Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0125400
Transcript ID	LotjaGi2g1v0125400.2
Related isoforms 1	LotjaGi2g1v0125400.1
Lotus japonicus genome version	Gifu v1.2
Description	Auxin-responsive protein; TAIR: AT3G17600.1 indole-3-acetic acid inducible 31; Swiss-Prot: sp\|Q8H174\|IAA31_ARATH Auxin-responsive protein IAA31; TrEMBL-Plants: tr\|I1LYD6\|I1LYD6_SOYBN Auxin-induced protein; Found in the gene: LotjaGi2g1v0125400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:46018005..46030285) extracted from Lotus japonicus Gifu genome v1.2.

CCTTATATAAGGTGCCCATCAGTTCAAGGTGGCGGCTTTTTCTTGTGATCAGTTTCATTGATTGGAAGATATGAGAGCCT TAGAACAATTTGATGCTTCTCAAACTCAGTCATCATCTTCTTCATCTTCCTCCATTGATAGCAACAACCTCCCTAAACCA CCACCACCACCACCCTCTTCATCTTCATCTCTCTGCCTCTCTAGTGTCTGTAGAAGAAACAGAACAGATTTGAGCACTGA CTTGAAACTTGGTCTCAGCATCTCTCATTCTTCTCAATCAGAGTCAGCATACAATTCAACACCACCAAGGTGCACCATTG CTCCCTCCCTCCCTCTATCTCGCTCTCTCAATTGTACTTTTCTTAAGCTTAGATGTTTGTGTCAGTTTTTCTTTGCTCAT AACCATTTCTTGAACTCAAAAGCAACTGAGATAAGTTTCTTCCCAAAATTGATTATGACTTTAAAATCAATTGTATTCCA AACTCTATATTTTGATGGAATAGTGTCTTTTATTCTACAACTGATTTCAAAGACACAATTAATTATCGTGAGTAGTTTCT GAGTTTCAGAATTAATTTTAGGAAAGAAAAACTGATCCAAACATGCTATAATGGAATTGTTTGTGTCCCTTAATCTTGAT ACTATTTTTTGCTTAGAACATGTTTATGCATGTGTGATTAGTTGCATTAACTTTGTTAATTCTATCTTTCAGGGAGGAAA CTTTTGATTGGCCACCAATTAAGTCCACATTGAGGAGCACCCTTGTTGAGAAACAAAACCATCGGAGCCAAACACCTTCT TTGTTTGTCAAAGTCTACATGGAAGGAATCCCCATTGGTAGAAAATTAAACCTCTTGGAACATCATAGCTATGATGGGCT TGTAAAATCCCTTGGCCACATGTTTAGGACCATCATTCTTTGTAAGCAATGAAATTGAAACCCTCATAACATCATTAGCA ACTTCTTTCTGTTGGACCACCTTTTTTAAATATCAAATTTATTTTTTCAGGTCCTAACTCTCAACCAAACAACTCTGGGA ATTTTCATGTGCTGACTTATGAGGATCAAGAAGGGGATTGGATGATGGTTGGAGATGTGCCTTGGGAGTAAGTGATAAAT CCCTCAAATTGAACTCTTAAATTAAGTGTTGTTAACTTAACTCTTCAATCAGCAACATTTTTTTAGTATTTTGATCATTT TGTATTCTATACAGGATGTTCTTGACCAGTGTGAAGAGGCTGAAGATCACAAGAGCTGATAGATGCTAGTTTTTCAATAA CGCATACAATCTCTGACTACAAAAGCTCCACCTCAATTTTCAATGTTCATAATTTTTTTCTAGTTCTTAGTTAGAGGTTG GGCAAAACCAGTACAAATTCTACAAAAAAAACAATAGCTTCCATGATGATCATATACCATAGCTACATCTTGGTGTCTTG CTGCTCGGCCCATGGGATTCCCTGTCTCCCCTAACAGTGGTATCAGAGCTTCCGGTTCGATGGATATCACTTTGTGTGGT ATTGCGAAGGTGCTGAAGAAGTGTGACATTGTGAAGTGCTGTTTTGGGAGGTTCTGGAAAGACACCTCTTTTTTCTGGGA ACCAACCCGGTGCACGGTTTACAGTCGGTCTGCAGCTGTGATGATGTTGTGATGGAGGAGTTGATGCAATCATGATTACA CAAGGCGTTCTGGGCATGAGATTGTCCAGGTGGCACATGAGCATTGGTTGATATAGATGCAAGGTGTGTGGTGATAGCGT GCGGGCATTGGCTGGCATTCATGCAAGGTACGTGGTTATGTCGATGGCTGATGAACTTCCGAAGAAGCCAACATGGAAGT TGCACCATAAATTTTCAGCAAGGTTTCGGCATGTGGAAATTCTTGGAACGATTTAGTTCCAAGTGAAGAAAATTCTTGGG ATGGTTTAGTTCCAAGTGTAGTGTACTCTTTTATGGTGGAGTATGATAATTTAATTTGTCGGTATATAGACAATGAGAAT TATGTTTGTCAGTGAAGACAATGATTATCGGTATAGACAATGAAGGCTGAAGACCATTACAATCAAGGTGGAGATTGTTG GGGTTGATTGCAATGTTAGTCCCACATTGCTAATGAAGGAGAAAAAAGATCAAGTTATGCATTTTGGAGAAGTCCCACGT CGCTTAGATTAGTGAGGGGTGGGAGGGTCCAAGACTATATATAGGGATCTCAAGCTCCTTGTTTCAACACACCAAAAACA CCAAAGATGTAGCACCTGAAAACACTTTAAGTTTATATTTGTGTTTTCATTTTCTCTTATACTCTTGTTTTAGAGCATTG TGAGATGTAGTTCAAATATTTACTTTGGAGAGTGCGGGTGTACTGGGGTCTTGGGGTGTGGTTGAGAGTGAAGTCTATGT GTTGTAACAATTTTCACAGTGTTTATTCTCTGGTTGTCGGTTTTGACAACGACCGTGGTTTTTTCTCCGGTTTTGGAGTT TCCACGTAATATTCTTGTGTTGTTGATTGCGCTCCTGGTTTATTTTACTTCTTCAGCTGTGTTATTTCCTAACAGTGGTA TCAGAGCCGATGGTTGGTGTAGCCATGGTTACGATTCCTTGTGTCAAAAGTCTTCCTAGCAGTGAGGCTAGGCGGCGGGT TCCGTTGACTTGGTGAAGCGAACGGCGGTGCAAGGGTGGATATGCTTCCGCAGAGGGGGGGCATGATAATGTGGCGGTTA CTCGCACTTGATGGGGAGATTGTTGAGAATTCAAGTGCGGAGTTGGAGTCCCACATTGGTTAAGTTTGGGTGAGGAGAAG ACTTTATAAGGGATGTGGCCCATAAACCTAATGCCTTAAGGTTTTGGGTTAAGATGTGGCGTCGAGATCTCTTGGTGTCT TACTCCTCGGCCCATGGGCTCCCCTGTCTCCCCCAACAAGTGGTATCAGAGCCGATGGTTGGTGTAGCCATGGTTACGGC TCCTTGTGTCGAAAGTCTTCCTAGCGGTGTTGCTAGGCGGCGGGTTCCTTTGACGCGGTGAAGCGAACGGCGGTGCAAGG GTGGATATGCTTCCGCAGAGGGGGGGGCCATGATAATATGGCGGTTACTTACACTTGAGGGGGAGATTGTTGAGAATTCA AGTGCGGAGTTGGAGTCCCACATTGGTTAAGTTTGGGTGAGGAGAAGACTTTATAAGAGATGTGACCCATAAACCTAATG CCTTAAGGTTTTGGGTTAAGATATGGCGTCGAGATTTCTTGGTGTCTTGCTCCTCGGCCCATGGGCTCCCCTGTCTCCCC CAACACTACATACACACAATAATATAGACGTGAGTTTAGAGTCTCATATTGTTTAAGAATGAGCCAATTGAAAGTCATGT AAGAAATGTGACACATGTCTGCGATGTTTTAAAGTTTTGAAATTTTGAGTAAAGATGAAGTGCATGATTCTCTTATCATA ATCTTTTTTTTTTCTGTCAAATTAGTACAAGCTCTCCTGCTGTGTATTCCCTCTGTCTTCCTAACAAATTTTCAATTCAG TGTTTGTTCTCTGAGTTTTATGGTGGGATCTAACAAATTTCCACTTTGTTTTGGAACTATGCCAATTATATTGTAGTCAT TTGGTATTTTGCTTTTCCCTTTTAGCAATCTTACCTACAATGCATAGTTGTGATGTTTTTTTGGTGTCTTTCTTTTATGA CAGTATACTCAAAAAGTTGCAAGCTTGGTTTGGATCCAGCTCAATTATTTTGGTGGAAATTTTGTCTATTACATCTTCCT TTAATGAGAGCCATACCTACTAGTTGAAATACCAAATACTCAAACCCTTATGTTAGCTCAAAATTTATCTAAGCAAATAA TAGTTAAACAATGAAAAGCAGGTATCATTCCCTAATTTCCCTAGATGTGTCTTTTTGTGCTGTTTCTGCTTTGATGAAAT ATCGTGAGATTGAAATGATTTTCTGCACTTGTTTTGTTGGTTCAGCTTGTATGTGTCTAACATCATTGTATCATTGTATT TTAGGACTTGAACAACTTTGAGAATGATCCTGAAGAGTTTGTGAGAATCTTCTGCAAAGACATGGGTATTGAGGATCTTG AGGTTGGGGTAAGTATATCTAACTATCATCACTAATAATAAATTATAGGCTAAATTAAGCTTTTCGTCCTTAACCTTTTC CATAAATATGGTTTTCCTCCCTCGCCGGAGCAAGACGTGGTATTGGTCCCTATCTTTTGCCAAAATGATTAGTTTTAGTC CCTCCGGCCGTTTGGGTCAACGCCGGAGCTCCGCCAGCCCATGTGGCCTTGCCACGTGATTGCCACGTCATTTAATTAAC ACAGGTGGAAGTTTTATTTATTTAATTATTAATTAGATTATTAATTATTTAAAAAACGAAATTAATAATTAAATATTTAA ATTAATTAACAAAATCATATCATCTTCTTCATTATGAACATCATCTTTAACACATAATCATAAAAAAAACCGGAGCTCCG CCAGCCCATGTGACCTTGCCACGTGATTGCCACGTCATTTAATTAACACGGGTGGAAGTTTTATTTATTTATTTAATTAT TAATTAGATTATTAATTATTTAAAAAAATGAAATTAATAATTAAATATTTAAATTAATTAACAAAATCATATCATCTTCT TCATTATGAACATCATCTTGAACACATAATCATAAAAAAAACCGGAGCTCCGCCAGCCCATGTGGCCTTGCCACGTGATT GCCACATTATTTAATTAACATAGGTGGAAGTTTTATTTATTTAATTATTAATTAGATTATTAATTATTTAAAAAATGAAA TTAATAATTAAATAATTAAATTAATTAACAAAATCATATCATCTTCTTCATTATGAACATCATCTTCAACACATAATCAT AAAAAAAACCAGATTTACAACGTGTGATGTTCAGAAATATACCAAGCATCATATCATCTTAATTGTATTATCTTCAGCAT CATACCATTTTCTCAAAACCCATCACCATCACCCTCTTCTCTTTGTCGACCACCCCAAGATCTGCACAGTCGTCGGAAAC GACCTCAACTACGACGACATGGCTGACGAGCTTGGCTTGCTCTCAGATCTCGCGCTCTTCCATGTCAACTCTCAGATTCC GGCCCTCCTCTGCCGCTCGCGCCGCTACAGCTAGCGCTGCCTCCAACGCGCCGCCGGTCCCTCCTTTCCTTCCCAATGCA CGCTGTGGACTACCGACAATTCCAGATCTGTCTCGCTGTCCCTCTGGTTCAGGAGAAGTAACCGTGTTAGTAGGTGCTGG ATTTCGGGGGTTTTCATTGGTGCTGGTTCTCGATTTTGAGGGGAGGAGGAGAACGACATATGGCAGAGATGAAATGGGTG TTGGTGGTGGTGGCGACTCTGCAAGTGGTTTGGAGACGGAGGATTTTGGGAACTCGGCGGAGAAATCTCCAGATCTGTTC TTTTGTTCTTCTTTGTATTCCTCCTCACCCTCTGTTCTTTCCTTTTTTTTATGTTTTGCTAAAGATGGTTCCATGAGGAC TTGGTGAAGATGATGATGATAAGAAACGGTGGAGGAGGAGATGATTTGCTTGTGATCGATGATGCCAATGGATGGGGTTG CAAATCTGGGTTTTTTTTTATGATGATGAAGTATTGTTGATGATGTTGATATGGATGAAGAAGATGCAATTAATTAATTT CAGTTTTTTTTTTTTAGTTTTTTTTGTTACATGATGTTGTTAATTAATTTAATAATTAGTGTTTTAAATTATTTTTAAAT GAAAAACAAAAAAAAATCCAACCAGGTTCATTAATTGACGTGGCAAAGCCACATGGGGTGCCACATGGGCTGGCGGAGCT CTGGCGTTGACCCAAACGGCCGGAGGGACTAAAACCAATCATTTTGGCAAAAGATAGGGACCAATACCACATCTTGCTCC TGCGAGGGACGAAAACCATATTTATGAAAAAGGTTAGGGACAAAAAGCTTAATTTAGCCTAAATTATAATGTGTTATACT TCCACACACAGTACCTGCTATTTTGGACATGTTGGAGTAGTGCTAAAAGTTAAAACTTCATGCTCCCTGAGAAATGCCAA GAAAGAATGAGAAGTGAAAATTTAACTTGTGCTAACTTAATTTTAGTTTCCATTATCTTTCTTCTTGGGAACATCATGGG ATTTTGGTAGATGGGAAAGCTTTTGTTGTTAATACTTTTTTATTTGTGTTGTATAGCAAGAAAACAATATGTTGGGTTAG GAATCAGATTCTTGGTTTCATCCATGATATTCTTTCTCTCTACTTCTGTCATGCAATAATCACATAAACACTCTTGAAAA ATGAAATATGTACTAAACAGTGAAATGCTTCTGCTTTGCAGCCAGAGATTGCATTTGCTATCAGAGAGCAACTTTATGAG GTCAGTCATTCTATTGGTTAATTGATATATTATGCTCACAAGTAATATATAATTCAGCTGGCATAATGTTAACTTTTTTC TCATATTTAGATTGCTATTCAAAGTGTGGTTTCAGCAAGAGAAAGCAGATTAAGCAAGAAGGGTCGTCGAGGGGTGACTA TACTCCAATCAGGTTTTCAATAAAGTTTTTCCTAGTTAAGTTGATGTGATACAGATAAATACATTTTTATTATAATTTAA ATTGAGTACATGTATATTCCTAATCCTCTATTTCATTGTTGTCTTGTTAATGATCTATTAACAGTAAAGGAGGTGCAGTG GCAGTGGACTTGGTCAAGTTATTTGGTCAGAAATCTAGTGTAATTCGGTGAGTCTGATATCATAAGTTAGAACACTCTTG TTGGCTTACATTCAGTAAACTGAACATTTCTGTCATCATCTAATCATCTAGGGCTGCACTTAGTCATGGTGTTTATGTAG TTAAAATTCTTCTTCATAGGGCATAATGAGACAGTTTCCTTCTTATTGGAGCTTGTAAGATTAATTCGTAAGCCTTAGAG CTCTTGTTAGTGTTGGGGTTGATTGCAATGTAAGTCCCACATTGCTAATGAAGGAGAAAAAAGATCAAGTTATGCATCTT GGAGAAGTCCCACATCGCTTAGATTAGTGAGGGGTGGGAGGGTCCAAGACTATATATAGGGATCTCAAGCTCCTTGTTTC AACACACCAAAACTCCAAAGATGTAGCACCTGAAAACACTTTAAGTTTATATTTGTGTTTTCTTTTTTCTCTTATGCTCT TGTTTTAGAGCATTGTGAGATGTAGTTCAAATATTTACTTTGGAGAGTGCGGGTGTACTGGGGTCTTGGGGTGTGGTTTA GAGTGAAGTCTATGTGTTGTAACAATTTTCACATAGTGTTTATTCTCTGGTTGTCGGTTTTGACAACGGTCGTGGTTTTT CTCCGGTTTTGGAGTTTCCACGTTATATTCTTGTGTTGTTGATTGCGCTACTGTGTTTATTTTACTTCTTCAGTTGTGTT ATTTCCCAACAGTGGTATCAGAGCTTCCGGTTCGATGGATATCACTTTGTGTGGTATTGCGAAGGTGCTGAAGAAGTGTG ACATTGTGAAGTGCTGTTTTGGGAGGTTCTGGAAAGACACCTCTCTTTTCTGGGAACCAACCTGGTGCACGGTTTACAGT CGGTCTGCAGCTGTGATGATGCTGTGATGGAGGAGTTGATGCAATCACGATTACACAAGGCGTTCTGGGCATGAGATTGT CCAGGTGGCACACGAGCATTGGTTGATATAGATGTAAGGTGTGTGGTGATAGCGTGCGGGCATTGGTTGGCATTCATGCA AGGTACGTGGTTATGTCGATTGCTGATGAACTTCCGGAGAAAGCCAACATGGAAGTTGCACCATAAATTTTCAGCAAGGT TTCGGCATGTGGAAATTCTTGGAATGGTTTAGTTCCAAGTGAAGAAAATTCTTGGGATGGTTTAGTTCCAAGTGTAGTGT ACTCTTTTATGGTGGAGTATGATAATTTAATTTATCGGTATATAAACAATGAGAATTATGTTTGTCGGTGAAGACAATGA TTGTCGGTATAGACAATGAAGACTGAAGACCATTACAATCAAGGTGGAGATTGTTGGGGTTGATTGCAATGTAAGTCCCA CATTGCTAATGAAGGAGAAAAAAGATCAAGTTATGCATCTTGGAGAGAAGAAAAACAGAGTTGGGAAAGGATAAAAAAAC GTGAACACCTTTATTTGCTTGTTTCTTGTCTTGATTTTTACATAAAGCTGCAGCAGCACTATATATTGACCTAAGCACAG CAACGGCTGATTTCTAAGAAAGGGAAGGAGTAATGATCCAATAATTGGTAATCATACAAACGTGAATTGGGCAACAGTGA TGGACCAAGTAAATGGTATTGAAATACCATTAATGTGAAGAGTCTTGCCCATGATTTATGCAACGGTAATGGACCAAATA ATTGGTATTTGAATACCATTAATGTGAAGAACCTTGCCCATGATTTGTGCAACGGCAGAGAAGGGAATTAGCTCTTAATT GCTCCTTTGTAATTTTCCTTATCTCGATCATGATTCCCACCATTTGTGTTTAGGGAGAGCTGAATATGTTTAATACCCTC CCGCAAACGAGGCCGAGGTTGGAGGCAAAGTTTGTCCCGGAAGTGACTAAGAGCCGCCTTTGACAGGGGTTTAGTGAAGA GATCAGCAACTTGTTCATTGGTAGAGATGTATTGTGTTACAAGAAGTCCGAGTGAAACCCGTTCGCGAACAAAGTGATAA TCCAATTCAATGTGTTTGCTGCGGGCATGGAAAATCGGATTAATGGTCATGTGAAGAGAACTGAGATTGTCACAGTAGAG AGTCGGGGCGGAAGCAAGCGGAATGCGAAGATCCTTTAGAATGAATGTTAGCCATGTGAGCTCAGCAGCAGTGTTAGCCA TGGCTCTATATTCAGCTTCAGTGCTCGAGCGAGAGACAGTGGGTTGTTTCTTTGCACACCAAGAGATGAGGTTTCTTCCA AGAAAGGTGCAATAACCAGTAGTGGAGCGCCGGGTAGTAGGACAACCTGCCCAATCTGCATCAGAGAAAGCAAAAAGATC AAGAGTAGTGTTGGAAGTGAAGTGAAGACCTATGTTAATAGTTCCTTTGACATAGCGTAGGATACGTTTGACCATTTTCA AGTGCATAATATTAGGAGCATGCATGAATTGAGACACATAGTTCACACTAAATGAAAGGTTTGGGCGAGTGAGGGTTAAG TATTGTAGAGCTCCAACAAGCCCACGAAAGGGACTTGGATCATCGAGAGGAGTTGTATCTTTGGTGATCTTAGTCTTGGC TTCAAGAGGTGTGCTCATTGGCTTGCAATCAACCCTGTTGGCTCGTTCAAGGATAGTAAGAGCATAATGCGATTGGGACA AGTGAAGGCCATCAGGTGTCGGAGATATTTCAATCCCAAGGAAGTGGTGAAGCGGGTTGCGAGGGATTGTGGAGGGGGTT GTACTCATTAAGGCATATTTTGAATTTGGCTTGACAATTCCTCGTTGAGAGCGAGTGACCATTGGGTGTGAGATCTGAGC CTCTGAAGGGTCAGGAGGCATAGAAGAATCAGACTCATTTTGTAGCGCTGGTGTAGGAAATTCACACTCAAGTTCAACTT GTGAAGGGTGGGGAGAAAACTCTAAGGGCGCTGGGTTATTTTGAGAAGGTTGAACGAATTGTTCTTGAGAAGGAGATGTT GATTCTTCAGGTGGAGAGGAAGGAGGAGATTGTGTGGAAGGGAGGTCCAGCAAGATTGGCGGTAAAGGACTTAAACAAGG TTGAGGAGGAGGTGCCATTGTTGAATCTGCACAAGGTTCTGAGCTAGTGTGAGGCAACCATGAATCAAATATACTAATTA CATGCGATGTAGAGGGAGTTGTTTTACTATTATTATTATTTTTAAAAGGGAAAAATGATTCATCAAAAACAACATGTCGA GAAATGAAAAACTTTTTACTAGAAGGATGAAAACACTTATACCCTTTGTGTTTATCACTATAGCCAACAAAAACACACAA AATAGTTTTGGGGTCAAATTTGTGTCTTCGTGTGTCCCAAGTGTATGGAAAACATTTAGACCCAAAAACACGAAGTGAAG AATAATTCGGATGAATGCCATGCAAAGTAAAGTAAGGGGTTTCAAAATTAAGTGCTGAAGATGGCAATCGATTAATAAGG TAGACAGCAGTAGAAAAAGCTTCAACCCATAGGAATAAAGGAGCACCACTATGAAACAACATAGTCATACCTAGTTCACA AATTATTCTATGTCACCTTTCAACCATACCTGTTTGTTCTGGGGTATATGGACAAGAAACTTGATGAATTGTACCTGTTA AATGAAAGTGAGTTGACAGTTTGGAGTTGATGAATTCACCTCCACCATCAAAATGGAAAACCTTGATTTTTTTATCAAAC TGTCTGTTAACATACTGTTCAAAGGCTAAGTAAGCTTCAACAAAATCAGATTTTTGTTGTAGAGGGATCATCCATGTAAA CTTAGAGAAGTCATCAACCAAACAAGCATAATATTTGAATTTTCCAATGGATAAAATAGGGGCAGGGCCCCATAAGTCGC AATGAATTTTTTCAAAAATAGAAGAGCTAGAATGTTCAGAAGCAGAAAATGGCAATTTACTAAGTTTTCCCAATTGACAA CTATCACAAAGATGTTCAAATTTCACAGTCCCAATTACATCAATTAATCCTTTATTCTTTAGCAAATTTATAGCCATAGT TTGAGGGTGGCCTAAACGTTGAAGCCAAATATCTGCTGAGCCAGATTTAAATTGATGTGAGAAATGTAATTCAGGTGTTG AGGAAAGAACATATAGGTCACCCTTGCGACTCCCCGTGATCATTGGTTCCCCTGTTTCTCGTTCCTTAACACAAAAATCA GCATTAGTAAATTCACAACTTACAGGAAATTCTGTTGTTAGTTGACTAATAGAAAGTAAATTCTTTGTTAAATCTGGAAC TAGCAAGACATCTCGAAGAGGTAAAGTAATATCTTTTTGCTTGATGAAGGAATCTCCAATACCAACTATCGGTAGAGAAG AACCATCACCAATAAGAACAGAGTCTGTACCTGAATATTTTCGAATATTACGCAACATATTTGATTTACCTGTCATATGG TTGGAGGCTCCGGTGTCCGATGTCCATTCAGTTTCAGTAATTGTATTGTCTAGTGTGAGAGCTGCAAGTGCTTGTGGTAT ATCATCAGACTGGGTTGACTTCTCGGGTATCCACCAACATATTTTAGCTATGTGACCCATGGTGCCACAATATTGACATT TTTCATTTCGGTAGAGTTCTCGTTCTGTAGGTGTCATGCGACGCTGACCTGGTGGTGCAGGACGCCGTTGTTGAGAACTT GTGTTTGCTTGAGTGCTTTTTTGATTACTAGGTTGTTGAGCTTGAAAACCTCATCCTGTTGATGTGAAGGCTTGAGAGTT CCCACGATTATGATGAGAGCGTTGTTGTTGCCCATAAAATGCCATTTGTTGAGTCAGTGGATTCACCATATTGCCATGGC TAGAGAACCAACTGCGTCGCTGGTCTAGACTCTGAAGTTGTGAGACCAACTCGCTGTACGATGGTCTCGGTGGTTTTAGC ATGGTGGTTGTGAATGTTTCATATTGAGGACCAAGACTTGTAAGGAGACAAAATACCTTTTCTTTGTCTGGGATAGATTT TCCAATAGCAGCAAGGTTGTCACACAGTCCTTTGAAAGTGCGAATGTGTTCTCTGATGGTTTTATCATCTTCCTTGCGGA GATATGTAAGTTGTTGGCGAAGGGTGAACTCACGCTCCTGTGAGTCTTCCGCATACGCATCCTTGAGTGCACTCTAAACG GCATGGGCAGTGTCTAACCCAATAACAAGTCCGAGTGCTTCTTCTGAGAGTGTTCCAATTATCCATCCTCGGAGAAGACG ATCTGCCTTACGCCAAGCGATGAAATCATCAGTCAATTTTGGGATAAAATTTTCTTTATCAGAGGCTTCGTTGGGGTTTG GTGTGGTGTATTTTGTGGGTGCTGGATCATCATTTGTTAGATGACCCAATAGGTCTTGACTTTCTGCAAGAGCTATGGCT TGTTCACGCTGTAACGCCCCGATTTCTCGAGTGTTACACAGTAACTAATTAACCAATTTTCGTAAAGAGTTTTCGTCGAT TCACTTATTAATCTTCAATTAATGACAAACCTTTCATTTTACAAAAACTCTTGAAACATAACCTTTCCAAAAGAACACGC GGAAGTAACCAACTTCGTAAAACTTTTTAAATAACCAACTG

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0125400.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAGAGCCTTAGAACAATTTGATGCTTCTCAAACTCAGTCATCATCTTCTTCATCTTCCTCCATTGATAGCAACAACCT CCCTAAACCACCACCACCACCACCCTCTTCATCTTCATCTCTCTGCCTCTCTAGTGTCTGTAGAAGAAACAGAACAGATT TGAGCACTGACTTGAAACTTGGTCTCAGCATCTCTCATTCTTCTCAATCAGAGTCAGCATACAATTCAACACCACCAAGG GAGGAAACTTTTGATTGGCCACCAATTAAGTCCACATTGAGGAGCACCCTTGTTGAGAAACAAAACCATCGGAGCCAAAC ACCTTCTTTGTTTGTCAAAGTCTACATGGAAGGAATCCCCATTGGTAGAAAATTAAACCTCTTGGAACATCATAGCTATG ATGGGCTTGTAAAATCCCTTGGCCACATGTTTAGGACCATCATTCTTTGTCCTAACTCTCAACCAAACAACTCTGGGAAT TTTCATGTGCTGACTTATGAGGATCAAGAAGGGGATTGGATGATGGTTGGAGATGTGCCTTGGGAGATGTTCTTGACCAG TGTGAAGAGGCTGAAGATCACAAGAGCTGATAGATGCTAG

Download CDS Sequence

Protein sequence (LotjaGi2g1v0125400.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MRALEQFDASQTQSSSSSSSSIDSNNLPKPPPPPPSSSSSLCLSSVCRRNRTDLSTDLKLGLSISHSSQSESAYNSTPPR EETFDWPPIKSTLRSTLVEKQNHRSQTPSLFVKVYMEGIPIGRKLNLLEHHSYDGLVKSLGHMFRTIILCPNSQPNNSGN FHVLTYEDQEGDWMMVGDVPWEMFLTSVKRLKITRADRC

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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
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	43	43	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	25	25	-	–
PANTHER	PTHR31734:SF144 View details on PTHR31734:SF144 Search for proteins/transripts with this domain View external data on PTHR31734:SF144	15	199	185	5.7E-81	–
PANTHER	PTHR31734 View details on PTHR31734 Search for proteins/transripts with this domain View external data on PTHR31734	15	199	185	5.7E-81	IPR003311 Show description in modal box View details on IPR003311 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02309 View details on PF02309 Search for proteins/transripts with this domain View external data on PF02309	45	195	151	1.2E-33	IPR033389 Show description in modal box View details on IPR033389 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	66	87	22	-	–
Gene3D	G3DSA:3.10.20.90 View details on G3DSA:3.10.20.90 Search for proteins/transripts with this domain View external data on G3DSA:3.10.20.90	103	199	97	8.4E-35	–
SUPERFAMILY	SSF54277 View details on SSF54277 Search for proteins/transripts with this domain View external data on SSF54277	103	193	91	4.12E-17	–
ProSiteProfiles	PS51745 View details on PS51745 Search for proteins/transripts with this domain View external data on PS51745	109	198	90	26.383	IPR000270 Show description in modal box View details on IPR000270 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:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	Molecular function	Protein binding	Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules).	Subterm of View details of GO:0005488
GO:0005634 View details of GO:0005634 AmiGO InterPro QuickGO	Cellular component	Nucleus	A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent.	Subterm of View details of GO:0043231
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

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0125400.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0125400.2