGATGGGAATTGCTCAGTCCAGGTATATAGTGTGCAAGCAAGCATTCCAAAGGA TCCAGCTGTGCTTTGGAATACAGAATTCATTCAAGCAGAGGAGCTTTTCAAGCAGCCTTTCTCAGTTGGCAACTGCTTGA GAGATAATAGGTTCTGTGGAATCTCTAATTCTTATGTGCAAAGGAATGTTGATGGCTCAACAGCTGTTTTTGCCACTCCA CAGACAAAGTCTGTAGTAGGCATGGGATCAACTAAGAGTAACATAGTTCACCAACCTCCGAAGCATATACCACATGATTC GATTTTTAATGTTGATCTCAAACCACAGAATGTGGTGAAAGATGTCAAGAGTCTAAACAATGGTATAGGGAATACTGAAG CTGAAGATTACGCCAATAAAACTACTCCAGACAAAGGAAGGGCCCTTCCCTTGCCCACAGACAAAAATATTGTACAATCT AACAAAAATGGTCCTGTTACTGGTGGTTCATTAGCAAGCTTTTGGGGTCGTGCATCTGCAAAATCCAAGCCTTGCTCTCC GCCAGCAGAAAATAGTAGCACGGTTTCAAATCCTTCTGAAGCTACTGAAGTTGCCCAAACTTGTGCTCATGAAGTGAGAG ATGGTGACAGTGGTGATGATGATTATCAAGATATCGCCTCAAAAAGATCTTCCAATAGGAAAAGGAGGGTTGTCTTAGAT TTCTCAGATGAAGATGAAGATGTCATCAGTTTAGCATCACCTGATTTCCCATATAAAAAGTCATCTCAAGATTCCAGCCA AAATGACAAAAGTTCATCAGAGAAACCCACTTTGAATTTTGACTTGGAGATAGAAAATAAATCAAGGGTTAAAGAAGAGA GAGTAACTCAACAAAAAGCTCACCAGCCACACAGAGGAGATTCATCAGTTATCAGCAAGTGCACAAATACTGGGAGGTCA TCTTCTGAAAAGTTTCATAGTTCTGCTTCTGAAATTTGTGTAAATAAGGATAGCATAAAAAATGCTACCCCAGGTTCACC TAAGAGGAAAAAAGTGATGAAGACCAGGATTGATGAACGGGGGAGAGAAGTTACTGAAGTAGTCTGGGAGGGGGAGGAGA CAGAAGCAAGCAAAGCTTATACAGTCACTACAAACAAAGCTGACAGTAATCCGTCTACCAAAGCTGTCAACAGTGCTCCA GGAACAACTAAGAAGCCACCAGCTACTGGGAAAGGAGGAAACAAGAGAGCAGGAAACTTAAAGGATCCCAAACAAGGCAA TATTCTTTCTTTTTTCAAGAGAGCTTGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0274400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAQTKTLALIDEIESLVSDKLQVVSYKWLSRSYMISSDEAKRLLQEFVQKHEGGLEVVYALSGWLKSSHPSYHIRLVSGS KVAEAQKVFDGNCSVQVYSVQASIPKDPAVLWNTEFIQAEELFKQPFSVGNCLRDNRFCGISNSYVQRNVDGSTAVFATP QTKSVVGMGSTKSNIVHQPPKHIPHDSIFNVDLKPQNVVKDVKSLNNGIGNTEAEDYANKTTPDKGRALPLPTDKNIVQS NKNGPVTGGSLASFWGRASAKSKPCSPPAENSSTVSNPSEATEVAQTCAHEVRDGDSGDDDYQDIASKRSSNRKRRVVLD FSDEDEDVISLASPDFPYKKSSQDSSQNDKSSSEKPTLNFDLEIENKSRVKEERVTQQKAHQPHRGDSSVISKCTNTGRS SSEKFHSSASEICVNKDSIKNATPGSPKRKKVMKTRIDERGREVTEVVWEGEETEASKAYTVTTNKADSNPSTKAVNSAP GTTKKPPATGKGGNKRAGNLKDPKQGNILSFFKRA

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	PTHR17598 View details on PTHR17598 Search for proteins/transripts with this domain View external data on PTHR17598	4	514	511	4.2E-131	IPR019038 Show description in modal box View details on IPR019038 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.10.1300 View details on G3DSA:1.10.10.1300 Search for proteins/transripts with this domain View external data on G3DSA:1.10.10.1300	6	136	131	2.1E-31	IPR041913 Show description in modal box View details on IPR041913 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF09507 View details on PF09507 Search for proteins/transripts with this domain View external data on PF09507	23	514	492	2.7E-26	IPR019038 Show description in modal box View details on IPR019038 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	213	313	101	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	234	248	15	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	265	284	20	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	287	313	27	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	332	437	106	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	336	359	24	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	360	381	22	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	382	422	41	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	463	484	22	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	463	515	53	-	–

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: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
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
GO:0043625 View details of GO:0043625 AmiGO InterPro QuickGO	Cellular component	Delta DNA polymerase complex	A multimeric DNA polymerase enzyme complex which differs in composition amongst species; in humans it is a heterotetramer of four subunits of approximately 125, 50, 68 and 12kDa, while in S. cerevisiae, it has three different subunits which form a heterotrimer, and the active enzyme is a dimer of this heterotrimer. Functions in DNA replication, mismatch repair and excision repair.	Subterm of View details of GO:0042575 View details of GO:0044454 Part of View details of GO:0043601

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0274400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0274400.1