Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0329300
Transcript ID	LotjaGi3g1v0329300.1
Related isoforms 1	LotjaGi3g1v0329300.2
Lotus japonicus genome version	Gifu v1.2
Description	30S ribosomal protein S6; TAIR: AT3G18760.1 Translation elongation factor EF1B/ribosomal protein S6 family protein; Swiss-Prot: sp\|Q9UT82\|RT06_SCHPO 37S ribosomal protein MRP17, mitochondrial; TrEMBL-Plants: tr\|I3S8R0\|I3S8R0_LOTJA Uncharacterized protein; Found in the gene: LotjaGi3g1v0329300
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:69684287..69697307) extracted from Lotus japonicus Gifu genome v1.2.

TAAAGTTGTTATTTTCTAAAATCAATTCAAGAAATTGCAATTCTAACGCAAACGTAGCTAATAAAGACAAAAGGTTAGCA GTGAGTGGGTCCAATAAAAATAAAAAATTGATTTAGATAAGCAAAACCTCCTATAAATACACATCAGTCATCATAGGGGC TAGGTCTATGGTTCAACATATCGTTCACAATGTATTTTACTATTTGTCTCTCTCTTTTCTCTCTCAAACTTTGATTTGTC TTCATTATTTCGATCACCATCGGATCTGCACCGGGCCCCGTTTCTGACGAGATGTGCACCGTTGCCGACTGAGCTCTATT TCGATCTAATTATTGATGAGAGATTCCATCGAGGACTGCCGATTCAGAAATCAAGCTTTGATTCTTCTATCAATTTCATC TCTATGTTCATTCTAACTCAGACTCCTTTATTGTTCTATACTGCTTTTCAATGTTCTTATTGAAGTTATGATGCTTGCTA ACTATGGGCCACTGCTGTATAGTTTTCTATTCATGCATTTTTTTCATGACCAACCAAACACATTAGCACAGTGTTTCCCT GGAATTTTCCAGTCCCTCCTACTTCCTTCCTACAAAAATCAACCGAAACAAATAGACCATTAGAAGCGATAAACACATGA TTTGGACTAAATGAACAATGATAGAAAATAGATACTAAAATAAAATAAAAATTACTAACAACAAAAAAATGAAGGTGAGT TTCACTACGAGAAAACCAATAATCACTAACGGTCAAAAACCGTTGATAACTCTTTAAAGATTCTCGGCGTAGATTCGAAG TCGAGCTTCACCAGCACAAGAAGGTAATCGCTTGGTGTTTTCTACTTTGTTCGCAAATTTGTTGCTCTGTTTTCTATTTT TTCTCACCCTCATCCATTTACTGCATAGAACATAGGACTGTGACCTCAAGGGTATTATTCTATTCTATTCTCACAATAAT ACTGATTTTTTAAGACCACGAATCAGAATCTGAAAACAATATTTAAATGAACGTTGAATCACATTTCTTTATTCTTAAAC CTTAACACTTTGTTGGAGCTATGGTCTTCTTAGATGTCACAGATTTTCTTCCCCATTCATTTGCTGATATGTTGGTACAC ATAAGCACTTAGAATTGAACCAGGAATTGATTGTTCACTACATTGGCAGATGGTGAGCTGAAATATTGAAGGAATAACAT CTTAAAACCAAAATTGACATGGTTAAGTCCATTCATGCCAATTGCATTGTTACATTTGTGTACCTTATTTGTTACCGACT TATACCCATCATTCTTTTCTTGAATTATCATTGAAATGGCCTGGAATGGAGTTCTGGTACAATGTATGTTGTATATAGTC TCTTGTATTAAGACTGTGCTATGTGCAGGCCTTTCCTCCTGATTTGAATTTGGTGGATTGATTGTCTAACCAGAGTCTTG GTAGATTTGTGTAATTGTCCTGTGTTTGTGTCATATTGCCTTGAAACCACAGAATTATCAATGGCCGCAGCTACAAGTTT GTCCTAGATAGTGGTAGGTTTGTTGGCAGGCATAATCTGTTTGAGGTAAGTTTATTGGTCTATTCAAAGGCTTTACATGA CCCTTAGATGCTCTGGGCCCCATGCGCGCTACGGTGATGTTTTCAACGAGTCTATAGCCTTGGCTGACATGCCCGGGTAA TCTTTGAAATTAAAAAAAAAAATTCCTTAAGTAGGTTTTCCAGTTATATTAGAGTATTCAAACAGCTTGACAAAGCTTGA AAATTGAGAGAGAGGTCTATGTCAAATAGCAAGTTAAGTTCAGGCTTTGTGTTGATAAAACAGGGAAGGCCCTTTAAGGT AAAGATTGACACCTTTCCCTGCCTACCCTGTGGTCACAAAACGGTCATTTGTAATTGAATTGAACTATCAGAAATTTATT CCAATCACACTATACTATCTGATTTTGTTTTGAATTAATAAACATTTGTTGAGTAATGATCATTCACGTTTGATTACATA TTTGAAAGATGATATTAGCAATATTTATTTAACATTCCTGATTAATGGCTATCTGATGTAGATAGGGAGCTAGTTGACTT GGCTGCCACAGAGCAGAAGGAATAAGATGCCATTGCCTCCGTATGATTGTATGCTTCTATTTAAGCCCCATATAAGAAAG GAAGCCCTCATTGATTTGGTTTCCAGGGTGGGAAAACATGTGTACAGAAGAAATGGGGTTGTCACTGATATAAAGAGTTT CGGACCAGTTCAGTTGGGCTATGGTATAAAAAAGCTCGATGGCAGATATTATCAGGTGAGATTGACTATTCTTGATGCTG TAAGGACAATTTATACATGTTTTTCTTTTTATATGTTTCTCTTGTAGGTTCTTTACCGGTTTACCCCCTTTATAGTACTT GTCTTGATATAAGCATTACTTGCTTATTTGAGTTTGCCTTAGGCTTTAGTAAATCAGAAGGACTTACATATTTTTTCTTG GTATATATGAATCCAAATTATGCAATTCTATTGTAATGTAATGTATTTCCATTTTATATTTTTAATGGATATAGGGCCAA CTGATGCAACTGAGCATGATGGCTACTCCTGACATCAACAAAGAGCTCCATTACTTAAACAAAGAAGATAGGCTTCTGCG TTGGCTTCTTGTTAAACAACGGAACACAAAATTTGGGCTTGACTTCCTTGGCGAGGAAGGTGCAATTGAGCTTAGTGAAT TGTCTCAAAGCAGAAAACTCTATGATTATGAGAATGCGGATGAGGATGATGATGATGGCGATGATGATGAATATGAGGTT AATGAAGAAGGGCACAAAATGAACTAAAAGATAACTGAGTATTTTGTTTGTTTCCAAAATAAGAGGATAAAACCATTGGA CCAATAGGTATTTTATGTTCAACTTGTGCTTATCGATAGCGCTAGGTAAGAACTGAGACATGATCACTGTTGTCTCTTCT TGCTATTTGACAGAATAAGATTTTTGTAGCTTGCTGAAATTTTAGTTTACAAATGTGCTAGTCTTGACCCGGAGCAGTTG AGCTCGTCCAAAATAGTTGTGGCCTACGATATCTCAAGGAAAACAATAATGGTCAGAGGATAAGAGCAGTTTCAATATGC ATCGATGCATTGACATGTAAAATTGCATGCAAGTGGCAAAGAAGTGAGAAATGGTAAGCTTTAAGTTTCATTTCATATAA AATAGACCATACAATTAGTCCAAAAGTTCGAACACATCTTCAAAAAAACCTCTTCAATAATTGACAATTAAATGTTTTTT TTTTTAATTTGGGAGTTTTGCACAATATATTTAAGACATCTTTTATATATACTCACACTAATTTTTCCTTTCCATTTCCA CATATTTTCTTTTTATCTATCGCTTCTTTTTCAATCACATTACTCATCATATATCTCACATCTCTCTTATATAGTTATAT TCATATCTCCCCTACCGGGGTGTAGGTGAATGGGTGAACCTATCTTTTTCCTATTTAAGAAGCACCTTGTATTTCCCATG CACAAAGATGATAAGCAAGGTTCCAAGCCATGTGACGGAGATACCTGAATATATAATTTTGTCAAAATCTGTAAAGAAGT TCAGCACAGTATAATTAAGGCTATGATTGGATATGTTAGCATTCATTTCAAAACAAATAGTGAATAAAACTCTTTTTATG GATTATGATGAAAATACGTTGGCATTACACTTAACTGATATACAAACACACGAAACCATCTAGTGGAATCAGTGCTAAGT AGCTAGTGTGATTTAATGATCCATTTATTGAAACCTTTAAGTCTAATGGATATCAACTCATAACAAGCAGTGTTGCAGAA AATTTCACCCTTTAGATTGTCAATCTTTGCCTTATTCTCTTCCTAAACAATGCTGCTTTCACATACATCCAATCATTCAC CTTATCCAATAACCTGAAATAGGCATGTCTCCATGAAGCATTAAATATAAAAGATAAACAAACACCCCAGAAGCCACTGA TGAATCCAATGCTCAAACTAACATAAAATCCAAGGGATATTAATCCACTTTCATCTCCTTCAACATCATTTCTTTGGTTG TCACTGGAGAGTGCAGGGTTGGAAGAACCTTCATCTCCTGGACAAGCTTCTATCAGCGGTGGCCCACAAAGTCCCTTGTT TCCAATATATGCAGAAGCATCAAAACTCTGTAGCTGGGTGCCCAATGGAATCCTTCCAGATAAGTTGTTGAATGAAATAT TCAAATGACTAAGGAAATATAATCCAGACAAGCTCCTAGGAATTTCTCCAACAAGATGATTGCTTGACAAATCAAGGGAT TCCAGCATTACCAGCTGACCAATGTTATCTGGAACCTTTCCTATCAAGTTATTTCCTGATAAATTCAGAGAAACCAAGCC CACAAGGCTGGTTATATTAGGAAATTCTCCACTTAAGTTGTTGCTTGATATATCTATGATTCTCATGAATTTGAGGTTTG TCCCTGATGAACTCACAGAAATGCTACTGGTTTATTGAAGAAAACAGAGACTCAATCCTCAAGTACTGAGGTTGAATTCT CAGGAATTACACAGGAGAATCAATGAACACTAACAAGAACCCTAGCCTCTGGAATTCGAGATCCAGAATCTCCCAAATCC TAACCAACTGAATAACTACCTGTAACTTCCCCCTTTCCCTTATTTATACTATTCAGTAGCTCTAACAGAATCACAACTAT TAACAGAATTAGCCAGCTGTACTCTAACAGAAACAACTAACCATGCCAGCTGTTTATTAACAGATCAACCAACAATAACA GTCACACTAAGTTGTGACTTTCCTCTTGTTTCTTCTCTCATACACCTTCTTAATTGAAGGTCTATGCTCATCAATACCCC CCCCTAAAAGTTTCACCTTGTCCTCAAGGGGAAAATCAGGAAAAGCTTCATGGAGCTGGGCAGCAGATTCCCAACTGTTC TCACAAGCAGGTAAAGAGTGCCACTGAATTAGCACCTCAATCTGGCCCATTGTGGTTTCCCTAACAGCCAGCACTGTTTC AGGTTCCACCAAGAGCTCATGATCTTCATTCAAGGCTGCTGGGAGAGGTTGAGGCTGAAAATTAGTCCCCACAGCCTTCT TGAGGAGAGAGACATGAAAGACAGGATGCACTCTACTGTGAGCTGGTAGCTCAAGTCGATAAGCCACAGCCCCAATCTTT GCTACAATAGGATAGGGTCCATAATACCTAGGACTCAATTTTTCATTCATTTTCTTGGCCAAAGACCTCCTTCTATAAGG TTGTAACTTGAGAAAAACCTCATCACCAATTTGATAATCCACATCCCTCCTCTTCTTATTTGCACATGTCCTCATCATGT CCTGAGATTTTAAAAGATTAGCTCTCAGATCTGATAGCAATTCATCCCTCCCCACCTGCAAATCATTTACTGCAGCTATC TTGGAAGGAATTGTAGTCCCTTGAAGAAGCACAGGTGGTTCCCTACCATAAAGAGCTTGAAAAGGAGACATTTTGGCAGA TCGGTTGTAATTGCTGTTGAACCAAAACTCTGCCCAAGGAAGACAAGTAACCCATTTCCTTGGCCTGGATCCAGTAAGGC ATCTCAGATAAACTTCAAGGCATCTATTGACCACCTCAGTCTGGCCATCAGTTTGAGGATGGTAGGCTGAGCTAAACTTA AGTTGTGTGCCTGACACTCGGAACAGTTCCTTCCAAAAACTACTGAGAAATAAAGAGTCTCGATCTGAGACTATGGTTGT TGGGAACCCATGAAGTCTCACTACCTCATGAAGAAATAAAGCTGCCACTTCAGGAGCTGTAAAAGGGTGCCTTAAGGGAA TAAAATGAGCATATTTTGTCAGCCTATCCACCACCACTAAGATTGTATCCTTGCCATTAGATTTAGGCAAACCACCAATA AAGTCCATGGACACATCTGTCCAAACCTGAGTAGGCACAGGTAATGGCTGAAGCAGCCCTGCAGGGGAGAGATTGTCAAA TTTGTTTCTTTGACATGTGTCACATTCTGCCACAAAATCTCTTATGTCACTCTTCATCCCTTCCCAATACACCACTGCAG CCAACCTTCTATAGGTTCTAAAGAACCCTGAATGTCCTCCCAACAAAGAAGCATGAAACTCTTTGCAAAGAATTGGAATC CTATAAGATTGCTTGGACAGAACCAACTTTCCTTTATAAAACAACCTGTGATCCTTCAAAGTATACCCTTTATGAGCCTA AGGATCCACAATCAGATCTTGTACAATGGCCTGTAGCTTGGGATCTTGCAACATCTCAGTTTGCCACTCCTCAAAGTCAT TCACCTTAAGAACTGACAATGCACAATATGAGCTTCTCCTGGACATGGCATCAGCAGCTGAATTGTCCTTCCCAGGCTTA TATTGTATCTCAAAGTCATAACCTGAGAGTTTGGAAATCCATTTGAACTGCCCCTCTCCCACAACCTGTTGCTCAGTAAG GAACTTCAAACTCTTTTGATCTGTTCGAATTATGAAATGCCTTCCTAAGAGATAATGCCGCCACCTTTGGACAGCTCTGA CCACTGCCATTAACTCTCTTTCATAAACTGATTTAGCTTGACTTCTATCTGAGAGTGTAGCACTCCAGAAAGCCAGAGGC TTCCCTTCCTGAGTCAAAACTGCTCCTAGACCCGTACCTGAAGCATCTGTTTCCAGAACAAAGACCTTGGAAAAATCTGG AACAGCCAAAGTAGGTATCTCTGTCAAAGTGTGCTTAAGAGCTTCAAAAGCCTGTTGGGGACTAGGTCCCCACTGAAAAC TATCTTTTTTCAGTAGCTGTGTCAAAGGCCTAGCTATCTTGCCATAATCCTTGACAAACCTTCTATAGTATCCAGTAAGA CCTAGAAATCCCCTTAAGCTCTTCAAGTCTTTAGGGACTGGCCACAACCACATAGCTTCCAATTTCTTTGGATCAGCTGC CACAGTTCCAGCAGATAACACATGTCCTAGATATTCAATCTGGCCCCTTCCAAACACACTCTTCTTACCATTGATTTTAA GATCATGTTGGTCCATCAATTGCAGAACTTGTGTCAAGTGAACAACATGTTCCTCCATCGTCAAACTGTAAATCAAAATA TCATCAAAAAAAACTAGAGCACACTTTCTCAAAACTGGTCTCAGCACCTCATTCATCAGAGACTGAAAAGTGGAAGGAGC ATTGGTGAGGCCAAAGGGCATCACCAAAAACTCATAGTGGCCCTCATGGGTCCTGAATGCTGTCTTTTCCACATCCTCTG CCTTCATCATAATTTGATGATATCCTGATTTCAGATCAATTTTGGAAAACACTCTAGCTGGACCAATCTCATCTAAGAGT TCATCAATGACTGGAATAGGAAATTTATTAGGGACTGTGATTTTGTTCAAAGCCCTATAGTCTACACAAAATCTCCAGCT ACCATCTTTCTTCCTAACCAAAATCACTGGACTTGAATATGGACTAATACTAGGTCTAATGATTCCAGCATTGAGCATTT CAGCCACTAACTTTTCTATTTCATTTTTTTGGTAATGGGGATACCTGTAAGGCCGAATGTTGGGAATGGATGCACCTTCT TTCAGATGAATGGCATGGTCATGTCTTCTCTGAGGGGGCAATTCAGTAGGTGCTGCAAACAGTGCTGGAAAATCTGACAA AACTGCCTTCAACAACTCTGGAGTTTCCTCTGCTTTAGCCACCTCTTTTTCTAACATTTGATATTGAAGCACATATCCCT CTCCCTGCTGTTGAATGGCTTTAACCAATGCATTCATGGAAGCTCTCTTCTTCAGCAACTCAGGCTCCCCTTTGAGGACT ACCTTTTTATTTCCCAGTTTGAACTTCAAGGTCAGCTCTTCAAAATTGGCTTTGATGTCCCCCAATCCTGCTAGCCATTC TAGACCAAGCACAACATCCACTCCTCTTAATCCAAACAAAAAGAAATCTTGAGTTACCACAAATCCTTGAATCTGCACAC TGAGATTCTTACACACCCCCTTGCTTTTCACTACATGTCCATCCCCTACTTCTACTGTGTAAGCTGGAGTTTCTGTAATC TGTAACTCCATTTCTCTTGCCAAGGACTGAGAAATGAAATTATGTGTTGCTCCACAATCTACCAGCACCACTATGGCAGT TCCTTTCAATTTTCCCCAAACCTTGAGAGATTTCCTTGAAGAAATTCCCTGTATACTGTTTAGTGACAAGTGCTTTAACT CCATAGCTTCCTCAATTTCTTCAGTTGAGAGGCTCTAGTGTCTCAATCTCTTCTTCCTCACCATCATCCCTCAGCAACAT TACCCTGAATTGCTTATTCTTACAGATATGGTTTGGTCCAAACTTTTCATCACATCTGAAACACTCCCCCTTTCTCAACT TTTCCTTCATCTCTTCCCCAGTGAGTTTTCTGTAAACTCCTCCCCTGGCTGGCTTACCTCCTACTCTCTCATTAACACTA CCACTAGATGATTGCACTGTGCCCTGAGTTACACTACCACTACCACTTTTCTGTCCAGTATCAATTTGCACAGATTTCTG AAAAGTTGTGGATCTAAAAGGTGGTTTGAAAGAGGAATTATACCTGCTAGTACTGCCAATTCCAGCCTTGCTCACAGCCA GGTTCTTCTGTTCCACCATCAAGGCTTTCTTGACCATGATTGTTAGGGATTTGGGCTCATAGAGCTTGATTTCTGCTGCA ATTTCCTCCTTGAGTCCATTAACAAAGATATCCATGTAATGCTCTTCATCAATTCCCTTGAGCATTCCTGCAAATCTCTC AAATTGTCCTACAAACTCTTCAACACTACCTTCTTGCTTCAAGGCCAGCAAAGCCGCAAATGGACTAGCATTCGAGGTGA GTTGAAATCGTTCCAGCATGGCTTCCTTGAACTTGGTCCAAGTAGTCACCTGGTTGCAGGTTTCCCACCATTGGTACCAG CTCAATGCCTTTCCATCCAAGGCCACCATAATCGCTTGTACCTTCTCTTCCTCAGTCGCTCCCTTCAGTCGGAAGTAGCG TTCCAATTTCTGAATCCAACTGTACGCATCTTCTTCACCCTGGAAAACTGGAATGTCAAGCTTCCTCCAACGCTCTGTTT GTGCATTTGCAGTGCGCTGAAGATTCTCTCGCGCATCAGCTTCGTCTCTTACGCTTCCCGGTTGTCCTCCGTTCACGGTG CGCTCCTCCTCCATTCGTCGGCGTTCTTGCTCGCCGTCGCTGTCGCCGTGCTCGCCGGCTCGCCGGCGCGTCATCGTCGC GACAATCGCTTCCAGATTGCGAAACCTCTGCTCCACGCGTTCATGCTCGATCGCACGCTCTCTCCGTTCTTCGTCGCGAA TCCTCCTGTCTTCTTCGCGATTCCTGCGTTCTTCCTCGCGATCGCGATTCAGAACCTCAATGAATCTCTCAATCGCTTCC ACTCTGGCTTCCATTCTGCTCGCTACCATAGACAAATCGATACCACAGCTCCTGGATGGAGCTCTGATACCAATTGATGA ACTCACAGAAATGCTACTGGTTTATTGAAGAAAACAGAGACTCAATCCTCAAGTACTGAGGTTGAATTCTCAGGAATTAC ACAGGAGAATCAATGAACACTAACAAGAACCCTAGCCTCTGGAATTCGAGATCTAGAATCTCCCAAATCCTAACCAACTG AATAACTACCTGTAACTTCCCCCTTTCCCTTATTTATACTATTCAGTAGCTCTAACAGAATCACAACTATTAACAGAATT AGCCAGCTGTACTCTAACAGAAACAACTAACCATGCCAGCTGTTTATTAACAGATCAACTAACAATAACAGTCACACTAA GTTGTGACTTTCCTCTTGTTTCTTCTCTCATACACCTTCTTAATTGAAGGTCTATGCTCATCAGTCCCATACTCAAATTC TAAACCTTTTGTTATCAAGTTTACAAAGTCAATGATGTTCAGTTCCAATAAGCTGTAAGTGACACGAGAGTAAAACAGAT CTGTTGAAACTTCATTGTGTGACAAAGCAGTCAAATTGTTAAAACAGTAAGGCAAGGCCCCAGAAATATTGTTTCCAGAG ACATCCAATACCTGAAGAGCTGAAAGATGACACAAACTCAATGGTATGCTACCATATAACTCACTGGTTCTCATGCGGAG AACAACAAGCTTTGTCAAGGTTCCCCCTAACCAATTTGGTATTTCTGCAGAAAAGTTGTTGTTTCCAAGATCAAGGAGCC TTAATTCTGTGCAATTTTTCAGGGAGATCAATCCTCCAAGGAAGTTATTATTCCTCAAATGTAATGACAATACTTGCTGT AATGCACCAAATGAGTTTGGTATTTCCCCTGAGAAGTTGTTATTTGCCAGGTTCAGCATTAGCAAACCTTTAGCATGCAT CCAACAATTTGGAAGTGTTCCTGATAACTGGTTATGAGACAGGTCAAGGTAAGCCAAGTAACCATTCAATGTGCTACACA ATGAAGATACTTTCCCAGAAAGCTTATTTCTAGAGAGAATCAACAAATTTGTACTGGGTGGAAATGGTGGTACTTGACCA GACAACTGATTAGAGCTCAAATCAAATTGAGGAAGGTCATATGCTTTTGATGATAAATTTGGCAAAGTGCCAGGAATGTG ATTATTGGACAAATTTAAATATTGTAACTTAGAAAGGTTCCAAAACCACTCAGGGATTTCTTCTGAAATTCCTACATTGG AAATGTCTAGGACAGAAAGATTCTTTTGGGTTTGAAGCCACTGTGGGAATTTTGTCCCCAGCTTGCAAGAAGACATTTTC AGGTACTGCAATTGGAAAGGTGGTATCCAATTCATGCTGAGGTTGAAAGTCAATGAATTATCAGAAACAGCCATGGTTCT TAAATCATAAAGATTTGACATGTGATATTCATTAACTGTGCCATCCAAGGAATTGGAAGAAAGACCAAGATTTTTCAGGC TGGAAAGATTTCCAATACTTTCTGGGAGAATTCCATTAATTTTATTGTGGGAAAAACTAAGATCTTCAAGTGATGGTGCT CCTGAGAAGTCAGGCAATGGTCCACTCAGGTTGTTGAAAGAGACACTGAAGCTAGACAGATGAGGTAATGTTCCCAAACT TTTGGGAAGAGTCCCATTCAATTTATTGGAATTTGCATAAAAGGATTTCAAGGATGTAAAGTTAGCAATATCAGGGAGTG GTCCTGTAAATGAGTTGTTACTTAACTGCAGCAACTCAATGGTATCCTTTGCACAGGATAATTTGTCAACTAAATCTTGA AGCTGGTCAACCAAATTGTTTGAGAACAAATATAATTCTCTTAGCTGACACAGATTCTGGAAAGATTCTGGTATTGGCCC TTGAAGTTCATTATCAGAAAGATCAAGAATTTTCAGAGAAAACATGTTTGCAAATACATTTGGAATTGGGCCTTTCAAAT GGTTACCATATAATTGAAGGTTGATAAGGCTACCGCCACTAACATTTCCCACCCATGTGAATATAGAAGAGGAGATATTA TTTGAACTGAGATCAATTACCTTAAGAGAAGTTGACAAACTAACATGAGAGAGAGATTTGGGATTGATATATGGAAGCCC ACACTCTTCCAAATGAAGTTCTTCAAGAGATGGAAGCTTGCTTACTGATTCTAACCAGTCAACAGCTTTACCAAGGTCAA GAAGTGATAGATCAAGGTATCTTAGAGAAGAAAGGCCAGAAAGCCAACTAAGATAATGGCTACTGATACCAATATTCCAA CTTAGATCAAGTGTGTGCAGATTTGAGAGGTTCCCAAGTTGATGAGGAACTGTTCCTTCCCAACCAACACCAATAAGTTT GAGGACCCTTAACAGAGTAAAAGAGCCAATGAAGTCCGGAATTCTTCCACCAAACAAGTTGTCACTAAGGTCTAGATACT CTAGATATTGCAGTTGAAGCAGTGAGGGATTGATCTCACCTATTAAAGGTTGCTGTGCCTGCTTCTCAGAATGAAGATCC AACTTGATGACATGACCAGTTTTGTTGTTGCAAGCTACTCCCCTCCATTTGCAGCAATCTCGCTCAGTTTCCCAAGAGAA AAGGGTGTTTGATTCATCAATAATACCTTGTTTGAATGTGAGAAGTGCTTGCTTCTCTTTTTCTATGCATTTGACCAAAT TAGAGCACTGAGCTTGGAGACATATGCTAGTGAAGATAATTGTACACAGAAACCCAATAGGTGTAGTGACAATTGGCTTA TGATTTACCTTGCTACTAAACATCATGAACAATTGAAAGAAGAAAAACCAATCCTTCTTCTCAGTAAATAAAAGCACAGG AAGATATTAAGAGTAATACAGATACAGATAACTCAGGCACATAAAAACACTTCCAATTAGGCTATTTGTATACAGTATAC ACCACCAAAATTCCTTTTGCTTCTTTTGTTTTTTTCTTTTCTCTCTCTTTAGTCAACCAATGCACCAATGTTGATTTGGC CACACATTTCTTGAGATTAAGAATTATAAGGAAGAAAAAGACGATTAAACAATGAGCCCGAAACATTACAGGAAACAGAC CCTTAAGACTTTGAGCCTTAATAGCAAATAAAGAATACAACATGATTAGATTTTGTACATAAATTTAAACAGTTTTCTTC TCATGTATAGAGTTCAAACAATTTTATAATTTAACATATGGAAAACTCAGTCATTGACCGTAAACAAGTGATGAACACTT GTCATAGAATCATAGCCCCTTGACCCCTATATATACGGTTTTCTTTATAACTATAGCTCAAAATAATTATAATATGATTC AACAAATGAGATTTCCCAGCGCATATAATACGGGAGTTGGGTTTGGGGCCCCCCTATGGGGCTCCCCGCCCCACTTAAAG TGGGGAAATTACTGGAACGCCCCCTTTTAATAGAATACGGAAGAAACATTTCCGTATTCAATACGGAAGTCTTATATCCG TATTATATTAGTATGTAAACCAGCAAGGGTTTATTCAAACCCATTTCAAACTTCATTCCGT

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0329300.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCCATTGCCTCCGTATGATTGTATGCTTCTATTTAAGCCCCATATAAGAAAGGAAGCCCTCATTGATTTGGTTTCCAG GGTGGGAAAACATGTGTACAGAAGAAATGGGGTTGTCACTGATATAAAGAGTTTCGGACCAGTTCAGTTGGGCTATGGTA TAAAAAAGCTCGATGGCAGATATTATCAGGGCCAACTGATGCAACTGAGCATGATGGCTACTCCTGACATCAACAAAGAG CTCCATTACTTAAACAAAGAAGATAGGCTTCTGCGTTGGCTTCTTGTTAAACAACGGAACACAAAATTTGGGCTTGACTT CCTTGGCGAGGAAGGTGCAATTGAGCTTAGTGAATTGTCTCAAAGCAGAAAACTCTATGATTATGAGAATGCGGATGAGG ATGATGATGATGGCGATGATGATGAATATGAGGTTAATGAAGAAGGGCACAAAATGAACTAA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0329300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MPLPPYDCMLLFKPHIRKEALIDLVSRVGKHVYRRNGVVTDIKSFGPVQLGYGIKKLDGRYYQGQLMQLSMMATPDINKE LHYLNKEDRLLRWLLVKQRNTKFGLDFLGEEGAIELSELSQSRKLYDYENADEDDDDGDDDEYEVNEEGHKMN

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
Gene3D	G3DSA:3.30.70.60 View details on G3DSA:3.30.70.60 Search for proteins/transripts with this domain View external data on G3DSA:3.30.70.60	2	115	114	5.7E-15	IPR014717 Show description in modal box View details on IPR014717 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR21011:SF10 View details on PTHR21011:SF10 Search for proteins/transripts with this domain View external data on PTHR21011:SF10	3	144	142	1.3E-64	–
PANTHER	PTHR21011 View details on PTHR21011 Search for proteins/transripts with this domain View external data on PTHR21011	3	144	142	1.3E-64	IPR000529 Show description in modal box View details on IPR000529 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF54995 View details on SSF54995 Search for proteins/transripts with this domain View external data on SSF54995	4	102	99	1.01E-17	IPR035980 Show description in modal box View details on IPR035980 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd15465 View details on cd15465 Search for proteins/transripts with this domain View external data on cd15465	6	98	93	7.32112E-25	–
Pfam	PF01250 View details on PF01250 Search for proteins/transripts with this domain View external data on PF01250	6	97	92	1.2E-13	IPR000529 Show description in modal box View details on IPR000529 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	125	153	29	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	130	144	15	-	–

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:0003735 View details of GO:0003735 AmiGO InterPro QuickGO	Molecular function	Structural constituent of ribosome	The action of a molecule that contributes to the structural integrity of the ribosome.	Subterm of View details of GO:0005198
GO:0005840 View details of GO:0005840 AmiGO InterPro QuickGO	Cellular component	Ribosome	An intracellular organelle, about 200 A in diameter, consisting of RNA and protein. It is the site of protein biosynthesis resulting from translation of messenger RNA (mRNA). It consists of two subunits, one large and one small, each containing only protein and RNA. Both the ribosome and its subunits are characterized by their sedimentation coefficients, expressed in Svedberg units (symbol: S). Hence, the prokaryotic ribosome (70S) comprises a large (50S) subunit and a small (30S) subunit, while the eukaryotic ribosome (80S) comprises a large (60S) subunit and a small (40S) subunit. Two sites on the ribosomal large subunit are involved in translation, namely the aminoacyl site (A site) and peptidyl site (P site). Ribosomes from prokaryotes, eukaryotes, mitochondria, and chloroplasts have characteristically distinct ribosomal proteins.	Subterm of View details of GO:0043232 View details of GO:0044444 View details of GO:1990904
GO:0006412 View details of GO:0006412 AmiGO InterPro QuickGO	Biological process	Translation	The cellular metabolic process in which a protein is formed, using the sequence of a mature mRNA or circRNA molecule to specify the sequence of amino acids in a polypeptide chain. Translation is mediated by the ribosome, and begins with the formation of a ternary complex between aminoacylated initiator methionine tRNA, GTP, and initiation factor 2, which subsequently associates with the small subunit of the ribosome and an mRNA or circRNA. Translation ends with the release of a polypeptide chain from the ribosome.	Subterm of View details of GO:0034645 View details of GO:0043043 View details of GO:0044267 Part of View details of GO:0010467
GO:0019843 View details of GO:0019843 AmiGO InterPro QuickGO	Molecular function	RRNA binding	Interacting selectively and non-covalently with ribosomal RNA.	Subterm of View details of GO:0003723

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0329300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0329300.1