Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
| Field | Value |
|---|---|
| Gene ID | LotjaGi5g1v0164400 |
| Transcript ID | LotjaGi5g1v0164400.1 |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | basic helix-loop-helix (bHLH) DNA-binding superfamily protein; TAIR: AT5G64980.1 transcription factor; Swiss-Prot: sp|Q8S3D5|BH069_ARATH Transcription factor bHLH69; TrEMBL-Plants: tr|V7BFG9|V7BFG9_PHAVU Uncharacterized protein; Found in the gene: LotjaGi5g1v0164400 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:42046376..42056299) extracted from Lotus japonicus Gifu genome v1.2.
TCATTTGAATGAGTGGACACCAGAATCCTCCACACTACAGTACAGTTGGCAGCAGTGCAGCACATTGCATGCGTTGGTGT TGCATATGTACCTTACCAGCAGCAACAACAGAAAGCAGAGCATGCCCACCTTCTCATAGCCATTTTTCTCTGCAACTAAA CCCTACACACCTTTTCTCATATCACCAAAACCATTCCTTTTGCTCCCAAAAAGTTGCAATCTTGACACCCTTTAACTTTT CTGAGCTTCTCTTCAGCTGGTAGTTCCAAAGTTCTCTCCTTTACCATTTTTAAGTTACACAATCTACCACCTCTTTTAAG TTTCACTTTCCCTTTTCTCTCAGATACATTTTTTAGACTAAGTTGTTCATTGTAAGTGTAACATGTGATTTTCTCTCTTT TTCAGAGTTGAAATGGAAGGACAAAGTGACCCAGAGAACCCAGTGCTGCAAGGGTCTTATGACACTGGAGGAACAAGCAA TGATGTATCTTATTCAGCTGAGGATCATCTATTTCCAACCCCAAAATTTAACCTTTCAGCATCTGGGAGGAGTTGTAGCC AGTGGACTAGTCTCCCCAAAGTGTCAAAACCATCTCATAATTATGTTGAATATCTTTCAGAATCTTCAACTTATCTACCA AATGCCACACCTGAATATATGATTGGGAGCAGTTATCTACCTCTTGGAGGGGTCAATGGAACAGAAAGAAACTTGTTTTG CAGTGATCCAGGAAATGCTTGTGGTTTTAAATGCATTGATTCTTCAAGTTCAAGCAATGACTTTGACATTAGGAAGGTAA GCTCATTCAACAGAAAAAAAAAATCATCAATTTTAGTGAATTTGGTGAAAATTATTAGTGAATTTCTAGCTGAAATTAAT AGGACTTTGATCTGTGTTTTCAGCGTATGGGGTTTTGGAAACCTGATGGAGGAGATGAAGCAATTGCAGTTGAAACTGAA AGTAGTCAAAATCTTCTTTATGCTGAGGTTGGTTAATAAGGCTTTTCAGCATATACATATTTGAATTCAGAGTTTTTTTA TTTATGTCTATGAAATTGTTTTAAGTATTTTAAGGATTCTTTAGTATTCTGAAGTTTCTGATTATGATTTGTACTGTTAT TTTGTAATAGAGTCGAGCTCCATGGATGATGGTAGATTCAATTGGAAATAAGCACAATGCTTCACAGTTTGATCCAATGG GAATGCTTGGAGCACCCACTTTCCTTCCCAAAAACCCCAAACCAGGATGCAGCTCTTCAAAACAGAAACCTGATCAATCA CGTTTCACTGACCGTGTAAGTAAAATTTGGCAATCTTGCCAACTCTAATGGGGTTTCTTGCTCCTTACATAGCAAAATCA AGCACACATTCTCAATTCAAAATGCAGAAATACTAGTGTCACTATTATCTAGTGAACTAACAATCTTATTTCATTTTTTT ACCACAATATATGCTTCCTTAGTCCTTACCCATGTACTCTTCTTCAATATAGCATCGCAGGCAACGCATTGCTGAAAACC TCAAAGCTTTGCATGAATTGCTTCCAAATCCAGCAGAGGTAAATCTGTTATTTGTTAATAAGTTTTGATCTCCATAAGGT GGATTGTTAGCAAGTTGTCAATTTATTGTTATTAGCATGATGTTTTCCACAATGATGCCTTACTTACCTATACTCTAACA TAATGACCAAGAATGGCAATCAACTTTTTTTTCCTTTCAAGTTTTGGAATATACAGTATGATTGAGGATTTTGGACTTTA GGAATATGCTTAAGAATAAACAATTCATCTCCTCAAAGAATAAACTCTTACATAGAAGAAAATAAAACATTGTCGAAAAG TTCTCCTTACAGTACAGTTTGATACTTAAGGAGCTCAAACATACTGAATTTTACAACATTTTCCATCGTTAACAGAATTT ATTTCGCAGGGTAGTCAAGCTCAAGCATACATACTTGACGATATCATTGACTATGTCAAATATTTGCAGCATCAAATAAA GGTACCTTTTAACTCCTAATGTTCTCATCAATTATAATAAGTTGCACTTGAACATTACTGCTTCTGCTTCTGCTTCTGCT TATTATTATTGTCATATTACATGTGTGTTAAGTATAAACATTCTACAATTGCTAAGGAAGATGTTCTTTACAGGAACTAA GTGGAAGTCGATTGCAAGCTGACACAAATGCTATACCACTCTTTTTTCATGAGGTAAATGATAGAGACCAATAAAACAGT AGCTGTGAGAATGAAAGATGAATGGCAATAGATTGATTTTGATTAATGGAAACAAAAGGAAAATACAGTAGATGACTACT CCAGAGCTAGGCTCCTATGAAGAAAGCATAATTCTTCATTCTATTACAGATAACTAATTCTCCGGTACCCCTCAATGACT AACAGAATTTCCCTTTATCCACCTTTTCCCTGGATTCCCGTAACTAACTCTCCTGAGCATCTTTTTCTCTTCCTGCCAGC GCATACTCCTTCTAGGTGCTTCTTTTCTTCCCCTTTCTAACATACACGTTCCACACCTTGGGCCTAGGATTATTGATGTC AGCCCACACTTGACTTTGGGGCCTATCAATGCCACCCTCTTCAAACACAACCTTGTCCTCAAGGTTGAAAACGGGAAATT GGTTCAAAAGGGTTTGTTTATCCTCCCAAGTAGCCTCATCTGCAGACCTTCCCTGCCATTGAATCAGGTATTGATGTATG GTCTCTCCCTGCTGACTGATAGCACGAGTAGCTAATACCTTTTCAGGTTCCACAGGTTCCACAAACTCACCATCTAAACC ACTAGGTAAATCCTGCTCAACATGGTAATTGCCTATAGCTTTCTTGAGCAATGAAATATGAAATACAGGATGAATGCGAG AGGTTGCGGGCAGATCAAGTTTATAAGCCACTGCCCCGATGCGTTCCTTGACTGCAAAAGGACCAAAATATCGAGCTGCC AATTTAGGATTGATCCGTCGTGCCACTGAAAGTTGCCGGTGAGGACGTAGTTTGACAAAAACCCATTCTCCCACCGCAAT CTGTTTGTCTTTTCTCCTTTTGTCAGCCTGCGATTTCATCCTTCCTTGGGCGCGAAGCAAATGAGCCTTGAGTTGGCGGA GAGCTTCATCTCTGTCCAATAGTTCTTGTGCTACTGCCTCCACCTTAGTTTCCCCACTGGAGAAACGCAAAATAGTAGGT GGCTCACGCCCATAGACTGCTGCAAAAGGGGTAACTCCAGTAGACGCATGGAAAGTAGTATTGTACCAGTACTCAGCCCA TGGAAGCCAAAGAATCCAAGTACGTGGTTGATCCGCTATGAAACACCGTAGATAAGTTTCCAGGCAACGGTTTATGACTT CCGTTTGGCCATCTGATTCGGGATGGTACGCCGTACTCATGGCCAATTGCGTACCCTGCAACTTGAATAACTCTTTCCAG AAGTTGCTGACAAAGACAGGGTCCCGATCACTGACAATTGAGCGAGGAATTCCATGGAGTCGCACCACTTCCTTTGCAAA GACTTCTGCCACCGTGCGTGCAGTGTAAGGGTGCTTGAGAGGAATAAAATGGGCATACTTCGAAAGCCTATCCACCACAA CAAACACTGTATCGATGCCTTTGACTTTGGGCAGCCCATTGACAAAGTCCATGGACACGTCATCCCAAATCTTCTCAGGG ATGGGCAACGGTTGCAGTAGCCCTCCTGGGGACGCAGCTACATATTTTTGCCGCTGGCAAACATCACATCCTTGCACAAA TTGTTGGACAGAATTCTTCATACCAATCCAATATAGATTTGCTGCTATCCGGCGATAAGTGCGATAGAAACCAGAGTGCC CTCCTTGCGGAGTGGCATGGAACTCAAGAAACAACTTTGGAATTAGGGAAGAAGAAGCAGAAATGACCAAACGCCCATGG TAATAGAGAAAACCTTGAGTGTAAGAAAATCCAGGTTTGCTGCTGGGGTCTTCCTGCAGTCGAGTAATTATACTGGCAAG TTTCGTGTCCTGATGAACCTCTTGCACTAACACTTGTCCTTCTTCCCAGTTGGGATATGATGTTATCACTTGCAATTCTC CTTCCTCAAACATACGGGACAAGGCATCTGCTCCCTTATTGGTGCTACCCGGCTTATAGACTATGTCAAAACGGTAACCC AAAAGCTTGGCTGCCCAGTTTTGTTGGTCCACCGTAGTGATACGCTGGTGGAGCAATTGCCGGAGGCTCCGTTGGTCAGT ACAAACAGTGAAATGTCGTCCCAGAAGGTATGGTCGCCAGTGCTGGATGGCTAGAACAATTGCCATCAACTCCTTCTCAT AAGCGGATTTTGTGAGGTTGCGTTCGCTGAGAGCTTTGCTGAAAAAAGCAACAGGTCGCTTGTTCTGGAGAAGAATCGCT CCCACGCCACGGCCAGAAGCATCACACTCGATCATGAAAGGCTTAGAGAAATCTGGTAGGACGAGTACTGGCGCGGTTGT CATGTGCTCTTTTAAGACTTCAAAGGCTTCTTGGGCGCGAGCATTCCAAACAAAACCATCTTTCTTTGTAAGTTCAGTGA GGGGACGTGCTATTTTGCCGTAATCGCGAACAAACTTGCGATAATAACCTGTGATCCCCAGGAAACCACGAACCCCCTTG ACATTTTTGGGTGTTGGCCAATTGGTAATGCTTTGAATTTTTGCAGGGTCCATAGCGACTCCCTCCTGAGAAACCACATG CCCAAGATATTCCACTGAAAGTTGAGCGAATGAACACTTTTTCCGATTTGCTACCAGTTGTTGCTTCCTTAGAACCTCCA ACACCTTGGCTAAATGACTCAAATGTGACACCCAATCCATGCTGTAAACCAGTATATCATCGAAAAAGACTAAGACAAAT TTGCGGAGCATGCTTCGGAAGACTTCGTTCATCAGTGCCTGGAAGGTTGAGGGTGCATTCATCAACCCAAAGGGCATTAC CAAGTATTCATAATGACCCTCGTGAGTGCGGAAAGCCGTTTTGTGTATGTCATCTTCTTTCACCAAGACCTGATGATACC CGGATTTCAAATCCAGCTTCGAAAAATAGAGAGCCCCATGCAGTTCATCTAACAATTCCTCAATCACAGGGATTGGAAAT TTATCTGGAACAGTGGCCTTGTTCAACTCCCGGTAATCGACGCACATCCTCCACGTCCCATCCTTCTTTTTGACAAGGAT TACTGGACTGGAGAAAGCACTCTGACTGTGCCTAATGATCCCAGATTGAAGCATCTCTCTGACCTGCTTCTCGATCTCAT CCTTGTGGTGATGTGAATAGCGATAAGGCCTTACATTCACTGGGCCTTGTCCTGCCTTCAAAGTGATCTGGTGTTCTTTT TGTCGTTTCGGAGGTAAACCAGCTGGGGCTGCAAAGACATCTCCATATTCGCTTAACAGTGCAGCCAATTGGTGTTCTTG TTGCTCGTTCAATTTGGTTGGCTTTTCCAAATTAGCCATGGTGGTCTTGGAACTAATCAGAGAAGCCAGAGAACACTCTG CTTGGCCCCAATGGTCTTGGCCAAACACACTTTGCAAAGCTCCTTGTTGATCCTGAGAGTAATCTCTACCCTGTAACAAA ATCTCCTTCCCATTCACCTGGAACTTCATCGTTTGCTTTCCCCAGTGGACTTTCGTTTCGCCCAAAGTAGCCAACCACGC TATTCCCAACACCAGGTCGAGTTCCCCCAGATCGAAAAGGTAAGTGTCTACTGAGGTGGTGTATTCATCAATTCGTACCT CCAAATCCTTGCACATACCCGTCGCAATTGCTCGGTGGCCATCTCCCAGGCGAATTCGCAGATCTGGAGTTGATTGAACC TGCCATCCCATAGCCTCAACCACGCTTCTGGACACAAAATTGTGGGTTGCCCCACTGTCGACCAAAATCACGACGGGCAC TCCGTAAATTGATCCTCGGAGTTTCATGGTGTGGGTTGGTATAGGCTCAGTACCCATCACCATGATGCTGCAAGCTCCGT CGTCTCCTGGTTCTTCTACTTCCGCCTCGGCTTCCGATTCCTCTCCACCCTCTTCTGATTCGTCGATCACCATAATCCTG AGCTGCTTGTCAGGGCATTGGTGTAGAGGGTGATACTTCCCTCCACACTTAAAACACAACCCCTTTTGCCTTCGATCTAG TAGCTCATGGTACGGAAGATGGCGAATGCCTCTGTCGCGCGGTGGCGTTCGCAGATTCACCTTGTCCTCGCGCCGCTCCC CCTTTTCTTCACGATTCTTAATCATTACCCAACCTTGATTTGTTTGACCCGTTGACCCGAGACCCGCAGCTGATTGATGG GCCGGGCGGTTGTACGAACCCGACCCGGAACCCAAACGAGCGATTCCTCCTTTCGACCCGGCCCACGAACGTCCTGGCCC ATGGAGCTCCGTTTCCACCGCCCTGGCCAAAGGAATCAGTCGAGAACGGGGTAACGCTACCAGGGTCCGCAAGCTTCGTA CTCTGGCTCGTATGTCTTCTCGCAAGCCATGGATGAAGTATCCAAAGAATTGTTCATCTGGAAGATTGGGGGTTTGGGAC AGCAAGCGCTCGAATTCCAACACGTATTCATCGACGGTGCCTTTCTGCTGGAGATCGGAGAGTTGTTCGAACACATCTCC TTTGCTTGCAGATCCGTACCTTTCGAGCAACTCATTCGTGAGTTTTTCCCAAGTGAGGCCTGGATCCAGATGCAAGAGTG AGTTGAAGTAATGGATGGTTGAACCCTCCATGCACAGATGTGCGAGGTTAACCTTGACCTCAGGGCTTGTTCCCATGACG TGAAAATAGACTTCAGCTCGGGCAATCCAACCCGCTGGGTCCTCGCCATTGAAGAGTGGAAGCTCTACTTTCTTTGCAGA TTTCCTGAATTCATCCAGCAATCCTCCGTCCAACTTAGTCCAACCGGAGACTCCGGAAGGACTTCCCTCCTCAGATCCTA TTTTGATCGGAGTTTCGATGTTATGACCATTTCCCGATTTGTCTTGCTCCTGCTGCTGCTTGGACATGTTCAGAGTCAGC AGATCAAGCAATTGAGCCTGATGATTCTCTGCTCGTTCCTGCATAGTAGCCAGGGTGATTCGCAGGTTCGCTACTTCCTG TTCCAGGGCTGCAACTTTCGTCTCCATTTTCCTTGGTGGCATACGGTGGTGCTCTGTATCACTCTCCTCTCACTGGTAAC CGCTTCGATTGATCCGGTAGGTCGGACCAATTTGATAGAGACCAATAAAACAGTAGCTGTGAGAATGAAAGATGAATGGC AATAGATTGATTTTGATTAATGGAAACAAAAGGAAAATACAGTAGATGACTACTCCAGAGCTAGGCTCCTATGAAGAAAG CATAATTCTTCATTCTATTACAGATAACTAATTCTCCGGTACCCCTCAATGACTAACAGAATTTCCCTTTATCCACCTTT TCCCTGGATTCCCGTAACTAACTCTCCTGAGCATCTTTTTCTCTTCCTGCCAGCGCATACTCCTTCTAGGTGCTTCTTTT CTTCCCCTTTCTAACATACACGTTCCACACCTTGGGCCTAGGATTATTGATGTCAGCCCACACTTGACTTTGGGGCCTAT CAGTAAACATCTATGCTTACCTTAATTTCAGTAGGCACACAGCATCACTATGAACTCTTGTGCTTGTTCAAATTGTGCTC CCAAGAAAACATAGTTTCCCGAATCACAGAGTCTAATCATTGACTGCAAATCCTTCAATATCTTACTTCCAGGGTTATGG GCATTATATGAACCAACAGATGCTGAATGAACCCCTTGAAGAGATAATGGGGAAACTACTTGAAGAACATCCAGCAGCAG CCAGTCAGCTACTTGAAAGTAAGGGTCTTTTCCTGGTGCCTATGGCTTTGGTTAGTGACTTGAATGAAGCTATGCAAGTG TTTGGCGGGAATGCACTTGTCTGAAAAAGCTTTGTTTGTTGATTTTATGTCTTCATTATAGTGATATCTATTTTGAGTGT TTGGATCATTAAACAGGACGCATAAATAGTATTAGAACAAAATTGCTAGTAGCTGTAGTAGGATAATCATTTATACATCT TTGATTTAGTTTTAAAAGCCCTGCTATGTTTGACCGAATCAGTTTTAAAATCACTGAGGGCATCTGCTTTCAATTACATG TCATAGTACTTGGGCGTCTCTCGCATACTTGGGGGGGTATGCGAGATCAAATTCGAACACAATCAAGGAGTAATGGAGTT GTTCCTCATCTTGATTACCTATGTGGATGGAACTTGTTGCTCTGCAATCAGAAATAAGAAAATACTAGATGTTAACTTGT CCATTATGTGGTGCTGCCGACCATTTTTGGGATCAAGATAGATGAAGAGAATCGTCGAGGCCATTATCAATCGCATGACA TGGAGAGAGGATCACGCAGTATTCCTCAGACACTGAGCACCCCTAAGAGGATGTTGAAAGAGTTGAGCATACTTTGTCAC TTGAGGCACTATGTAGTCCCTTCCAGTATGAATCTTAAGGAGTATAATGTCAAGCTCTGAGGTCATCTAAAAATCCTTGT ATGGCTTGAAGTAAGCCAGTAAACAATAGAGTCAAAGGCAAATTATCCCCTTTTAACAAAGTCTTGCTCAGGTATAAAGG GTTTAGGAGTCCCCGCAACAGCATAGTGGATCAATTGCAGCCGGATAGACCTTCATTTGTACATAATTCAGTGATGCAAC TCTATATAACTTGCTCAAGCCCCTTGTCTGGCACGCTTCAGATCCTTCTTTAGGATTCCCGCCTTCCCAATCCAACTCCC ATTTTCCTCTACCGCGACAAGATGTCAGTTTTATACATAGCTGCTAGTGTGTTTTTTGACAAAATGAAACTGTCATTTAG TCTGTGATAAATTCCATCCGGGTCATTTATCTTACTATCTTAAGCCTATTTTACCATATTCACAAATTTACTGATACATC AAACCTATGAATCCAAATCCAAGTTAATTTGGAATACTGAATCTAACCATTCTTTCTTGGGGGGTGACCATTATAACTAT CTTAGTTACGTTAGTTTATTTCAACAATGGTAGCTATATTTCAGTTATAAATATTTACTGACTGTTGACCATTTATACAC ATTGTATCGTGAGTTTATCAGTTAATGCAATACTGCATCTCTTTGGTTCACCAACTCTCTCTTTCTCATTCTGAATTTCA CAGCGCAAGAATAGTATAAATGTGTGTGCAAATGAACAAAGGTTCCCTCTAATGGTATGTTGTAACTTATGATCTTAAGC AAATCATAGTTTCTCATTTAAAAACAACGATTTTATTCATATTATCTGTTGAACTATTTTGCTTGATACTTCTATTTCAG ACATTTAGTCCTTGCATCAATACATAGAGCAGCATCTATAAAAATGTGTTTTAGATGTAGCACAAAACCGTGATACTCTT TTTTTTTTGTTAACAGATACTTTTTTTTATTAGAATAACAAAACCATGATAATTACATTCAATAATATTGGCAATTTGAT GATGGAATATGAACTAGTCTAATTTGGTACCACACTAGCAGAGAAGAATATCAACAACGACCTACGCAATACGTTGACTT ACTACTCATATACTTGTAATTGAAATTAGAATGTGGCATGCTAAAGGACAAGAGTATGAAGTGTCCCGATATTGGACACT AACACAACACCTGCACTCAGGAGATAATTTGTTGTGGTGTCTGAATAAAATGATTTCTTTTTTACTGTTCGTATACTTGA GCTAACACATCTTCTTGACTGAATATCTCTATGACGCTTATATTTTGGCTTAATTGCACCTTTGGTCCCACACGAATTGT GTTTTTGCATTTTTTGTCCTACACGAGTGAAAATAACAGACCGAGTCCTAAATGAATGGCTCTGTTAGCATTAATGGTCC TTCC
CDS sequence (LotjaGi5g1v0164400.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAAGGACAAAGTGACCCAGAGAACCCAGTGCTGCAAGGGTCTTATGACACTGGAGGAACAAGCAATGATGTATCTTA TTCAGCTGAGGATCATCTATTTCCAACCCCAAAATTTAACCTTTCAGCATCTGGGAGGAGTTGTAGCCAGTGGACTAGTC TCCCCAAAGTGTCAAAACCATCTCATAATTATGTTGAATATCTTTCAGAATCTTCAACTTATCTACCAAATGCCACACCT GAATATATGATTGGGAGCAGTTATCTACCTCTTGGAGGGGTCAATGGAACAGAAAGAAACTTGTTTTGCAGTGATCCAGG AAATGCTTGTGGTTTTAAATGCATTGATTCTTCAAGTTCAAGCAATGACTTTGACATTAGGAAGCGTATGGGGTTTTGGA AACCTGATGGAGGAGATGAAGCAATTGCAGTTGAAACTGAAAGTAGTCAAAATCTTCTTTATGCTGAGAGTCGAGCTCCA TGGATGATGGTAGATTCAATTGGAAATAAGCACAATGCTTCACAGTTTGATCCAATGGGAATGCTTGGAGCACCCACTTT CCTTCCCAAAAACCCCAAACCAGGATGCAGCTCTTCAAAACAGAAACCTGATCAATCACGTTTCACTGACCGTCATCGCA GGCAACGCATTGCTGAAAACCTCAAAGCTTTGCATGAATTGCTTCCAAATCCAGCAGAGGGTAGTCAAGCTCAAGCATAC ATACTTGACGATATCATTGACTATGTCAAATATTTGCAGCATCAAATAAAGGAACTAAGTGGAAGTCGATTGCAAGCTGA CACAAATGCTATACCACTCTTTTTTCATGAGGGTTATGGGCATTATATGAACCAACAGATGCTGAATGAACCCCTTGAAG AGATAATGGGGAAACTACTTGAAGAACATCCAGCAGCAGCCAGTCAGCTACTTGAAAGTAAGGGTCTTTTCCTGGTGCCT ATGGCTTTGGTTAGTGACTTGAATGAAGCTATGCAAGTGTTTGGCGGGAATGCACTTGTCTGA
Protein sequence (LotjaGi5g1v0164400.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MEGQSDPENPVLQGSYDTGGTSNDVSYSAEDHLFPTPKFNLSASGRSCSQWTSLPKVSKPSHNYVEYLSESSTYLPNATP EYMIGSSYLPLGGVNGTERNLFCSDPGNACGFKCIDSSSSSNDFDIRKRMGFWKPDGGDEAIAVETESSQNLLYAESRAP WMMVDSIGNKHNASQFDPMGMLGAPTFLPKNPKPGCSSSKQKPDQSRFTDRHRRQRIAENLKALHELLPNPAEGSQAQAY ILDDIIDYVKYLQHQIKELSGSRLQADTNAIPLFFHEGYGHYMNQQMLNEPLEEIMGKLLEEHPAAASQLLESKGLFLVP MALVSDLNEAMQVFGGNALV
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 | 1 | 27 | 27 | - | – | |
| PANTHER | 12 | 327 | 316 | 7.1E-81 | – | |
| PANTHER | 12 | 327 | 316 | 7.1E-81 | – | |
| MobiDBLite | 188 | 212 | 25 | - | – | |
| SUPERFAMILY | 199 | 265 | 67 | 1.44E-10 | ||
| CDD | 199 | 257 | 59 | 5.71112E-7 | ||
| Gene3D | 200 | 265 | 66 | 7.3E-8 | ||
| ProSiteProfiles | 201 | 252 | 52 | 11.02 | ||
| SMART | 207 | 258 | 52 | 0.0084 | ||
| Pfam | 210 | 253 | 44 | 3.6E-5 |
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 | Protein dimerization activity | The formation of a protein dimer, a macromolecular structure consists of two noncovalently associated identical or nonidentical subunits. |
Expression pattern of LotjaGi5g1v0164400.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…