Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0376400
Transcript ID	LotjaGi1g1v0376400.1
Related isoforms 1	LotjaGi1g1v0376400.2
Lotus japonicus genome version	Gifu v1.2
Description	Protein phosphatase 2C-like protein; TAIR: AT4G31860.1 Protein phosphatase 2C family protein; Swiss-Prot: sp\|Q9SZ53\|P2C60_ARATH Probable protein phosphatase 2C 60; TrEMBL-Plants: tr\|G7J9T2\|G7J9T2_MEDTR Protein phosphatase 2C-like protein; Found in the gene: LotjaGi1g1v0376400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:85538756..85551135) extracted from Lotus japonicus Gifu genome v1.2.

AAAAGGGTGGGGCGCGCAGCCCCATAGGGGAGGCCCCAAACCCAACTCCCAATACGCTTCAACCCTTTAATGAGCAAAAG ATTTCAGCTTTTCCTCTGAATTATCATTATTTAAGATATTTCTTTATTCATTTTCCCATATAATAACACAACCAGAATCA ATATACAAAGAAGCTGATAAGAACAACCTCCAAGACCAACCAAGAGAGTTTTACATTCAACACTCACCTTGAGTTAAGAA CAACATGCAAATTCTTGTTCTTTCTGTCTGATTCTGATCACTATTACCAGCTGCAACCACTGGTCAATCTTGTTTTGCTT GTTGAATTGCTGTCAATTTGGTTGCTCTTTGAACTCTGAGGTGTGCTGATCTCTTAAACTTTTCATTTTTCTATTCAATT GCCAACTCTCATTTTCTTGTTTATAACGTTACCTTCTTTGTAACCCCAGATTCATTTATCTTCAAAGTTGTTTAATTGAT GAATCTTCTTCTTTTCTCTCCTCTGTTTTAATTCTCCCCTGTTTTTTTAGTTCTTTACACTATTCACTGTTTACTTCTCA TCTCATGTAACCCTCCCTGAAAATTCAGAACTCTTAGCTGAAATTTCATCACGCTTTTCATCTTTCATATTTAATTTTCC ATTTCAAAGAATTAGTTCATTCATACACTTCATTGAAACAATATAATTTCTGGTGTCATTAACATGTATTTTCCTTTCTT TCTTAAAAAAGCATTTAGATTTATTTCTTTGCTACTTGTATTACTTTTCTCTGTTTCTTATTTCTTTGCTACATGTTTTC CTGCTTTAAGAAATTGAAGTTAATGCTTACTTGTTTTGGTTCAGATAGGAATGGGAATATATCTCAGCACTCCCAAGACA GAAAAGTTTTCTGAAGATGGTGAAAATGACCGCCTTAGATATGGTTTATCATCTATGCAAGGGTGGCGTGCAACTATGGA AGATGCTGTGAGTAATCATTGAACAATTGCCAATTTTATATATTGTATACCTTTTGCATATAAATCCCAAATTCTATAAG GTGAATAACCATGAACCAACAATGTGACAATTTCTACTATAAAGTATCTAGGTGTAGTAACTAGTAAGGTGTGGTATTTT GTATTTGCTAGTACAGATTTAGAATTATGTCTTACAAGGTTGCTTAACTTTATTTGTTTTGCTGCATTGGAAGGTTAGTT TGTTTCTGCATAAATGCATCCTTTTTTTCATTAGCCTTCAAATTTGATGCTCTATCAATTGCTTATGCAATTATTGAGCT TGGCTTATCATTTTGATTGAGAGATGTTGATGTTGTTAGGGGAACTAGAAGGTGTACTTGATACAAAAGACAAAGCACTA ACCCTTATTTATACTAATACTAGACTCCTAGTCCTAATTAAACAATGAAACAAATCATGAGATACAAAAGAAGTATGGCA AATAATTCTATGGAATAATTTAAGATACCCTAAGATAAGGTCAAGATATTATAAGATTTTTTTTATAAACAAACATACAA TTGATTCTGCTTTAAACTTTAAAGTTCATTTTTATCAACTCATTTACTTGTTTTTGCCTGACTTAGACTGATCTTAGTTA ATCCATTATATACTGTTGATCTTTCATTCTCTTTCTTTTGTTAGCATGCTGCATATACTGATCTGGATGAGTCCACTTCG TTTTTTGGTGTTTATGATGGTCATGGAGGTAAGGTTTTGATAACATTTGGCTACTAGAGTTGGTGAAAGAACGCCATTGT ACTGCATTGTTAGTTACAGATGTCTTCTTTCCATGTTATGGCGCTTTATATAACTTTTTGAATTTGCCTTATAGATGATA TCTCATGCTCCCATTTGTACCTCCTCTGTCAAATAAGAAATGGAAGACTAGGATACGAATATGATATCTTCTAAAAGCTG AAGAGAAAGTAAAAGAAAGAGGAAAAGAAAAGAAGAAAAGGACAGAGAAACCTTATACTATAAATTTGAAAATCCAAAAC AGCAATACCCTCCAATCTGGCTGAATATTCACACACAGAGTGAGACACTTTTGCAAAACCATGGTCCCTATACCTTTGTA TATTGTATTTTTTTTAGCAAAAAAATGTATTTTAACAAAAAGTTATGAAGTTTGTGTTGCTCCTAGACACAGTTGATTTC AACATTTGAAACATAATTTAAATCCTAAAGTGATTCCTTTACATGATTAATTATATTATAACTTACACTAACTGTAAAAT GAAGACCCTAGCGCATTACCGTATTTCATCCATTTATACCAATGTTACTTACATGCTTTGATTCTAAATTCTAAACCTGA AACCCTACAGGCTTCCATCTCTTGATCAATTGGCTATTCTGCTGAGCCTCTAAAGTGTGTCTATACTTATGTTCTGTTTA TTGAACTGTTTGCTTTCTTACATATCATTTCAAACAAGTGGACGCTGGTTGCTCCTTTCAACCATTTCATGTAGAAAAAT TGAAGTACATTTTTGCTTGTGCTCCTCTACTCCTTATATTTTTATGATTTGTGGCCAATCATGCCATATATTTGAGCGTA ACAAGACAAGTAGAGAGTACTACAGAAATCATGTATAGTTGTTATCGAAGCTGTGTTATGGATCCTCAGTCCCAAATTTT CAGGTAAGGTGGTTGCAAAATTTTGTGCCAAGTTTCTTCACCAACAGATGCTCAAAAGTAAAGCATACTTAGCTGGAGAC ATAGGAACCTCTCTGCAGAAAGCTTTTTTAAGGTTAGAAGAAAATAGAAAGCATCATCTATATTCTATACTTAATGGCAG TTGCTCTTCCTATATTCTGCAATTAAATGACGAATTGGTCTTATGCTTGCAAGGTATAGAGTTTTTGTAATAGTTAAAAC TTTAAGTTGTATCATCAGATAAATTCTGTGTTTGTGGTCCTTATTGTAGGTCATTTTTTCATTAATATATAAAAAATACA GTTGACAAGGGTCTTTTTACTCAAAGTCGCTTTCTAAATGAAGAAATATGTGCTGCTTTCTAAATGACAAGTTGTAGCCC ACTTGTTTGTTGCTGGTTACTGTGTTCTATATTCTAAACTTACAAATTAAGCAGATATGAAGTGTAGTATTATATCTTCT CTCTCCCAGCTTAATTGATATTGAAGTAAATGTGACCGTTGATTCCTTTGCCACTATTCCCCTGTCTCCACACCACCCTC AGAACAAAAATCTGAAAAAGGAAAGAAGTTATGAACCGGTATTTCAATGTTATGCAGGATGGACGAGATGATGCGTGGTC AAAAGGGATGGAGGGAACTATCAATTTTGGGGGATAAGATAAACAAGTTTACTGGAATGATAGAAGGGTTGATTTTGTCC CCACGAACCGGTGATGGTGATATCCAAGTTGATGATTGGGTTTCTGAGGAGGTAGGTATAACATTTGAAGAAGGTTACCT TAAATAGTACTCTAAAATATCTCAGCTTCATTGGGTGTACTTGGTAACTTGGTGCTTGACATATGGCCTTCAAGTAAAAA AATATCATTTATCATTTATTTGGATTAGTAGTACTCTTATGTTTCTCCCTACATGCCTGTTTTCTGTGCGTATATCGAGT TAAAACTTTCTCTGCATCTCCTTAATTTGAATTTTTTTAATGAAATCAGGGGACTCACTCTGATTTTTCTGGACCAACAT CTGGAAGCACCGCGTGTGTTGCAGTTATTAGAAACAAACAACTTGTTGTTGCAAATGCTGGTGATTCACGTTGTGTAATA TCTAGGAATGGTCAGGTAAGCTCAGAAGGGAAATTCTTGAATGTTTATTATGCTTACTCCCCTCACAGATGTGTAGGTAC TTGAATACAGATAAATGCAATTACGCAAAAAGCTACTTTGAATACATAATTACTGTACATTGGGAATTTTATGGGTCAAT TTTATTAGGGGAACTTTTTGAGGGTATAGAAAATGGTTTGTCTCTTTCTTTGGCAGACTGCATATTTCAGTTTTTGTAAG TTACATATCTTACATGGTTTTACTATGGCTCTTTTCTATAGGCATACAATTTGTCTAGAGACCACAAACCTGATCTTGAG ATTGAGAATGAAAGAATCTTAAAAGCTGGGGGCTTTATTCATGCAGGACGAGTTAATGGCAGTTTAAATCTTGCAAGAGC TATTGGTAATTACCTATTGGCCTGTGAACTTTTTTAAAGAATAATTTAAGCTTCTCAACTTTTCCATCCTCATTTTCCAA TAATAAGTGAGCAGCCTGGCCAGGATCATGCATCTTTAGCTCATGATGATCCATGTACTTGTGAACTTGATAAATAAACA CAACAAAATGAACAACTTCCTATGTTTCTTTTTATTTTGTATGCTTTTTTTGGTTCTTTGCAAGAAAAGAGGAGATTGGT TTCAAATCACATAACTGAAGATTTCAAATTTGTTTATCTGTCTGTTCTTAACACTAATTTCTTTGTGAAGAAACACATTC TTTCTGGGATTTTGAGGTATGGGGTGGGATGTAGTGGGCTGTGAAGTTTCCATTCCTCAATATATTTCATTTTTTTTTAT TTCAGGTGACATGGAATTTAAACAAAACAAATTTCTTCCTGCTGAAAAGCAAATTGTGACTGCCAATCCAGATATAAACA CTGTAAGTTTGTTGCTGGAGTACAATTCACTGAATTCAGCTAACTGCCCCAGTGAGACATGGATCTTCCACAATTTTTCA TTTTTATAAACGATTGAACCCACAATAAACTGCATGTTAAGGGCTTCCTGCTATGTTTAAGGATAACTTAAATTCAATTG TTATGACTGATATATCATCTTTGTTTTGATATTTTGTTTTAGGTCGAACTTTGTGATGAAGATGAATTTTTGGTGCTAGC TTGTGATGGCATATGGTATCCATCTTATGCTTTCTCTGTCCTCTGTTTGATTCTGAAGTTATGATGATATCAGTCATTGA ACACTGATGAAAACATCTCTAGTTTTAGAAATCACACAGAACCTCCCTATTTTCAAACAAATGCCTTCTGTTTAATAATT TTTTTTCTAGACACATGTAAGTTGATATCTTAGCGTATGTCACTGTCATCTGCCAAAATATTGACATTTAGTGCAATTCT GAAAGTACTTTTGCTCACACATGCCCCTTAATTCTGTCTCTGTGAAACCAATAATTTATTTCTCCTTATTACTTTCAGGG ATTGCATGTCAAGTCAGCAGTTGGTAGAATTTGTTCATGAACAATTGCGCTCGGTGAGTTCTTAAGTGTTAACTTCTTCC TAATAAGAGGATGAAGTGTTCAATTAATAAGTAGCTGTCATAATTGTTCATAGATTATGCTTATTGATGATTTTTAATGC AGTACATTATACTTTGAAGTGTGAAAAATACACAAACTCACTCACCTTAAGTGGAATTCAACTTTTATTATTAGAATAAT GAGGGGTACAAGAATTTAATTCTAGACCACGTGGTTATACTCTAAAAACATGTCATAAACTAATTTTCTAAAAACTAAGC TCTTGGGTGAAGCCGTGAAGGTACATCTGAATTGTTTTATATTATGAATAATTTTTAACAAATTTATATATTGCAGGAAA CGAAACTTTCAGCAGTGTGTGAAAGAGTGCTTGACCGGTGTTTAGCACCATCAACTGCTACTGGCGAGGGATGTGATAAC ATGACCATGATCTTGGTGCAGTTCAAAAGACCACAGTCCAGTGCACCAGCACAAGAGCAATCCTCATCACCTGAATCTGA ACCAAAACCAGAAAGAAGTTCAATTTAATGTGCACTCCGCAGCAACAGTGAAAATATGTATCTTACATATACGTATACAC ATACATATGTATAATGTGCACCACTCAGTGCTTATAATACATCTAAATGGCCATTTTCCGTTCATCGAACATTATACCAG AACAGTTACTCTGATCACACACAAAAAGTACCAATTTTGTGATATGATCTCTGGCATTAAATTACATACCTTCCGTAGTT TTATGGTAATGCGATGAAAATATGCAACTATACAGAAAAAGCATAGTAAAACATACATAACTAGTTTTTTTTCTAAGAGC TTAAGTGTTATGCAATGCTCTTTACACTGTCATCCTTGTATATTACAGTATTTTGCCACATCATTAATTTGAATTAAAAT TCAAAAATTAAAATTAAAACTGAATCCTAATGCCCCATTGTGATCTGTAAGCATCAATGCATCCTCCCACCTCTACCCAC ACCTGTTTTGAAATCTGCAGTGCGTCCTTCCATTGTCTTGCTCTCGCGGTTGTAGTTGTCATCCGACTTTGTATTCTTCC ATACAGTCTGGCTCCTCTACCAAGTTTCTTCTGGAGCACGGAACCATTGCCAACCTTCATCATCAAAAGGCTTCAAAATA ACAAACCTTCAGAATATTCCTATAGCTCCAAATTGGATTTTGAGAACTATCCAAAAGACTAGCTATGATTACTAGTGCAG AACCCTATATTGTTTGGTCTCCATTCATGGTGTGCAGCCTTCAGAAGAACAATCACATCAGAAGCATGAGGGAATGCCAT GGATGTTCCGGACATAAGATCGTAGTTAGGCAAGAACTCCATAACCAGGTACCATCATGTCAGGATTTAGGAATGAAGGA CCTCGTGAAGTGTATTAAGCAGCACTTAGTGCTAACTTCATTGCAAAAAATGTTTGCTGAAATTTGATGCTGGCTGTAGA CTTCTTATGGCTTTTTACATACTTAATCACAGATGATGCATCACAAAGAGTAGATATGTGCCACTTGATCACAGCTGGTG CATCTCGTGGCTTTTTGCATACTGGGCCTCCGGCGTCAAAATTGGAGTCCCCAAAGTTGAAGACAGCGAGAAAATGGCAC TCCCGTGAAGCAGCTAATGAGTTTGCAATGGAACAAAATCTCACACAGGGAACAAGCCAAACGGTGATCCCTGGTACCAA GCTGCACAAAGGCTTCACATTCATATTAGTCTAGCAGAAGTAGTCAAACTCAAAGGGATGAGCAAAATGTAAATACTTTA GCCATGGAGCTTAGAGAAATAAAATATTATAAAATTAGAGTATCTAATTTATGAAAAGGTCAGTCAGCTTGGTGTATCAG ACAATCAATCAAATAATGGGCAATCATCAATCTTGTCAGATGATAATCAACAATATGGATTATACCAACTAAAATTGAAA CAGACTGACAAAATGGAGAAAAAATGGCTTGTCTTTCAATGTTTAAAAACCAGAGATCACAGACACACAGTTACACACCA ATGACCACTTGTTTCTAATTTAGATGAATCTATAGTGATGTGATAGGGCAGGGGAATTACTAGCAAAGTGAGACGGTGAC TAACCCTGCTCTTTGATGAGTTGCAATCACTGACCCTGTCCTTGATGCTCTGCAGATTTCTGCTTAACTTGGCTTTCAAG GAAGCAAAGCTTAACCCACTATGCTTTCCATCATACGAAAGGGCATCATCAGAGCCTGGTTTTGTTGGTTTTCTGGTGAT GCAAAGTTGGTTCTAGCTGCTTCATCATAAGCCCTTGCTGCCTCTTCTGGTGTGTCAAAGGTTCCCAGCCATAACCCTAC ATGCTGAGAGGAGTCTTTGATCTCAGCCACCCACCTTCCTGAAGGCAAGGTTTCTGGAATACACAAAGGTTTCTGAAATG GGCAGTGTTTCTAAGCAATTGCTTGATCGTGGAAAAATGGAAAAGCTATATGCTAAGAAGTGAGTATATAGCAAATAGCA TATGTTGATCAAGGGGCTGGAACCGTAAAAATCAGTTGACAAATGATGCATTAGCTAAAAGTTATATAGAGAGACAACTC ATGTTTTCAAGACTAGATTTCATTTCATCTCATGATCATATTTTTCTCAGAAGTCCCTGCAGGTAAAGAAGAGGATCTCA TTCACACTCTTAACTCTCATACTTTTGGAAAAGAAAACAAAAGAAAAGAAAAGCAACTTCTTTGTACAGCCAATGAATTG AAATGCTAGAGAAATGGTATTATTAAAATGTAACAACAATCAGAACAGCACAACAAAAAATACATTTGATATTGCAAAGA AAGCATCTTACTTGAAACTTCAAAGCCGCAAAAATCAGGAGGAAAAAAAATTGTAATAAAACTTGATTATATGAACAACA GAACTCATAAGTACACTTCTGCATACCTTCTGATAACCAGTAAAAATTTATGGTATCCGTACATGGCCTATTTCCAAAGG TACATTAGCCATCGCCTAAAGTATGCTCATATATTTTACACATTATTGGTTTGATATCTTGGTGTGATCCCATCACACCA TTTCTTTTTTAATCCTTCTCCCATGTACATTCCCACCTCCTTTCTATATCCCTAGGGAGGTAAAGGCTCCATCTGTATAG TAGGGAGCTGCTGACGCCTGCAATCAGCAAAAAAAAAAGACTAAGAATTGAAAAAAACAAATTGTCAAGGAACCATAAAA TATATTTAACACCCGATATACTCACAATGTGTGTTGGTCATTAAATACATCTCCAGTCTCTGACATTGTGTAGGCAACAG GGCCAAGTGTCCCTGAAGAAACAACAACGATCAAAAGATAATAAAATAATTATCAAGTAAAATTAAGTAGACTTCCATAA AATTATTTTTAGTAAAACATTAAGAATTACCTTCATGCCTCCCTTTTGAGATCAGAGACTGAAACAAGAAATAAGAAATG ACCCCATGAGATAACTCAGCAGAATCAACCTTTATTAGGCAGTTGAGCATATGTTTCCGCATTGGGGCTAAACCCCCCAA CCATCATGTTCTTGAATACAGAAAAGGCTTGGTCTTTATTTCCAGACATACTGTGACCGCGAATGAGAGCATTATAAGTG AAGACATTAGGTTCAAGACCCACCAGTTGCAGTTCCTCATACATTTTTCCAGCTTGGTCTATCATTCCAGCAATTCCAAG ATGGAGAATCAATGCATTATAAGTATAAAGATCGGGAGAAATTCCCTTATTCTTCATTTCACTGAAAAGAGAAAGAGCTT CCTCCAACCGACGTGATTTTCCAAGCCCATTGATCATAAGATTGTAAGAAACTGTATCAGGATCAAGGCCAGTTAACTTT AGTTCCTCAAAGTAGTGCACAGCTTCATCAACTCTACCAGTCATGCACAGGCATTCTACAAGAATGGTGTAGGATTTCAA GTCTGGCCTTATTCCTTCCTTAACCATCCTTTTGAAAAAATCACAAGCAATATCAATTTTACCTGCTTTCCCAAATCCAT TGATGAGAATATTGTAAATAGCAGAGTTGGGCTTGCATTGATAGTCCAACATCTCCTCAAAAAACTTCAGTGCTTCATCA CATCTTTCAGCCTTTAAAAGACCATCTATAAGAGGGCCATATGTGCAGGGAGTGGGAGAGAAATCACCACTAATGAGTTC ATAATATAAATCTAATGCCTTATTTAGGCTATTAGATTTCACAAGGGCAGAGATGATAATATTTTGAGTTACAGCATTAG GCTTGCATCCCCTACACAGCATCTCATTGTACAATTCAAAAAGTTCAGCAATCCTCCTAGATTTACCATGAGCATCAAGC AACAAGTTGTAAGTGAAGATGTTTGGGTGACAACCAGCATTCTTCATCTCCACAAAAAGTTCTAAAGCCTTTTCAGTGAC ATTGCATGCAAGAAGCCCATCCATCAAGCAATTATATGATTCCAGGGTTGGGTGAACTCCTAAAGTTTTGGTGAATTTGT CAAATAAATTTTGAGCATCAAGGGCCTTCTTCCGCTTACACAGAACTCTGATTAGAGGTAACATTACATGGTCATCTTGG CAACTAGCATCGAACACCAATCTTTCAGCAAATGCAATGGCCTCTTCAATTTTTGCTTCAACTAAAATACATTCTATCAA CTCTCCCCAGAATTGTTTGTCTGTATGTGAACCTGCCTGATGGACAAATTCTACAACAATCTTGATTGCATCCTCAACCC TTCCATACCTCACAATACCGGGAAGGAGGGTGCACAAAGTTACATGATCAGGGGCGAGAAATTTCTTCATTTGATGGAAA AACCAGAATGCATAATCAGTTCTGCCTTCTTTGATCAAGCCATGGATAACAGTGTTATATGTCAGAACATCAGGACTACA GTTCATCGCTGTCATTCTACAGAACATCTTCAAGGCCAAATCAACTGCATCATTCTTGCAAAGACAATCAAGGAGTGCGT TAAATGTTACGGTGTTTGGAGGGCACCCAGACACTGACATACTCCCAAATAATTCAAGGGCCTTTGGGATTTTCCCCTCC TTCCCCAAACCGGTAAGTAAAATGTTGTATGTCACAACTGTAGGAGCTAGCTTCAAATCCTCCAGTCTTCGGAACATTTG CCACGCCTCATCAACTCGATCATCCTTGTAAAGTGTGTCAATTAAAGAATTAACTATAATAACATCTGGTTCATACCCAT TGCTCATCATCTCAGCCAAAAGCCCGATTGCTTTGTCTATTTGCCCTGCTTTGCTGTAGCACTTCATCATCATATTATAG GTTACTGAATCTGGTGAAAGCCCACAATTGTGAAGATCATTGAATATATCTTTTGCTTCTCTGATCCTACCCATTTCTGC AAGAGTATATAAAGATGCATTACACGCTACTATACTAGGCACAATGCCTCTTCTTTTCATTTTTTCAAAGGTGCCAAGAG CTTTTCCAGTATCACCAGACTTTCCATAATAGTCGATGAAAAGAACATACGAATAAGCAGTAGGTCCAACACCCAAAGAT TCCATATTTTCAAAGAGTTCTAATGCCTCATCTAATCTTCTCAACTTCAAAAGTCCAGAGATCAATGTGTTGTACGTATG AAGATTTGGAAAAATCCCTTTTGTTCTCATCACGTCTAACATAGCAAATGCATGATCAACATTCCCGGACTTGCATAAAG CCTCAACAAGTATAGTGTAGGTAACCACATCAGGAGCATAACCATCAGCCTCCATCTCACTCCAGAATTTTTTCACCATC TCCAAGTCGCCACAGTTACTAAACTTGTCCATCAAAGTAATATATGTTACCCGGTCAGGTTTGTGACTGCTACCTCTCAT CTTTATATATAACTCCTTGGCCTTATCAAGTTTCCCTGCAGTACAAAGAGCATCAATTAGAACCGTATAAGTGACAACAT CAGGCCCGCATCCTTCATTATCCATTTTCTTCAAAATCCCACAAGCATCATCAATTCTCCCTGCCCTCCCAAGCACTCTA ATGCATATGGTATATGTGTAGATATTTGGCTTCAAACCCAAAGTTTCCATCTCTTCCAATAAACTCATAACGATTCCAGT TTCCCTTCTCCTCCCCAATGCCACCATTAATGCTGAGTACGTCTTCATGCTAGGCTTCATCCCTTCTGAGATCATTCTTC TGTAAACCTTCAAAGCCTCAATACAGAAGCCAGGTTGGACTACCAAATGAATCAGTCCATTATATGAATACGCATTCAAC ACAAACCCAGCTTGCCTCATCCTTCCAAGCGCAAACGGTGCCTGTCGAATCCCACCTTTAACTGAGAGAGCCTTGAAAAT AGTCAGGTAGGTATTCAAATTCCTGTAAATAACATGCTTTTGCATCAAATTAAAAACAACAACCATATCCTCAACCCTCC TGTGAGCCCCCAATAACTCAAGCATGTAATTGCACGCGTCAGTCGTGAGCACAAGACTCGGCAACTGGGCAACCGATTTC AAGTACGAAAGACTCGAACTCGGATCCGAAATAGACTTCAAAACGCCAATAACTTCCTCAGGTGACACACTTATTTTGCT CTTGCTGCCATTCACCACAACAACCTCATGGGCACATCTTAGCCTAAAACCACGATGACCCATTTGTCTTCTTCCATTTT TCTTCCATTTTAAACAACACCCTTTTGATAAATTCTTCATTTTGACAAAATTCTTCCCTCCTAAGAACCCATTATTGCTT AGAACAGAGAAATTAGTATCAGCCAAAGCGTAACAAGATGACATACTGCTGCTGCTGCTGCTACAACAAGCGGTTGAGGA GCAGAGAACTAAGACGGTCATTGAAACGCAAAAAAATGCAGCAATGATGAACAAAAGTAGCGACTGAAATTTAGAATAAC CACATTGAACTGCAGAAGATAGCAAATCGAATGTGCTAACCTGTGTCTGTGTCCGTACGTAAAAGAGTGTTAGAGTGAGC GAAGATGGATAGTGTAATCGCTAATGAGAGACACAGATACGGCCAACGCTATCATCAAGTTTTGATTTTGGATAATTTTG CTGCCAACCCACCATGTCCCATTTTGGACATTTTTCCCACCACACCCAACCAGGTCCCGG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0376400.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGAATATATCTCAGCACTCCCAAGACAGAAAAGTTTTCTGAAGATGGTGAAAATGACCGCCTTAGATATGGTTTATC ATCTATGCAAGGGTGGCGTGCAACTATGGAAGATGCTCATGCTGCATATACTGATCTGGATGAGTCCACTTCGTTTTTTG GTGTTTATGATGGTCATGGAGGTAAGGTGGTTGCAAAATTTTGTGCCAAGTTTCTTCACCAACAGATGCTCAAAAGTAAA GCATACTTAGCTGGAGACATAGGAACCTCTCTGCAGAAAGCTTTTTTAAGGATGGACGAGATGATGCGTGGTCAAAAGGG ATGGAGGGAACTATCAATTTTGGGGGATAAGATAAACAAGTTTACTGGAATGATAGAAGGGTTGATTTTGTCCCCACGAA CCGGTGATGGTGATATCCAAGTTGATGATTGGGTTTCTGAGGAGGGGACTCACTCTGATTTTTCTGGACCAACATCTGGA AGCACCGCGTGTGTTGCAGTTATTAGAAACAAACAACTTGTTGTTGCAAATGCTGGTGATTCACGTTGTGTAATATCTAG GAATGGTCAGGCATACAATTTGTCTAGAGACCACAAACCTGATCTTGAGATTGAGAATGAAAGAATCTTAAAAGCTGGGG GCTTTATTCATGCAGGACGAGTTAATGGCAGTTTAAATCTTGCAAGAGCTATTGGTGACATGGAATTTAAACAAAACAAA TTTCTTCCTGCTGAAAAGCAAATTGTGACTGCCAATCCAGATATAAACACTGTCGAACTTTGTGATGAAGATGAATTTTT GGTGCTAGCTTGTGATGGCATATGGGATTGCATGTCAAGTCAGCAGTTGGTAGAATTTGTTCATGAACAATTGCGCTCGG AAACGAAACTTTCAGCAGTGTGTGAAAGAGTGCTTGACCGGTGTTTAGCACCATCAACTGCTACTGGCGAGGGATGTGAT AACATGACCATGATCTTGGTGCAGTTCAAAAGACCACAGTCCAGTGCACCAGCACAAGAGCAATCCTCATCACCTGAATC TGAACCAAAACCAGAAAGAAGTTCAATTTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0376400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGIYLSTPKTEKFSEDGENDRLRYGLSSMQGWRATMEDAHAAYTDLDESTSFFGVYDGHGGKVVAKFCAKFLHQQMLKSK AYLAGDIGTSLQKAFLRMDEMMRGQKGWRELSILGDKINKFTGMIEGLILSPRTGDGDIQVDDWVSEEGTHSDFSGPTSG STACVAVIRNKQLVVANAGDSRCVISRNGQAYNLSRDHKPDLEIENERILKAGGFIHAGRVNGSLNLARAIGDMEFKQNK FLPAEKQIVTANPDINTVELCDEDEFLVLACDGIWDCMSSQQLVEFVHEQLRSETKLSAVCERVLDRCLAPSTATGEGCD NMTMILVQFKRPQSSAPAQEQSSSPESEPKPERSSI

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	PTHR13832:SF656 View details on PTHR13832:SF656 Search for proteins/transripts with this domain View external data on PTHR13832:SF656	1	339	339	1.3E-175	–
PANTHER	PTHR13832 View details on PTHR13832 Search for proteins/transripts with this domain View external data on PTHR13832	1	339	339	1.3E-175	IPR015655 Show description in modal box View details on IPR015655 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF81606 View details on SSF81606 Search for proteins/transripts with this domain View external data on SSF81606	3	331	329	3.53E-83	IPR036457 Show description in modal box View details on IPR036457 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00332 View details on SM00332 Search for proteins/transripts with this domain View external data on SM00332	13	327	315	6.2E-102	IPR001932 Show description in modal box View details on IPR001932 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00481 View details on PF00481 Search for proteins/transripts with this domain View external data on PF00481	23	104	82	5.0E-12	IPR001932 Show description in modal box View details on IPR001932 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS51746 View details on PS51746 Search for proteins/transripts with this domain View external data on PS51746	23	329	307	54.162	IPR001932 Show description in modal box View details on IPR001932 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00143 View details on cd00143 Search for proteins/transripts with this domain View external data on cd00143	23	329	307	1.84083E-93	IPR001932 Show description in modal box View details on IPR001932 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00331 View details on SM00331 Search for proteins/transripts with this domain View external data on SM00331	28	329	302	0.0017	IPR001932 Show description in modal box View details on IPR001932 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS01032 View details on PS01032 Search for proteins/transripts with this domain View external data on PS01032	52	60	9	-	IPR000222 Show description in modal box View details on IPR000222 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00481 View details on PF00481 Search for proteins/transripts with this domain View external data on PF00481	141	314	174	1.1E-58	IPR001932 Show description in modal box View details on IPR001932 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	330	356	27	-	–

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:0004722 View details of GO:0004722 AmiGO InterPro QuickGO	Molecular function	Protein serine/threonine phosphatase activity	Catalysis of the reaction: protein serine phosphate + H2O = protein serine + phosphate, and protein threonine phosphate + H2O = protein threonine + phosphate.	Subterm of View details of GO:0004721
GO:0006470 View details of GO:0006470 AmiGO InterPro QuickGO	Biological process	Protein dephosphorylation	The process of removing one or more phosphoric residues from a protein.	Subterm of View details of GO:0006464 View details of GO:0016311
GO:0043169 View details of GO:0043169 AmiGO InterPro QuickGO	Molecular function	Cation binding	Interacting selectively and non-covalently with cations, charged atoms or groups of atoms with a net positive charge.	Subterm of View details of GO:0043167

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0376400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0376400.1