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| Field | Value |
|---|---|
| Gene ID | LotjaGi5g1v0045000 |
| Transcript ID | LotjaGi5g1v0045000.1 |
| Related isoforms 7 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Guanine nucleotide-binding protein subunit alpha-like protein; TAIR: AT2G26300.1 G protein alpha subunit 1; Swiss-Prot: sp|P49082|GPA1_LOTJA Guanine nucleotide-binding protein alpha-1 subunit; TrEMBL-Plants: tr|I1MX88|I1MX88_SOYBN Uncharacterized protein; Found in the gene: LotjaGi5g1v0045000 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:7595217..7605597) extracted from Lotus japonicus Gifu genome v1.2.
TATTTTCCCAATAAGACACATAGAAAAGTGTTATCACTCTGCACTTGCTGCCTGCTTCTCTGTCCCTGTCTTTTCCAAAC TTTGACCGAAACCAAACAAAGCCAGCAAGGAAGGAAAGAAAGAAGGAAGAACCCTCTGCACCTTTCGGCGCTCTTTTTCT TTTCTCTCTATTTTCTTTCCTTCCCTCCCTCCATCCATTCACCTCTTTCTTCTTTCTTCCTTCTTCTTCTTCTTAATTAT ATTAGCAATTTGCAATCTATTATTACATGTTTATGTTTCTTCCTAATAGCACTTGTTGTTTTGTGTGTTTATTTATGTAC CCCTAATTACCCACACTGCTACACCATTATCCTAACCATATTCTAATCCCTTATTATTATATTACCTTAAACAAAACAAA CTCTATAATTGTTGTCTTTTGGTATGTTGTTGTGTTAGAGTTAGTGAGTGTCTGAGTGATGATATGTTATATCTTTCTCC CTCTGCTGTGAACAACAACACAAACTGAACTTGCTTCCTAGCTTCACTCCCAACCACATCACCCAAATCTAGCGCCATAT CTAGTTCTGCAGAAGAGACCCTTTTACTCATTTCTTCAAATTTTCAGGTAACCTCATTATTTTTTTCTGTTGCGTTCTTA ATTTCTCTATTTCTTTTCAAAGATCCTCCCTTTTCTTGATAATTTTAGGTGGGTTGGATTTATTTTGCTCAAGAGATCTC TGTAAATGATTTTGCAGATCGAGATGCAGTCATCATACTCTCTTTTTACTATGTTGCTTTATTTTATTTACTTTTTTTTC TTGGGGGTGTGATCTTGCATTTGATTTTGTCACTTTGTGTACCATCTTGGACTGGATTCTATTTTTCATGACCTGATTGG ACTCTGCATGCTCATGGTTTTAATAGGTTTTGAACTGCTGAATTCGCTTCCTCAGTGTAGAGAGAATTAGCACTCAGAGC TTGAAAATGACAAGTTTCCGCTTAGGTGTGATATCTAAGAAAGAACTAGGAAATAAATTATGCTAATTGATTATTGTCTT CCTTTGGCTATGGATGGGTGATTTAAAGTACATCAGAGATTAATAAATTGATTATACATAGACACATTAAAATAATGGCC CATGTAAATTTCTACCACAGTCCTGGGAATCTTAGTTATCATCATAACTCTGTTCTCAACATGGGGTTGCTTGCATCTGA TGATGGGCTTAGCCATATGGAGTGAAATATAAGTTGCAGGTACTGGAACACTGGGTACTTAGTTGTATGCCTGGGACCTT TGAGTCACTCATACTTTGTGATGTGATCACTAAGAGAATGTTTTGAATAAGCTTATTTTAATTCTGAGTTCTGACACATA AAAGCTGATATTGGCTTTAGAATCAATTTTAGAAGAATTTCAAAACATGCACTAAATTGTTCCCTAGACGTGAAAGTGAA GAATCTCCTATCATCCATTCAGTACATCTTTTGGGCCAAATAGTCTAATTGAGAATAATTAACTTCAAACTCAATGTGGC AAATATCAGTCAACTTGCCATCCAGTTCTTGCTGTTGCAAGTTGAGCTGAATATCTATTAGCTGATGAATCATGAATTGA CTTAAGGTCTTCCTCTGTAGGGGTGGTGGGGTACCAGCTTCTCCCTTTTGTTTGGCACCTGACTCTATTCTAGTTCTTTT GTTAGGTGAAATCAAGCCCACTAATGCACGCACGCATTAGAGAAGGGCGTTGAAACCGTGTGATTTCTGCTGGAGCTTGA CTAGTCATCTTCTATGCTGTCTTTTGTTACAGAAAATATGGGATTACTATGTAGCAAAAATCGCCGTTATAATGATGCTG ACACTGAAGAAAATGCACAGGTAAGTTGCATAGTTTTTTAGTTCTTAATAATCTGAAAGTGTCCATGGCCTTTAATTTGA TAAATGTGACATGCATTTGCAGACTGCAGAAATTGAAAGAAGAATAGAGTTAGAAACGAAGGCTGAAAAACATATTCAGA AACTTCTTCTACTAGGTACATTTTACTTGGGCAATTTTATTATTTTATGTCAGTTGGATTGTATATGTTTCACTTGTACA TTTTCAAGTTAAAATTTGTCTATTTTAGTGGTTTCTAGGAGTATTTGGAATCTAGTGTTGTGTAAGTAGTAGTGATGCTC CCCAGATTTTGAAGGAACGGCTAGTATCATTTATATGGTTTCTGCTGGTAATTGATGCGTTTCCTAAAACTGGCATTTCT GCATTATAAGATCTTCTACTTTAAAAAGGAGTTGCTTAACTTCTGATTGAGGGGTATTTGATTCATAACTCAATATGTAT TTTAGATATAAAACCATTTGCTGGCCTTCACCTAATAGGTTAAGCTTTTAGAATAGTTCAAACTTAATTTCTTTCCAATT CCAATGTAAACATAATGGCAAAACACATTCTCCAGTGTCAAATTGTGATAGGAGCTAGAGCTCTCTGTTGAAGTTAAATT ATGTTCACTTTTAGGCAACTACAATACAAACATACCTTAATGTGTGTTTGGATACCAGCTGAGTGCAATGTGAAGTACTT TCATCCCAAACCATAAGAGTTTGGTTCACTTTTTACCTTGAAGTGAGCGCTAATGGCTGTTTGGATATTCAAACATAGGA GTTTGGTCGTTGCGCTCATTTTTCTAAAGACAATTCGTGGCAGAAAGTTTAGTCTTGATAGTACAAGAAACTTTTTGTTT ACTCATGCCTTTAGGATTTAGAATGATATGTGTATCAGGTTTTCCTTGTATATCTTGGATTATTGCTCCAATTCTTCTGT TAAGTGATCTATCGTGGTCCTCAGAAACAATGCCATACTTATTTTGATTGAATCCTATGTGTGATAATCTGTCGATTCGT TTCTTGCTTGCTTTTGTTTTTTGTCAAGAATCAATTATCCCACAAGCTTAAGCTGTTGGGTAAAAGACGCATGAATGGTT TTATTTTTTATATTTCTAACACGCCCCCTCACGCAAGAGCCCGCCTGGGCTTGAAGCGTAAACAAATGCACAAGCCCACT TCCCATGTGCTGAAATTCAACTTTTTTACTTTTATTAGAACAATTGGGGTGGCAAGGATTGAACTCTAGACCACTTGGTC ATAGAGGCTCTGATACCATGTCAAGAACCAATTTTCCCAAAAGCTTAAGCTGTTGGGTAAATGACACATGGATGGTTTAT ATTATATTTCTAACATTTTTTTATTTCTAACTTATTTAAATGTGCCATGGCCCTGTTGTTCAGGAGCCGGAGAGTCAGGG AAGTCTACAATCTTTAAACAGGCAAGAAAATGCACTGTTCTCTATATTTTAGCGTTGTAGATACTTTCTAGATTGGTGAT ATTTATTTAACTGTCTATATATGCAGATAAAACTTTTGTTTCAAACTGGCTTTGACGAGGCAGAGCTAAAAAGCTACCAA CCAGTCATACATGCTAATGTATATCAGACAATAAAAGTACGCAATACTTGAAAGGGTGTGTTGATTATTTTTCTCTTAAA AATACAGAGTTTGCAGTGTCCACTGATAATAATTGAAAAGGTTTTCTATGAATTGTGTCTCAATGGATCTAGCTAAGTAA ACTGTCTTGCTTAAGATGTGTCTGTTATGTCTCAACAGTTACTGCATGACGGAGCAAAGGAGTTGGCCCAGAATGATGTT GATTTTTCAAAGTATGTTATATCCGATGAAAACAAGGTAGGTCACTGTTACCTTCTCTGTTATCCCCTATGGTTTAGACA ATAATTTTATATTGTATCTTGTAAAACAAAATTTATTATAAATAAATTTAGAGTAAACACTTGTACATAGGCTTCTTTTT TTCTTTTTTCTGTTTTGTGGGAATCTGTTAGTTTGTTGAACTTAGGTGGCAAAGAATTTTCTTCTAAATTCATATGAAGC TTTCTTAACTTTTTTGGCAGGAAATTGGGGAAAAGTTATCAGAAATTGGGGGCAGGCTGGATTACCCCTGTCTCACCAAG GAACTAGCACTGGAAATAGAGAATTTATGGAAGGATGCTGCAATTCAGGTGGCTATATGACATAGTTCATTGCTTTTATT ACTGTAATCCATCTATGTATTTATTTTCCGCTTCAGTTATTTAGTATTATGAGCACATGTTTTACTTTCTGCAGGAAACA TATGCCCGCGGTAATGAGCTCCAAGTTCCAGATTGTACCCACTATTTCATGGAAAATCTGCACAGACTGTCCGATGCAAA TTATGTTCCAACAAAGGTATCCAAAATCTATCATACTTTTGTTGATTACTTAAATTTTATTTTTATCTATCTACTTGGTA AAATTAGAGACCATATCATAATAGAAGATCAACAAGGGATAGTTGAGATGAGGGATAGTTCTATAGTTAGAGTTAGAGGG AGACCATGAAAGAAAACTATAGGTCAACTATGAAAAAGAATTTATATTTAAATGGTCTATCATTTGACATGATTTATGAT AAGAGACATTATTGCATTGTTTAATTTTCATCTATTTAGCTGACCCCACCTAATTGGAAAAAAGGCATTTGTTGTTATTG TTATTGGTATGTTGAGAATCTGATTTATTTCTTCTTGGTGGGTGTGGTATTTTTTATTTTATGGATGTTTAGAATTTGAG GATCCAAATCTTTTTCTTCTCTTCTCTTTTGGCCTTTTGTTGCTGTAGTATATAATATGCATGGGTTACAACTTACAACC CATGAGATTTTTTTTTTAATTTTATAAAAAAAGTCAGTTAAAATGGTCTGAAAAAGTATATTGTTGCATGTTTTGAAAAA AAGGAAATTCTACCGTAGCATTCTGTCTTAAAAATCATAAGTAATTTGTGGTTTGTAAATCTGTCTTGAATTGCCGTATT TTGCTTCTTTTTTCCTTGCATCAAATTATTTTCTATTTTGCCTTTGGTTGGTATTTTATTGTTAGAATATTTGGAAAAAT CTATAATATATGGATTGTATATTCGAGTAATTTAGATCGTATTTCTACTGTTTGTATACAGCAAAATTGACTGTTTTAGT AGTTTGTTGGGTTATCTGAGAAGACCTTTTTTGGTCGTCTCTGTTAGCATTGTCGCTAGGGCACAGCCCACTCACTATCA CAGCAACATTTAAGAAGTTTTCTATCAGGCTCACGAAGGCCACACATCGCATTGCTGACCTTGTTTAACATAACCATCAG TCTAGTCATATTTGTCAGCACCTCTTCTATTCTGCACTAATTTGGCTGTTTTTGCGGAAGAATTTCATGGCTTTGCTTTC CCCCCTGTTTTGGCTCGCTTGTGCCTCTGTTTGTATCAGTTGTGGTTTGACCCTGATTCTGCTTTAGATCTTTATGTTGG CGCTTGTTCCACTGTCATCTCCTCCTTCTGGCTGTCTCGGTAGCCTTTAGGTCCCATCAACCTCTGTCCACATGTATGGT CCCCTCAATCCAAGAAGCACCGTAACCGTGATAGTCCCAGTGTAACAATCCCCAGAGAAACAGCCTGCCTTTCCAATAGT TACCAAAAATAACTTATTATCATCAAGATTTTTTTCTTATAGTATCTTAAGATATTTTTCTAAAGGTACACTTGTGACAA ACTTAAAGCTAAGTAACCTTTGACATGAGAAGGCTTTTTAGAACATAAAAAATATGTATTATTATTATTACCATATGATC TTGATCACATCTTAGAGTAATTTAGGGTAATTTAGATTATTCCTTAAGATTGGTTCCTATATTTCCGTATATCCTTATTT AATTAAGATTTGGAGTTCATTATTAAATAATTAAGGATTAGTTTTTGGCTTTTGTATTACACCCAACATATCATTCACAT CATATCAATACAATTTTATTATTCTCAACATTACTTTTCCTCTTTCTATACTTAAAGACTAAATACACGGCATGTCTTGG ATGACGTTAAGCGAAATTTTAATTTCTTTTGCAGTCATAGACCATTAAATTTTACATGGCTGTAAGGTCATGAACTATAA TAACTTCTCATTCTATTATACACCTGCAGGATGATGTTTTGTATGCAAGAGTGCGTACCACTGGTGTTGTAGAGATCCAG TTCAGGTAAACATTTTGATTGACTTGATCTGTCATGCTAAATCATACAGAGAGATACTTATTACTGCCCCCATTTTATTC CCTTCCTGATATGCTTAGTATGTGGAGAATAATGGCCCTTATTACATAGATTTGGGCATTTCTTCTCTTTCTTTTCTGTC ATTATGTTTATCTTTTAGTTTTGGTTACCAGCAGGAAAAATAATCCTCCTGCATCTTGTTGTGTTTCACCTTGGAGGAAA GGGCAATGAGGTGGACTAACACCTAGAGTATTAGATGAGTGCAGCCAGTCCAACGTAGTTAGCCTATCCTAGAAGGAAAA TGCTATTAGTTAGGTGAAGCCATGATAGAAACTGAGATTTACTCAATAAATAATAGCAGGATTTCGAGAACGAACTCTGT TTAGATGGAAAGTAGTAGGCGAAAATTCAAAGATGTCAGAGAAACAAGAATGCTACTCTGCCCCTAGGCCTAAACCTCCC ACAATTCCCCTCCAGTTTTTATGCCTCTTCTGGAATTTGTTAGGCTTCTCATTCACTGACTCCACCTCAATTCCCATCTT GCCCTTTATGCCTCTGATATTTTTTATCTTATTGTTTATGGGTTTACCACTCATGGTAAGGTAAAGCATAGTAAAGTTGA ACATAAGGATTCATAAATTAGCTTAAACTATCTTGATTTTTAGGTTTTAGTCTAACCGTTAGTGAGCTTGGTTTTGCACT AGTAGTTCCAGTATTTGACCTAATTTTTAGTTCTAGTCTTAGGTTAAGGTATTGTATAACATATTATATCTATCCATTGC ATTTTCTGTTTTAGTTTTTTGATGCAAACCAATGTAACAGTAGATGTGCAATGAAGGATAGAAAGGGAATTGTTTGATTA TATAAAAGAGAAAGGATGATTACAGTAGCACTCTACTACTCCAGAGCTAGGCTCCTATAGAGAAAGCATAATTCTCTATT CACTCTCACAATAACAATACTCTCAGATACCCCCACATGCTAACCACAACTTTCCTTATATGCACAACCTCTCCCCTGAT TCCCGTAACTAACAAACCTATGACTCACTCTAATACTGCCAGCTCACTATTCTCTCTAGATGCTTCCTTTCTTATTCTTC CTGGCATACACCTGCCACACTTTGGGCCTCTGATCATTAGTATCAGCCCAATTCTGACTTGGAGGCCTATCATTTTATTT GATGTGTGATCTTGTCACTTTGTATGCCACCGCTTGTCCTTTTTATTGAACATGATATGGCATACAGTGTAGAATAACTC GACAACATAACTGGTATGTTTTTGCTATATTGACAGCCCTGTTGGAGAAAATAAGAAAAGCGGTGAAGTCTATAGACTAT TTGATGTCGGCGGTCAGAGAAATGAGAGGCGAAAATGGATCCATCTGTTTGAAGGAGTTTCAGCTGTAATATTCTGTGCT GCAATTAGCGAGTATATACTCTACCATTTGACTCTTTAGTCGTGTTTTCAATTTTCAAAAACATATGTAAATTTCTTGCG TGCACATCTGTTTTGAATTTACTGTATACCAAATCAAAAGGGTAGAGGGTCCAGTTGAAGTTACGAGTAAATTCTACTTT ACAATATTACTTTGGAACTTTTTCAGTAGTTGCTAATTATCAAATTCATTATACTTGAAAGTGAAGTTTAAGCTCCTTCT AGTGATTATTTCGTGTATCCTTTCACTATTATAGGCAAGATCATCATAATTATGCAATGTGTAAATCTAAAGAAGTGTTG ACATCACATTTTCCTTACAGGTACGATCAAACACTTTTTGAGGATGAAAACAAGAACAGAATGATGGAGACTAAGGAACT TTTTGAATGGGTCTTGAAGCAGCCATGTTTTGAGGTTTCCTTTTATATTCTTCTTTAACTGTTAACATTTACTACAATCA TGTTGCAATCTCTTCTGTAACTTTTTTGCTCTTTCCTTTATATGAATAATATGATACTTGCTGTTGAGAGCTTTATGCTT CATTGACAGTTTAGATTTCTGCCTATCTCAGAAGATAATGATGTCTTTCTCTTTCATACACAGAAAACATCCTTCATGTT ATTTCTAAACAAGTTTGACATATTTGAGAAGAAGATCCTGAAAGTAAGAACCATCAGAACATTGAAAACTTTGTCATTGG TGGAGGCTATTTATCATTTTCAGTCTAATATCTTGCATTGTGCAGGTCCCTCTTAATGTTTGTGAGTGGTTCAAAGATTA CCAGCCAGTTTCAACAGGGAAACAGGAGATTGAGCACGCATATGAGTAAGCAACTAATCTATTCCTTAGGCATTTTGAAT AAAGGATGTTGCTGAAGGCAAAGTAGATCCTGGCCAATGGAGGCCTTCCAAATTCAAAACATTGTTATGTTGTTCTGCAT TTTTATTTCTACTGTATGACAAGCTAGAAGAAAGTTGATTGTTTTCCATCACAACATAGGAATATACTCATGTTGATATT TGAATATAATGTAATAAACAAGCCACTAGGATTGGATTAATGGTGAGGGGTATTAGAATTCAGATTAGGCCTAACTCAAC CACAAAAGCTAGCTCAGGGTGAGAATTGCTCTACCTTTCATAAGGACTTATTTGGCCATACCCAGGGACGGAACCAGGAA AATTAGAGACGGGGGGTGAAAATTTAACTTGGAAATACGAGACTGAGAAAGCCAGAACCAGGAACAGAGTGACAAGGGAA TTAAAGAAGGCAGTGAGGGGCATAAAGTTGATGTAACTTTAGTGTGTGTTTAGATGCACATTAGAGAAATACGGTGAAGC TAAAATTACGGTGAACAATCACAAAAGCTAAAAAAATTTGCTTCAATCCACCATAATTTTAACTCCGCGTTTTTTTAATC ATGTATGCAAACATGCACTTGGCAATTTGAGTAGAACGTTTGGTTCTTTTTAACTCTGACTGCAGTTAACTTTTTATTTT TATTGAAATAGTGTTGTGTACTTGCTTTAAGCATGCAGTGATGGAAAATAAAATGTGAAGCTAGGAGTCTTATTAGCTGT AGGGACGGGACGGGACGAACATACAATTCTAAGTATATATATGCTAAGTTATCTTTGTGTTAGGGGGGCCATTGCCCCTT TTGGCTTAAGCTGGGTCCATCTCTGGCCATACCTCTAGTCAATGTAGGACTTGTCAACACACCTCACACCCAGAGCTGGA CATCTGGAGTGTAAAGTTTGCAGGAATAAACATCTATGGGGCCCATTTATGGTAGGATAGTCTCTCGTTAAGAACCTTGG GAGAACCAACCAGAAAGCTAGCCTAGGTGTGAGGATTGCTCTACCCTTTTATAAGTACTAATTTGAGTATATCTCTAGTC AACGCGGGATCTCTAAACAAGGGGCTTGGGTAGTTTGCATGAAGTATTAAGTTTGAATTTCATTGTCACTATTGTAGAAA AAAAAACTGTAAACAAGGTTATGATTGCTTACCTACCTTGAAAGGGCTATTACTATAAATTAACTTTATGATTAATTTTT CATATCCAATACAGCTAATGGACATGGATGAACTGTGTTTTTTTATTCCAGGTTTGTAAAGAAAAAGTTTGAAGAATCAT ATTTCCAGAACACTGCCCCGGACCGTGTAGATCGCGTCTTCAAGATCTACCGGACCACTGCTCTTGATCAGAAGGTTGTG AAGAAGACATTCAAGCTTGTTGATGAGACATTGAGACGGCGGAATCTCTTTGAGGCTGGCTTGTTATGACCAATTTAACC ATGTGTTATTATAAGAGGGATAAAATATTTACATTGAAAAGAGGTGATCAGAGATTTTGGGTATACTAGAGATCAGGTAT ACTAAAATATTAAATCGATTTGTTGATTTTATTTCCCAAGTAAATCTTGCTGGATGAGTGGATGGAGAAAAAGGGCCTTT CTTAAATAGTTGATTTTCACATCCATCTTCAAAGGGCTAATTGGTTGTGCGGAAGTTTCAAGATTGATATCATGATCTAT GATTATGTTTCTATAGAGTAAAAGTCACTCATGATATGTTGTATTTCATATTCACATTTCATATTGCTTTTCCATGCCCA TGGTTGTGTTGTTGTACGTGCCTTGTGTCATGCTGTATGAAGTTCTGAATTCATATATAGGATATGTTTTGATAAACAAT TTAATTACGCAAAGCGTTTATCAAATAATTGTTTACTTTTAAGCTAATTTGAGTTTTTGAAATAAGCTCAAAATATATTA TAAGTCTTGAGCGTTTTTATTCATAAGTTAATCTTACTAGCTTATGAAATTAAGCTCAACA
CDS sequence (LotjaGi5g1v0045000.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGCTGTCTTTTGTTACAGAAAATATGGGATTACTATGTAGCAAAAATCGCCGTTATAATGATGCTGACACTGAAGAAAA TGCACAGACTGCAGAAATTGAAAGAAGAATAGAGTTAGAAACGAAGGCTGAAAAACATATTCAGAAACTTCTTCTACTAG GAGCCGGAGAGTCAGGGAAGTCTACAATCTTTAAACAGATAAAACTTTTGTTTCAAACTGGCTTTGACGAGGCAGAGCTA AAAAGCTACCAACCAGTCATACATGCTAATGTATATCAGACAATAAAATTACTGCATGACGGAGCAAAGGAGTTGGCCCA GAATGATGTTGATTTTTCAAAGTATGTTATATCCGATGAAAACAAGGAAATTGGGGAAAAGTTATCAGAAATTGGGGGCA GGCTGGATTACCCCTGTCTCACCAAGGAACTAGCACTGGAAATAGAGAATTTATGGAAGGATGCTGCAATTCAGGAAACA TATGCCCGCGGTAATGAGCTCCAAGTTCCAGATTGTACCCACTATTTCATGGAAAATCTGCACAGACTGTCCGATGCAAA TTATGTTCCAACAAAGGATGATGTTTTGTATGCAAGAGTGCGTACCACTGGTGTTGTAGAGATCCAGTTCAGCCCTGTTG GAGAAAATAAGAAAAGCGGTGAAGTCTATAGACTATTTGATGTCGGCGGTCAGAGAAATGAGAGGCGAAAATGGATCCAT CTGTTTGAAGGAGTTTCAGCTGTAATATTCTGTGCTGCAATTAGCGAGTACGATCAAACACTTTTTGAGGATGAAAACAA GAACAGAATGATGGAGACTAAGGAACTTTTTGAATGGGTCTTGAAGCAGCCATGTTTTGAGAAAACATCCTTCATGTTAT TTCTAAACAAGTTTGACATATTTGAGAAGAAGATCCTGAAAGTCCCTCTTAATGTTTGTGAGTGGTTCAAAGATTACCAG CCAGTTTCAACAGGGAAACAGGAGATTGAGCACGCATATGAGTTTGTAAAGAAAAAGTTTGAAGAATCATATTTCCAGAA CACTGCCCCGGACCGTGTAGATCGCGTCTTCAAGATCTACCGGACCACTGCTCTTGATCAGAAGGTTGTGAAGAAGACAT TCAAGCTTGTTGATGAGACATTGAGACGGCGGAATCTCTTTGAGGCTGGCTTGTTATGA
Protein sequence (LotjaGi5g1v0045000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MLSFVTENMGLLCSKNRRYNDADTEENAQTAEIERRIELETKAEKHIQKLLLLGAGESGKSTIFKQIKLLFQTGFDEAEL KSYQPVIHANVYQTIKLLHDGAKELAQNDVDFSKYVISDENKEIGEKLSEIGGRLDYPCLTKELALEIENLWKDAAIQET YARGNELQVPDCTHYFMENLHRLSDANYVPTKDDVLYARVRTTGVVEIQFSPVGENKKSGEVYRLFDVGGQRNERRKWIH LFEGVSAVIFCAAISEYDQTLFEDENKNRMMETKELFEWVLKQPCFEKTSFMLFLNKFDIFEKKILKVPLNVCEWFKDYQ PVSTGKQEIEHAYEFVKKKFEESYFQNTAPDRVDRVFKIYRTTALDQKVVKKTFKLVDETLRRRNLFEAGLL
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 | 4 | 392 | 389 | 3.3E-254 | ||
| PANTHER | 4 | 392 | 389 | 3.3E-254 | ||
| SMART | 27 | 391 | 365 | 2.2E-169 | ||
| Pfam | 30 | 380 | 351 | 1.6E-95 | ||
| PRINTS | 35 | 44 | 10 | 2.2E-61 | ||
| SUPERFAMILY | 44 | 389 | 346 | 2.72E-44 | ||
| ProSiteProfiles | 46 | 392 | 347 | 89.297 | – | |
| CDD | 48 | 386 | 339 | 4.7071E-143 | ||
| Gene3D | 49 | 368 | 320 | 4.9E-121 | – | |
| PRINTS | 49 | 64 | 16 | 8.8E-48 | ||
| SUPERFAMILY | 75 | 200 | 126 | 7.06E-32 | ||
| Gene3D | 76 | 201 | 126 | 4.9E-121 | ||
| PRINTS | 85 | 98 | 14 | 2.2E-61 | ||
| PRINTS | 100 | 114 | 15 | 2.2E-61 | ||
| PRINTS | 124 | 138 | 15 | 2.2E-61 | ||
| PRINTS | 188 | 210 | 23 | 8.8E-48 | ||
| PRINTS | 208 | 223 | 16 | 2.2E-61 | ||
| PRINTS | 223 | 240 | 18 | 8.8E-48 | ||
| PRINTS | 245 | 273 | 29 | 8.8E-48 | ||
| PRINTS | 278 | 289 | 12 | 2.2E-61 | ||
| PRINTS | 291 | 300 | 10 | 8.8E-48 | ||
| PRINTS | 327 | 342 | 16 | 2.2E-61 | ||
| PRINTS | 344 | 356 | 13 | 2.2E-61 |
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 | G protein-coupled receptor binding | Interacting selectively and non-covalently with a G protein-coupled receptor. | ||
| Molecular function | GTPase activity | Catalysis of the reaction: GTP + H2O = GDP + phosphate. | ||
| Cellular component | Heterotrimeric G-protein complex | Any of a family of heterotrimeric GTP-binding and hydrolyzing proteins; they belong to a superfamily of GTPases that includes monomeric proteins such as EF-Tu and RAS. Heterotrimeric G-proteins consist of three subunits; the alpha subunit contains the guanine nucleotide binding site and possesses GTPase activity; the beta and gamma subunits are tightly associated and function as a beta-gamma heterodimer; extrinsic plasma membrane proteins (cytoplasmic face) that function as a complex to transduce signals from G protein-coupled receptors to an effector protein. | ||
| Biological process | Signal transduction | The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell. | ||
| Biological process | G protein-coupled receptor signaling pathway | A series of molecular signals that proceeds with an activated receptor promoting the exchange of GDP for GTP on the alpha-subunit of an associated heterotrimeric G-protein complex. The GTP-bound activated alpha-G-protein then dissociates from the beta- and gamma-subunits to further transmit the signal within the cell. The pathway begins with receptor-ligand interaction, or for basal GPCR signaling the pathway begins with the receptor activating its G protein in the absence of an agonist, and ends with regulation of a downstream cellular process, e.g. transcription. The pathway can start from the plasma membrane, Golgi or nuclear membrane (PMID:24568158 and PMID:16902576). | ||
| Biological process | Adenylate cyclase-modulating G protein-coupled receptor signaling pathway | The series of molecular signals generated as a consequence of a G protein-coupled receptor binding to its physiological ligand, where the pathway proceeds through activation or inhibition of adenylyl cyclase activity and a subsequent change in the concentration of cyclic AMP (cAMP). | ||
| Molecular function | Guanyl nucleotide binding | Interacting selectively and non-covalently with guanyl nucleotides, any compound consisting of guanosine esterified with (ortho)phosphate. | ||
| Molecular function | G-protein beta/gamma-subunit complex binding | Interacting selectively and non-covalently with a complex of G-protein beta/gamma subunits. |
Expression pattern of LotjaGi5g1v0045000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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