Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi6g1v0005800
Transcript ID	LotjaGi6g1v0005800.4
Related isoforms 4	LotjaGi6g1v0005800.1 LotjaGi6g1v0005800.2 LotjaGi6g1v0005800.3 LotjaGi6g1v0005800.5
Lotus japonicus genome version	Gifu v1.2
Description	1D-myo-inositol 2-acetamido-2-deoxy-alpha-D-glucopyranoside deacetylase; TAIR: AT3G58130.1 N-acetylglucosaminylphosphatidylinositol de-N-acetylase family protein; Swiss-Prot: sp\|Q9HDW9\|GPI12_SCHPO Probable N-acetylglucosaminyl-phosphatidylinositol de-N-acetylase; TrEMBL-Plants: tr\|I3SVY7\|I3SVY7_LOTJA Uncharacterized protein; Found in the gene: LotjaGi6g1v0005800
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr6:1200151..1212517) extracted from Lotus japonicus Gifu genome v1.2.

GGAAACTAGCTTTCACGTCCTTCTCCTTCAGTATCTCTTCCTCATTTCCTTTACCAACCTCATTTCTCCGTCGTCTAGCT CTTGCCTGGTTTTTTCTGTCCCACCATAGTCTCCTTCTCCTTCCTAGATCTGATGCCAGCCTTCCCTTCCCTTTCTTTTG GAGCACCAGATCTAGTGCTTCCCTCCCCCTTTTGTTGCTGGGTGGTCGTTTTAGGCACGACAGAAGGCTGCTCTACGGCG TTGAGCTGTGTAGCCGAAGTGTTCTTGTTTGGTGGAGTCAGTGTTGCTTCTCGCCTTCTAAGTTGCGGTTGAGGTGTTCC CTTTTGGTTGAGCTGTGTTGCTTCTCATTTCTTGAGTTGCGGCTGTCGAGTTCCTGTTTGATTGAGCCTATGCTACTTCT CATTTTTGTGGTGTAACCTCTCCTTTTTGCTATTTGCTGGTTTTATTATTCGGGGTTGCTTTGTGGGGTTGATCTTCGGT TGTCTCAATCATCGTTGCTTGTTGCTTCCGTAGAAGTGAAGACATTGGTGTTGGAGGTGCTTCGAGTCTCTATTTTTGGT GGCTTTGTTGCGGCTTGATAGGATTCCTTCCTCATTGTACTTGTTGCTGCCTTTAGTTGCCGAATGGAGGTCTTTCCCTG TCGTGGTTGGCGGTTCCTCTTTTGGTTTTTGCTTTTAGGTGTTGTTACTCTCACTTGAAGATTGTTTATTGCTGGTGGGT TTTGTTTGGTATTTTTGGGGTTTTTTCAGGGTTTTTCGATTGTTTTAGCGTTTTATCTTTTGTAGTTGAGATTATTGTTC AATCTACTCTGTAGAGTGTTGCGACTCGTTGGACTTTGTACTTTATAATCATTTTCAAGATTGTGAAACTCTCTCTTCTC TTTTTTTTTGTTTTTTTTTGTTTTCAATGATACCAAACAATAACCTAGAAAATCTATTATATTTCTCACATATTTCTATC ATCTCTATCTCTCTTTTCTATTTCTCTTGTAAACCAAACACAGTGTTTTGTCTCACATTTTCCACTTCCTTGAATGACAA AACTTAAACAGGTACAATAATCGTACGGCTTGGGTAGATTTGGTTGGCCGTAACTTCTCCGTGGATCCCCGGACGCCGCC GCCGCCGCACATCCATCACTTCCGCAAGCTGGCCAAGCTCCCTCCAAGGTAACTCCAGATTCAAGTTTTCTCCTTTTTCT TCTCAATTCATTTATTCTTTTTTTTGAAATTAATTCATTTATTCTTGAATTTGTACAAAATGTGAATTTTTTCCGACCTT TCATTTATTTTGAAATTTCTAACTATTAAATTCTAATTTTTCTTATTCTCCTCGAAATTAACACTAATTGTATGACCATT TCTGTCTGTAGCCAGTTGAATGAGTGTGTTGTTGTTGTTGTTGTTTGATTTGTTATTTGTGGTGTTAACTCAAACATCAT AAAACCAAATAGGAAGTGAAAGAAAGAGATGAACTGAGTATTTTAGGATTTGATCATGTTCTGGTGATTGGAGTTTCTTG CTCTGTTAGCTTAGGTTTTGAAGACTGTATTTATTCATGTATATTGTCTTCATTTATCTTTAAACTAATTTGGGCCTCAC TTTTCAGATATAAAGGACAAAATTACACTTAAGTAAAAAACTCTCATCTAACTTGACACTTAATTTGGGTCTTAAGTTCT CTTGGTGCTTTGTTGCTTCACCCATTCGGCAAGTCTCCCTGCTTTCAGGCTCCCCCATGTTCAAATAAGACTGTTAAACT ATATTAATGTAATAGTTCAACTAGCGACTCACTAGTTTGATAAATGAATTAACCCATTGACCCAGTTGATGACTAATGTG AGTTTCATAACATTGATGCTTCTTTTACTTTTATATGCTCATAGACCCTTTCACTATCACACGTGTTCACCACTCTCTTC TTCCTGATTCCTGTCACACTTGCAAATTTCTCTATTTTCTTGCTAAGAAATCTGATGAAATTATTATATATGTTGAACAA TCTTCATTAATTGGTGCATTGTTCAGGTGCAATCTCAATGGCCTTCATTCTGATAATTACTCCGCTCATTTTATTGTGGA TCATTTCCCTATGCAAAATTCTCCTTCTCTCACGGATCCCTTTCAATAAACATTTTACACAAAATGGTAGCCTACTTTCT TCTTCTCTTTTTACTATCAGGACTTGAATTCTATTTATGTGTCTAATTTTATTTGTCTGAGCTTTCTTCCTTTTCTCTTT TTCACTCAATTTTAGTTTTGATCTGTTGTTATCAGGTAGAGCTCTTCGGAAGAGAAATGTCTTGTTGGTTATTGCTCACC CCGATGATGAATCCATGTAAGTTTGAAACCTCAAATTTATTATTTTTAGATGTTAATTTGTATATGACATTAAGAAGTTA ATAACTTAATACCCTTAGATACCTCTCTAAATTGAGATTTCTAATACATTTATGCTACTTCACTTGAGACAAGGCAATGA AGGAGTGTTTCTCTTTCATGTGAATCTGCTGACATCGCCCTAGTTCGTTTTGCCTACAGCATTTTAGGGAGAGTAGTGGG TAGGTGAGATGAACGTGAAGAAAATTGTAACTATGGACTAAGAGAGTTTCTCACGAGGAGCTCTGCTATTGTTACCTTGA ATACAATAATATTTTCTGCATGCTACACTGACCTATCAAAGACTAAGATTGTGTTTGACAGACCCCCAGTTTTTCATTTT TTTCAGATTCCAAAGACAAAACAACGGAATACCATAAATTTCAATAAAAAAACGTCAAAGGAAGGATATGCTCCTATTTC GTTCAATGTAATGTGATTTCAAAGCAAACACACACCAAGTCTCTAATCAAAATTGTACAGAAGTGCATTTTATGTCAGAC ATTGTCAGGGTTCTAAATATTAGGCAAAATAATAGTGGCTTGGATCACACGGGCTTGATGTTTCTGGGCTTGGTGCGGCG CCTTATGGTGCTGTTCCTGTCGCATCACTTGGGTTTGGTCCTGTTTGACTCTATTAGTTAGTGTTTGGCTGTGTCTGTTT TTATTATCTGGATTTGTCCTGTTTGGGCTAGGCTTATTTTATTAGTAGGGTTAGACTCATATAAATAAGAGTGTTCTCAT TAGGTTAGGAATATGTTTTTTATTAGTATTGGATTTTGCAAAGGGTTTCACCCTTGGATGTTTTCCTTCTTGTTAATCCA TAAGGATTGTTTTTGGTATCTTCTTGCTTCTCTCTTATTTCTCTCTTATCTATATTTCTTTATCTTCTTTGTTGGGTTAT ACATCATAACTTTAAACACATAAGCAACAATTTCTATGTAAATGAATCTAACATTGCACCAATATAACTTTGTTAACTTC AGCGAATTGCATATTTTATGGGGTGTTGGAGTTGGAGTGTAGTGAAGGCCTTTGAAGTTTGACTATTTCTTCAAATTTCT GCATTATGATTTCACACTGTCTTCACTTTTTCCATTTCTGCAGGTTCTTCACCCCAACGATAAATTTTCTGACTTCAAGA GGGCATAATGTTCAAATACTTTGCTTATCAATTGGTATTAGCTTTGGATATTCTGTTTATCTTGTAATTTATAGCACTTA TGGATATGTTTGTCTTTATGTTGATTCTTTTGTGCTTAATTTATTCACTTTATAGTTTACACTCATTTGTAATTAATTTT AAAATAACTGTAATTTTTCTTTCTCCCTATTCTGTGGTTGAATCTTCTTCAAATTTCATCTTTCTAAATTAAGCTAGTGT AGTTTTGAAAAAGAATATAATTTTGATCCATGTCTAGCATGTAGAGTTCTATACTATCAATGAAACATTTTTTGGGACTT CATATACATTCACACCTTGGCAGTGATATTTATTTAAAATATCATATGCAGAAAGAAGTCCAGTTTTATGGATTAGATGA TAATAGACATATATGGTATAATCAAACTAATAAAGTATTCCAGCATTATGAATCTGATTTCGTCATGAGCTACACAACTC AGATTAATTGAATATTTTCACTTTTTGCATGATATGACAATTTCCTTTTTCTTTTGAGGCTTAATTGCAACTTTGGTTCC CGACGTTTACCAATGCCACGATTTTGGTCCCCCACCTAATTTAATTACATGGATGGTCCCCGACGTTGTAGGCCGTGTGC AACGTTAGTCCTACTGTTTATTTCTTAATGAAGGAGGCTTACGTGGACGTCCAATTGGAGAGAGAAATGAGGTATGAGGA GAGAGGGAAGCACGTGAGTATCACGTGACCCTTATCTGAACCCATTATACTCAAACCCCTGACCTCCCTGGAACGAAGAA GGTAACGCGATTTAGATCCCTAGGGTTTCAGATTTGGGTATAATGGGTTCATATAAGGTTCACGTGAGTTCACGTGATAC TCACGTGCTCCCCTCTCTCCTCAGATCTCCTTTTTCTCTCCAACTAACTAGACGTCCACGTAAGCCTCCTCCATTAAGAA ATAAACGGTAGGATTAACGTTGCACGCAACCTACAACGTCGGGGACCATCCATGTAATTAAATTAGGTGAGGGACCAAAA TCGTGGCATTGGTAAACGTCGAGGACCAAAGTTGTAATTAAGCCTTCTTTTGATTTCCTTTTCTATAATAGTTCTATTCA ATGGCCTTTAATTAATGAAAATTTTAATTTTGGATATGAAAGGTTTATGGCTATCTTATAATGTTAGACTTGGGATTTCT GGATGTCACAAAACCAAAGCTTCTCAGCTTAGGCTCTAAAAAGACTTGAAGTTTATGTTTCAATCTGTTAGATATTTTTT AATTGTTATTATTTTTCTGTAGGTGATGCAGATGGCAAAGGAAACATCAGAAAACAAGAGCTTTTTCAGGCTTGTGTAGC CCTCAAGGTGATTTACAAAATGGTTTAAATTGATGTGTTTACAGACATAATGTAGAGCTTCTCATATTAAACATGACCCC AATATTAAAACATTTATTTTTCCTTATATCATTTAGTGTTCACAGCCTCATAGTCATAGCTATCCTTTCTTGACACAAAT TTCTTGGGATTTGGGAAATATAGGGACCCTTTCCTTGATAATGTTCGTTACATAGGTTAAAGATGACAGTCTTACTTTAA CAATTTAATAACTGTGTTGTTTGTATAACATGGGTAATTTTGTACTCAGATTACGATGCAACAAGTGAAGATTGTCAATC ATCCAGAACTGCAGGTTTTTATCCAATAGGTCTCTGGAATATAAAACTCAGTATCACTTCAAATCTTATTGTTAGTGCCT TATATTGTCGTTGCTTAACCTGTTGTGTACGTAGGATGGCTTTGGTAAAGTTTGGAATCATAGCTTATTGGCAAAGTTCA TTGAGGATGAAATAACTAGTCACTGCATTGATATGGTAAGATCATGCTTCTGTACTACTATTGTCATTTTAGGGATTGTA AAAGTTGTTTGAGTCATGAAGCTTCCATTTGTGCTGCCATAAGCATCTTTTGGAAGACTGGTACTTTGTTCAATACTTAT GACCTCCTCACTTACCCTGATTTCCCCAGATGATTACTTTTGACAACTATGGTGTCTCAGGTCATTGTAATCATCGTGAC GTGCACTATGGAGTATGGTAAGTTGAATTATTATTAATACTACTACTGATCAATATTGAAGAACTTTAACTGGAATATTG TTGAGATTAGTACTTATACTGTTTGAGATTTCTTTCACATTGCCCATGACCCATCCATTGCCCCCACCCTTTTGCACAGG CCAGCTGTGTGGTGTTATTTTATGCTTGTTAGGAGTTGATGGTTAAGTTACTTAAAACACTTAATACTTAACTAACCTGG AACAGCTTTTCTAATTCCTATTGAGTTCTTTTTTAAACATACTGAAGTTTTGTTTAAAAGCTCCTGTGCGTTCTTATATC GGTCTTGGTAAAATATGATATTGGTATTTGACTAAACATGCTTCTGATGGTAATTTGTTAATTTTCTGAGCAATCTTGCT GTTTATTGTGCCTTGCTGATTGTTAGAATTATCCTTGTGGATTTCTTTCACAGTTCTTTCAGTCCTCATGTTTGTGTGGT CTCTATCATAGTATCCCAGAAAATGAAACATATGATTTACATGTTTAGATTTTACTCATCAGACAGGCTAATCACACATC ACTCTCTCTCATGCTTGTGCTCTGACACTAAACTTTTTCCGTGTTGTAAGCAGCAAGCTACTGCATGATGCCTTACGAAG AGATGTTGAAGTTTGGGAGCTTGTATGTTTTTGCTTTCCTAATTTTATTCTGTTGTCTTATTTGGCCAATTACTTTATTA GAACTTGTTCAATTGACTTATTCTCTAGTATTTCTTCCTTATTCTCAGATTAGCACCAACATATTACGCAAATATAGTGG TCCTGTTGATATTTGGTTGTCCATGTTTTTGGCCATGCTGCAATCAAATGGAACAATGCAGTGCTTGGTAAATGAGCAAT ATTGTAGGAGCCTTAAAGCTATGGCCCAACACTCCAGCCAGTGGGTGTGGTGTGCTTGCTTCATCTTATTTTTATTTTAA AGCAGTGGACTGAATATATTACACTTGATATCTGTGTGATAGCAGTGTTGTTGATTGCGGATTACGAAAAATATCGGAAA GCCAAAAATCCGCTATGCTAAGCCCTCAAAGCGGAAAAAATAGCGGATAGCGACAAGCCCTTAGAGCGCTATACTATTGC GCTATAGCGCCGCTATATCCGCTATTTGACAACACTGCGTGATAGATATTATTATTTATATACTTCAAATGAAGTTGCCC CAAGAGGCCTTGCACTATAGAATACCTTTTTGGCTTTTTCCCCACCTAAAAATTAATTTCATTTCTGCAGGTTTCGCAAG CTATTTGTTGTGTTATCCAGTTATACCTATATGAACACTCTTAGAAAGATCAAGTGAAGTTACAGTGCTGAAAAGTTGTG GTGAGTCTGAGATTGTGTTTCATTTTCTGCTATCCTGTTTGGCATTTACATGACCGTAAATTGAACTTCAGTCAAGCTAT TCATTAGGTGGAACTGTGGTTCAAGCAACCTTTCATTTTCTCTTGACATGATTGAATGGAATCACTGCTGATCTTCTTCA AATTATGCTAAACGCATATGTTCATTAACAGTGCTCTAAGTTCGTTGGTTATGGCTTATGTAGTTTTCAATTCTTTGTAC TTGTGAAGTAGCACAGTAACTTTTTCCTATTGATATGACTACTGTGGTTGATTGTTTTTCGTTTGCATTACTGTGGTGAG ACGTTTTTTTTAATATTAAATTGGTTTTAAAAGCCTACTTATTGGGCTTAAGCCCAATTAGTTGGTTAACCCATAGCTTA TGATGGATGAAAACGAGGGTTAGTTCTAATATATATATACATGACTAGATCCATTTCTTCCCTTGTACTTTGGCTGCGCA TTCTTCCCACTAAGAGCTCAATAGGGGAGGGGAAGAGGGGGGGAGGGGGAGGAGAAGGAGGGGTTCTCGCTTGTGCATGA CATCTCATTGCTGTTAGATTGTTGCAATAATTGTCATTGTGTCTTCAAGAGGTATGCAATTTTTATTGGTGTTCTAAATT CTATAGTATAGATCTCATATCGGAAATTCTCCATCGCCTAAATTTTGAGAATTTAACTCATCGAATCAGAAATTCTCCAT CGCTCTTGATGGTTATGGCGATATTTGATTGAGTTGAACTTTTCGTATTGTTTTTCAATTAACCTTCAAATTGAGAATTT AATTGAGCGCTTGGGCCCGGCATCTCATTGCAGGTAAATTGTTGCGATAATTGTCATTGTGTCTTCAAGAGGTACGCAAT TTATATTGATTTCATTGGTGTTCTAAATTCTATAGTATAGATCTCAGATCAGAAATTCTCCATCGCTTAAATTTTGAGAA TTTAACTCATCGAATCGGAAATTCTCCATCGCTCTTGTTGGTTATGGTGATATTTGATTGAGTTGAACTTTTCGTATTGT TTTTCAATTAACGTTCAAATTGAGAATTTAATTGAGCGCTTGTGCACAACATCGCATTGCAGGTAAATTGTTGCGATAAT TGTCATTGTGTCTTCAAGAGGTACGCAATTTATATTGATTTCATTGGTGTTCTAAATTCTATAGTATAGATCTCGGATCG ATCAGAAATTCTCCATCACTTAAATTTTGATAATTTAACTCATTGGATCGGAAATTCTCCATCGCTCTTGATGATTATGG TGATATTTTTTGTATTGTTATTCAATTAATGTATTGTTGGTTTTATTCAATTTTGATATGGTTTCGTTTAGTTCAAATTG ATTTTCCTTTGTGTTTTAAGTACAAAGTCTATGCCTTCTTTTAATATATAAATCAAAACTGAATTGAAATATTGAACTTC ACCTTGTGAGTACAACACTTTAGGTTTGTAATATTTTTTTTGTTTCTGGAAACCAAGACACTTGCTTTCTTGAAGAGTTG TATGGTGGCAGAGAAGTCAATTTTTTATGAATGAAAAATATGTATCTTGTTACTTGATTTGTTTGATTGATCGTATAATA TATATACAACTCTTTAATTAATTTGGATATGCATTTTTCACTTCTATCGACATAAAAAATGTTGAATAGATAGCTTGTTA TTTTTCTTGAAAGCTCATGTGATTATTTGATCCATTATTATTTGAGAATCACCAGATATATATTTATATTTATTAAGTAA AATAGAAAATAGAAGGTTGTGATTGAATGATGGTGTAAAACTTTTTACACCGTCGGTGCATAGAAATTAATCTCATTTAT GAAACTTAAGCTGAATTGATAAGTATGTTGAATAAAGGTGGACCCAAGTAACCTAAGGTTTATGATGTATGAAAACTAGG GTTATACTTATAACAATAACCTAGTTTCCATCCATCATTGGCCCTAGGTTACTTGACCCTACACTATAATTCAACCTATG GGCTTAAGCCCAATAAATATAAATATTATATAATTACATGGACTTCTGAAAAAATTGTTAAGTTATCCATTTATTATGTT GATTGGTGGACCTTGCTTTTATGAAACTTGTTGAATAAATAACCGGATACTTTTACTAGAAGCTCATGTGATTATTTGAT CAATTGTTATTTGGAAATCTCCAGGTATAATATTTATATTCATTGGACTTAAGTTTAATTGATAAGTGTGTTGAGTTATC GTGTAGGGTTAAGTAAGGTAAGGTTCGTGATGCATTAATACTTTGATTAATGTTATGCTATGTATATGGTATATAGTATA GCAATTGTCACAGTCTACATCCATAATCGACCTTATCTTACTTGACCCTACATTATAATTCAACATACTTATCAATTGAG CTTAAGCCCAATAAATATGAATGTTATAAATGATGATACTGATAGAAAAAGTAACTACATGGACTTCTGGAAAAAGTGTC AAGTTATTCATTTGTTTATAAAATCAAGATCCATCAATCAACAGAAGCCCACACACAAGAAATTCTAACAAAAAGTCAGG ATAGTATCAAGAATATGTGTCACACATAATTTGTATATATTTATGATGTGTGTTTTTTTTGGTACATCGGAAAATATTTA TGATGTGTTTTTTTTTATATTACAGTTTACATGATAAATAATGAAATTATATTTCTAAACTATTGTAACTTTTATTGGTG TACTTAATATAAAAAGTTACTTCAAGTTTTTGTAACTGAAAAAAGAAACAATGTAATTGTAAATTAAGATAATGGAATGA TGAGGTAGTGACATGATGATAACATTGAGAGTTCAATTTTTCATTTCCATTACTCAATTTTACATTCCTTTTAATGTAGT AATTTCAATATCTCCTGCTTTATTATTTTCCCGTTATTGAAAATCAGGTAGTATATTTTTAGCACGCCGGGATTTAAAAC CCGTTAATGTTGGTTTTTAACCAGGTATTTTGTTTTTTAATATACCGGTTTAAGAAAAGTTGGTAGTACATTTTAACATA CTGGGATTTAAAATTGATCCTGTGTTTTTTTAGAATTTGGATCCTCTCCTGCAGCATTTCTCTCCTGCTCCCTCCTGCAG TATTTTGGACCATTGGATTAATCTAACGGTAAACACTAAATGGGTTTAACAAAACAAAAATACACATGAGCCAGAGCCAG TTCCACCAATACATTGTCCTTGTCGTCGACGGCGTCGAGCCACTCACCCCCTCCTCCTTTGATCGCTACTATGGTCATCT TCGGCGGGGATCTTGTCTGGTTCTCCGGTAACGTTAACGTCGTCTTTCAGCTTCTCTTTTCTGGCGATCATCATCCTCCA CCGCTGCCGCTCCTCAACCACTACCTCCTTATCCTCTGTTCCAACTTCCAAGCACCTTGACTGTTTATCCAAGCTGGCTA GATTCATTATCAGGTTATGTTTTGGGTTTGATGCTGATACCTTGTAGGTGACCCCTTTAGAATTCATATGATCCCCAATT CACCAATTCCAAAATTCATAAGATCCCCAATTCCAGATTCATACCACTGCCATGAAATTTCAATTCAGAGATGTAAGGAG CACACCGATGGCGGAGAAGAAGTGAGAGTGGGGGAAATGGGTGAGGAAGAAACTGTTGGGATGATGTGACAGTGATAGTA GGCGAAGAGGGGGAGAGCTGGATTTGGAACCCCAACCCTTAGATTTCACACCCCCAATTTTCGGATTTTTGGGTTCCGAA TTATTTCGGAATCTTATATTCCGAAATTAATTCATGATTTGTAGTGCAAAATACATGTAACATCTCACTTTTGAGTGAAA AAATACTTCGGAAACCTTATTTCCGAAATATTTCGGAAACTAAGTTTCCGAAAGTGGGGTGACATTTCTAATGAGTGGGG TGTCAAATCTAGCACTCGAAGAGGGGGTGAGATGTCGTGTTCATGCCGGAGAAGACAATGTTTTATTTGATTAATTAAAT CTATTTAATATTTTCTGATTATTTTAATGTGTGACATCTGAACCGTTGGGTTCATCCAATGGTGCAAAATGTTGCACGAG GGAGATGGAGAGAGCATAGTGCTGGAGAGGATCCGGATTCGTTTTTTTTTTACCTACAGAGACTTAAAGTGTATTTTTAA TGTAGCGTATTCTTAGTAGACCCGGATTTAAAACTCAGTATGTGCTTCGATTTTCAGGAAAAAAAAAATCCTATATGTAG TGTTGGACTTTTAGTTGCCATTATTCAAGGAATGAGAAAACCAAGACTTCTTGTGACCAAATTTTGAGCTTCTGATATCC ACGCATTGTCTTTGATCAAGACATTTTGCTACCTTCCTTTCCCATTTAATGGGTGTCATATATCGATCATCACATAGTGC TTCGTGGCGCAACATTGTTCTGGGACTTCAAAATGCATTAGATGAAGTAGGAAGAGACTTTGACCTTCGTAAACTTCTAA CAAATCCTTCCTTCCAACCATCCTTGCAGGTTTATCATTGCTAGAAAGTTTATCGTGAAAACTTTTCTCAAAAGAGATGT TGTCGACATTAGCGCCTTTTATCTCCTTGTTAGGGACAACAAGCATTTTAGCTAGTGTACTGCTTTTGCAGATGGATTGG CCTTGTTTAGACTTGAGGGACATTTTCCACCTCTACGATAATCCCTTATTTTCCTCCCTACCGGGTTTTAAATCCTACGC ATATCAGATTTTAAATCCATGTATGTTAAGAAAATATTACATTAAAAATACATAACTGAATTTTAAAAAAAAAGACTAGA GTGAAAATTAGGATTTAAAATTTCAAGTGTATTTTCAATGTAGTGTTTTTTTTAAGATACCAAGATTTAAAACTCCGTAT GTGTTTTGTTTAGGATTTAAACCTGGTAGAGAGGCAAAGAAGAGATTGTCATGTGGAGGTGGAAAATACCCCATAAGTCT CAAACAAGACCAATTCATCCGCAGAAGCAGCAGGCAAGGTCAAATGCTTGCTTTCCCGGACAAGGAAATAAAAAGCACTA ATGGTGACAACATCTCTTGTCTAAAAAGTTTCCGTGATAAACTTCCTAGCAATGATGACTTGCAGCAAGAATTGGAAGGA AGTATTTATTGGAACTTTATGAAGATCGATGTCTCTTCCTGCTTTATCTACTGCATTTTGAGTCCCATAACAATCTTGCG CCATAATTGTGATGATCCATATATGACACCCATTAAATGAGAAAGGAAGAAGGCAACAAAATGTTTTGATCAAACACAGT GCGTGAATACGAGAAGCTCAAAATTTGGCACAAGAAGACTTGGTCTTCTCATTCCTCAAAAAAGATTACATGCTATGAAT TTTTTTTTCCCAAATAACAAATATGCTAAGAAAACGCTACATTATAA

Download Genomic Sequence

CDS sequence (LotjaGi6g1v0005800.4) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCCTTCATTCTGATAATTACTCCGCTCATTTTATTGTGGATCATTTCCCTATGCAAAATTCTCCTTCTCTCACGGAT CCCTTTCAATAAACATTTTACACAAAATGGTAGAGCTCTTCGGAAGAGAAATGTCTTGTTGGTTATTGCTCACCCCGATG ATGAATCCATGTTCTTCACCCCAACGATAAATTTTCTGACTTCAAGAGGGCATAATGTTCAAATACTTTGCTTATCAATT GGTGATGCAGATGGCAAAGGAAACATCAGAAAACAAGAGCTTTTTCAGGCTTGTGTAGCCCTCAAGATTACGATGCAACA AGTGAAGATTGTCAATCATCCAGAACTGCAGGATGGCTTTGGTAAAGTTTGGAATCATAGCTTATTGGCAAAGTTCATTG AGGATGAAATAACTAGTCACTGCATTGATATGATGATTACTTTTGACAACTATGGTGTCTCAGGTCATTGTAATCATCGT GACGTGCACTATGGAGTATGCAAGCTACTGCATGATGCCTTACGAAGAGATGTTGAAGTTTGGGAGCTTATTAGCACCAA CATATTACGCAAATATAGTGGTCCTGTTGATATTTGGTTGTCCATGTTTTTGGCCATGCTGCAATCAAATGGAACAATGC AGTGCTTGGTAAATGAGCAATATTGTAGGAGCCTTAAAGCTATGGCCCAACACTCCAGCCAGTGGGTGTGGTGTGCTTGC TTCATCTTATTTTTATTTTAA

Download CDS Sequence

Protein sequence (LotjaGi6g1v0005800.4) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAFILIITPLILLWIISLCKILLLSRIPFNKHFTQNGRALRKRNVLLVIAHPDDESMFFTPTINFLTSRGHNVQILCLSI GDADGKGNIRKQELFQACVALKITMQQVKIVNHPELQDGFGKVWNHSLLAKFIEDEITSHCIDMMITFDNYGVSGHCNHR DVHYGVCKLLHDALRRDVEVWELISTNILRKYSGPVDIWLSMFLAMLQSNGTMQCLVNEQYCRSLKAMAQHSSQWVWCAC FILFLF

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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	SIGNAL_PEPTIDE View details on SIGNAL_PEPTIDE Search for proteins/transripts with this domain	1	19	19	-	–
Phobius	SIGNAL_PEPTIDE_N_REGION View details on SIGNAL_PEPTIDE_N_REGION Search for proteins/transripts with this domain	1	3	3	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	2	24	23	-	–
Phobius	SIGNAL_PEPTIDE_H_REGION View details on SIGNAL_PEPTIDE_H_REGION Search for proteins/transripts with this domain	4	15	12	-	–
PANTHER	PTHR12993 View details on PTHR12993 Search for proteins/transripts with this domain View external data on PTHR12993	5	238	234	1.6E-95	IPR003737 Show description in modal box View details on IPR003737 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR12993:SF11 View details on PTHR12993:SF11 Search for proteins/transripts with this domain View external data on PTHR12993:SF11	5	238	234	1.6E-95	IPR039516 Show description in modal box View details on IPR039516 Search for proteins/transripts with this domain View on EBI InterPro Service
Phobius	SIGNAL_PEPTIDE_C_REGION View details on SIGNAL_PEPTIDE_C_REGION Search for proteins/transripts with this domain	16	19	4	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	20	246	227	-	–
Gene3D	G3DSA:3.40.50.10320 View details on G3DSA:3.40.50.10320 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.10320	24	239	216	1.6E-18	IPR024078 Show description in modal box View details on IPR024078 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF102588 View details on SSF102588 Search for proteins/transripts with this domain View external data on SSF102588	42	243	202	5.49E-43	IPR024078 Show description in modal box View details on IPR024078 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02585 View details on PF02585 Search for proteins/transripts with this domain View external data on PF02585	46	166	121	2.2E-22	IPR003737 Show description in modal box View details on IPR003737 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:0000225 View details of GO:0000225 AmiGO InterPro QuickGO	Molecular function	N-acetylglucosaminylphosphatidylinositol deacetylase activity	Catalysis of the reaction: N-acetyl-D-glucosaminylphosphatidylinositol + H2O = D-glucosaminylphosphatidylinositol + acetate. This reaction is the second step of the biosynthesis of glycosylphosphatidylinositol (GPI), used to anchor various eukaryotic proteins to the cell-surface membrane.	Subterm of View details of GO:0016811 View details of GO:0019213
GO:0006506 View details of GO:0006506 AmiGO InterPro QuickGO	Biological process	GPI anchor biosynthetic process	The chemical reactions and pathways resulting in the formation of a glycosylphosphatidylinositol (GPI) anchor that attaches some membrane proteins to the lipid bilayer of the cell membrane. The phosphatidylinositol group is linked via the C-6 hydroxyl residue of inositol to a carbohydrate chain which is itself linked to the protein via an ethanolamine phosphate group, its amino group forming an amide linkage with the C-terminal carboxyl of the protein. Some GPI anchors have variants on this canonical linkage.	Subterm of View details of GO:0006497 View details of GO:0006505 View details of GO:0006661 View details of GO:0009247

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Expression data

Expression pattern

Expression pattern of LotjaGi6g1v0005800.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi6g1v0005800.4