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| Field | Value |
|---|---|
| Gene ID | LotjaGi2g1v0164300 |
| Transcript ID | LotjaGi2g1v0164300.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | 50S ribosomal protein L14; TAIR: AT1G04480.1 Ribosomal protein L14p/L23e family protein; Swiss-Prot: sp|P49690|RL23_ARATH 60S ribosomal protein L23; TrEMBL-Plants: tr|M4FGG9|M4FGG9_BRARP Uncharacterized protein; Found in the gene: LotjaGi2g1v0164300 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:57218020..57229413) extracted from Lotus japonicus Gifu genome v1.2.
GAGTTTGTGACAAGGTCAGAGCCTGTTAAGAACACACTCAGAAAACACGTTAGAGTACCATAATTGTTCATACCAAAAGG TTAACTTGTAATCATCAAAACATAGAGTTGTACTACTAGATCAAAACTTGATCTTACAACGTGGAGACCACACAGTCAGT CGACAAATCTCAAGGAGACCACACAGTCAATCCACAAATCTCCCTCACGTGCAAGTCACCGTTTGTCTCTAACTGCACCA TCGTTCTCATGGTCCATAGCCTATATCCTAGCACTTTAACCATATAATCACTACTTGTAAGCGAAGTTCACATCTTTAGG TTAATTACTAATATCATAACCTAGGATAAGATAATAGGTCATCATGTATAGTATAATCATCAAGAGGTTTAGGGTTTTGT CCCATTCCTCACAAAGAAAAAAAATATTCAAGCATACTCTCAACATGTAGACAAGTCAATGCCTAAACCCTAGAGAGCAC TTGGGTTTCGGCCAAGCATCTCTAATACAATAAATAATCATTGTTTTTCACATATCAAGTAGTAAAAATAAGCAACTCAC TACAACTTAAACAATTAGTCAAGAAGATAAGAAAAATTCACCTAAACCCTAGCAATTAGGGTTCGGCTGTAGCAAACATT AGGTATAGGGTTTTCCAAAACTTGTTATCACGCTTAATCATACAATTCATGAAAAATCCAGCAAGCGTTTCATTCATGTT CATCATCACACAACCCATTCTAACACATGTTATTGACTACCATCATAGATCCAAGCATATACATCAAGTTTAGCAAGGTT TTGTCTAAGAATTTTCATAGATCATGGCATCACACAATTTGAGAAGATAAAAACAGAAGCTTTAACCCTAAAACATGCTC AAGAAGGGACTCTACTCATCATATAGAAGTTTCACATGTTAGAGAGATCATCTATCATCAATCATACAAAGTTTTAAACT CATAGGACAAGAATCATGAAGCACATAGCCTAGACTCTACCCAAGACCGGAAAAGCCCTCACCTTTGTCTAGAGATTGAA GAAGAAAGATGATTAACTCTCCTCCCTTGCCTTGCTTCTCATGAGACTTCTTCTTCTCCCTTGCTTCTCACAAGCTTCTT CTTCTTCCCCCTTGCTCTCTCTCTCTCTCTCTCACGGCCTATCTCTCTCTTTTCTCTCAAAGCCTTTTTTTTTTCTTTTC TCTGGAAACTCACCTGAATAAGGATGTACTATTGCCTTTCTGTAACACCCCGAATTTCGGGGGTCTTCATAGTAACCTGA TAAAATAAATATGCAATGTTTTTCAAAAGGATTTATAAACATGAGTATATTTTTTTCTTTTCAAAGTGTTTCTAAAACAT GTCATGCATACTCCCATCTACATATAGATTTACATCAAGCCTTGAATAAGGCAAGTACCCAAAGGTAAACACGAAAGCAC CCAACCTACAAAACCTAACCAATAGAAACAACTCAACGAAGAATCTATAATGCAAGGACACCATAAATCCGACATACTTC CTATGGTCTCCGCATCGAGGAACCCCAAGAAAGCAAAGCATCGGAATCTACCCGGAAATTCAAACATAAATTCCTAAAAA TCATTAGGTGAGCTTAAAACAATAACGGTAAGCTCTCTAACCCAAGGCTCTAGCCTTTAACCTGACTCTACTCTTTAGGT CCTTCACTAATCTTCAAGTCATCGTCTTCGGCTCGTACTGAGGTCAAGCTCCATCGACGGTTCTCCGTCGCCTAATAGCG TTAAGCGCCCAAACAACAAGTAGCAAATAGAAAGGGTTAACCCCATACAATTACCACATATAAAAGAGAAAAGCATGTTA TTAAAGTTGAAGTGCATAACATGGCACATAAGCTAGCAACTTAATTCCAGATAGATGACGACATATATCCAACAACATAA AATTTAATCAGATATCAACAACATAATAACATATTTAAATCAGACAACAATAATCTCAACGATATAACATCAAATCAGAT ATCAACAACCTCAACATCATAACATCAATTCAATATCAACAACCTCAATGAGTGTCCTGTGGTACAACTATGTGTTACTG CCAAGACAGGTCCAATCAAAAGCATCTCGCAAGACGGGACAGTCATTTGGAACGAAAACCATTGACCTGCCACTTAATAT GCCATGAAGGCCCCACCACAATATTCCACACATGCCCCACAATATGCCACACAAGCTCCACAATATGTCACACGGGCTCC ACAATATGCCACACAAGCTCCACAATATAATTCAATAACGCATATGCACAAATATCAGCACAGCATATAGCTACTTAGCA CACACTTAGTATATGATCCATCCCAACATCAACCACGACAACAATCAAAACATCCACAAGAAAGCAGTAATGACAGAAAC CAGTAAACGACGAAGCCTCTCAGAAAACGGAGACACACGTCTCAATAAGTTCACTCGGCCGAAGCCTCTAGAAAACATTT TCCCAGTTCATTACAATAATCATAATCCAATGCCAATCAATATAAACATCTTCATCTCAAACGCATGCAGTCTGATTCCA AAGTCAAACTTTTATTCTTCATCTAAAACCGAGTTACCCTAACCTTTTATTCTCCTTCCCAGCTCGATATCACAGTCTGA TTCCAAAGTCAAACTCCGGAACTTAGCAAGTCCTTTGGTGCGTCTTCCTCCGTTGTGAAACCTCGCAGCTTGTTCTAAAC CTCTTTCCTCAGCTCAACTCGCTCCAAACCTTAAGCACAATATCATTTCTTAGTCACTAAGAAACAATACAATCCAATAA CACTAAACAAGGCCGAAAGAAAGCTTTTACAGTTTCAGAGTTCGACACTTGAGCACGAATGGGCAACAGAGACTTCGTTC GCTAAAACGTGCATAAATCGAGCTACAGAACTCGGAATGACACAAAACCAAAGCCCAAATTTCGACAATAGGGAGGACTA CGCTATGTCTTAGGCCATACAAACCCAAAAATATTTTTGGACACGGTACAGTTCCAACTAAGTTTCGGCCACTACAAAAA ATAGGGTTTCCCGAACTTTTCTTCGATCTAATTTAATTCCTAGGTATTCGTAGGTGATATCTAGGCCAGGGAAACTCTCA GAAAAATTATCGGGTCGAAAACTAACACAAGGGTATTTTGGTCAGTGTTTTTAGCTCGGAAATTCAAAGTTGGAATTTCG AAAAATAAATTTGATAAGCTTGATCCTAACGACATTTATAACAACTAATCCTACTGGCGCTAAGCTCAGTAGAGAGTTTT TGAACCAAAAAGTGAAGCTTTCTCATAAAAATGGGTATTTCCACATAATTGGATCTCTGCGGCGATTCGGCGAGATTCAG CAGAAAGTAACTGAATATTCATGCTCTTGGGCATGTAGGGAATAAGTTTAGGCAGAGAAATCAAGTTATATGGGCACTTT TACAAAAAGCTCAAAAGTTTGAGCACAGAAAGACATAGAAAAAAGCGACAGACTTTACGATCAGAGGTAAGGAATAACAT CAGTACCTCGAGGTCTACGCGTAGCAACGAACGGTACGTCGAACCGTCAAGAAATGGCGAAAAGCTCTCCTCCCCTTCTT CCTCTCAAACCCACGGCCATCTATGGTGGAAAATGTGATTTTTTTTTTGTTTTTTCTTCTATTTATAGGAGATGGAAAAC GCGGGAAAATGAAAATTTCGCGATTCCGATTTTTCCTGCACATTCCTCTGTGAATTATATGATAGAATCCGGCGACAGAA TTCTAGAACTCATAACAGGTTTCTTGGAATTTAAACGAACGATCCAATAACGGTATTAATCGATTTAACCCGAAAAATTA TTTTTTGCAACGGGGCACCACGGTGGAATATGGGTCCTTCATCACCAAAACTCGTCGGTGCGTATCAAAATAGTTGATTC CATGACTCAGATAATTACATTTGAGGTCGAGATTGGGGCTTTCTCGTGGACTTGCTCGGCAGTCTATGCAAGCCCAACCA TAGTGGCTCGGGAGCTACTTTGGACTCATCTAGCTAGCCTAAGGAATACTATAACCAAACCATGGATGGTCGTGGGTGAT TTCAATGAGGTCTTACTACCCTCTGAGGTTCGAGGAGGTGCTTTCCAACACAACAGAGCCCTATTATTTGCAGCGGCGCT TGAACATTGCAATATGCTAGACCTTGAGGCGAAAGGTGGGCTGTTCAATGGCATAGGAAGGAGCGAGGAGTGCTAAAACT ATCCAAACGTTTGGATAGAGCAGTTGCTGACCTCGCGTGGAGAATGACCTTCCCGGAGGCCTATGTGGAGGTGCTCACTA GGATTCACTCCGACCATAACCCGTTGCTGGTCCGTTGCCATACTCCTTGCGCGAGCCCTGCTGATAGGCCCTTTAGATAC CTGGCGGCCTGGGCTGAGCACGATAAATACCAGAATGTTGTGATGAATGCTTGGAGGAACACGAACGAGGCCGTGTGTGG CAAGCTCTCTAGACTCCAAACCGATTCCCTTTAGTTCAATAAACACACCTTCGGGAACATATTCCAGCGTACAAGACATA TTGAAGGGAGACTCAAGGGAATTCAACGTGATTTGGATCATTGTGTTCGCCCGAGCATGGTCCAATTAGAGGCAAAACTC CAAGGAGAATACAGTAACATTCTTCGCCAAGAGGCTCTCACTTGGTTCCAGAAATCTCGAGAACAGTGGGTAAGGTATGG GGATAGGAATACATCCTTTTTCCACACTCAAACCATTATGAAGTGAAAACGCAACAAAATCCATAAGTTGCGGTTGAGGG ATAATTCTTGGAGCACAGATGAAGCAACTCATAGAAATGAGGCACAGGAATTCTTCCAAGAACTTTTTGAAACAGGAGAG GACACAGATGGGATTAGCTATATGGAGAGTGACATGCCCCATATCCCTGCTGAGTGCATAGCTGCCCTCTTGAACCACGT CACTAAGGAGGAAGTCAAGAAGGCCCTGTTCTCCATGAAGTTCTATAAGGCACCTGGACCGGATGGTTTCCAATCGGTTT TCTTCAAACGCTACTGGGACATTGTCGATGATGACATCTGGAGGGTGGTGAGTAATGCTTTTCTCACAGGCTCAATTGAC CCTAACCTTACAGAGATTCTAATTGATTGTTCTGATACCAAAGGTTGATGTCCCTACTACTATGAAGGAGCTCCAACCAA TTAGTCTTTGCAACGTGGTATACAAAATTGTGACAAAGGTGTTAGTGGCTAGCATCCGTCCGTTTCTTGATCACTTTATT GGGCCTCTACAATCTAGATTTGTCCCAGGAAGGGGGACTACTGATAATGCAATCATTGCACATGAAGTTGTACACTATCT TAACCGATCTACTGCAAAGAAAGGATCGATGGCTCTCAAAATTGATCTAGAGAAGGCATATGATAAGTTATCTTGGAGAT TCCTGGAGGATACTCTTCGAGATTTGAAATTCCCGAGTATTATTATTAATTTAATTATGAATTGTGTAACCTCCTCTAAA TTGGCACTGCTTTGGAATGGCTCTCACTTACCTTGGTTCCATCCTCATAGGGGGCTCCGCCAAGGTGACCCGCTTTCCCC ATACTTGTTCGTCATGTGCATGGAGAAGCTTTCTGTTCGCATCCAGAAGGCTGTTAATGATAAACAGTGGAAGCCAATCT ATGTATCTAGAGGTGGCCCGCCTCTATCCCACTTATTTTTTGCTGATGATGTGTTACTTTTTTGCAAGGCACAAATTAAC CAACTGCAAATTGTGGGTAGCATCTTGGAGGAATTTGGTGCTGTATCTGGCCTGAAAGTTAATATTTCCAAGTCTAGAGA AATTTGTTCTCGTGGTGTGCCTGCTGTGGTAAAAAGTAGTCTCTCATCTACTTGTCCTATCCCGTTTGCGAATGACTTGG GAAAATACCTTGGCTTCCCATTGTCTACTAGCAGGCAGTCACACGCAAGATACATGTTCCTACTTGATCAAGTAGCACGC CGGCTCACATCATGATAAAGCAGGCTCCTTAACACTGCTGGAAGAATATGCCTAGCAAAATCCGTAATTGCAGCTATTCC AACATATTCTATGCAAGTTGTATAGTTGCCGCGTCGTATAACCTCCTCCTTAAATCAGGTTACCAGCTCATTTATTTGGT CCACTAATGCCCAAAACCGAGGATGGCACCGAGTTAGTTAGGACAAGCTAACGCTCCCAGAAACCATGGGAGGCATTGGT TTGCAGGACACTACACACACCAATACGTCATTGCTGGGCAAATTGATTTGGTCTCTAGTCCAGGATCATGACAAGCTTAG GGTTCATGTCTTGTCTCATAGATATCTGGGAGAGCATTCGGTCCTGGAAGTCTCTGCAGATCAAAACGCATCACCTCTGT GGAAGGGCCTGCTAAAAGTGAGGGATGTGTTAAGAGAGAGTTTCTCTTTCCGCTTGGGGCAAGGCAACACCTCCCTATGG TTTAAAGATTGGAGTGGCTTTGGAGCTCTAGGAAAAATCACCCCTTTCATACACATTTCGGACTCAGCGCTCACACTTGC AGATATGGTGAATCAGGGGCAATGGGACGTGTCTCGTCTTTCTACGTCCATGCCACAGCCCTTCTTGCAACGCCTTCAGT CCATCAAGCCAGAGCTGAGAATGAACATTGAGGATCAATAGGTATGGAGGTATAGTAGCCAGGGAGTTTACCGAGCATCG GATGCCTATCGGTGGTTGATCACGGACTACCAGGAGGAAAGTGAACCTGACACTTGGTCGTGGATCTGGAAGATCATGGT CCCGGAGAAAATACGTGTCTTTATCTAGTTTATATTCCGGGATGCTATCCAAGTAAATCAGAACAGGTTCCGTTGTAGGT TGGCAGCTTCCCCGACCTGCACGCGTTGTTCCCATGAGGTGGAGGATATCATCCACTGTTTACGAGATTGTCCCTATTCT CTACGAGTATAGCAGCGTCTTAATGCTACTGGATGGCACAAATTCTATATCAATAGCGTGAAGGATTGGGTCCGAGAGCA AGCACAAGGCACACATGCGATATTGTTCGTATCTGCCCTATGGGGTCTATGGCGGTGGAGAAATAACATGGTTCTAGGGG ATAATAACTGGACCGTGGAGAAGGCAGTTCAATTGATATTCCAGGAAAGTATGGACTATGATCAATGGATGGGTACCGAG AGTGATTTTGAGCATGTTCGTTGGAGTCTCCCTCCTCTAGGTTACTGCAAGTTAAATACGGATGGGGCATATGATCATAT CAACCGTCGCATGGGCGATGGAGGTTTACTATGTGATTCGGCTGGCAAGTGGCTGCAAGGTTTTCTTGGTGGATGCAGCG GTGGTAACCCTCTTCTAGCTGAACTTACAACGTTAAAAGCTGGGCTTGAAATGGCTTGGGACAGCGGACAACGGATGGTG TTCTGCGAAATAGATTGCCTGGAGATTGTCAGTACGGTTCAAGGTACCTGTGTCACTTTCATGAACAGGCAACAGAGTTC TTGGAAATAAAGAGCTTACTTGCACGAGCTTGGCATGTTAAACTTTCTCACATCCCTCGGAGTGCCAACGATGCTGCGGA TGGACTTGCTGCTCTTGGAAATGCTCATAGCTGTGCTTTGACACGCCTTGAGGACCCTCCTCAAGAGAGTAATCCCATCT TGGCTAGGGATTTGTTAGCCTTGTAGCTTTTTTCTTTTGTTGTTTAATTTTCCGATGTACAAAAAAAACACACAAAAAAA GCACAGTATATAGATTAAAGATAAAAGAAATTAAAAGATCAAGGTGACGGTGGATCGGCGGGAACAAGTTCCGGATGTCG TTGAGTCTCCCGGTGGCAGCGACGGTGAACTGCGCTGACAACACCGGTGCGAAGAATGTCTACATCATTTCCGTGAAGGG GATCAAGGGTCGTCTGAACCGTCTTCCTTCTGCTTGCATCGAAGACATGGTGATGGCCACCGTCAAGAAGAGGAAGCCCG ATCTGAGGAAGAAGGTGTTTCCTGGTGTCATCGTTCGCCAGCGCAAGCCTTGGCGCCGAAGGGACGGTGTTTTCATGTAC TTCGAAGATAATGCTGGGGTCATTGTGAATCCCAAGGGAGAAATGAAAGGTTCTGCTATCACTGGTCCAATTGGTAAGGA GTGTGCTGATCTATGACCAAGGATTGCAAGTGCAGCTAATGCTATCGTATGAGTAGGAACTCTAGCTTAATGAGCTTATC TTTCAGCTTGAGGACTTATATTTTGTGTTAAGTTTTGTTTTGAAAGACTTAATTCGTGTCGGTTATATCTTGACTTGTTA GCCAGATGAATTTTGAAAGATGATATCTATTAGCTATTATATGTTCTTCCAACATTTTACACCAAAGATACAATGCTTTA TCCAATCTTATTTAAGCACTAAAAAATGGCAATAAAATGATAACGGCCCAACAAAATCATCACATTTAGACCAATATAAA GAGGAGAATGATCGAACATTTCAGTACAAAATACAATACTGGATATCAAGTCATAGCATTCACAATTTACGAAAGTGTGG GGGCAATTATAATTGGGGGGCAATATTACTCAATAATATATACTCTTTCTGTTCCAAAAAGATAGTTGTTTGGAATTGTG GCACAAAGAGTAAAATGATAATTATTGATTGTACAAAGTTATTACCTCCGGTCTTGTTTATAAGAATGAAAGAAAAGAAA AATTTTGGTCATTTTTATAAGAAACAAATGAAAGTTTGAGATATATTAATTATTTTTTTCCAATGATGCCCTTATTTATT CTAACTTGTAAAATTTGTCTCATTAATTATTCTTTCTCTTTCCCTCTCCAACACTAATAACAAAAGGTAATTTTGAAAGT TTATCAAGACAAACTTAACGCATTTTATGGAGTTTAACTACATTTCTTAAATTATGTGAATTTTTTTTTACTTCGTAAAA ATAGGATCGGATCGGAGGTAGTATTAAAATGCTCGTATTTAGTTTTACCAATACAATGTGCAACTATTAAATTCTACATT GGATAGAGAATAATGTAGTTAATGAAGAAGCGTTGTGGTTGGTTGATATGAAATGTGATAAGTGAGAGAAAATTTATTAA ATGATTGTATATGTGGAATAAATTAGAGATAAATTCATTAATTTTATATCTGATAAGGATTGTCACGTGAACTAATGACA TACAACATAAAAATATGTTAAAAATATTTGTTTTCATCTTCAGGACTAATATGAATCAAACAATATTTTCAGAGATTTTT TTAATGACCCTGTACTATCATTGGGCTTACAGCCTTTGTAATTCAGTGGGCTTACAAACTTTGTAATATTGGGCCAGGCG ACCGATGACTCGCACGGGTCAAAACCAGCATATAAATAAAGGACACCGCCCAAGCGGTGGGGGATCCAACACTTTTTTAC TCATTTGCTACTTTGTCATATCTTGTGATTGCTTTCTAGTTGCTTAGCCCTGACCAGAGTTCTAGACCGGAACATTGGCG CCCACCGTGGGGTCGAGGAATTTAATCCTAGGCTTCAAACTCACTGAAAATGGTGAATCGATCTGGAGCGAATGGAAGGG ACAGTCATGTTAACCATGAAAATGTTCCGCCCGACATTTTGCAACAGATCATGGCGGATCTAACTGATCTCCGCCAACAC AATCAACAACTGCAAACTCAACTTGCTGAAATCAATCAAGATCGGGGCCTACATGAGGGCGATCGTAGAATGGCAAAGAT GGTGGTAGATTTTCAACCGTTCACGGATGACATTGCAAATACTACCGTCCCAGATAATTTGAAGACTTTGGTTCTTGTTT CATACTTTGGAGATTCTGACCCAAAGGATCATTTGGTGTACTTCAACACCAAAATGGTTATCGTGGGCGCTTCAGATGCT CTGAAGTGGAAAATGCTTCCCTCAACTCTCAAAAAGTAAGCGATGACTTGGTTTACAATGCTTCCACCGCGTTCAATTGC TGGATTTATGGATTTATCTGCGAAATTCTTGTCGCAATTTTAAACTAGTCGCGCCCAGAAGGTGACTCCAGCAGCTTTAT TTAATGTACAGCAAAGGCCTAATGAAAGTCTTCAATCTTTTATGGGGCGTTTCAATCAATTATCGGTACATTTGGAGGAC AAGATGCCGGAAATTTGCATAGCGGCTTTTGAATTGGGTCTTCAGTCAGGAAATTTGAACAATAGCTTAAGCCGTAAGCC CGTGGAGACGATGGCGGAATTGCGAAGCAGGGTGCAAGGTTTTATTCGGGAAGAACAAAGTGATCGTATAAAGAGAAACC GCAAGAATGCAGCGGTTACTGGCCAACAACAACAGTCGGATTCGAAGAAGGCGACGGTTAATGACCAGCGCTCGGGCGAG CGGTTTCAAAAGGAGAAAGAAGTTACAACAATACAAGTCGTTTTGATAACCGCTCTAATTTTCGAAATCGTGCTCAGCCT TATTGAAATCGTGATTATGGACAATCGATGACGTGGACCAGAAACCAACAAGACAGGTCGACCCCACTTATAGTTAATTT AACTGAAACCCTGCACATGTGTTTGGAGGCTAACACGATTTGTTTTCCAAAGCAACCGAAACGCCCACCAAGCAACGTGG ACAGAAATAAGTGGTGTGAATACCATAGAACTACGGGACATAAAATTGATGACCGTTTCACCCTAAAGAAGGAGATTGAG GCTTTGATAAAAGCAGGTTACATGTGTCAACTGGAGGGGCGCAAGGAATCAGATGGAGCTGGAACTTCAACGAAGTGTGA TGAGACCTGAAAGGAAATCGAAGAGGCGGAGCCAAAGAAGCAAGCTGGAGGCGAAACTAAAGGGCGTATCCATTCTTTAT TTGGAGGATTTCGGGGAGGAGGCATGAACAACTCTCCCAGAAAGATGTATGTTCACTCTATAAATGTCGTGTATGCTAAT GATTGGGGAAGTTGAGGAATCAATCAGCCCGATATTATATTTACTGTCAAAGATTTTGAGGGAGTTAAGCCTCATGAAGA TGATCCCATTGTGGTGATGTTAAAAATTGCTGATTATGAAATTGAGAGGGTGATGACCCTATTTTAGTAGTGTTTTTAGG GTCATTTCTTTGAGTGTTTTGAGTCTTTTTGTTGAGTCTCATGTAGTGTTTCATGCATTCTCATGCATTTTTGTTTTGGT AATTTAGTAGTTTTATAGGGAGTTTTCTTGCATTTTAAGTAAAGTTTAGGTCTTGCATGGTTTTGTTGTGTTTTATGAAG GACCTCTTGTGCTAATGAGCTCTTGAAGCTTCTAGAATCTTCCATGACTTGTTGGTTAGGTTTGGAGAGCAAAAACTGAA GGAGAAAGAAGGCCAAGAAGCATGGAATTGATGG
CDS sequence (LotjaGi2g1v0164300.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCGTTGAGTCTCCCGGTGGCAGCGACGGTGAACTGCGCTGACAACACCGGTGCGAAGAATGTCTACATCATTTCCGT GAAGGGGATCAAGGGTCGTCTGAACCGTCTTCCTTCTGCTTGCATCGAAGACATGGTGATGGCCACCGTCAAGAAGAGGA AGCCCGATCTGAGGAAGAAGGTGTTTCCTGGTGTCATCGTTCGCCAGCGCAAGCCTTGGCGCCGAAGGGACGGTGTTTTC ATGTACTTCGAAGATAATGCTGGGGTCATTGTGAATCCCAAGGGAGAAATGAAAGGTTCTGCTATCACTGGTCCAATTGG TAAGGAGTGTGCTGATCTATGA
Protein sequence (LotjaGi2g1v0164300.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSLSLPVAATVNCADNTGAKNVYIISVKGIKGRLNRLPSACIEDMVMATVKKRKPDLRKKVFPGVIVRQRKPWRRRDGVF MYFEDNAGVIVNPKGEMKGSAITGPIGKECADL
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 | 1 | 113 | 113 | 1.4E-71 | – | |
| PANTHER | 1 | 113 | 113 | 1.4E-71 | ||
| Gene3D | 1 | 113 | 113 | 2.4E-56 | ||
| SUPERFAMILY | 3 | 112 | 110 | 3.79E-40 | ||
| SMART | 4 | 113 | 110 | 7.7E-44 | ||
| Hamap | 4 | 113 | 110 | 14.856 | ||
| Pfam | 7 | 112 | 106 | 6.4E-31 | ||
| ProSitePatterns | 64 | 90 | 27 | - |
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 , while the GO metadata was last updated on .
| GO term | Namespace | Name | Definition | Relationships |
|---|---|---|---|---|
| Molecular function | Structural constituent of ribosome | The action of a molecule that contributes to the structural integrity of the ribosome. | ||
| 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. | ||
| 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. |
Expression pattern of LotjaGi2g1v0164300.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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