Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0461600
Transcript ID	LotjaGi1g1v0461600.1
Lotus japonicus genome version	Gifu v1.2
Description	Ethanolamine-phosphate cytidylyltransferase; TAIR: AT2G38670.1 phosphorylethanolamine cytidylyltransferase 1; Swiss-Prot: sp\|Q9ZVI9\|PECT1_ARATH Ethanolamine-phosphate cytidylyltransferase; TrEMBL-Plants: tr\|V7B2F6\|V7B2F6_PHAVU Uncharacterized protein; Found in the gene: LotjaGi1g1v0461600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:96565307..96574959) extracted from Lotus japonicus Gifu genome v1.2.

ATGACGCATGGGCTGTGTGGTCTGGTTGTGTCGACACCCCACAACGTTGTTTATTCCGTCGAAACCAAACCAAACCAATC TTGTTCCATTTTGGCCCAGTTTCACGGAATCTAATTACTTTTCACTCTATCACACCATAACCGAATATTTCCAACCTTGT GTTCAATCAATTCCATTCCGTTTCTCCTGCGAATGAGGAACCACAACAATCGCTGATCGAGTAGCGAGTGTGGAAATGGG TGGCGGTGGTGGTGGCGATGCGGTGGCGGATAAGCAAGCGGCGGCCAAATGGGTGGCGACGTGGATGGTTGGAGGGGTGA TAATTGGGGTGTCACTGATGGGTCTCTACTCGGGTCAGAATCTGTGGCCTTTCAACGTCTTGTGGAGTAGAAGGCGTAAC AAGAAGCCGATTCGTGTATACATGGATGGTTGCTTTGATATGATGCATTATGGCCATTGCAATGCCCTTCGTCAAGCTCG TGCCCTTGGTGACCAGTTGATTGTTGGGGTTGTCAGTGATGCTGAAATCATCGCCAATAAGGGTCCTCCTGTCACACCAC TTCATGAAAGGTTGAATTGAAATTTCCATTCATTCCCATTTTTCTATTTATATGTTGTGATTAGATTAACCTTCTTTGTT TATGTTTCTTGTAAAGCCTTTTTTTAATGTGCCATGTGATTTGGTTTCAGCTTTTGAGTTGATTGCACTTACATGCTGTT TCTGTTTTTTTCCTTCCCCTTTTTGGTATTTAAATGGATTGGAGATTTTTTGTTTCCTTTTTTAAAGTGACCCTTTTTTT AATATTGTGATGTTTGATTATTTGGCTTTTGATTTGTTTGTTTGTTTGTTTGGCTTTTGAGATGTTGGTATATGATGATT GTGTTAGGTTGATTATGGTGAATGCTGTGAAGTGGGTTGATCAGGTTATTCCTGAAGCTCCCTATGCTATAACTGAGGAA TTCATGAAGAAGCTTTTTGATGAGTACAATATTGACTACATCATTCATGGAGATGATCCTTGTGTTCTTCCGGATGGAAC TGATGCTTATGCTCACGCCAAAAAGGCTGGCCGTTACAAGCAGATAAAGCGCACCGAAGGAGTTTCCAGCACTGATATTG TTGGTTAGAATCATCATGCTATGCTTACTTTACTACCTGTGTCATTAACATTTTGTGGGTAGTGGGTGCAAATGGGGCAT GTTGTTTGTCTTTGTTTTATGGAGTTTTCATAAATTATTGAACAGATGCACTTTGATTTGTTTGGCCTCTTTCTCTTGGC TGTTTCATGGTTGCAATTTCAGATATACATAGAGGCTGGGAAGTGTTCCTATCTGTGTTATTTTTTGTGTTATATGCTGA ATCTTCTTGTGTTTTATGTTTTAGAGGAGGATATCTTGTCCTCCTGTGGGTCCGTAGCTGTTTTTTCACTTCTCTCTAAT AAATTTCTTTTGAAGTATAAGGAAATGGATCTTAATTTAATCAATTTTCCTGACACTTTGATGTATTCCATCCGAGCTGT TTTTGTTTGTTAAATTATGGCACTTCTAGAACATTTCTGCACTTCACTTCAGTTATTTTTGTGGTGAAGCATATTTTGGT GAATGGGTGAATCGTTGTGTTTCCATGTTGCTATTTTTCGATTATGTAATAATTTCTTAACCCATAAATTGACTAAACTT CTTGAAAGACCTGTTAGGCCTTACCCTTTCTTCAGACTATTCTCCTTACTCTTTATTATTCTGTGGACTATAGTTTTTTG CATCCTAGCTTGATGATGAAACCTTTGGGCTGTTCTCACTTCACTTCTCACTCAACTAGCCTTGGTTATTGTTGGTTGTT TCATTCTAGATGGTGTTCTGTGTTCTGCAAGCATACATTTGGTCTTTAGCTTGTGTTTATGTTTTCCCCTTGAGGTTATG TTTCTTTTTGATAGGATTACTTCAGAATACTTGTAATAACGTATTATTGAAGTCAGATAATATTTTCACCGGCAGGTCGA ATGCTTCTTTGTGTAAGAGAAAGGACTATTACTGAGAGTCATAATCATTCTTCTTTACAAAGACAGTTTAGCAATGGCCG TGGTCAGAAGTTTGAAGATGGTGGTGTTACTGCAAGTGGAACTCGTGTATCTCATTTTCTGCCTACATCTCGTAGAATTG TTCAGTTCTCAAATGGGAGGGTATGTTTATGTAAAATCTTCATTCTGATTTCTGACTGCATATAAGCTTGTGATATACTT CGATACCTCCCCTTATATTGTTTCTGCATCCTTTAGTCTTGTGATACATGAATCATATATGTTTCCCATCATGATATTGG TTTATAGGAATGGGTTTTTGGCCATTTACCATTGAGAAATAAATTATTGCTTGCTTATTTCCTTGTCAACTGGATCTCCT AGGAGGATTTAATTTGGCTTGTATTATGAGGTTGTTTATACTCTTTGCTTGGGGTTTGGAAGAGCACGCGTTATTTTACT TGAAAATATCTGACAGGGAAGCCTAGGCCTTCGAAATATGAAAAATTTAACCTTGCAAGGCTTCATGTTAGGAGTTATGT TTGTAGCAAATGGTAATAGATGTTGATTGGCTATTTTTTTGATGGATAGTATCTGTAATATTCAAGGTTTAAAAGTTCCA AGATAGACCTATGCCATGGCAGGGAAAGTTTCTTTTGAAAGGATGACAAAAAAGGGCTAACAACGGGTCTAGAGTATATC ATGTTAAATTGCAAGCTTGCTTTTTTCCTAACTTTTATTTGGAGAGATTATATCATGGAGATTGGATTAGCTCTTTTTAG ATGGATTTATTCATTTTCCGTCATTCTGTACTGATTTCTGTCTGACATTCTCCTACGTGACAAGAGATATGGAAGTTACT AAAGCATACCTTTCTGTATAACTTGCTAACTTTGTCAGCTTAATATTATGGCTGTGAACCTTAACAGTTGGTTTGTTATC CCCAATTCTCCACCGCTTACAATATACTTATTTCTTTCTTCCTAGATATGGTTCAACATTTTCCCTATATTAGAACTATG ATTTGTGTTAGCCATATTTAAATAATATTTTCACTTGATAATTTACTCATGCTTGCTGTTCCAGAGTCCAGGTCCTGGTG CACGCATTGTATATATTGATGGCGCTTTTGATCTCTTTCATGCTGGACATGTTGAGGTATAGCTTACGGACTGTATTACA TCTGTGCTTATTAATTCACTCTATATTGTATAGCATGTTAGTTTTGCTTGATCATTACCTACAAATAGCGGTTTGTTCAA AAGCTCCCTTAGTAACATCTTGATTATAAGTTGTTGCTAACACAAATTAAGCTAATGCCATCATGAACCTAGTCTGTCAA CTAGTGGGGTGAAAATATATGGTAACTGTTCTCACTTTCCTTTGGTGATCTTATTCAGTAGTCTTTTGCCACTGGCCAAA CTATTCTCTGGCAATAGCAAATAAAATGATTGGTTATTAGGGGCCGTTTGAAAGAGCTTATTTGAGCTTATCTTTTAGCT TCACTTATACATGTGTTTGGTAGAGCTTATGTTATGTAAATAACTTGATCTATCTATAAGCTATTTTGAGCTTATTTTCA TAAGCTTCTCAGATTAGCTTATGAATAAGCGTTCATACGTGCCTATAACCTATTAAGGGAAAGACTGTTGGGGTCTTTAA ATACCTCATCAAATTCCTTTAATAGGCTTGTCACTTATGCTGAAATACTGGTAGTTTGCTCCTGAGATCCCCCCTGTAAG TCACAATGGATCATCAATCCCTCCCTTTCTTCCTTCAAGAGTTGCATAAATGCACCAAAAGATGTCTAAGTTTTGATCAG CGATGGATCCCCATTGATTTTGTGTACGATTGCCCCCTCTCTTCAGTGTGATTTCTAGCCTTTCGAAGTCAGCTTGGACT GCAGTGTGTATGGAGAAAGATTTGTTGGGAGAGGTATACCCACTTAACGTGATCTCAGAGCCTTGAGGGGATTAGTCTCA TGGCTGCCGGCTATGGGGATAACTTGGTGCAACCAAAACAAGTCAGCTTTGACTTCCCCAATGCTAGCCAGCCAATCAAG TCCCTATACCACATCCCCTCCATTTAAGCCAAACAAGAAGTCTTGTGTTATTTCTAAATTCTGCATCTGCAGCACCAATC CTTTGCATCTCACCTTGTGTCCATCACCCACCACATATGAGGGGATCTCTTCCTCTGCCAATTGCATTCAACCCACCAAC TCTTTAGAGATAAAGTTGTTAGGAGCTCCACAATCAATAAGGATGATTATCCCTTAGCTCCCCCCCTACTTTCCAAGATT TCGCAGATGGTGAGGTCAGCTATGGAACATAAAGAAAGCTGTAGTAAATTGTAGCTTTTAGGTATCCAGGGAATATCGTC TATCTCAGCGAGAAAGAAATCAAGGATTGAACACACACGACTGCGTCCTCACTGTTTTTTGTTAACTATTCTTTTAGTGT TTGTTTTATTCTATTTTCTAGAAACATGATTTAATATTGATTGAACTAGTCGTGCTCTATCGTGCCCAAGCCAGTCGTAT GATATAGCAATCCTCAACAAATCATCCCAACCAATTCCTAATATCCCAAAAACTCCTAACTGAGACTATGATTCCTCTAT TTATAGCTAACAACTGACTGTCTAAAAGTTAGGTACATTCAGTTATTTCCCTTCTATTAAAGTCATTCAGTTATTTCTCT TTTATTTTTGCACCTAACATAGTAGGGGTTAAAGCCTATGCCTATCAGAAAGAAAGTGCAAGGTACTTAGAGAAAGGGAG AGAAAATGTTCAAAGGAATTTCTGATTGTTCTGTAATTGTAAATACAACTGAATGAATTAATGTTAGCCACAATTTTATT CACTACTACATCTATATAGTAGGAGACCTAACTATCTAACTTTTGATTAACTGACAGCTATAATAACAGCATATCAATGA CATGCTCAGTTACTCTAATGCAACTTGACGTTGCTGCTTTCTTTTTGTTTAGTTCCTTATAGTTTTCCACTTTTCCGTAT TATGCTAGATTGTTGCAATAATTTTTGCCTTATGCTGCTACTACCTTCAAAATTGCTTAAATGGATGTGTTGCTGGACAT TGTACCTTTAATTAACTGATCATTATGTGATATAGATCCTGAGGCTTGCTAGGGAATGTGGAGATTTTCTTCTGGTTGGA ATACACACCGATCATACAGTCAGGTTGTCAACTTTTATATATCTGCTTTTTCCTACCTTATATTTTTTCATAAATTTTAA TTTGTAATTGTTATCAGTGCTATCAATAGTGAATGGAAGCAAGCCAAAAATCTTCCATGGAATTATGGCTGATGGTGTTA TAGCAAATGTTATATGCTTGCTCGTCATGTTAACAAATAATAAAAGGCATCACAGGTTACTGAAGTAACATAATTGAACC ATTTTTAACCTTTCAACTTTATTAGAAGTATCAGAAACTTTAATTTAAATGTGATGGAAAGGGGGAAAGACAAAGAGGCG AATAGAAAAACATAAAACAATTAATGTAGTAATTATATAAGCATGAGATATCACCTATTCAGCCTAAAAGAACTAAAAAA CAAAGGGGGCCAAATAGCTTTGCACAATGGCTGAATATGCTGTGTGGATGCATTACAATTTTCCTTTTTTAAAGAAAAAT AGACATGAAGAAAAGCTTATGAATGTTGGTTCTGTTCTTGGAAAACAATATGCTTTTATATTATGGAGCCATGGTTTTCA GATAAGGAGAATAGTAGTTCTAGGTTGCAAGTAAAAAAAAAAAGGAACAGAGGCCTTGGTCTGTCCTTATTTGATTAAAA GGAGAAACAGAAGGGGACTGGATACTCAATGGGGACAGAGCGGGATAACTCATAGAAGTTGAATGCATGCTCTTCTTTAA TTGTTTGCTGCATGCTCTTTTTCTTTTAATCCTTAGCCAATAGTTAATTGAAAGATCTGTTCTATGTGTGATAATATTAA AAATTAACTGCTCTTCTTTTTTATTTACTTATTGTATTTATATAATATTTGGGTGAGGCTCCATGATTACTACTGGGCTT GCATCATTGCCAAATTAAATAGCAACACTTGCACCTTTAAATGGAAATTACAAATTTGTATTTAGCATAATTTGAGCATC TATCATTGTATATTTTGTACTGTGTACATGGTGATAATGTTTTAATTTTTTTTTATATTGTATCTTATTTTACAATGGCC TTGCAGTGAAACTAGAGGTCTACATCGTCCCATTATGCATCTTCATGAAAGAAGTCTAAGTGTCTTAGCATGCCGATATG TGGATGAGGTTATAATTGGTGCACCATGGGAGGTGTCTAAGGATATGGTTAGTCTCATTTAAGCTTATTTATTTATTTAT TAAATTTCAAGGTAAAGTATTTTTTTAAGTCCTTGTATAATAATCAATGTTTGGGTTTAGTTCCTAGTTTTTAAAACCCT CCATTTTGGTCCCTCATTTTCTGAAATAGCTTCACTTGAGTTCTCGACATTAACAAAATGGTGAATGCAACCATATAAAA AAATGTGGTATCAACACTAAAGACTGAACAACATTTGTAGTATCTCGCGCACTTGCCCAACATATATCATTTTGCACTAG GAAAGGAATAAAAAAGCGCACACAGGAGTTAAGTGAGACTATTTCAAAAAGTAAGGAACCAAAATGGGTTCGGAAAATGA GGGACAAATATTGACCATTTTGCTATGACTAAAACATACTTTAACCTAATTTTTAATTCTTCGTGTATGAGGATTCTTTC TTTTCTATTGCTATATACATTTGTGAGCGATTAGACTTTTTATGATATTGTAATGCCAATAATAGAAAATAAAGCAAATA TTTTTTTTCTTTATTTTATTTAAAATTCTAAAGCCTCAAACAGCATTTTAATTAACACATAACATCTCTCTTTTGGGGTG ATCCAGTTTTAGGTTATGAAATATACATTTTTATATTAAATATAAACTCAGCAATGCACGTCACCCAAATATTGGAATAA GGTTTTGCCGTTGATGCTATTGTTAGAAAAACAGCAAATAGAGGTTTTTGAATGTGCTAACGGATCTGGTGACAATTTCT TTGTTGATTCAGTAGGAACCTATTCCGTTCTACAGGCTGTTGTGTTTCGGTATTAATTAAGGAATTACTCAGTTGTGTAC TGTCCTGACACTTAGTTTAAATTCCTTGACTGCAGATCACAACCTTTAACATCTCATTAGTTGTTCATGGAACCACTGCT GAAAATAATGATTTTCAGAAGGTAAATTGCGTAATTCCCTAAGAGGTGCCAAGTTGCTTCTGCTTTTACAACTTCCCTTT CTTATTAGTTATTGACATTGGTTTTCATATAGGAACAATCAAATCCGTATGCTGTTCCCATCAGCATGGGCATCTTCAAA ATCTTAGAAAGTCCTTTAGATATAACCACTACTACAATAATTAGAAGGATCGTATCAAATCATGAGGCATATCAGGTATG CTTAGACAGTGTCTTTCTTCTTTTTTCTTTTCTGTTTAGTATTTACAGTGAGATACTTGGACTTATGATTTTCTCAGATA TTTAAAACTTGTTACTGTTAAAACATGGATTGTTAGCATTTTAGCATATTTTTTTATAATGGTTGTTGAGAATTAGCTAG TTATTGTAATTATACTAATTAAAATTAACAGCTGATGCACCAAGCTAATACATGAAATTTCACTCGTACCTTTCTATTAC TTGAATACTCAAGCCATGTATCTCGTTTTGTTGAAGAGTTTTCTTCTGTAATTTGAATCAATTTTTTTAATATATACACA TGGTATGAGATTTGTCATCTAGAAAAGGTTTTGTTTGGTAGAAATATAATATAAAACAATTCATGTATCTTCACACAATA GCTTAAGCGTTTGGGATAGGGACACGGATTTTCTGTTCCATTGTCTCATTTTTCTTCCCCACCAATAAGAGTTTGCCATG TAAGTTAAAATTACACAAGTTATTTCAAATTTACAAGAGCGCTCTTTTTGCTGATATGTCAAAATTCCATTGGTGAGACA GACAAATGAAACACAATTTAGGACAAAATATCTTGATCTTTGGGACAGTTGGTCCGTGACATGGTACAAGAGTCTCTGAT CTAGTGCTCTAGAGTTCAATCCATATTTCCCTCATTATTCTAATTGAAAGTGGAATTTCATCTCAAGGTGGTTTGGCTTG TGCATTGTTCAGGTTTCAAGCCCAAGCCTAATGGGCATGTTAGAAATATAATAGAAAAACCACTCGTCTTCACCCAACAT CTTAAGCTTGATATAGTTGGTTCATGACACACTGTCTATTATAATAGAGATTAGGGAGGATTATTAAAAGAGACATAGGG GTGGTTGTATTTTGAAAATAAATACCTAGTAGTATAATTAGTCTTGTTAATTAGTTAATGGTTAACCACTTAATAACAGT ATCAAACACATGGGCGACCAATGGGTCCTTTTTCATAAATTTCCCGCTTGTCCTTTCTATTAACCCTCTTGTTTACATAT TAGTTGTTTTTTGAAATATAAATTTCACCATATGCTTTTGCTTCTAGTGTAGTTTATGATTGCAAATGCCCATCAAACTT GGAAATTCCTCTTGATATATTTTTAGAGTAGTGATGTTCTATGGTAGTGAATATTGTGTGCCTACAGGTTTGTCTCTTTG GTCTTGCCTCTCATTTTCTTTCTTCCTTTCCACTCTTTTTTACACGCAGAAACGTCATGAGAAGAAGGGCGAGAGTGAGA AGAGATACTACGAGAGCAAGACTCATGTCACTGGAGACTGATTCATGTCTTTCGTTTCTAAGATGAACATCAAAGGTCAC CGCAGGCTTTTGCTCTCTTTCTTATGGGAAAATGACAGATAGTTTCAGCTTGGAGCGCATAATTGACATGTTGTTCGCGT CTATGATTAATCATTTGTTACACTGATTTAGTATGATTAATCATTTGTTAAACTGATTTAACTAATAGTTTACTTAGAGT TGACCATGAACAATTAGGTGTTCCTCAAATAAATTCATGGTTAACTTCTGAATTATTTTGGTTAAATTGGTTTGGCAAAT GGTTAGATTTGCGAACTAAGATGCCTCATGTGTGTTCCAAGTCATACAAGCTGTCATTTTCCCTTTTAGTATTATTTTTA TTTTTGTTTTTCAAATAACCTGCTACCATGTGTTAGTGCTTTATGGGAATTTGATGAGGACTGTGTCCGATCAAGTACTC TAGTTTTGTTTGGTTAATTAGGAAAATGTATTAGTTAAATGACAATTAATATTGTAGTTTTTTTCAATTTCTGTTTCTAT TAACCTAGCAATGAAATTGTGTAATCATATTTTATGGATATGGCATATGGTTTCGGTTCTTGATACACCTGTATTTTAGT TGAAAATAAATGTTGAGATTTGTCTCTTTTTATTGTTTATTTATTTGGTTAAATTCAGTTCTATTTGATATGGTAAATTT TTATTTGTTAGAAAGTAATAATTTAGTATGCAATAGTATCAAGTTGAAAAATCTCGTGTTAAAATTGGAAAAAGTAACAC GGTTTCTCTGTTCTAAATGGTTGGCTAGTTCACTTAGATTAATTAGCTCAAAG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0461600.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGTGGCGGTGGTGGTGGCGATGCGGTGGCGGATAAGCAAGCGGCGGCCAAATGGGTGGCGACGTGGATGGTTGGAGG GGTGATAATTGGGGTGTCACTGATGGGTCTCTACTCGGGTCAGAATCTGTGGCCTTTCAACGTCTTGTGGAGTAGAAGGC GTAACAAGAAGCCGATTCGTGTATACATGGATGGTTGCTTTGATATGATGCATTATGGCCATTGCAATGCCCTTCGTCAA GCTCGTGCCCTTGGTGACCAGTTGATTGTTGGGGTTGTCAGTGATGCTGAAATCATCGCCAATAAGGGTCCTCCTGTCAC ACCACTTCATGAAAGGTTGATTATGGTGAATGCTGTGAAGTGGGTTGATCAGGTTATTCCTGAAGCTCCCTATGCTATAA CTGAGGAATTCATGAAGAAGCTTTTTGATGAGTACAATATTGACTACATCATTCATGGAGATGATCCTTGTGTTCTTCCG GATGGAACTGATGCTTATGCTCACGCCAAAAAGGCTGGCCGTTACAAGCAGATAAAGCGCACCGAAGGAGTTTCCAGCAC TGATATTGTTGGTCGAATGCTTCTTTGTGTAAGAGAAAGGACTATTACTGAGAGTCATAATCATTCTTCTTTACAAAGAC AGTTTAGCAATGGCCGTGGTCAGAAGTTTGAAGATGGTGGTGTTACTGCAAGTGGAACTCGTGTATCTCATTTTCTGCCT ACATCTCGTAGAATTGTTCAGTTCTCAAATGGGAGGAGTCCAGGTCCTGGTGCACGCATTGTATATATTGATGGCGCTTT TGATCTCTTTCATGCTGGACATGTTGAGATCCTGAGGCTTGCTAGGGAATGTGGAGATTTTCTTCTGGTTGGAATACACA CCGATCATACAGTCAGTGAAACTAGAGGTCTACATCGTCCCATTATGCATCTTCATGAAAGAAGTCTAAGTGTCTTAGCA TGCCGATATGTGGATGAGGTTATAATTGGTGCACCATGGGAGGTGTCTAAGGATATGATCACAACCTTTAACATCTCATT AGTTGTTCATGGAACCACTGCTGAAAATAATGATTTTCAGAAGGAACAATCAAATCCGTATGCTGTTCCCATCAGCATGG GCATCTTCAAAATCTTAGAAAGTCCTTTAGATATAACCACTACTACAATAATTAGAAGGATCGTATCAAATCATGAGGCA TATCAGAAACGTCATGAGAAGAAGGGCGAGAGTGAGAAGAGATACTACGAGAGCAAGACTCATGTCACTGGAGACTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0461600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGGGGGGDAVADKQAAAKWVATWMVGGVIIGVSLMGLYSGQNLWPFNVLWSRRRNKKPIRVYMDGCFDMMHYGHCNALRQ ARALGDQLIVGVVSDAEIIANKGPPVTPLHERLIMVNAVKWVDQVIPEAPYAITEEFMKKLFDEYNIDYIIHGDDPCVLP DGTDAYAHAKKAGRYKQIKRTEGVSSTDIVGRMLLCVRERTITESHNHSSLQRQFSNGRGQKFEDGGVTASGTRVSHFLP TSRRIVQFSNGRSPGPGARIVYIDGAFDLFHAGHVEILRLARECGDFLLVGIHTDHTVSETRGLHRPIMHLHERSLSVLA CRYVDEVIIGAPWEVSKDMITTFNISLVVHGTTAENNDFQKEQSNPYAVPISMGIFKILESPLDITTTTIIRRIVSNHEA YQKRHEKKGESEKRYYESKTHVTGD

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
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	19	19	-	–
PANTHER	PTHR45780:SF6 View details on PTHR45780:SF6 Search for proteins/transripts with this domain View external data on PTHR45780:SF6	15	424	410	8.2E-229	–
PANTHER	PTHR45780 View details on PTHR45780 Search for proteins/transripts with this domain View external data on PTHR45780	15	424	410	8.2E-229	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	19	41	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	20	44	25	-	–
Gene3D	G3DSA:3.40.50.620 View details on G3DSA:3.40.50.620 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.620	45	197	153	2.4E-56	IPR014729 Show description in modal box View details on IPR014729 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	45	425	381	-	–
CDD	cd02174 View details on cd02174 Search for proteins/transripts with this domain View external data on cd02174	57	199	143	9.49783E-81	IPR041723 Show description in modal box View details on IPR041723 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52374 View details on SSF52374 Search for proteins/transripts with this domain View external data on SSF52374	60	193	134	1.31E-28	–
TIGRFAM	TIGR00125 View details on TIGR00125 Search for proteins/transripts with this domain View external data on TIGR00125	60	124	65	1.4E-18	IPR004821 Show description in modal box View details on IPR004821 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01467 View details on PF01467 Search for proteins/transripts with this domain View external data on PF01467	62	190	129	9.2E-26	IPR004821 Show description in modal box View details on IPR004821 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.620 View details on G3DSA:3.40.50.620 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.620	232	401	170	2.0E-55	IPR014729 Show description in modal box View details on IPR014729 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd02173 View details on cd02173 Search for proteins/transripts with this domain View external data on cd02173	257	409	153	3.28249E-73	–
SUPERFAMILY	SSF52374 View details on SSF52374 Search for proteins/transripts with this domain View external data on SSF52374	259	394	136	7.78E-24	–
TIGRFAM	TIGR00125 View details on TIGR00125 Search for proteins/transripts with this domain View external data on TIGR00125	260	327	68	2.9E-15	IPR004821 Show description in modal box View details on IPR004821 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01467 View details on PF01467 Search for proteins/transripts with this domain View external data on PF01467	262	390	129	7.7E-15	IPR004821 Show description in modal box View details on IPR004821 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	402	425	24	-	–

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:0009058 View details of GO:0009058 AmiGO InterPro QuickGO	Biological process	Biosynthetic process	The chemical reactions and pathways resulting in the formation of substances; typically the energy-requiring part of metabolism in which simpler substances are transformed into more complex ones.	Subterm of View details of GO:0008152

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0461600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0461600.1