Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0512100
Transcript ID	LotjaGi1g1v0512100.2
Related isoforms 3	LotjaGi1g1v0512100.1 LotjaGi1g1v0512100.3 LotjaGi1g1v0512100.4
Lotus japonicus genome version	Gifu v1.2
Description	Alpha-amylase; TAIR: AT1G69830.1 alpha-amylase-like 3; Swiss-Prot: sp\|Q94A41\|AMY3_ARATH Alpha-amylase 3, chloroplastic; TrEMBL-Plants: tr\|V7B3M4\|V7B3M4_PHAVU Uncharacterized protein; Found in the gene: LotjaGi1g1v0512100
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:103368167..103380919) extracted from Lotus japonicus Gifu genome v1.2.

AGGAGTTACTCCTTTGCTGAGAAGAGGGTCTCTAGAGAATCAGTATACACGGTTTTTTCACGAACGGTAAGGACTTCCTT ATGAAATTGGAGGCTTTGGTTTTATGTTTAGGAGTGAATGTAATGGGTGTTTATCCATGTGGAGAAGATTAACTAATAAG GTCGATATAATGATGGGAAGTTTATTTAAGTTATTGCCACTTGGAACAACTGTCATTTTGTGGGGAAAATTGCAAAAAAG GAGTTCTTGCCAAAAACCTTTTTTTGTATACAAACAATTGAGTACTTGAGTCATTGAGCGCTCATGCATTAATTATTCTT TGAACACAGTCCATTTTCTGAGGTAGTTTACAATAACTGAGAATTCATTATTGTAACCCACTATTTTTTCCTTGGAATAC ACATCTGGTTCATAGTCAGCTCTAGTTCTCTGTCAAATACATGGTTTAGATGTTTGCATCATTCTAAATAGTAAATACTA TTTATTTTTTGGCTGCTTATTACTTAGAGATTGGATTTTGTATGTCTTTTAACAATTTTATGTTAATTAACTAGATGTAA ATGACAATTGGTTATGCTTTGTGATAATGGAGCAGTGTATATTTATTCTATTTCTGTGACAGAATGATTCAGATGATGCT TTCACGGATGTAGTTGTTGACCAGGATGGTTATTCTGGAAGAACTGAAGTTATGGGAATAGAAGATGAATTAATGGTAGC CAAGAAAGCTCTTTCAGAGGCACAACACAGACAAAATGCTATTGAGAAAGAGAGAGATCAATTGCTTGAAGAACTTGCTC GTTCTGAGGCTAAAAAACAGGAATACATCTCCGCAATTTTACATGACAAAGAAGTAACTATAAAAGAACTTGAGGCTGCC AAATCTCTTTTTCAGAAAAAGCTGGAGGCTTCGGTGGAAGAGAAGTTCACTTTGGAATCTAAGCTGGTCCTTGCCAAACA TGATGCTGTTGATCTTGCAGTGCAGGTGGAAAAGTTAGCAGAGGTTGCTTTCCATCAGGCAACTTCTCACATACTAGAAG ATGCTCAACTCAGAATTTCATCTGCTGAAACCACAGCTGCTGAAGCAGCCCATCTAATTGAAAGACAAATTCAGGATGCA ACTGAGGGTACATTATCATCCATAGTTGAAAAGTCAAAATATGCTATAGAAAGGGCTCTAGTTGTGGCGGAGGAAGCAGG TGAACGTGCAAAAGAGGCCATGGAAACATTTATAGATGGCACATCTCCATTTACTGAAATGACCTCTGTCCAGGAAGAAA ATATCAAGTTACAGGGCATGATAAGTGATTTAGAATCTCAGTTGATGGTTGCAATAAATGAGGCTGATAGTCTTAAGATA GAATTAGAGCACGCCAGGCAGCAGCTAAAGGCTTTTGAACAAAGAGCCATTGATGCGGAGAAAGCTTTGCTTGATCTTCA GGAGTCAATCAGGAAAACCACTCTCAAGCAGGAGGAGGAGATGAAGTTAATGCTGGAGAAAATGAAGAAAGACATGGCAG AAAGGACAAAGGCAATTTCCAAGGCTTTTAAGACTGACTTGAAGAACATCAAGGCTACACTTGAAGCTGCCAAAGAAGTT TCTCATTGTAAAGATTATGCTTACCTAAGAAGATGTGAGGCGCTGCAGAGGTCATTAAAGTCATCCGAAGATGCTTTGAA GATGTGGAGACAGAGAGCTGAAATGGCTGAATCATTGCTATTGAAGGAAAGGCTACAAGATGAAGGGGATAGAGATTCTA TATATGTTGTCAATGGTGGACGGATAGACCTTTTGACAAATGTTGATTCTCAAAAATGGAAACTACTAAGTGACGGTCCT CGTAGAGAGATACCTCAGTGGATGGCACGAAGGATTAAGGCTATCTCTCCCAGATTTCCACCAAGAAAGATTGATGTAGC TGAATCATTGACATCAAAGTTCAGATCCTTGGAGTTGCCTAAAGCTGATGAAGTATGGTCCATCTCTCGAGAAAAGCCAA AGGAAGATGATGCTTTAATTGAACAAGTTTTTGAACGAGAAACAATTGAGAGAAAGCGGAAGGCGCTGGAGCGTGCTCTT CAACGGAAGACTACAAAGTGGCAGAGAGCCCCTGAACAAACAAAACTAGGTTAGTGTGCTGTGTTTTAGTCCATTTCTTG ACATTAAATACAAAAATTGCTTCTGGAAGATTTCTTTAATTAATGTGATCCACCTCTGGCATGTAAACTTTTACATAATG TCAATAACAGAGCCAGGCACAGGATCAGGACGTGAGATTGTGGTCAGTATCTACTTATCCAAGAAGTTGTCAAATTAAGC GTAAATGTATATTAGTTCCAAATTTATTATGTGTTGCTCAGATGTGGTGGTTGGTGGGAAATTGAAGCCAGAAAATACTG CAAGATATTTAGAATGCATTGGTTCTTGATACAAAGATTATGAACAAAAACTGATTTTAATTCTTGATTTAGATATGAAC AATGGGTGCATAGTTTATGTAGCTGCGTTGTTTTTTTCATGTTTGAGTTGGGTATAAAAGTAATTTAATTATAAGATCCC TCCCCTCCCCTTGTGTACCAAACCAAGGTTGTTAATGGCGGATAGCATAGCGTAGCGGCAAGCCCCAAAAACGCTATTTC GAGCGCTATTGCGGCGCTATAGCGGTGAATAGTGGAGTAGCGGTGAACCCCTAGGGCGCTACGCTATAGTGCTATTGCGC CGCTATAGCACGCTATTGACAAGCCTGTACCAAACAAGTAAAGAGTTATTTCCCCTCCCCTCCTCTCTCTTGAACCAAAC ATGGTAAGAATAAAAATCCCTATCCTCCCCTCCTTTCCCCTCCGTTGAACCAAACACACTAGTTCTTGTGCACTATATGC CAATTTTGTCACTACTTGACTAAAATGCCATTCGATTCATTGAGTAGTATTTCATCATATCTCATGCTTTGTTTTATTTG TATGATTCTATCTGCTTGTTTTCATTAGCTCTTGATATTGCAAATATTTATCATTCCCATTATTTATTACATGTATTTAC TGCTTATAAAGAAAAGTAAAAGGGAATAATAAAAAAGAAAATGTGTCTGGTGATTTTTTTTTTTCAAGTTTCAAGCTTTT AACTGGGAGAGCTGGAGAAGGAGCTGGTATCTTGAATTATCATCTAAAGCTGCGGATTTATCTCAATGTGGGGTGACAGC AGTGTGGTTGCCACCGCCAACTAACTCGGTTTCTCCACAAGGTTTGACTTGTTTTCTTCTTTTTAGAGTACTATAAGTGT GTAAAGTGTGAACAGTCATTAAAATGTTAACTGTGAGCTGTTCAGTCTGTTGCAACAGTCTTTCAGTTGTAGTGGCTGAA CTGCAATGCAGTTACAGCTTCGGTTAGATGAATTGGGTGTCTTATACAAGTTACCTCTCTTCATTAAAGAATACAGTTTT AAATTTTGCATGATTCAGTATATTTCATCCTTGGACTCTCTCTCTCTCTCTCTCTCTCTCTCTTGCTTCTGCTTTCTCTC ATTGTTTTAGTTTCACTGTTTTGTAATACTTCTATACATTCTATGCGATTTAGAGGGCATCCTCGAGTATAACAGAAGGC TATATTTAATTTTTTCTGGTTCTAGATTTATTTACATGAGACCAAATGATCTTCATAGATATGAATATGTGATCATATGT GTATCATATTATGTTTATCTTACTTCAAAATAATTGAAGATGTCGCTGATGTTGTTTCATTCATCACCCACTGGCTTGCC TTCGAAATATACTACAAATGCATTACAATATCAAGCATAATAGTAAATTTTCTTCTACTTTGAAAGCATAATTTCAACTG AACTAGGCACAACTTTTTAGCTTTCTTTTGTATAGAAAACATAACAACTCTTTTCTGTAATTGTTCAGATCATAAACAAG ACAGTAAGGCATTTCCCTGCACTAGTATTTGTAATTAGTATTTTCCTATTTAGTGAATTTGTTAAAAAATGGAGCATAAG TAATATGCTTGATCTAAGATAAGCATATTTCAGGGGTCCTTTTTATTTCTTGAGAAGCACAGGCAGTTTTGTACTTTGGA TAACTTATAAATGAAAACTCTATGTAAGATTATTATAGCTTCTCATGATTTCTAGTTTATAGGATAAATGCTTTTGCAAG CTTTATTGTCTTCACAAGAGATCTGACAGCATGGTCTTTTCAAATTATTCTTTTTCCCTACAAGGGAATCTTTTCACATT TCTTGCCAAAACAATTTCATTTATGAAGTAATATATGGCCAACCTGTGGTATAACATGCCTTTATGAACAATATAAACTA TTTGCAGGTTACATGCCTTCTGATCTTTACAACTTGAATTCATCCTATGGTTCTGTGGAAGAACTTAAATCTTGTATAGA GGAAATGCATTCTCAAGATCTAGTGGTATGTTGTGCTGCTTTTATTTTGATAAGGCGGTATGTTCTGCTGCTAATTGACA TAAGTAATTGAATATGTGGAGATGCATTGTAGGCAACCAATTAAAATTTTCAAATCTATAATAATCTAAAATTTATGGCT TATGGGTATCCAAAAGTAACTAGTCCACTTTTCTAATCTAAAGATTTACTTTTTTATTTTGTAGATAATTAATATCTTTG TTAAATCATGTGGTTTGAATTTCAAATAAGAAAACAGACTTATCAACAACAACAATCAAGCCTTTTCCTACTAGGTGAAG ATGTGAAGTTGGCTACATAAATCATTCTACTTTATAATGCTCTATCGGATACTAAACTTACCAATATACTATTTAAGTAT AAGTTATGCTTAAGGATTTAGACTATATTTTTGCTACCCTAGGTCTCCCTCTATCCTAACCATTGGACTCTCTAGTCTCT TCCACTTGGTCCCCTCCTTGTAGCTACCTCAACTTTCTGTTTAATGATTGTATTTCTAATCCTATCATGTCTTGTGTAAC CACTCATCCATATCAATGTTCCATGGTTGCTACACTAAGCTTACTTTCTTATTGGCTTTTTACCATTTACCATTTAGTTC CATACTCCCATACAACATTACAGGTCTTGTAGTCTTACAGTAAAAATTTCCACTGAAATTATTGAGTTCGTTATTTTAAA TTGTTAGGTGGTAGGGAGAACATCAAGTCATTCAAAATCTCATTTAACTACCTAGGATAAATTTTGTGGGAATGATAATA CACCATGGTTATTTTGAAATGATGTAGCCTTAATTCACGACATAGGAAACAGTTACGTATCTCTTTAGTGAAAAAACAAA CAAATATGGAATCAGCTACTGCAGAATGTTGTAAAGAATTATTTTGATGATATTACTGTTTTATTTATCTGTAAGGGGGT CTATTTTTTCTTATCAGTTTTCCTGTCACATAACTGGATTTACATAGTTGAGGTTATGTTTCGAATCTGTTGGCTCCAGT GCAGTGCCAACAACTGTTAGCACGCATTTGAAGACAAAATGTGAACGGAACTCTTCTTATGTATTGAGATAAAACACTCA CTGAGCTATTTCAATAGGATGAATTGTTATTTTTTCTGCTGCCTGTTTGACTTCTTACTCTTCTAGAAACTTCTTTTACT ATGTTTAAATTTTACTTTGTTTATTATGATTGTAATATGTTTCCTTTGTAAATAGGTTTTAGGAGATGCCGTCCTTAATC ATCGATGTGCACAGAAACAAGTAAGTTATTGTTTAGTCTGAATTATTGTATATATTTCTGTGAAAGGTGATAAAATATGT TCTTGAGCCACTGATCTAGGGTTTAAGCTTTGAGGGTATTACAGTTGTTTGCAGATTTTAAAAGCAGTTTCTGGTCTTAA GTATGATCCTTATTTTCGCTTAATATATGATAAAAAGTTCTGGTGGAAAGTTATAATTAGTTCTAGCATGAGAGAGTTTT GAGCTGGTGTTTTGTCCATATTTCATGCAACATAACATGGGAGTTGGAGACAGGAAAGTAATGTATAAATCCTTTACCGC TTTGGGTTTTAGGTCTACTGCTTCTCATTTTTGTGATATCAATTTTTTGATGCCTTTGCTTGTTTCAATCAATAATCAAA TTTCGTAAGAATTTCTTTGATGAATAACAGAGTAGAATGTGGACATTAACACAAGAAAAGCCCAAGCCATGTCAATATGT TGACCAGGGAAAATCGAAATAAGTAGAACAATTACAATGATAAACATCAAGTATCTTCATAGTCAACAGAAAATATACCT TCTCTGCGCTAAACTTCAGCTTGATTCATAGTATTATTTTCATTTTATATCAAAATATAGCATGTGAAACACTAGTTGGA GCAATCTCCTTAAAAAGCGCAGTTCAAAGTATTGAATGTGTGGTGTTAAATGGCTGTAATAGAAATTAACAACCTTTACT TGTTTCAGAGTCCAAATGGTGTTTGGAATATTTTTGGTGGCAAGCTTGCATGGGGACCTGAAGCAATTGTGTGTGATGAT CCAAATTTTCAGGGGCGTGGAAATCCTTCCAGTGGTATATTTAATTATCTATATACACCTAGGAAGTTTTGATTTTTCAA CTTTCAATCATGTATTTTCAATAAGTAATTTACTTAGGAAGCTTTTGGGGCTGTTTCTTGTCATTCCAGTTGAAACAAAA CTTTTTTTTGAAAGACAATTGAAACAAAACTTAATTAAATGAGTATGAGGAACAATCTTGAGCTCTGAAGCATGGGTACG TGATGTTGGGCTGCGTACCCGTACCGGGTACGTACCCGGTACGAATACGCTACGGGTACGCGTACGGTACGTACCCGGTA CGTACCCGTTTCACAAAACCTTGCCGTCAATGGTTAAATCTTCATTTTCAATCTCCAATCCAATCTAAAACAGATAACTC CATTGCTTGGAGAGCTTGGAGGTTATATGTGTGGACAAAAGAGAACGACGAGGGTGGCTCCTCTTGACTGCGGCGCATCA ACCATCCTGCGATGGCGGTGCTGAGAATCAGATCGAGAGGGGAAGCTCGCGGTAAGGGAGGCCGGAGCGGTGGCACAACC GTGATGGTTCCGGCGGCGAGGTTCGGACAACGTAGTGGTTCGGTGCGACGCAATTCAGACAATAGGAACGATGGTCAAGC TGCATATCTCCTTTCTAATTGATGAACTCTTTGAAGTTACAGATCTTAGTGGGGAAGTGGGAAAGGTAGACGTGGGGGGT GGAAAGAGAACAGGGAAGGGTTAGGAAAATTACCAAGGGGCACATACTTCTAATGCTTTGAAAAAAGAGAGAGTGGGTAT TTTTGTCCTAAATAAAAGGTGTTGAGTGCTAACTTACTCCTTCTAAAAAACAAGTGGGAGTAAGTTAGCATTCCCCTTAT TTTAATTAGTTATATATTTTTTTTTTGCATAATTTATTTATATTTAAATATTATGTATAAAAAAATATATATTTATCTAA CGTACCCGTACCCCCATTTTTTCAAAAATCACGTACCGCGTACCCAATACCGTACCCGTACCGGGTACCGTACCCGTACC CGTGCAACACAGATCTTGAGAAATGGTGTGAGTTTGTAAATTTGTTCGAGTATTTGCTTCATTTGGACCAAGGCTGTTGT GGTCCTGGAAACATTACATTCCCCTTGTGCAATATTACCCTGAGATGGAAGACAAAAATGTGGTACCTATTCCACAGTTA CGACTGTATAATGTTGTACCACTACATTGATGATCTTATGGAGTTTTCCCTTATCTTTAGACTTCTTTTAATGCTATATG TGAGTACCTATTCCACAGTTACGACCGTATAGTGTTGTACCACTACATTGATGATCTTATGGAGTTTTCCCTTATCTTTA GACTTCTTTTAATGCTATATGTAGGTGACATCTTCCATGCCGCACCAAATATTGATCATTCTCAGGACTTTGTGCGGAAA GATATCAAAGGGTGGTTGAACTGGCTTCGCAATGATATAGGTTTTGATGGATGGCGGCTTGACTTTGTAAGGTAATTTTG TTTTATGTGTATAATGGGTATCCAAAAAAATTTCTTTATCCATTAAGTCCTTCTAAATATCTCTTGTTTCACTTTACACA TTCTGAGCGATTGAAGAAAAAATTTAGAAGAATTTCTCCTGTAAAAGTAAATGCAATCAATTGCAGAATTTGATAACTCT ACCAACTCTTGTATATGTGATAAACTGATCAACTAAGTTGTTTTTTTATATTAGGAGAGAGAGAGAGAGAAGTACATTTT TATAACGTAGTTCCAAATTTTGGGGAACTCGATAGCTGGATAGTGATGGCAATGTCGCAGAGGATAATATGCTCTGATAC CATGATGAAATTATAGGATTTAGTCTAAGATATAGAAAGAGAAAAGATGAACACAATGAATATTGATATAATATTATTGG GTGTAATCGTGCAAACGACAAAATACTTGATATTTATAGTGATGGGCAGACTCCTAATTCTAGTTAGACGAGGAAACAAA TCAACATAAATAAGAAATAAAGAAACCAATCTAAAGAATAATCTAAATTACCTTAATTACTCTAGGATATGGTCACGATA TATAAAATGTATTTTCATATTCTAACAATATGTTAAATGGAGCGTGTCAGTTGTCTTTGTTTGCTATGTGCTACGAAGCT TTAGTTTTAATGAAATGGAATTTGGGAAGATATTCTAGTTTTTTTATTTCCTAACTAATTTATTCTCATGTAAAATTTGG TTACTCTTATTTTCTGCCTGCAGAGGCTTTTCTGGTACATATGTAAAAGAATATATTGAAGCATCAAATCCTGTATTTGC CATTGGAGAATATTGGGACAGTTTGGCCTATGAACATGGAAGTTTGTGTTACAACCAAGGTTATTATTTACTCCTATCAT ACTCAATTGTATTAGTCCATTCTTATTTTGAATATAGTAGGAAGTTGGTTTGTGTTGATAAAATCATATTTTGTCACCTA CCAGGCACTGGAAACACACACAGCCGCAGGATTTTATTATCGTCTTATTTTGGCCTTTACATGTTTCTTGTTAATGTGAT GTATCATGCTAGGCCTCTTGAATTAATTGCTTTTTCAATTGGGCAGAATTAAGGACCTGGACCATTAAGTTGTAAGATTT AACTTAAAGAGACAAAAAAGCTTAAGAAGGATCATTCAGATTTTAATTAGATAGAAGTACGATTTAATGTCGCCAAATAT TCAAAATTATCCTTAGTGAAATCTCAATGACAACTATGGACCACTCAAAGATAAACGGAAGCTATAGTGTCTGTTATTAA ATGATCAGAGATGAGTAATTGCTGTTGACAACAAATATCATATTTTTGACACTTGATCCAGTAGGTCAGAGATTGACAGC TTGATCTTTGTCCTACCTTTTTGAGGAGACATTGGTTCTGTGCATATTGGTCGTAGCAAGCAACAGTAAGAATGAGAAGG GAAAGGAAGGAAATCAACTCGCAATTTGCAATTGAGGGTCCTCAACTTGGTACCAAGAAAATGTTTTCTTAGTGAAACAT TATTTGAGCTGCTGTCAGTAGATAGATAGATATATCTGATATCATATGATATGTCACATTTTCAGCTTTGGAACAATCAT AATCAGTACCATGACTAGATCATCAAACCTTAATATCTTTTAGGAAACCACACTGCATATGGCTAGTACAAGGAGGCAGC AGTTTTTGTTGATTTATTATCAACTTTATCTCCTACTTAGTGACCTCTAAGGGGCAGCATACTTTTAATATATTTGAATA TTGTTCGTGTTGAGGAAATCCTATAATGCTACTGCTTGTGTTCACACTTCACAGTCACACTGATTCTGTGATATTCTATA CTTTTTTCTCTCAGTCCTTCTGCAGTAATTTGAAATATTTCTAACGTATCCCATTTTTTATTTTTCTATGACAAGCTATT TCTGACATTTATAATAAATAGATGCTCATCGGCAGCGAATAGTTAACTGGATCAACGCAACCGGTGGTACTTCGTCTGCA TTTGATATTACGACAAAGGTACTTTTATGTTGAGTAAATTCCATAGCAGTTAATAAGTTACTTCATGATATCAAATCCAG AAACTTATTATATGCAAATTTTAATTTAAGGAGATGCAAGTTTAAGGGTAAGTGGGTCTGAATTGAAGTAACGCGTGCTG AGGAGATGAACCTACCTAGAAAGTTGAAACCCACAAAACAATCGAGAAATGTTAAGTTGTATTTATTTATTTGGATGTCT ATATGAATATAAATTTTGTTTTAGTAGATAAATGTTCAATTGTAGAAAGGATTCATGTAGAAATATCGAGGGAGGACACA ATGACGAAGAATATACATCTTGAGGAAGGAAAATAAATCTCCAAAAATAGAAAAAAGCAAGCCAAAATAGCTCATAAGGT TCTCCAATCTCCCTTCATAATGAACATCAGCAATAGAAATTCCTTTGAAATAGTCATGAGTATAGCACCAGAGAGAAGCA GTAACCACATTTTTATCCTACTGCAATGTGAGAGGACATGCCCAATGTATGTAAACAAAAAAAGGCCAAACAAATTATTC CTCCAAAAGCAGCTACTTTGCCATGGAAATGTGATTGGCTGAAGTTTCTAGCTTGCAATGGAAATGTGATTAGGCTGCTG AAGTTTCAGAGTTAATCTACGTATGAGACAAATATTGGGAGAAAGAGATGTTGGAACCTTACAAACTTCTAGTTGCAACA TATCATTTGTATCAATTCTATCAAGTCCTGTTCAAGTGGAAGGCTTGATCAATGGAGTTTCCAAACTGGCTTTTGCTGTT GCTATAATAGCTATTGTTTGACTACCCTTGTTTTTGATATATTGTAATTTTCTATATTAACTTTTGATTTCTTTTTTTTT ATGCCATGGGGAGGAAGCAGGGGACTTAACTCTGAAAATTTTGTCATAATTTAATATTAATCTTGATTCATTCTGAGGAT TGTTGCTCTGTTTGTTACCCTTTCCAGGGAATACTTCATTCTGCTCTGCATAATGAATATTGGAGACTGATAGATCCACA GGGGAAACCCACAGGAGTAATGGGGTGGTGGCCTTCTCGTGCTGTCACATTCCTGGAGAACCATGATACGGGGTCCACAC AAGTATCTAATCTCTCTCTCTCTCTCTCTCTCAAAGTATGATACATAAAATATTAACGTTGGTAATTATATAGAATATAT ATTTACAAGGGAAACATATCGCTTTGAGCTTGTTGACTTGAGCTAAGTGTTTCCTGTGGTTGGCTCTGGTTAATGTGGTT CATTGCACAATAATTCTTCCTACATAGTTGGTTAGGTAAACCTACGTAGTTTAGGTTATTAATCCTAGATTCTTAACTCA CTAATTATATTCTACTTTCCAAATTATAGATTGCAATTTGAACTTTACCCAATCATTTCTATGGAGTTCCATGTTTCTTC TATATTTATATTGCAATAACATCTTGTCTACAGTTGTGGGTTGAATTTACAATTCTTATATTTTCCACTGGTTGCAGAGT CTGATCTTTGTTTCCCTCAGTAATTTGAGCCATGGCATTGTTGCATATAACATTACCCCCTTTTATGCTCAACTTACAAC CTGGCCATGCTAGAGAATGGGTTAAAAACGGATTTAACACTTCATTTTATTTTCAGGGCCACTGGCCATTTCCGCGAGAT AAGCTCATGCAGGGATATGCTTACATTTTGACTCATCCTGGAACTGTAAGTTCTCAACACATTCACATCCAGTACCTTCA TTGTTTAAGGTAGTTCGCTAAGATTTTCCCAAAAATATAAGCTTTATTGTGACGCCTAAACAATTTAGGGTATATTTGCA AGTTGAGTTTTGGAGGGGGAGGGAAGGGAAGGGAGAGGCTTATGAGAAACCCTCCCTTGTTTGAGAGTATGTTTATTAAG GAGCGAAGGGTTTGGGGAATTTATGGAAAACCCTTGAAAACCCCTCAAAAACCCTCCTATAGTTATTTTGTGGAGTCCCC AACTTGGGGGGTTCTGTATGATTTAGAACTTGCAAACAAGGGGAGGGCTTACCCCCCTTCCCCTCAAAGACCTCCCCTCC CCTAAAAACTCACAAACAAAGCCTTAGTTTCTCCTTGACAAGGACTATGGAATCAAACTAGTTTTAAGGATAATCTACTT GCATAACTCTTAGAATCTTCATGGTCCCATATTAATAATTTATTTTTCTTGTATTGCAAATTTGTGCAGCCTGTGATATT TTATGACCATTTCTACGATTTTGGCATCCATGATGTGATAACTGAGTTGATCGAGGCTCGTAGACGGGCTGGGATCCATT GCCGGAGCTCTATCAAGATAATACATGCACACAATGAAGGTTATGTAGCCCAGGTTGGTGATGCACTAGTCATGAAGCTT GGGCACTTTGATTGGAATCCCTCCAAGGAGAACCAGTTGGAAGGGAGCTGGCAAAAGTTTGTTGACAAAGGACAGGACTA CCAAGTGTGGTTGAGACAATAGATTGACAGTAGAATTGCTTCTTTCTGTCATGGAAATTAAAAATAGCTTCCATAAAATG CATTCATAGGAGGAAAAAGAGAATCTTGTTTGTAATATAACCAAAACCTACCAACATATTAATCCATTTTAAGGGTATTT TACATCAGCTGTGTCAAATACCTCTGTCAAGAAACACTATAATGTATAAATAAAAATAAAATTATTGAAAAAATTCAAGC ACAATTTTCATTTTAATTTTTATATAACTAATA

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0512100.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCCTTCTGATCTTTACAACTTGAATTCATCCTATGGTTCTGTGGAAGAACTTAAATCTTGTATAGAGGAAATGCATTC TCAAGATCTAGTGGTTTTAGGAGATGCCGTCCTTAATCATCGATGTGCACAGAAACAAAGTCCAAATGGTGTTTGGAATA TTTTTGGTGGCAAGCTTGCATGGGGACCTGAAGCAATTGTGTGTGATGATCCAAATTTTCAGGGGCGTGGAAATCCTTCC AGTGGTGACATCTTCCATGCCGCACCAAATATTGATCATTCTCAGGACTTTGTGCGGAAAGATATCAAAGGGTGGTTGAA CTGGCTTCGCAATGATATAGGTTTTGATGGATGGCGGCTTGACTTTGTAAGAGGCTTTTCTGGTACATATGTAAAAGAAT ATATTGAAGCATCAAATCCTGTATTTGCCATTGGAGAATATTGGGACAGTTTGGCCTATGAACATGGAAGTTTGTGTTAC AACCAAGATGCTCATCGGCAGCGAATAGTTAACTGGATCAACGCAACCGGTGGTACTTCGTCTGCATTTGATATTACGAC AAAGGGAATACTTCATTCTGCTCTGCATAATGAATATTGGAGACTGATAGATCCACAGGGGAAACCCACAGGAGTAATGG GGTGGTGGCCTTCTCGTGCTGTCACATTCCTGGAGAACCATGATACGGGGTCCACACAAGGCCACTGGCCATTTCCGCGA GATAAGCTCATGCAGGGATATGCTTACATTTTGACTCATCCTGGAACTCCTGTGATATTTTATGACCATTTCTACGATTT TGGCATCCATGATGTGATAACTGAGTTGATCGAGGCTCGTAGACGGGCTGGGATCCATTGCCGGAGCTCTATCAAGATAA TACATGCACACAATGAAGGTTATGTAGCCCAGGTTGGTGATGCACTAGTCATGAAGCTTGGGCACTTTGATTGGAATCCC TCCAAGGAGAACCAGTTGGAAGGGAGCTGGCAAAAGTTTGTTGACAAAGGACAGGACTACCAAGTGTGGTTGAGACAATA G

Download CDS Sequence

Protein sequence (LotjaGi1g1v0512100.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MPSDLYNLNSSYGSVEELKSCIEEMHSQDLVVLGDAVLNHRCAQKQSPNGVWNIFGGKLAWGPEAIVCDDPNFQGRGNPS SGDIFHAAPNIDHSQDFVRKDIKGWLNWLRNDIGFDGWRLDFVRGFSGTYVKEYIEASNPVFAIGEYWDSLAYEHGSLCY NQDAHRQRIVNWINATGGTSSAFDITTKGILHSALHNEYWRLIDPQGKPTGVMGWWPSRAVTFLENHDTGSTQGHWPFPR DKLMQGYAYILTHPGTPVIFYDHFYDFGIHDVITELIEARRRAGIHCRSSIKIIHAHNEGYVAQVGDALVMKLGHFDWNP SKENQLEGSWQKFVDKGQDYQVWLRQ

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	PTHR43447:SF30 View details on PTHR43447:SF30 Search for proteins/transripts with this domain View external data on PTHR43447:SF30	1	346	346	4.0E-226	–
Gene3D	G3DSA:3.20.20.80 View details on G3DSA:3.20.20.80 Search for proteins/transripts with this domain View external data on G3DSA:3.20.20.80	1	284	284	1.5E-112	–
PANTHER	PTHR43447 View details on PTHR43447 Search for proteins/transripts with this domain View external data on PTHR43447	1	346	346	4.0E-226	–
CDD	cd11314 View details on cd11314 Search for proteins/transripts with this domain View external data on cd11314	1	291	291	2.67189E-145	–
SUPERFAMILY	SSF51445 View details on SSF51445 Search for proteins/transripts with this domain View external data on SSF51445	2	268	267	4.84E-55	IPR017853 Show description in modal box View details on IPR017853 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00642 View details on SM00642 Search for proteins/transripts with this domain View external data on SM00642	3	280	278	9.5E-9	IPR006047 Show description in modal box View details on IPR006047 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00128 View details on PF00128 Search for proteins/transripts with this domain View external data on PF00128	88	261	174	7.1E-5	IPR006047 Show description in modal box View details on IPR006047 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00810 View details on SM00810 Search for proteins/transripts with this domain View external data on SM00810	281	345	65	2.8E-7	IPR012850 Show description in modal box View details on IPR012850 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF07821 View details on PF07821 Search for proteins/transripts with this domain View external data on PF07821	282	343	62	1.2E-18	IPR012850 Show description in modal box View details on IPR012850 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.60.40.1180 View details on G3DSA:2.60.40.1180 Search for proteins/transripts with this domain View external data on G3DSA:2.60.40.1180	285	345	61	4.3E-8	IPR013780 Show description in modal box View details on IPR013780 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF51011 View details on SSF51011 Search for proteins/transripts with this domain View external data on SSF51011	286	344	59	1.22E-6	–

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:0004556 View details of GO:0004556 AmiGO InterPro QuickGO	Molecular function	Alpha-amylase activity	Catalysis of the endohydrolysis of (1->4)-alpha-D-glucosidic linkages in polysaccharides containing three or more alpha-(1->4)-linked D-glucose units.	Subterm of View details of GO:0016160
GO:0005509 View details of GO:0005509 AmiGO InterPro QuickGO	Molecular function	Calcium ion binding	Interacting selectively and non-covalently with calcium ions (Ca2+).	Subterm of View details of GO:0046872
GO:0005975 View details of GO:0005975 AmiGO InterPro QuickGO	Biological process	Carbohydrate metabolic process	The chemical reactions and pathways involving carbohydrates, any of a group of organic compounds based of the general formula Cx(H2O)y. Includes the formation of carbohydrate derivatives by the addition of a carbohydrate residue to another molecule.	Subterm of View details of GO:0044238 View details of GO:0071704

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0512100.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0512100.2