Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi6g1v0347500
Transcript ID	LotjaGi6g1v0347500.1
Lotus japonicus genome version	Gifu v1.2
Description	DNA polymerase V; TAIR: AT5G64420.1 DNA polymerase V family; Swiss-Prot: sp\|Q7TPV4\|MBB1A_MOUSE Myb-binding protein 1A; TrEMBL-Plants: tr\|I1M2K6\|I1M2K6_SOYBN Uncharacterized protein; Found in the gene: LotjaGi6g1v0347500
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr6:66026797..66034103) extracted from Lotus japonicus Gifu genome v1.2.

TAAGACTAGTAGCAGTACTGTCTCTTGTACACAAAACATTGTTACGGCAACTGAGAGAGTTAAACCCTAAACTCAACTAG ACGCCGCAACCCCCTCTCTCCACCACCGTCGTCCGCCGCCAATGGCCAGCAAAAAACGGAACTCAGTTCCGGAGGAAGAA AATGCCACCGATTCTCCCAAACCTCTCAACAAAAAATCCAAAAACATCGATGCTGTGGCGCTACCATCCTCCACAAAGCC GAAACGAAAAGCATTAGACAAGGAGCGCCGCCGCGCCACGGCCGGAGAAGTAGTCCCGGAGCCGAAACCTGTGGCGGCGG CGGATTCGCCCAGCACCAGCGGCGGCAGCGCGGCTCCGGAGTTTCACATTGGAGTGTTCAAGGACTTGGCGGTTGCTAAT GAGACGATGAGGGAAGCTGCTGCGAAGCAGATGGTGAGGGAGTTGAAGGAAGTTCAGAATGCTTATGATGGGCTTGGTGA GAGTGAGAAGGAGGAGGGTGATGGTGGATTCAAGCTGGAAGCGGAGAAAGATGATGGGTTGGAGAACTGTGCAGCCTCTG TTAGATACGCTGTTCGTCGGCTTATTCGCGGTGTCTCGTCGTCAAGAGAGGTTTGTGTTCTGTTCTTGAAGGTTCTTATA TTGTAATGGTGGCTGCTTGAATCATGAAATTATGATGTACATGCTGGTAATATTTATATAGTTTGTGTTCTACTAAGACT TGTTGCGAATTTATTTTTTCATAACTATAGGGTTATTTTCTCCATATTATGTGATAATAATGTTTTCTGGTCATGTTTCA TTGTTTGCTGGATGTTGCTCTTGTTGTTTTCTGATATGAAGAAATCAATAAACAATAAACCATGCTTATTGGTATTGCAA AATTTGCTTACTGGATAGATACTAAGATAGCATCTTTTGTTGTTGCTCTTACAGTGTGCCCGGCCAGGTTTTGCTCTAGG TTTAGCAGCGTTAGTTGGCTCTATCCATAACATCAGGGTTGAATCCTTCCTGAAACTTGTAGTTGATTTACTGGAAGTAA CCTCATCAATGAAGGGTCAGGTAGGAGATCACAATGGCTTAATGATATTGTTTTTTGATTCATTCCTCAGCTTGTTGGGT TTTTTGATATTTTTGTTTTCCATGTGAAATTGTAGGAAGCAAAAGATTCGCTGCTGGGACGCTTATTTGCTTATGGTGCT CTGGCTCGATCAGGAAGACTGGAACACGAATATAGTTCGGATAAAAACACTTCATCCATAAAGGAATTTATCAGTGCACT TATATCTCTTGCAAATAGAAAGCGGTACTTGCAAGATCCTGCTGTCTCAATAATTTTAGACTTGGTTGAAAAGGTTTGTA TATTATATGAACATTTTACCCTTCAAATTTCTATTCCTAAATCTCATGCCTGTTTCCAACTATGTTGTGAGTGTCTTGGA TTTTCATGGGTTTCAATGTATCCACGGTCACTCTACCTATATTCCTTTAAAGGATTTTAATTTTTTAACCCCTTATTGCT GTTACACAAGCAAAATCTGTGGATGGACTATGGAGATTATCCTTTGCCTTTATCTGTTGGTATCCTAGTGAACTTAGTTG TGATGTTGTGTAGTTATTGACTTGTTGTGCTATTCTCTTATTTTGTGTAATTGAAGATTTGCAAAATCTATTCCTGCATC CTTAAATACACGTCCCTAACAAGCACTTGCAAACAACTACTTGCATCACTGGAAGTATCTATGCGGCAATGAGTAGATCA CTTTGTCATAGGATCATATGTTGAAGTTGAATGAATTTTAAAATTCTTGGAGGCCACTTTTTGGACTCTGTTTCATTTGA CTTATTTATATGATTTTATCCACTAGTTCTCTTGTAATCTTGAGACTCATATTTCATTACTTGAGGCTATATATTTTGGT TATTAGTATTTCAAACATTTATTTATTAACGTATTATTATTATTATTATCTGTAGTTGCCTGTTGAAGCATTGGTTAATC ATGTTATGGAAGCTCCCGGGCTCCAGGAGTGGTTTGAAGCTGCTGTAGAAGTAGGAAATCCTGATGCTTTGCTCCTTGCT TTAAAAGTTCGGGAGAAAATATCTATTGACAGCTCTAGATTTGGCAAGCTATTACCAAATCCATTCAGCTCTAGCCAGCT ATTCTCCGCTGATCACCTGTCCTCCCTGAGTAATTGCTTGAAGGTAGCTTATGTCAATTCATATATTTGCGAGCCATACT ATTTTGATTGAAGTAATGGAAAGAAACAGTTCTTATGTATTTTCTGAATGTGCAGGAATCAACCTTCTGTCAGCCTCGTG TTCATGGTGTCTGGCCTGCTTTGATAAATATTCTTTTGCCTAATGTTTCACAATTAGAAGATGCCGCGTCAGCTTCAAAT TCATTGAAGAAACACAAAAAGAATAAAAAATCTAGCTCTTCTGATGAAGAAATTGTAAAGAGTCTTCAGTCTTTTTGTGA AATAATTATTGAAGGATCTCTCCTTTTCTCATCTCATGACCGTAAGCGCTTAGCTTTTGATCTTCTGTTTCTTCTCCTCC AAAAGCTGTCTGCATCTTTGGTTCCAGCTGTTCTTTCGAGCAAAGTTGTTCAGTGCCTGATGGATGTACTGTCAACAAAG AGCTCATGGCTGTATAAAATTGCACAGCATTTTCTTAAACAGTTGTCAGATTGGGTTGGGGATGATGATGTCCGAAGAGT TGCTGTTATAGTTGCATTACAGAAGCACAGCAATGGAAAATTTGATCTCATCACACAAACAAAAATGGTTAAAGATTTAA TGTCGCAGTTCAAGACAGAACCTGGTTGCATGCTTTTTATTCAGAACTTAATGAATATTTTTGTGGATGAAGGTAATGCC TTGGAGGAACCTTCAGACCAGAGTCAAACAACAGATGAAAATTCTGAAATAGGTTCTGTTGAGGATAAGGATTCTCCTAT GAGTTCTGACTTTTTGAAGAGTTGGATTATAGAATCCCTTCCTAGTATTTTGAAATGCTTGAAGCTGGATCATGAAGAGA AGTTCCGAGTGCAGAAAGAAATCATGAAATTTCTGGCTGTTCAGGGTCTGTTCACTGCATCTCTTGGCACTGAAGTGACT TCGTTCGAGTTACAGGAGAAATTCAGATGGCCAAAATCTCCCACATCAATTGCTCTTTGCAAGATGTGTATTAACCAACT GCAGTTATTATTGGCAAATGCTCAAAAGGGAGAGGGGTCACGTCCTTTAGCTAATAGCCTTGAGCCAAATGATCTCGGTT CATACTTCATGAAGTTCTTTGGTACCTTATGCAACATTCCTTCAGTTTCCCTCTTCAGGTCTTTAGATGATGAGGATGAA AAAGCAATGAAAAATTTGCAAGCAATGGAAACAAGATTATCCAAAGAGGTAATTATACTTGTTACTTATTACTGATCCTT AGACATAAAGTTGATGTTCTCCTTTCCAACTTTTAAGCTAAAATGATGCTAGCAGCTAGTTAATTTAACATTCTAATGAA TTAAATGTTTGTCTTTTAGGGGGATAAATAACTTCTCTTGAATAAGAGTTACGTGATTATGATATTGTTTTTAGTACGTT GATGTATGTTCCAGCATTTATACGATTAAACAAAATATGCAGTTGAATTATGTAAACTGTATTATAATTTGATTTTTTTT AATATTTATTTAGTATTTACTAATCTCTTTCATCCTTATGTGGTAATAATGAGCAGGAAAGGAGCTCTAGCTGTAGCTCT GATCCTAACAAGTTGCATGCACTGAGATACTTGCTTATCCAGCTGCTCCTGCAAGTGCTTCTTCATCCAGGGGAATACTC TGAAGCTGCATCTGAACTTGTCATCTGTTTTAAGAAAACTTTTTCTTCTGATCTTCCTGAGTCTTCTGGAGAAGATGATC TGGAGGTTGATGATGCTCCTGAATTGATGGACGTTCTTGTGGATACATTACTCTCTCTGCTTCCACAGTCATCAGCTCCT ATGCGCTCTTCTATTGACCAGGTTATTATGAAAATTGAGATGTTTAGCTTTGGCAGCTTTGTTATTATTATACATCATAG CATCAAGCAGATTGCAGTTCCACATTGTCTTATATCAGTGTATGCTTATATGCTGCATCTTAACATTGTGTCAAGTGGAT ACATAAACTTTCACTGAGAACCAAATGGCCAGCTGTTAGTCTCATGTTTGAGGAAGACAAGAATGCTTGGTTTTGGTTAA ATAAGAGAACATGGGTGTCCAAATTTTATATTAGAAATGGAAAATATGTACCTGAAGCTTCTGCTCTCATTTAGATACTC AAGATTCCTTGTTTTACAGTCCTAGTCTAATCAGCTATGTCACATTGAAGTGAGCTTAATTTTTTTCTAATCAGCTATGT CACATATATGAATTGAAGATATTATGAATTCTCCAATGGGCAAATAGCAATATATATTTTTTTCTTAAAATTTATGTCAA ATTAGAGTCCTCAAGTTGTAATATATTGGGGTATTGGGGTAATTCCTGATTTGGGTTGGACTCAGCCTGCATCACATTCT AAACTCTACCCATTTCATAGTGCCTATTCACATAAGCAGAAAGCAGTGGACACTGGAATGTCATATTCTGAACCATCCTT AAACTTATATACTGTCTTGATTTGTGAGCATTCAATGTAGCTCCCTCTAGATTTCTGTGAAAATGGAATTGCCTAAAACA ATAATGCAATTTATTGTTTTTGCATTTTTATAGCGTGATAAGGTGGCAGTGTTCTAGGATGTATAGTTCCCCAATTGCTG CATATCTTTCTTTTCTTCTTTTTTGTATGTACAGCATTAATGAAATCCAAACGTCCCCTTGATTCTGTCCTCACGTTGTC GATCCTGGTTATGAATGGATGGTTCAAGTCCCCTTGATTCCTTTCATCTGGAAAACTTGATTGAGTGGATGGTATAAATA GGGTTCCCAATATAATGCACACATTCTTTAATTTAGCCCAGTTGTGAAATGAGATAGATTTGCTAGAGAATGATTGGGCG AGCTATAATACATGACGCATTAAGAAAACTTCTTGTCTTTGGCTGGACTCATAATTTAAACTTGGAACTAGTTTTTATTT TTCTTACAATTTTCTCTATACTGTAGGCATTTAAGTATTTTTGTGGTGATATCACTGATGATGGACTGATGCGGATGTTG CGGGTCATTAAGAAAAATTTGAAACCTCCTAGGCATCCTGATGCTGATGATGATGATGATGATGAAGATGAGGACGATGA CTTTCTCAATATTGAAGATGAGGAAATTGATCAAGGTGAGACGGGTGAAACAGGTGAGAGTGATGAGCAGACAGATGACT CTGAGTCAGTAGTTGAAATGGAGGAAACTAGTCATGGCGATCCCGAAGCTTCCAATGATTCTGATAGTGGGATGGATGAT GATGCTATGTTCAGGATGGATACATATCTTGCCCAAATTTTTAAAGAGAAAAAAAATCAGTCTGGAGGTGAAACGGCTCA TTCCCAGCTTGTGCTTTTCAAACTTCGCATCCTATCTTTGTTGGAAATTTTCCTTCATGAAAATCCAGGCAAGTATAAAT TACTTATATCATTTCAGTTCTTGGACTAGCTCTATATTTTATTAAGTTGCTGCACTTCAATTATAGTATCTATGTAATGA AGAAGTATAAAATTTACAGAAAAAAGTGCTGTTTTGGATTTTGAATGTAACATTTGTGCAAAAGAAGTTCAAAATTGCCC TGAATAGAACGTTGAGTACTACATATGGCGATATTTTTGAGCCAATTAGGAGCCAAAAGAATGATGAGCATTGAGCAATG ATCACTTAGGAAAGTTGAAAGTCGGTTTCTGTGGTTTCTATTTTATTGCAGTACTAGTAACCTGTATTAGTTCAATGTGT TATGTTCATCATTATTTATTCTGTTCTTTTTAACTTCATTTGTAATTAAGTTGATTATGGTGTCTTGATATTATACAGGT AAGCCTCAAGTTCTTTTGGTGTTCTCAAATTTAGCTCAGGCTTTTGTTAATCCACATACAGCAGAAGTTAGTGAGCAGCT TGGACAGCGTATATGGGGAATATTACAAAAGCAAATATTCAAAGCAAAGGATTATCCTAAGGGTGATGGAGTCCAAGTAT CCACTCTTGAATCTCTGTTGGAAAGAAATTTGAAATTAGCTTCAAAACCTTTAAAACCGTTTAAAAGCAAAAAGCCTGCA TCCAAACCATCAGAGCAATCACCTGCTGTGAACCTAAAGAAAAAGCAATCAGCTGTCAGACAGAAAATGGTTTCTTCCCT TGCCCAGCAATCAACCTTCTGGATTTTGAAAATTATTGATTCAGGAAATTTCTCAGAGTCTGAACTTGGTAGGATTGTTC AAATTTTCCGGGCAGCATTGACGGGTTATTTTGACAATAAGAAGTCTCAAATCAAGGCTGGATTTTTAAAGGAAATTTTT CGAAGACGCCCATGGATTGGACATGCTGTCCTTGGCTCTATACTGCAGAAATGTGGAAATGCCAAGTCAGACTTTCGCCG AGTGGAAGCACTTGATCTAGTTTTGGAAATATTGAAGTCAACAGGTGGTAATGATCAGAGTGCATCAAGAAAGATTGTTA AATCCAATTTGGATAAACTCTCTTTTCTAATGAAAGAGTTGGTGACAAATATGCCGAGCAAATCAGCAAGACGTTCAGAG GTAAACAAGTTCTGTGTCAAGTGCTTTGAGATCTTGTCTAAGCTTAACCTTACCAAGCCACTGGTTAAAGCTTTGCCACC TGATGCTCAAGCCGCCCTTGAGGCTCAACTTGGTGACAAATTTACTAGATTGAAGAAGCTAGACAAAAAAACAGTGGAAA CATGAATTGCTGCTACATCCTGATGCTGCTACAACTTAATTGAATGAGCTTTTTGGTAATACGGTGCTCTCCACGCTTCA TTCAATCAATTCCGAAATACAGTGTTGTGTCCAAAAGCAGTAATCTGATCCTTGAAATTTTGGTAATCTGATCCTTCATG ATGGACTGGAGCTTTAGTGCCTTTAGAAGAAGGATTGGAGTGGAGTTTTGGTAAACTATAAAATTATTGATTTTGTTTGT TTCCGGCTATGTATTGTTTTGTGAACCTTTTTTTTGCATATTGTGAGATTTTGACTGAGTAAACAGGATAAACTTGAATT TTTATATCCATTTTTTTCTCGTCTGCAAACTTTGATTACAGGTACTTTAGACAAAATGTGTATCTGAAATTCAAACATAA TCTTGGTTTTTTTTTATATGATGTGAT

Download Genomic Sequence

CDS sequence (LotjaGi6g1v0347500.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCCAGCAAAAAACGGAACTCAGTTCCGGAGGAAGAAAATGCCACCGATTCTCCCAAACCTCTCAACAAAAAATCCAA AAACATCGATGCTGTGGCGCTACCATCCTCCACAAAGCCGAAACGAAAAGCATTAGACAAGGAGCGCCGCCGCGCCACGG CCGGAGAAGTAGTCCCGGAGCCGAAACCTGTGGCGGCGGCGGATTCGCCCAGCACCAGCGGCGGCAGCGCGGCTCCGGAG TTTCACATTGGAGTGTTCAAGGACTTGGCGGTTGCTAATGAGACGATGAGGGAAGCTGCTGCGAAGCAGATGGTGAGGGA GTTGAAGGAAGTTCAGAATGCTTATGATGGGCTTGGTGAGAGTGAGAAGGAGGAGGGTGATGGTGGATTCAAGCTGGAAG CGGAGAAAGATGATGGGTTGGAGAACTGTGCAGCCTCTGTTAGATACGCTGTTCGTCGGCTTATTCGCGGTGTCTCGTCG TCAAGAGAGTGTGCCCGGCCAGGTTTTGCTCTAGGTTTAGCAGCGTTAGTTGGCTCTATCCATAACATCAGGGTTGAATC CTTCCTGAAACTTGTAGTTGATTTACTGGAAGTAACCTCATCAATGAAGGGTCAGGAAGCAAAAGATTCGCTGCTGGGAC GCTTATTTGCTTATGGTGCTCTGGCTCGATCAGGAAGACTGGAACACGAATATAGTTCGGATAAAAACACTTCATCCATA AAGGAATTTATCAGTGCACTTATATCTCTTGCAAATAGAAAGCGGTACTTGCAAGATCCTGCTGTCTCAATAATTTTAGA CTTGGTTGAAAAGTTGCCTGTTGAAGCATTGGTTAATCATGTTATGGAAGCTCCCGGGCTCCAGGAGTGGTTTGAAGCTG CTGTAGAAGTAGGAAATCCTGATGCTTTGCTCCTTGCTTTAAAAGTTCGGGAGAAAATATCTATTGACAGCTCTAGATTT GGCAAGCTATTACCAAATCCATTCAGCTCTAGCCAGCTATTCTCCGCTGATCACCTGTCCTCCCTGAGTAATTGCTTGAA GGAATCAACCTTCTGTCAGCCTCGTGTTCATGGTGTCTGGCCTGCTTTGATAAATATTCTTTTGCCTAATGTTTCACAAT TAGAAGATGCCGCGTCAGCTTCAAATTCATTGAAGAAACACAAAAAGAATAAAAAATCTAGCTCTTCTGATGAAGAAATT GTAAAGAGTCTTCAGTCTTTTTGTGAAATAATTATTGAAGGATCTCTCCTTTTCTCATCTCATGACCGTAAGCGCTTAGC TTTTGATCTTCTGTTTCTTCTCCTCCAAAAGCTGTCTGCATCTTTGGTTCCAGCTGTTCTTTCGAGCAAAGTTGTTCAGT GCCTGATGGATGTACTGTCAACAAAGAGCTCATGGCTGTATAAAATTGCACAGCATTTTCTTAAACAGTTGTCAGATTGG GTTGGGGATGATGATGTCCGAAGAGTTGCTGTTATAGTTGCATTACAGAAGCACAGCAATGGAAAATTTGATCTCATCAC ACAAACAAAAATGGTTAAAGATTTAATGTCGCAGTTCAAGACAGAACCTGGTTGCATGCTTTTTATTCAGAACTTAATGA ATATTTTTGTGGATGAAGGTAATGCCTTGGAGGAACCTTCAGACCAGAGTCAAACAACAGATGAAAATTCTGAAATAGGT TCTGTTGAGGATAAGGATTCTCCTATGAGTTCTGACTTTTTGAAGAGTTGGATTATAGAATCCCTTCCTAGTATTTTGAA ATGCTTGAAGCTGGATCATGAAGAGAAGTTCCGAGTGCAGAAAGAAATCATGAAATTTCTGGCTGTTCAGGGTCTGTTCA CTGCATCTCTTGGCACTGAAGTGACTTCGTTCGAGTTACAGGAGAAATTCAGATGGCCAAAATCTCCCACATCAATTGCT CTTTGCAAGATGTGTATTAACCAACTGCAGTTATTATTGGCAAATGCTCAAAAGGGAGAGGGGTCACGTCCTTTAGCTAA TAGCCTTGAGCCAAATGATCTCGGTTCATACTTCATGAAGTTCTTTGGTACCTTATGCAACATTCCTTCAGTTTCCCTCT TCAGGTCTTTAGATGATGAGGATGAAAAAGCAATGAAAAATTTGCAAGCAATGGAAACAAGATTATCCAAAGAGGAAAGG AGCTCTAGCTGTAGCTCTGATCCTAACAAGTTGCATGCACTGAGATACTTGCTTATCCAGCTGCTCCTGCAAGTGCTTCT TCATCCAGGGGAATACTCTGAAGCTGCATCTGAACTTGTCATCTGTTTTAAGAAAACTTTTTCTTCTGATCTTCCTGAGT CTTCTGGAGAAGATGATCTGGAGGTTGATGATGCTCCTGAATTGATGGACGTTCTTGTGGATACATTACTCTCTCTGCTT CCACAGTCATCAGCTCCTATGCGCTCTTCTATTGACCAGGCATTTAAGTATTTTTGTGGTGATATCACTGATGATGGACT GATGCGGATGTTGCGGGTCATTAAGAAAAATTTGAAACCTCCTAGGCATCCTGATGCTGATGATGATGATGATGATGAAG ATGAGGACGATGACTTTCTCAATATTGAAGATGAGGAAATTGATCAAGGTGAGACGGGTGAAACAGGTGAGAGTGATGAG CAGACAGATGACTCTGAGTCAGTAGTTGAAATGGAGGAAACTAGTCATGGCGATCCCGAAGCTTCCAATGATTCTGATAG TGGGATGGATGATGATGCTATGTTCAGGATGGATACATATCTTGCCCAAATTTTTAAAGAGAAAAAAAATCAGTCTGGAG GTGAAACGGCTCATTCCCAGCTTGTGCTTTTCAAACTTCGCATCCTATCTTTGTTGGAAATTTTCCTTCATGAAAATCCA GGTAAGCCTCAAGTTCTTTTGGTGTTCTCAAATTTAGCTCAGGCTTTTGTTAATCCACATACAGCAGAAGTTAGTGAGCA GCTTGGACAGCGTATATGGGGAATATTACAAAAGCAAATATTCAAAGCAAAGGATTATCCTAAGGGTGATGGAGTCCAAG TATCCACTCTTGAATCTCTGTTGGAAAGAAATTTGAAATTAGCTTCAAAACCTTTAAAACCGTTTAAAAGCAAAAAGCCT GCATCCAAACCATCAGAGCAATCACCTGCTGTGAACCTAAAGAAAAAGCAATCAGCTGTCAGACAGAAAATGGTTTCTTC CCTTGCCCAGCAATCAACCTTCTGGATTTTGAAAATTATTGATTCAGGAAATTTCTCAGAGTCTGAACTTGGTAGGATTG TTCAAATTTTCCGGGCAGCATTGACGGGTTATTTTGACAATAAGAAGTCTCAAATCAAGGCTGGATTTTTAAAGGAAATT TTTCGAAGACGCCCATGGATTGGACATGCTGTCCTTGGCTCTATACTGCAGAAATGTGGAAATGCCAAGTCAGACTTTCG CCGAGTGGAAGCACTTGATCTAGTTTTGGAAATATTGAAGTCAACAGGTGGTAATGATCAGAGTGCATCAAGAAAGATTG TTAAATCCAATTTGGATAAACTCTCTTTTCTAATGAAAGAGTTGGTGACAAATATGCCGAGCAAATCAGCAAGACGTTCA GAGGTAAACAAGTTCTGTGTCAAGTGCTTTGAGATCTTGTCTAAGCTTAACCTTACCAAGCCACTGGTTAAAGCTTTGCC ACCTGATGCTCAAGCCGCCCTTGAGGCTCAACTTGGTGACAAATTTACTAGATTGAAGAAGCTAGACAAAAAAACAGTGG AAACATGA

Download CDS Sequence

Protein sequence (LotjaGi6g1v0347500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MASKKRNSVPEEENATDSPKPLNKKSKNIDAVALPSSTKPKRKALDKERRRATAGEVVPEPKPVAAADSPSTSGGSAAPE FHIGVFKDLAVANETMREAAAKQMVRELKEVQNAYDGLGESEKEEGDGGFKLEAEKDDGLENCAASVRYAVRRLIRGVSS SRECARPGFALGLAALVGSIHNIRVESFLKLVVDLLEVTSSMKGQEAKDSLLGRLFAYGALARSGRLEHEYSSDKNTSSI KEFISALISLANRKRYLQDPAVSIILDLVEKLPVEALVNHVMEAPGLQEWFEAAVEVGNPDALLLALKVREKISIDSSRF GKLLPNPFSSSQLFSADHLSSLSNCLKESTFCQPRVHGVWPALINILLPNVSQLEDAASASNSLKKHKKNKKSSSSDEEI VKSLQSFCEIIIEGSLLFSSHDRKRLAFDLLFLLLQKLSASLVPAVLSSKVVQCLMDVLSTKSSWLYKIAQHFLKQLSDW VGDDDVRRVAVIVALQKHSNGKFDLITQTKMVKDLMSQFKTEPGCMLFIQNLMNIFVDEGNALEEPSDQSQTTDENSEIG SVEDKDSPMSSDFLKSWIIESLPSILKCLKLDHEEKFRVQKEIMKFLAVQGLFTASLGTEVTSFELQEKFRWPKSPTSIA LCKMCINQLQLLLANAQKGEGSRPLANSLEPNDLGSYFMKFFGTLCNIPSVSLFRSLDDEDEKAMKNLQAMETRLSKEER SSSCSSDPNKLHALRYLLIQLLLQVLLHPGEYSEAASELVICFKKTFSSDLPESSGEDDLEVDDAPELMDVLVDTLLSLL PQSSAPMRSSIDQAFKYFCGDITDDGLMRMLRVIKKNLKPPRHPDADDDDDDEDEDDDFLNIEDEEIDQGETGETGESDE QTDDSESVVEMEETSHGDPEASNDSDSGMDDDAMFRMDTYLAQIFKEKKNQSGGETAHSQLVLFKLRILSLLEIFLHENP GKPQVLLVFSNLAQAFVNPHTAEVSEQLGQRIWGILQKQIFKAKDYPKGDGVQVSTLESLLERNLKLASKPLKPFKSKKP ASKPSEQSPAVNLKKKQSAVRQKMVSSLAQQSTFWILKIIDSGNFSESELGRIVQIFRAALTGYFDNKKSQIKAGFLKEI FRRRPWIGHAVLGSILQKCGNAKSDFRRVEALDLVLEILKSTGGNDQSASRKIVKSNLDKLSFLMKELVTNMPSKSARRS EVNKFCVKCFEILSKLNLTKPLVKALPPDAQAALEAQLGDKFTRLKKLDKKTVET

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
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	24	24	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	425	425	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	79	79	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	40	56	17	-	–
PANTHER	PTHR13213 View details on PTHR13213 Search for proteins/transripts with this domain View external data on PTHR13213	74	1247	1174	0.0	IPR007015 Show description in modal box View details on IPR007015 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF48371 View details on SSF48371 Search for proteins/transripts with this domain View external data on SSF48371	85	835	751	3.33E-9	IPR016024 Show description in modal box View details on IPR016024 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF04931 View details on PF04931 Search for proteins/transripts with this domain View external data on PF04931	149	956	808	3.9E-196	IPR007015 Show description in modal box View details on IPR007015 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	426	447	22	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	448	1255	808	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	544	569	26	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	838	857	20	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	863	888	26	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	863	912	50	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1033	1053	21	-	–

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:0005730 View details of GO:0005730 AmiGO InterPro QuickGO	Cellular component	Nucleolus	A small, dense body one or more of which are present in the nucleus of eukaryotic cells. It is rich in RNA and protein, is not bounded by a limiting membrane, and is not seen during mitosis. Its prime function is the transcription of the nucleolar DNA into 45S ribosomal-precursor RNA, the processing of this RNA into 5.8S, 18S, and 28S components of ribosomal RNA, and the association of these components with 5S RNA and proteins synthesized outside the nucleolus. This association results in the formation of ribonucleoprotein precursors; these pass into the cytoplasm and mature into the 40S and 60S subunits of the ribosome.	Subterm of View details of GO:0043232 View details of GO:0044428 Part of View details of GO:0031981
GO:0006355 View details of GO:0006355 AmiGO InterPro QuickGO	Biological process	Regulation of transcription, DNA-templated	Any process that modulates the frequency, rate or extent of cellular DNA-templated transcription.	Subterm of View details of GO:0010468 View details of GO:1903506 View details of GO:2000112 Regulates View details of GO:0006351
GO:0008134 View details of GO:0008134 AmiGO InterPro QuickGO	Molecular function	Transcription factor binding	Interacting selectively and non-covalently with a transcription factor, any protein required to initiate or regulate transcription.	Subterm of View details of GO:0005515

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Expression data

Expression pattern

Expression pattern of LotjaGi6g1v0347500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi6g1v0347500.1