Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0302800
Transcript ID	LotjaGi4g1v0302800.1
Related isoforms 3	LotjaGi4g1v0302800.2 LotjaGi4g1v0302800.3 LotjaGi4g1v0302800.4
Lotus japonicus genome version	Gifu v1.2
Description	Homogentisate phytyltransferase; TAIR: AT2G18950.1 homogentisate phytyltransferase 1; Swiss-Prot: sp\|Q8VWJ1\|HPT1_ARATH Homogentisate phytyltransferase 1, chloroplastic; TrEMBL-Plants: tr\|G7JUD9\|G7JUD9_MEDTR Homogentisate phytyltransferase; Found in the gene: LotjaGi4g1v0302800
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:67764957..67777094) extracted from Lotus japonicus Gifu genome v1.2.

CACCATATATAAATTTCACTTGAATTAATATCGTCACTCTTCATCTATTTAATGCTTATATATAGTTTACGAATTCCGAT GTCATGTGTTTCTGTCAAAGCTGAACATTGGCGCTTTATGATATTGACCAGAATAGACAAACAAAGGAGCAACGTGTGCT AGCGAATGCTCTGAAAAATCTATTCTGGTTTCTTCCTCTTCAGGTGAGTTTGTGAAGCGAAGCATAGTCAATGCTCTTGC AATTGCATGCCATTGCCCCTCAACACTGAATACATAGCCATGGATTCTATGCTTGTTGGATCTTCAACCACCACTGGTAT CTCAATCTGGGTTTTCTAATTTGCTTCCATTTTTCATTGCATTATTGTTTGATTGCTGATTATTAACACGATAATCTATT GCCAGTGGTAGGTGGAAATCGCTGGCAGACCAAAAATTGCATCAACAATCACACTGAAAGTGGGTCTCTCATTTCACTAC TGCATTTAGCTAATCATTTCATTGTGGATTGATTCAACAATTTCACTATTGTTTGTATTACTTGTATTGTACTGACACTC ACCATTTGGTGTTTTTCTAGGTTCTAATGCACCAAGAGCTTCTTGGCTCAAATGGAATATTCCAAAAGAATACAACCTTT TGAGGCTCCGGCGGCTGAGTCTGAACCATCAGTCCAAAGGCATTGGAGGAGGGTCTATGTATCAAGAATGCAATAGGAAA TATGTTGTGAAAGCAGCCCCTGGAAAATCTTTTGAATCTGAACCTGATGCTTTAGATCCCAAAGATGTTTTGGGCAGTGT CAAAAATTCCTTGGATGCTTTCTACAGGTTTTCTAGGCCACACACAGTTATTGGCACAGTTAAGTTCAATCTATTCTAGA GTTACTTTCAGAACTAATCCTCAATTGTTAATTTGTTATGGTTAATTAAAACTTATACAAATTAGCTGTGTGAACCACTT TTTTGGATAATCATGATGTTCTGAATGATTTAAAAGGGCCAATTTTATCTTTGTTTGGGCAGGCATTGAGCATAATTTCT GTGTCTCTCCTTGCAGTGGAGAGATTATCAGATGTATCTCCACTATTTTTTACTGGTCTGTTAGAGGTGAGACCCTAAAT ATGTTATTTTTCTTTGAGTAGCCATTGCTTTCCTCTCTTCTACTAGATTCTTTAATACTTTTTGGGCTTTTGGTGTTTCA GGCTGTGGTAGCTGCCCTGTTTATGAATATCTACATTGTTGGTCTGAATCAATTGTCTGATGTTGAAATAGACAAGGTAT GAAACTTGCTATTTCTATGTAACACATATGAACTATTTTTTGTGTCATTTGATCATCTGAATTGTTCCAGTAAAAAAAAA GTTGTCTCATTTATCTAAAGTTTGATATTCAGAAACATATAAACATATACAGACTAGGTGTATACAAGAGTCTTTGCTAA CACACAACAATTTGACTAGTTTATATTATTCTGACCACCAAACTCTGGTTTATATATTAGTTTATCAAGCTTGCCCAGTT ATTGTAGCCTCTGATGTGGTCAAGAAAGCATGCAACCTTATAATTTACAATATTTTCTGGGGAACTTCCTTATGGGTTGT CTTATTATTGATCTGTGCCACATGTTTTACTGCAGATAACTTCCTTATGGGTTGTCTTATTATTGATCTGTGCCACATGT TTTACTGCAGATAAACAAGCCATATCTTCCATTGGCATCTGGGGAATATTCCTTTAACACTGGTGTCATTATTGTTGCAT CTTTTTCAATTCTGGTGATATAGATTCATCCATTATACTTTTCGAGATGAACCTAATTGACAGCGTAGAAAGAGGCTTAT TGTTTATGCTCTTTTACAGAGTTTTTGGCTTGGCTGGGTTGTTGGTTCATGGCCATTGTTCTGGGCTCTTTTCATCAGTT TTATGCTAGGAACTGCTTATTCAATCGATGTGAGTTCTTTTGGATTGCATATAAACTTTCTTTCACCCCTCATATTATTT AAGACATAATCATGTAACAGTTATGATACAATGTCTTCATTTAAAAAATTTACATGAGCAGAATCATACTTGTTCAGGAC TCAGCAGGGTACATGTATTGTAAAATCTCATGGCATTAAATGTGAAGTAATATCCTTTCCTTTTATTTTTCCTTGTAGGT AGAAAACTAATTGAGTTGAAGGTGTGATTTAAGAGTACATAATGTGTTACACTAGGATGTAATAGGTTTGTTATAACGTG AGATTCATATTTTAGCAATAACAATTAATTCAAGTAGTAAATTCTTAATAGATTGATAACAAACTAACTGTATTATTTGA TTTTGATTTTGCTCAGGTAAAATATTTTATATTTTTTCTTGTTTTGAGTACTACTCAATTTATTCCCACATGTATTATCT GATAGATTTTACTCTACCCGTGTTTAAGCTTGCAGGCCAACAGATATTGTACTTTTGAAAACTGTAACAAATCACCTATC CTCAAAGCTTAAACTATTAGGTAAAGATAAATGAATGATTTGTCATATCCATCCCTAACATGCTATTTCATGCAAGAGCC CTTTGGGCTTAGAGCAAGGACAATGTACTGGTCCGCTTATGTTGTGCTGAAGCAACTTTTCACTAGAAGAGGGGGGTGGC AAGGATCAAACCTAGATCACTCAGTCATAGGGCCCTAATACCATATCATAAGTCAACTATCCCAAAAACTTAAGCTATTT GATAAAGACTCATAAATGGTTTTACAATATATCTCTAACAAAGACACTCATAAGTAAAGCCTCATTACGAAAAGTTATTT GATGGTGATGGCTGCGTTTTCGCAACTTTTTGTGTCTTGAAAAATTTCAGGTTCCCTGGTTGAGATGGAAAAGATTTGCA GTGGTTGCGGCAATGTGCATTCTGGCTGTTCGGGCAGTTATAGTTCAACTTGCATTTTTCCTTCACATGCAGGTTATGTC CTATAGCTAACGGTCTTTTTTTAAGCCTTCTAGTGCTGGATGAGCATGTATTAGCTTTTTTACGTATAACAGCAATTGCA AATCTTTATCCTGAGTTTAATGTATTAATTAATACTGAATAACCCTCCAATAGTATTAATTAAAGTAAGGAATATAAAGG GAAAATAAAATAAAAGGAACAGTTGCATCTCAACAATAGTAGAGTTGGTAACATGGTGTCTGGTTAGTGTAGTTTAACTT TCCGTTCAACAAATTTATCATCCCAGAAGTCTGATATTTTTTGGTTGCTAATGCATGTAATAATGTACAGACATTTGTAT TCAAGAGACCGGCTCTCTTTTCAAGACCACTGATTTTTGCTACTGCATTCATGAGCTTCTTCTCTGTAGTTATAGCATTG TTCAAGGTAAAGGCCTCTAATTTCTTAGAATATGTGTTTGTTTTCAAAATCAAATATCTGGTTCAAATTCAATATGTGTA CCTAATCTAAATCTTCTACTGGCTTTACATAGGATATACCTGACATAGATGGTGATAAAATATTTGGCATCCAATCTTTT TCAGTACGTTTAGGTCAGAAGCGGGTATGTTCTTCAAATGCAACATCTCAACAGAATTAGTTGTACCATCCTGTGTATCC CTGGTGTTCCTAACTAATCTTTGCCAGGTATTCTGGATTTGTGTTGCCCTTCTTGAAATGGCTTATGGAGTCGCCCTCGT GGTGGGAGCAGCATCTCCTTGCCTATGGAGTAAAATCGTCACGGTAATATGCTAATTCGTTATTGTATGTATAGGCTGCT TATCCTTCTTCCACTCAAGTTATTTGTTATGCAGCGGGGGGGATGGGGTTGTTATTTCAATTAACAACTATTAGAATGTA TTAAAAATATGTTATAATATCTTGATCATATTTTGTTGTAATTTAAAATAATTTAGATTATTTTTTAGGATCGGATAAAA CACCTAATTTCATGATAGGAACTAATATCTTTATTGCTGAAAATAGGGAAATCCTCCCTTGATTACATATCCAAGTAGCA GAACATAGAGGGTCTGCCGAGCCTCTTAATGCCCAAAGGCCCTATAATTTCTCAAATGACTAGATACCCCTCCCTCTCAA CCCCTCTTCCTATTTATAAGCAACACGTCTCGCATCTAACCGGCTAACTAACTATTATTCTATTAACTGACCATACCTAT GATATCATGTGTTACTGTTTTATTTAGTTAAGATTAGGCATTTTATCTTATGTAACACATCCTTCATATCAATATCAATA TAAAGTACTGCTTTTTTACTGTATATTGGTTTCTTAATATCAGCATTTTGCAATGCTTTTATTCACAAATATCTCTGGAA GAACTGAAGGTCCTTTGGTATAAAGTACTGTAGTGCTGCAGACTCCTTTTTGTTCACTATAATGTGGTAGATAACGAGAT ATTTATACTGAAATAGGAGATATCTCCCTAGAAATGCTGTCTGCTGCATAGAATGTTCCAACTTTATAATCTTGATATTA ATGTTAAAGCTATAAATTGATCTTTAAAGGTGGCATTGTTTCAGGAGAAAGCTTAGGTCTATTGTTTTACAGATCGATAT CATGTGCATGTAAACTTGTTTAAACATTCCAGCATTGTTTGAAATTGATTCTGTGCGAATATTGTAGGGTTTGGGACACG CTGTTCTTGCTGCAATTCTCTTTTATCGTGCCAAATCTGTAGATTTGAGAAGTAAAGCTTCCATCACATCCTTCTACATG TTTATCTGGAAGGTATTCATCAACCTTAATTACTATTTACCATTTGAGAAGTTCAACATTAAGGCCATTATTCAAAAGAA ATATCTGATTACTTTCCCCTTGTTTTGAGAAAGAATAGTAGTTTGATTTCTAGACACTTCCAAGTTGCAATTGAAATGCA AAAAACAGTGGTATACTAGCTACAGTGAAATTATTTTTGTGAACGTGAATTTCTTCGACTAAGATGATGTACCTAATTAT AGATTGGTCTAGTTTTATCTTCTGGTGAATTATAAAACACCGTTAAAAGTGCAGATTTTTTTTGGGTAAGTAAATAGGAA AATAAGAGGATATCTGTATATTTATTCAAATTTTTTGCAAGATATCCAGTCTTTTCACATATAAAGTGGAACATGACCTT GTATTGATGTCTTGTTTCTTATTGCAGCTATTTTACGCAGAGTACTTGCTCATACCTTTGGTTAGATGAGGATGCAGCAG CAATGTTGACTTGAGAATAAGTTTTGTTTGAATAGTGCTACATTTTTCACAGGCCAGCTTTGAGTCTCTACATTAGCCGT AGTTTAAAGTTTTTAATTGAAATTGTAAATGAAGAATTATTTTCTTTTAGGATGGATTTTTCTTAATTGGCTGTCAGGGG TTTCTCCAATGTTTTTTCTTTTCTTTTCAAAAAGCCTATTACTGAAAAAATGAAATAACTGAAAAACTCGTGATTCAAGC ATTATTATTACTCTCTTTAAATTTTGGGCAGTCTAACAGCTCTTCATTTTCATCCTATGTATACATAGAAATTGGACAGC TCTCTTCTGTAAGCCCAAACTTGGAGAAATACTTATTTAAACATTTTAGCATGATTGTATTGTTTGACCAAAAAAAAAAA AGCATGATTGTATTGTACCTATTCTAATAGAGGAAACATGAGAAGAATAATAATAAAGAAGGTATTAGAGTTTTAGTTAG AAAGTGTGTGTAGTTTTGTTCGATTTGTCTCTGTTCATATAAGAAAAAGGTTGGAGTGTCCTAGGTTGTGTCAAGGTCGC TCGGAATCTAGGTTCAACGCAGGTTACTGTGAGCCCTCCAATTGTCTTAGTTGAATGCAACTTCCCACAATCGAGGGAAT GATTGATCTTAGTTCTATCGTCTGCTATGTTCCTCCTCGAGCGTGCCATTCTATTATAGGCAGAGGATTGTTTACCTTGT GAGATTCGAGCATGAAAGACGATGTAAGGTGGCTCGAATATTTTCAAATAAGTCATCTTACTTGGAAAAGTCGACGGGTG CCATAGGTGCAGAGGCCGGCCTAGGTTGTGGCAAATGGGGCAGTCGCCCCAAAGAGAAAAACTTCCATTTGTATAATAAT AGTATTCAAACGCTAAATCCGACTTCCTAAAAAAATTAGATTGTCTCTTTCAACTAGTGATGATTGATTTTATTTAATGT GTTAAATTTTCACTCCTTTCATTTTTTTTCTTGGATCTACCCGTGCATGAGTCTCTCAACTTGTTGAGTCGTGTCCTAGC ATATGGCATAGACCATCTGCCAAGGCAAACTCCTCAGGTCGTTCTGTGACATGGTGTTGCCATGTACTATGACAAATGTT ATCGGGTTGGTCTATGCTAGTGATACTCAGCCTCTACACATTGGGTCGATCATGCCATTTACTAGGATAAATGTCATCAG GTTAACCACTATTGATAATTCTCAAAAACATTAATTAGTAGTAGACTCCTTTTTTGGTTGCATTAATGTATCTCCATAGT TGATAGCTGTGAGACTAATCTCCTTAAGATTATGATATCGCATGAAGTGAGTATGTCTCTCACATTTAGCCGCAGTCCTT GAATTATGATTTAGGGTGTTTTTTTTTTAAAGAATTAATAAAATATTTGTTTGATCTGTTTTTTATATTTTTAATAAATA GTTATTTAATTAAACTTATAGTAATAAACATCATAAATGCTGGCCAAACATCAACAGCAACGACGTCGTATCATATATCA GTTACAAACACACACTCGTATAGTAGTGCAAACTGCAAAGTCATAAACCCTAGTTACTGTTTTGTCTCATTTCATCTGCG TTGCCGTTCACTGTTCTGACGATGGAACCTCCCTCATCGGAGCCTGCAGCTTCCGGCGCCGGCGAAAACCTCAGCAAAAA GTGAGTGTTCTTCATCAATGCTTCCGCTTTCGCATTGGCTCAATCTGAATTCACATTTCATTCATTCATTGCTTCATTTC CTTTTGCGTGCAGTGCATTGAAGCGGGAACTCAAGAACAAGCAGAGAGAAGAGGAGAGAAAGCGCAAGGAGGAAGAAAAG GCCAAAAAGGTAATTAATTCTACTTTCTTCCCTCCATTTTCTTCTCTTGGTCTTAAATCCTAATGGTGTGCAATTTAAAT GTCAATGCAATTCTTTTGCTTTTTTAGGCTGCTGAACTGCAACGTGCTCAATCTAACAAACCTGCTTCTGCCGATGACGA TGATATGGACCCAACGGTTAGTTCCTCTGCTGTCATTGTAATGATTTTCAGTTGTGATTTCACTCTATGCAGTAACTGAT AATTTGGTTTAACTTACTGCAGCAATACCATGAGAACAGGCTTAAGTATCTTGCTGCCCACAAGGCGGAAGGGAATAACC CGTACCCGCACAAATTCGCGGTCTCTATGTCCATTGAGCAATACATCAGCAAATATGGAGGGTTGAGCGATGGGGAGCAC GTTGAAGATGTCTCTGTGTCTTTGGCTGGTACTCAACGATTTCTGTTTTGACTTTTGACCTTTTTTGGGGGCAGGGGTGA ATTTCGTTATGTTGCTGTTTTATATGTTGATTGTAGTTTTCTTTCTCTGCTGCAGGCCGAATTATGCACAAACGTACTTC GGGTGCAAAGCTTGTCTTTTATGATCTTCATGGTGGTGGCCTCAAGGTTCAGGTTATGGCTGATGCAAGGTACCCAAAAG TTGCTACTTTTATCTTTACTGCCAATATAGGAGAATCATAACAAAAGATATAACATTGTACTGTCGTGTTCTGTGGTATC CTATTCCCTTCTTACATTGGTGGTCTAACTAAGTTAAGGGTAGCTGTGTGGTTTTCCAGCAAATATAGATCCTATATATG TTTTTCCTTTATATTTTTCTTTCATAGGACTAAAGCAAGTTATATCTCTCGGGTGCAGTAAATCTGATTTGGGTGAGGTT GAGTTTTCCAAATTCCATTCTAATGTGAAGCGTGGGGATATTGTTGGTATCACTGGATTTCCAGGTTTGAGATGTTACTC ACTTTTTAGTTTGTTCTAATATTCATTTTCTTGACTTTATTTCCTTATAGGGCGGTCTTTCTTTCACTTAAAATCCAATC TCCCTTGTTCTTCTATCCGATCATTTAGACTATAAGTGCTTGTAATGAGGTGAATAACAGTTGCTGTACATATGTTAACC CTTTTTTTCCCCTGTTCAATTGTTTAGGGAAAAGTAAGAAAGGGGAGCTTAGTATTTTCCCCAAGACTTTTGTAGTGCTG TCTCATTGTTTACATATGATGCCAAGGGCAAAGTCTGCTGCTGCTGCTGCTGATAATGCAAATTTGAAGGTGAAATTTAT TTCTGTTGGTGATTGATTGATGCTGTTTAAACTTCATGCATAATGGCATTGTTATTTCATTTATTATCTGTAGAAAAGCG CATGGATCCCAGGAAGTACCAGGAATCCTGAAACATACATTTTGAAGGATCAGGTATTATTGGCATGAAATCTACTTTGA TAAAATTTTTCATTTTTCTTGATTATTTTTGCAAAATCTTTTGTGCAATATACTATCTTATGTTTTAGGAACTATTTTTT AGCAGATAGTAATTAGGTGGAAATACTGGTGTTACTAAGAGAAAGTGTTAGTGTGCATGCAGTATACCTTCATCCTTTTG TGTCCGGGGATAGGGATAAGGAACGAGTTGAGTTAGATGATATTGGCCACTATCTCTCACTATTCTCTTGTGTGATTGGC TTTCATTTTCCTATTTGCCTTGCAAAAAAGAAGTTTTTGTTATTCATGAGAGCATGGATGTTTTCATGTCAAGTTTAATA ATTGAGCTTAAAGTCTTGAACTAAGACAGACAGCTCTAACTTTTTCTCAATATTATACTAGGATCTTCCCAAGTTTACAC ATTGCTTTCTATTAAAAATCTAACAGAAAACTCCTATTTTTACTCCTAAATGAGTATTCTCAATCATATTCTTCAACGAA CCATTCATCAATAGCAGGAACATTTCCCCTCCCCTGCCATTTTGGCTTTTGATGGGAAAACACCTCTCTAATTAAGAATG GTGGGTTTTGATGTGAGGTGGGAGAGAGGGATTTCATATCTTCTGTGTTCTTTCAGTTAAGTATATCACTCATCTACTAA CAGTGGTACTTTTATCTTCCGGTCTAATTTTCTTTCTTAGGAAACAAGGTATCGTTTACGCCATTTGGATTTGATGTTGA ATCCAGAGGTTCGAGAGATATTTAAGACCAGATGTAAAATCATCTCTTACATCAGGAGGTTCCTTGATGACCTTGATTTT TTGGAGGTTTGTACCAATGTTGAAGTATGATGATGCCAGCTGCCTTAAGTTTCTTTCCTTCCGTTCACATACTGTTTTCC CTGCTTTCAGGTTGAAACACCTATGATGAACATGATTGCTGGTGGAGCAGCAGCCCGTCCATTCGTTACTCATCACAATG ATCTTAACATGAGGTTGTACATGAGAATTGCTCCAGAACTTTATCTTAAGGAGCTTGTTGTTGGTGGGCTGGATCGTGTA TATGAAATTGGTAAACAGTTTAGAAATGAGGGTATAGATTTGACACATAATCCTGAGTTCACTACCTGCGAGTTTTATAT GGCTTATATGGACTACAACGACTTAATGGAGATAACAGAACAAATGTTGAGTGGTAGGAAGTTTTAAGGTCTTTTGATTG CTATCTTATTTTTCTTATTTTATCTTCATGTTTTTATCCTCTTCGGAGTCATCTAGTTAATCTCTTGATGGGAAAAATTT AAATAGGCATGGTTAAGGAACTCACAAAAGGAAGCTACAAAATCAAGTATCATGCAGAGGGGATTGATAAGGATCCTATT GAAATAGACTTCACTCCACCCTTCAGGTGTGGTTTAAATTTGCTCATCAACGGTGGTGGTTCTAAACTCTATTATATTTG AAATGATTCATTTTGGGTTTTTGATTGTTACAGAAGGATTGATATGATTGAGGAACTAGAGAAAATGGCAGGCCTCAGTA TTCCCAAGGACTTGTCTAGTGAGGAAACTAATCAATATCTGAAGAATGCTTGCTTGAAGTATGACATCAAATGCCCTCCC CCTGAAACAACCACTCGCTTGCTGGATAAAGTAATCTACTTTCTTTTTTGGCTTATAATATTCTTTATTTTCAATTTTTC CTGCTTTGCTATAGCAGATTGTAGCTTCTTTTTCCTTGTTGAAATGTTGCAAAAGTTTTAATTGATTCATAGGGTGATTA ACTAATATGAACATAAAGAGTTCAAAAATTGGATAAAATTTGGTATGATCTGCTGTACTTCATATAGAAATGGAAATCTG GTTCTAGTTGGCAAAGAGGGCAGAGACTATTTTTTCTGTCAGGAGGGGGGAGGGGAGGAGTTAAGATAATCGATTTTCTA GTCTTGATGATAAACAAATAACCACTCCACTAATATAGCTCAAATATCCAGTTATGAGCTCATTCTGTTAAAATGAGTTG GAATTATTCCTATGGGAAAGGTGGCTGCAAATTGAGTGATGACTGGATGCAGCTCTCACACTTTTTTGCAGTTGTATATT TGGATAGCACTTAGAACTTAATTATGATCATCTGCTTGAAATGCTTTAAATTCGAGTTCATCTGGATCTTCATTTTTCTT GTATATTGCAGCTTGTAGGGCACTTTTTGGAAGAAACGTGTGTGAATCCTACATTCATCATAAACCATCCTGAGATAATG AGTCCTTTGGCGAAGTGGCACAGATCAAAACCAGGCTTGACAGAACGCTTTGAATTGTTTGTTAATAAGCATGAAGTAAG TTCATGAAACTTAGTTGATTAATATTAAAACCCAAAAAAAAAAACTTCCTTATTCTTATCACTGTTTTTGATACTTTTCA GCTTTGCAATGCATACACTGAATTGAATGACCCTGTAGTACAACGTCAGAGATTTGCTGAACAACTCAAGGTAAAGAGAT ATGATTTAACTATTAACTTACTCAATTGATTCCCTGCTCAAATTATTTTTAATGCATGACGAGTAAGTGGTGTGTGCTCC TTCATGACAGGATCGGCAATCAGGCGATGATGAAGCAATGGCCTTAGACGAAACATTTTGTACAGCTCTAGAGTATGGTC TGCCACCAACTGGGGGTTGGGGTTTGGGTATTGATCGGCTGACGATGATACTGACTGATTCTCAGAATATTAAGGTTCTT CGCTTCTCTGTTACTCTTCATGCTCACTTTGTTTTTGCAACTTCTAACAATTTTCGTTCCTTTTGGGTGACAGGAAGTAC TTCTCTTCCCTGCCATGAAACCTCAAGATTGATCCTTCAACTAAACGCAGGTGTAGAAAAGTGATTTGTTCAGATATGTT GCTCATGTTGGTTTTCTGATATAAATCCATTTTTCCTCGAGGTCGATAGGTTCATATTTCTTCCCTACGTTGTTTTCAGA AACTTGAGAAATTCAAAATGACCAGGGGGGAATTATTTTATTATTAATTTGACTAGTAGTTTGCCATTGCTGGTCCCTTT AAGAAAAGGGTTGGTTGGAGGGGTTCTTTCTTCTGATGACTTTACCATTGTAACTTCACTACCAGCTCATTTTTCATGTT TCAGATTGCAGTTGAAATTTCCATACCGGTTTTTGAGCATATCCAAAACATGTGAAAATATTTGAGTAGGCGAAATGGTG TTTCACTAGTTGGGTTGGTTTGGTTTCACTCATGCAACCTATGTGAAAAAGATGCAAGCATCCTATAGATGCTCATTCAA GTTTTCTTATTGTCATTAAAATCTTTTAGAAATTGATAAGCATATTTTTGCCGTTAAAAGCTTTGAAAAATTCAATTTAA TTAGGATCAGATTTCAAGTTTTTCTTTTTTCTAAAGTCTGATGGAGGTTAAGAGAAAGAGAAGTGGCAATAGTTGACAAA GGTTGGAGAAAAAAAAAACAAGTGTTGGCATAACTCAAACATGGACCTCTAAAGTTGTGTGTGGGTCTATCTCCGGCCCA GAGTCCCCACACTAACTACTAAGAAGCAAAAATGTGAACATGGACCGTATGCATATAATTGACCAAAAAAAAAACGTATG CATATATAAATATAGTAATTGACCAAAAATTACGTAGAGAAGAATGATACTATTTGAC

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0302800.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCCATTGCCCCTCAACACTGAATACATAGCCATGGATTCTATGCTTGTTGGATCTTCAACCACCACTGTGGTAGGTGG AAATCGCTGGCAGACCAAAAATTGCATCAACAATCACACTGAAAGTTCTAATGCACCAAGAGCTTCTTGGCTCAAATGGA ATATTCCAAAAGAATACAACCTTTTGAGGCTCCGGCGGCTGAGTCTGAACCATCAGTCCAAAGGCATTGGAGGAGGGTCT ATGTATCAAGAATGCAATAGGAAATATGTTGTGAAAGCAGCCCCTGGAAAATCTTTTGAATCTGAACCTGATGCTTTAGA TCCCAAAGATGTTTTGGGCAGTGTCAAAAATTCCTTGGATGCTTTCTACAGGTTTTCTAGGCCACACACAGTTATTGGCA CAGCATTGAGCATAATTTCTGTGTCTCTCCTTGCAGTGGAGAGATTATCAGATGTATCTCCACTATTTTTTACTGGTCTG TTAGAGGCTGTGGTAGCTGCCCTGTTTATGAATATCTACATTGTTGGTCTGAATCAATTGTCTGATGTTGAAATAGACAA GATAAACAAGCCATATCTTCCATTGGCATCTGGGGAATATTCCTTTAACACTGGTGTCATTATTGTTGCATCTTTTTCAA TTCTGAGTTTTTGGCTTGGCTGGGTTGTTGGTTCATGGCCATTGTTCTGGGCTCTTTTCATCAGTTTTATGCTAGGAACT GCTTATTCAATCGATGTTCCCTGGTTGAGATGGAAAAGATTTGCAGTGGTTGCGGCAATGTGCATTCTGGCTGTTCGGGC AGTTATAGTTCAACTTGCATTTTTCCTTCACATGCAGACATTTGTATTCAAGAGACCGGCTCTCTTTTCAAGACCACTGA TTTTTGCTACTGCATTCATGAGCTTCTTCTCTGTAGTTATAGCATTGTTCAAGGATATACCTGACATAGATGGTGATAAA ATATTTGGCATCCAATCTTTTTCAGTACGTTTAGGTCAGAAGCGGGTATTCTGGATTTGTGTTGCCCTTCTTGAAATGGC TTATGGAGTCGCCCTCGTGGTGGGAGCAGCATCTCCTTGCCTATGGAGTAAAATCGTCACGGGTTTGGGACACGCTGTTC TTGCTGCAATTCTCTTTTATCGTGCCAAATCTGTAGATTTGAGAAGTAAAGCTTCCATCACATCCTTCTACATGTTTATC TGGAAGCTATTTTACGCAGAGTACTTGCTCATACCTTTGGTTAGATGA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0302800.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MPLPLNTEYIAMDSMLVGSSTTTVVGGNRWQTKNCINNHTESSNAPRASWLKWNIPKEYNLLRLRRLSLNHQSKGIGGGS MYQECNRKYVVKAAPGKSFESEPDALDPKDVLGSVKNSLDAFYRFSRPHTVIGTALSIISVSLLAVERLSDVSPLFFTGL LEAVVAALFMNIYIVGLNQLSDVEIDKINKPYLPLASGEYSFNTGVIIVASFSILSFWLGWVVGSWPLFWALFISFMLGT AYSIDVPWLRWKRFAVVAAMCILAVRAVIVQLAFFLHMQTFVFKRPALFSRPLIFATAFMSFFSVVIALFKDIPDIDGDK IFGIQSFSVRLGQKRVFWICVALLEMAYGVALVVGAASPCLWSKIVTGLGHAVLAAILFYRAKSVDLRSKASITSFYMFI WKLFYAEYLLIPLVR

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	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	130	130	-	–
PANTHER	PTHR43009 View details on PTHR43009 Search for proteins/transripts with this domain View external data on PTHR43009	12	415	404	9.2E-197	–
PANTHER	PTHR43009:SF6 View details on PTHR43009:SF6 Search for proteins/transripts with this domain View external data on PTHR43009:SF6	12	415	404	9.2E-197	–
CDD	cd13960 View details on cd13960 Search for proteins/transripts with this domain View external data on cd13960	122	412	291	2.43149E-156	–
Gene3D	G3DSA:1.10.357.140 View details on G3DSA:1.10.357.140 Search for proteins/transripts with this domain View external data on G3DSA:1.10.357.140	124	280	157	2.5E-5	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	129	146	18	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	131	149	19	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	150	154	5	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	153	175	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	155	180	26	-	–
Pfam	PF01040 View details on PF01040 Search for proteins/transripts with this domain View external data on PF01040	158	403	246	6.1E-42	IPR000537 Show description in modal box View details on IPR000537 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	181	199	19	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	195	217	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	200	221	22	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	222	244	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	222	226	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	227	244	18	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	245	255	11	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	254	276	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	256	276	21	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	277	287	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	288	310	23	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	288	310	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	311	335	25	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	336	355	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	336	358	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	356	360	5	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	361	380	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	365	382	18	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	381	391	11	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	392	411	20	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	392	414	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	412	415	4	-	–

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:0016021 View details of GO:0016021 AmiGO InterPro QuickGO	Cellular component	Integral component of membrane	The component of a membrane consisting of the gene products and protein complexes having at least some part of their peptide sequence embedded in the hydrophobic region of the membrane.	Subterm of View details of GO:0031224
GO:0016765 View details of GO:0016765 AmiGO InterPro QuickGO	Molecular function	Transferase activity, transferring alkyl or aryl (other than methyl) groups	Catalysis of the transfer of an alkyl or aryl (but not methyl) group from one compound (donor) to another (acceptor).	Subterm of View details of GO:0016740

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0302800.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0302800.1