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 | LotjaGi2g1v0191500 |
| Transcript ID | LotjaGi2g1v0191500.5 |
| Related isoforms 5 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Guanine nucleotide-binding protein subunit alpha-like protein; TAIR: AT1G31930.1 extra-large GTP-binding protein 3; Swiss-Prot: sp|Q9C516|XLG3_ARATH Extra-large guanine nucleotide-binding protein 3; TrEMBL-Plants: tr|A0A0S3TBX6|A0A0S3TBX6_PHAAN Uncharacterized protein; Found in the gene: LotjaGi2g1v0191500 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:62291213..62298823) extracted from Lotus japonicus Gifu genome v1.2.
ATGGCCTCCGAACCCGCCGACGAAGACAACAACACCTGGGAGCACGTCCTCCGCCGCATGCTCCCCGTCGGAGCTCCGAT GCCAGACGAGGAGCAACTCGACTACTCCATCGCCGTCGAGTACGAAGGACCTCCTGTCCAATACCACATCCCTAGGGTTG ATCCGCTCGAAGTAGCTTCCACCGCCGCCGCCTCCTCCGCCCCGATTCGCAACTCCGATCACGCCGCGGCCGCAATTCCC ATCGCCATGCCGCTTCACCCTCGATTCTCAAGGTTTGGAATCGTCCGTAACGGCGGTTACGGCCGCGAGCCGCGGAGTCC GGTTGAGAGTCAGAGACCGTCTTCGGTGTCGCCGAATCAGTCTCAGTTTGAGTCTGGCAACGGCGGCGGCGACGTCGATC CCGACGATTTTTCCGGTGAGCCTGTTGCGGACACTGCCAGCGGTGGTTCGTCTCCGGCTCGGTCGTGGACTGTTCCGAAC AGCGGCGCCGTCGAGGGTAAGCGCCCGACGACGGTGACGTTCAACACTCCGAGGGATTCGTCATCTGACGACGGCAGTTA CCTCTCGCCGCAGTCTGTAGCGACGGAGCCGGTGGGATCGCCGGCGGCTTCTGCGTCTGCGCGGAACGCGCAGACGAAGC GGTGGGTTTGCAGCAGATGTGGGAATAAGAACAGGTTGAAGGAGAAGGAAGCGTGTTTGGTGTGTGATGCGAGGTACTGC TGCAACTGTGTGCTGAAGGCCATGGGGTCGATGCCGGAGGGGAGGAAATGCGTGAGCTGCATTGGGCAGGCCATTGATGA GTCGAAGAGATCGAGCTTGGGGAAGTGTTCGAGGATGCTGAGTAGGGTTTGTAGTCCATTGGAGATTAATCAGATCATGA AGGCTGAGAAGGAGTGTGCTGCTAATCAGCTGCGGCCGGAGCAGCTAATCGTCAATGGGCGCCAGTTGAGGCAGGAAGAG TTGGCTGAGATTCTGGGCTGCGCGATACCGCCTCAGAAGTTGAAGCCAGGGAGGTATTGGTATGATAAGGATTCTGGATA CTGGGGCAAGGTGAACATGAAAAACAGAAAACAGAAAGAAAGAAAATTTAGTGTTTTGATATGCTGAAAATGTGCCACTA AAGTGTAATTGTCTGTAATGTGAGGAAACAAACATATTTTCACTTTTGGATCTTTGCGGGTTAAGATCTTTCTCACTTTA TAGACAAGTGCACTTTAGAGGTGCCTTATCTTCAATATGAAGTGTTTATGTTTTATGTTTGTTCTTGGTTTTGTATAGAA ACTACTATTTTTAGATTGTTTTGTTGTTTTGCTTAGTTTGGAAGTTGTGGATTTCAGGAGGGAGAGAAGCCTGATAGGAT AATAAGTTCAAAGCTAAATATTGGAGGGAAGCTTCAAACAGATGCAAGCAATGGAAATACTAGAGTCTACATGAATGGCC GTGAAATAACAAAGATTGAGCTTAGAATGTTAAAGGTAATCATGTTTTTCCTTGCATTTTAGTTTGGATAAAGTTCAGAG CAAAATCGTAGAACATAGAAATTCCTATATGTGCTAGAAGGCTAGATGCCAACTTGAATTTTGTGTGTTTTCTTGCTTGC CGGAACCCTCTTGAGTCTTGACTGAATATTAACTGCAGAATTTTGTGTTTATAAGGCAATTGATTGTCCTTCAAAGAATA TTGCTCACCAATCTTCCGATGGAGCAAAAAAAAAAAGAATATTGCTCACCAAAGCAATGAAATATTTTGTGAAGTTTATC TTGAATGAAAGACAGGAAGAACCTTTCCATGGGACAATCCTGCTTCCCTCTTTTGATTTCATTTAGACCATCTTAAGTGA AAGAAACCTTGAATCTTGTTTTCTCATTCCTGTCTATATAATATTGATCTAATTATAGACCATTAAGAGTTTCCTTTTGA TCTTTAGATCTGACTTCATTGGACTTTGGAAATATAAAATTGCACTTTGTATATCTGTTTGTAATTTATTGCTCTTATCA ACACCAATCAATTTGTAACTTGTTTGGCTGTCATTTTAGCTTGCAAATGTTCAATGCCCGCGAGACACCCATTTCTGGGT TTATGATGATGGCTCTTATGAGGAAGAAGGCCAAAATAATATTAAAGGGAACATATGGGGAAAGGTTCTCTCTTACCTAA TATAATATATATATATGTATATATATATATATGTATATATATATATGTATATATATATATGTATATATATATATATATCT ACTGTTTAATTTGAGCTTGAAAGCGGATGCCTTGATTTGGTTTTTTTATACAATATCGATTTGGTTTATGGTAGGCAGGC GTCCACTCGTTTGATTTGTTCATTATGCTCATTGCCTGTACCACCTACTAATCCTCCTGGGGTCAAAGATAATCTGACTA ACTATTCAACAAGGTCTGTGCCTGAGTATTTAGAGCAAGGTAGAGTTCAGAAACTATTGTTGTTTGGTATGGAAGGATCT GGAACAGCCACTCTGTTTAAACAGGCATGTCTAACTATTCCTTTCTCTTTCACATCTCTCGCACTCTCTCCCCCTCTCTG TGTCATAGTTTCTTGTATCCATGCCTTTCCGTGTTATAAATTCTAATGTGCCTGATTCGGGTCAATACCTTTGGCTTTCC TTCGGGCAAAAGGCTTTAGTGAAGGTTCATATTTTATATGCTCAGTTTGAAGCTCAACAGGTGCTGGTGGACTGCTAGTT ATAATAGTCCATCCATAGTAATACAATTGACTGTTTTCTATGGATTTAGATGTGTTATTATCAACTATTTTACTCAATGC AAAAAATAAATGTTTTAAACATAGTTTGATTATGCATGCACACATCCGTACTCTCAGAAGTACATGCTATATAATATAAC TAGGTTTTTGCTTATGTATGGGTAATGCATATGCACACCTGCACATGCCAAAATTTCGATGCATAAAGGTTATATGTGCT TGCCATATTCGTAAAATAGGCCAATGCATACTCGTAGATGTTTACATATATTCATATACACTTAGATGTATATGTAACTA AATAGAAGTTTTATTTTGTATAGTTTCAACATTTCGGATGTGTATTCACTTTCAGCTTACGTGTAATGTAAACTCTGCCT TGCCCCTTTTTCGAGTGCTTTCTAATAATGCCTATTATGGATGGCTTTTCATTGTACACTTGGCGGTCTTTTCTTTATTT TATTTTTTTAAATCTGCAAGTTTTAGTTTAAATGGCTGACTCACTTTTTAACATCTTGCAAGGGTTTTCCTTTACCTAAT TACTTTGAGTTTATGCTACAGTGTCAACTATTTTTATTGTTCTCATTTTACTGTTTCCGTGCTTTCTTTATGAGAATAAT GTTTTTCCTTGTCCTTGAATCAGGCCAAGTTTTTATATGGAAACAAGTTTTCTCCAGAAGAGTTGCAAAACATTAAACTC ATGATTCAAAGCAATATGTACAAGTATCTCAGCATTCTGCTTGAAGGACGAGAGCAGTTTGAAGAGGAAGCTCTGGCAGA GAAAGAATGTGCCTCGTTAGAAGATGAAGAATCTGGACCTGGTATAACATTTTATTTTATTTTTCCTTCAGGCACAAAAT ATACATTTTTCTTCAAAAAGTTCCACAGTGCTTGTAAGTTATGAAGTTGAGTGATAAGTTATGCGGTTGTAGTTAGTTGG AGAGCCCAAGGCCTTATAAACCCCTCATTAGAATCCCATACTTCCAATGAGGGACTCAAGTCCCATACCTTGCAATTAGA TCCTAACATTGAGCTGTATATTTCTTTCTCTCACCGTCTCCATTTTTTGTCAACATTTCTATGTTTATCTCAAATTATTG TCCAATCAGAACATTTAATGAAGAGTACCCATATTAGTTATGTGGGATGAGGGAGGGAGAGAGGGAACAATAAGTGCTTA AGTGCTTTATGTGGCCCTTATGTGGCACATAAAGGTCACTTTTGGATAACAGACTTCTCTGATTCTTTCTTGATGTACTG CATCTTTGCAATTTTGCTCCAACATGCAATAAACTCATTACGTTATGCAGATGTTAAACTTATAAAACTTAACTTCAGGT AACTTATTTATATTTTGTCTGACAATATTGAACATGTATTATAATAAAGACGACGATATAAACTTGTAATAGGAACAGCC ATCAAGGTTTATCTCACTAATTGAATTGAGTTCTATCAAAAACCAAATATTCAATAAAACCATATAATGTAAAGTACTTC TTAATGGTTACTTGTTGTCATGTTAAGGTTTCTTTCTACTAGTGGTCCATTGTTACGCGACAAAACAAATATGCTATAAC TGCTATGTTGGATGATTTATCCTTTTAAGGAACAATTTTTCCAATAACAATTCTTGATAGCTAATAGTTGTGTTGGATTC TGTGGATGATGAAAGTTGGTAATAATCTTTTTGTTAATATCTTTGAAAAGTTGGGTTTATGTGAGTGAATCTGATTGTGC AATAAATTCAGCAGAAAGAGCAGCTGAGGAAAACAAACCAACCATTTACTCGATCAATCAAAGACTCAAGCATTTTTCTG ACTGGTTGCTGGATATTATGGCTACGGGGGATTTGGAGGCTTTCTTCCCTGCTGCTACGCGTGAGTATGCTCCTATGGTA GAGGAGATCTGGAGAGATCCTGCTGTTCAGGAAACATACAAGAGAAGAGAGGAATTGCATAATCTTCCTGATGTCACTAA ATATTTCTTAGATCGGGTATGTCTTTACCATTTTTATCACTTTGTCTTCTAGAGAAGTATTTGGTTGCTTTATCTTGTAT GTTCCATTGCAGTTGTGCATGTGAGCATATGATTGTTGTTATGTTACAACTAAATATTTGTCCATTGAACTTCTTTTGTT TTTGCCTTTTCCATTCTGGAGTTAATTCAATGCAGCAAGCCTCAGTGCTCTCCTGAACTGAACCAACTATTACTTCACCT TATCTATTATGATGAACTTACAAAAAGAGAGTGAAACACTAGAGCTGAGAGAAAGGGGTGTTAGTTACATTATTATTGTT TCAATGTAGAAAATTTGAATTTTAGATGTATGGAAGAGGAGAAAATGTACCTTCACAAGAAACGGTGTTTGCAAAGAAGA AGCATGAATCTGTAAATTCTATTGGCTAGTAACAATTATCTGGAAATGTCATTTTTCCCATTTTGTTTTTCCTTGAAAAG GAAGTGCTTGAAAAGTTGCTATTTATCTAAACAACTTAGAAGGGCTGAAGGGTTAAATTAGTTCCTTGCAAGAAATGAAT GAACTTCTGATGGACTTTACAGTTAATCTAAATCACATCTAATTTGCGCTTTTGTTTGGTAGCATTAATTTGAACATTTA CTACTATGAAGTCTTAGCTCATTTTTATAATTGGGGAAGTTTTTTGTTGCATATTGTCATTCTTATTCTTCATGAAATTA GTGACGGAGTTAGTATCAACATGATTTCTATTTTAATTTAGGCAAAAGTTTATTAAACTCACTTTCTATAAGGAGATATT CAATCTAATAACTAGCCTTGACTTGAGACTAAAATAATCTGAGTATTCGATATATCTTTGCATGAATGAGATATACAATA TTATATTCAAAGGTTACGTAGTCAATATTGAAGCTTAGGGATTACAAAATCAGCTAATTAGGGAAAGCAGGGAAACTATG AAATAAGATCAAAACAAAATCTGTACATAATCAATAATATAGTTACAGAATAATATTACAACACTCCCCCTCAGGATAAA CATATAAATCGAATGCATTTAGCTTAGAACATACGTATAGTATTATTAGGAATTGGATCAGAATACAAAGAACATTGATA TTGACAGCAAAACTCAATTACACTAGTTATTCAAGGGTCTTGGAACACTAAAACCTGATAACCATGTTCCTGTAAATAGA CAATGATATCTACAAGGGTCGCAATGATTCTTTTAATTGTCAACAATAGTAACTAGCTTGTTCTTTGCTGATTCCTCCTT TCTTATTCAGACCGGTTCCATTCTCCTTTTATAGGATCCACTTATGCTCATAAGTGGTTGGGCTTGACCCATTTCTCCAT AATTTTGACTGAGCCACTTGAATCCCAAAAAAATGATTCAAAGGACCTAAGTCCTGAAACTGCTGAGATAAGTGTTCTTA AGGGCTTGAAGCCCTCATGATCATCACCTGTAATCACAATATCCTCCACATAAACTATACATATTTTTATTTGAATATAA GCATTTAAAGAAGACATACTATATAGTAAATCTTCGCTAAACCAACCCAACAAAGTTTGAATTGTTTTAGGCCATATTGG GACTTCTGGAATTTGCATTCAAGACCTCAGCCTCTTGCGCAACAAAGCTGGGGTAGACCTCCTCCAGGTCACCATGTATG AAAGCAATTTTAATATCTAACTGAAATAAGGGTTGTGATTTATGCAGCCGTAGCTAAAAAGAGATGAACTTAGACCATCT TCCCCACTGGAGAGTACATATTATTTTAATCCAAACCAAACATGTGTGTATCCTTTAGCCACAAAACAAACTTTCAAGCG ATCCATCTTGTCTTTTGCTTTTGCTGATCTATTCTAGGTTGAATATGAGGGTAGTTTGCTAACTTCGTTCAAATATATTT TTCTTTCTTTTGTTCTTTTGATCTTTTGATTTGTCATTCTTTTCTGGCTATTAATTTAAAGAACAGCCTTTAAAAATATT GACTTTTTGTCCTATCATTGTGAGGTCTAATCACGTGTGATCCTATACAGGCAATGGAAATATCAAGCAATGAGTATGAA CCTTCGGATAAGGATGTATTATATGCTGAAGGAGTCGCTCAGAGCAATGGTCTTGCCTTCATGGAATTCTCATTTGATGA TAGGAGTCCCATGTCTGAGATATACAGCGGAAACATAAGTTCCCAAACTCCTTTAATCAAGTAAACCATTCTCTTTCACC TCCTTTACTCTTATTTTGTGGAAGCTTCGTAAAATGTTTTTAACTCCTTCACATTGTCACTGTCTCAGATATCAACTGAT TCGCATAAATTCAAAGGGACTGCGCGATGGCTGCAAGTGGTTGCAAATGTTTGAAGATGTGAGGATCGTCATATTTTGTG TTTCCTTAAGTGACTATGACCAAATGTGGCCAACTAGTACCGGTCAACTTCAAAACAAATTGCTGGCAAGTAGGGATCTT TTTGAGAGTCTGGTGAGGCATCCTTGTTTTCAAGATACCCCTTTTGTGCTTGTGCTAAATAAATATGATGCCTTTGAAGA CAAGATAAGCAAAGTTCCTTTGTCTACTTGTGAGTGGTTTGCGGACTTCTGTCCTGTGAGACCCCATCACAACAGTCATG CCCTAGCACAACAAGCATATTACTATGTAGCTGTGAGATTCAAGGAACTTTATCATTCCTTGACCAGCCAGAAGTTGTTT GTGGGGCAAACTCGAGCTCGGGATCGCGCCTCAGTTGATGAGGCATTCAAGTACATAAGGGAGGTCATCAAATGGGAGGA TGAGAAGGATGATGATGTGTATGAAATCAATCTGGAAGAGTCATATTACAGTACAGAAATGAGTTCTTCCCCATTCGTCA GGCAGGAATGA
CDS sequence (LotjaGi2g1v0191500.5) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCCTCCGAACCCGCCGACGAAGACAACAACACCTGGGAGCACGTCCTCCGCCGCATGCTCCCCGTCGGAGCTCCGAT GCCAGACGAGGAGCAACTCGACTACTCCATCGCCGTCGAGTACGAAGGACCTCCTGTCCAATACCACATCCCTAGGGTTG ATCCGCTCGAAGTAGCTTCCACCGCCGCCGCCTCCTCCGCCCCGATTCGCAACTCCGATCACGCCGCGGCCGCAATTCCC ATCGCCATGCCGCTTCACCCTCGATTCTCAAGGTTTGGAATCGTCCGTAACGGCGGTTACGGCCGCGAGCCGCGGAGTCC GGTTGAGAGTCAGAGACCGTCTTCGGTGTCGCCGAATCAGTCTCAGTTTGAGTCTGGCAACGGCGGCGGCGACGTCGATC CCGACGATTTTTCCGGTGAGCCTGTTGCGGACACTGCCAGCGGTGGTTCGTCTCCGGCTCGGTCGTGGACTGTTCCGAAC AGCGGCGCCGTCGAGGGTAAGCGCCCGACGACGGTGACGTTCAACACTCCGAGGGATTCGTCATCTGACGACGGCAGTTA CCTCTCGCCGCAGTCTGTAGCGACGGAGCCGGTGGGATCGCCGGCGGCTTCTGCGTCTGCGCGGAACGCGCAGACGAAGC GGTGGGTTTGCAGCAGATGTGGGAATAAGAACAGGTTGAAGGAGAAGGAAGCGTGTTTGGTGTGTGATGCGAGGTACTGC TGCAACTGTGTGCTGAAGGCCATGGGGTCGATGCCGGAGGGGAGGAAATGCGTGAGCTGCATTGGGCAGGCCATTGATGA GTCGAAGAGATCGAGCTTGGGGAAGTGTTCGAGGATGCTGAGTAGGGTTTGTAGTCCATTGGAGATTAATCAGATCATGA AGGCTGAGAAGGAGTGTGCTGCTAATCAGCTGCGGCCGGAGCAGCTAATCGTCAATGGGCGCCAGTTGAGGCAGGAAGAG TTGGCTGAGATTCTGGGCTGCGCGATACCGCCTCAGAAGTTGAAGCCAGGGAGGTATTGGTATGATAAGGATTCTGGATA CTGGGGCAAGGAGGGAGAGAAGCCTGATAGGATAATAAGTTCAAAGCTAAATATTGGAGGGAAGCTTCAAACAGATGCAA GCAATGGAAATACTAGAGTCTACATGAATGGCCGTGAAATAACAAAGATTGAGCTTAGAATGTTAAAGCTTGCAAATGTT CAATGCCCGCGAGACACCCATTTCTGGGTTTATGATGATGGCTCTTATGAGGAAGAAGGCCAAAATAATATTAAAGGGAA CATATGGGGAAAGGCGTCCACTCGTTTGATTTGTTCATTATGCTCATTGCCTGTACCACCTACTAATCCTCCTGGGGTCA AAGATAATCTGACTAACTATTCAACAAGGTCTGTGCCTGAGTATTTAGAGCAAGGTAGAGTTCAGAAACTATTGTTGTTT GGTATGGAAGGATCTGGAACAGCCACTCTGTTTAAACAGGCCAAGTTTTTATATGGAAACAAGTTTTCTCCAGAAGAGTT GCAAAACATTAAACTCATGATTCAAAGCAATATGTACAAGTATCTCAGCATTCTGCTTGAAGGACGAGAGCAGTTTGAAG AGGAAGCTCTGGCAGAGAAAGAATGTGCCTCGTTAGAAGATGAAGAATCTGGACCTGAAAGAGCAGCTGAGGAAAACAAA CCAACCATTTACTCGATCAATCAAAGACTCAAGCATTTTTCTGACTGGTTGCTGGATATTATGGCTACGGGGGATTTGGA GGCTTTCTTCCCTGCTGCTACGCGTGAGTATGCTCCTATGGTAGAGGAGATCTGGAGAGATCCTGCTGTTCAGGAAACAT ACAAGAGAAGAGAGGAATTGCATAATCTTCCTGATGTCACTAAATATTTCTTAGATCGGGCAATGGAAATATCAAGCAAT GAGTATGAACCTTCGGATAAGGATGTATTATATGCTGAAGGAGTCGCTCAGAGCAATGGTCTTGCCTTCATGGAATTCTC ATTTGATGATAGGAGTCCCATGTCTGAGATATACAGCGGAAACATAAGTTCCCAAACTCCTTTAATCAAATATCAACTGA TTCGCATAAATTCAAAGGGACTGCGCGATGGCTGCAAGTGGTTGCAAATGTTTGAAGATGTGAGGATCGTCATATTTTGT GTTTCCTTAAGTGACTATGACCAAATGTGGCCAACTAGTACCGGTCAACTTCAAAACAAATTGCTGGCAAGTAGGGATCT TTTTGAGAGTCTGGTGAGGCATCCTTGTTTTCAAGATACCCCTTTTGTGCTTGTGCTAAATAAATATGATGCCTTTGAAG ACAAGATAAGCAAAGTTCCTTTGTCTACTTGTGAGTGGTTTGCGGACTTCTGTCCTGTGAGACCCCATCACAACAGTCAT GCCCTAGCACAACAAGCATATTACTATGTAGCTGTGAGATTCAAGGAACTTTATCATTCCTTGACCAGCCAGAAGTTGTT TGTGGGGCAAACTCGAGCTCGGGATCGCGCCTCAGTTGATGAGGCATTCAAGTACATAAGGGAGGTCATCAAATGGGAGG ATGAGAAGGATGATGATGTGTATGAAATCAATCTGGAAGAGTCATATTACAGTACAGAAATGAGTTCTTCCCCATTCGTC AGGCAGGAATGA
Protein sequence (LotjaGi2g1v0191500.5) extracted from Lotus japonicus Gifu v1.2 Proteins.
MASEPADEDNNTWEHVLRRMLPVGAPMPDEEQLDYSIAVEYEGPPVQYHIPRVDPLEVASTAAASSAPIRNSDHAAAAIP IAMPLHPRFSRFGIVRNGGYGREPRSPVESQRPSSVSPNQSQFESGNGGGDVDPDDFSGEPVADTASGGSSPARSWTVPN SGAVEGKRPTTVTFNTPRDSSSDDGSYLSPQSVATEPVGSPAASASARNAQTKRWVCSRCGNKNRLKEKEACLVCDARYC CNCVLKAMGSMPEGRKCVSCIGQAIDESKRSSLGKCSRMLSRVCSPLEINQIMKAEKECAANQLRPEQLIVNGRQLRQEE LAEILGCAIPPQKLKPGRYWYDKDSGYWGKEGEKPDRIISSKLNIGGKLQTDASNGNTRVYMNGREITKIELRMLKLANV QCPRDTHFWVYDDGSYEEEGQNNIKGNIWGKASTRLICSLCSLPVPPTNPPGVKDNLTNYSTRSVPEYLEQGRVQKLLLF GMEGSGTATLFKQAKFLYGNKFSPEELQNIKLMIQSNMYKYLSILLEGREQFEEEALAEKECASLEDEESGPERAAEENK PTIYSINQRLKHFSDWLLDIMATGDLEAFFPAATREYAPMVEEIWRDPAVQETYKRREELHNLPDVTKYFLDRAMEISSN EYEPSDKDVLYAEGVAQSNGLAFMEFSFDDRSPMSEIYSGNISSQTPLIKYQLIRINSKGLRDGCKWLQMFEDVRIVIFC VSLSDYDQMWPTSTGQLQNKLLASRDLFESLVRHPCFQDTPFVLVLNKYDAFEDKISKVPLSTCEWFADFCPVRPHHNSH ALAQQAYYYVAVRFKELYHSLTSQKLFVGQTRARDRASVDEAFKYIREVIKWEDEKDDDVYEINLEESYYSTEMSSSPFV RQE
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 | 11 | 876 | 866 | 0.0 | – | |
| PANTHER | 11 | 876 | 866 | 0.0 | ||
| MobiDBLite | 96 | 206 | 111 | - | – | |
| MobiDBLite | 108 | 127 | 20 | - | – | |
| MobiDBLite | 144 | 206 | 63 | - | – | |
| SMART | 459 | 860 | 402 | 9.1E-15 | ||
| Pfam | 473 | 850 | 378 | 5.6E-65 | ||
| ProSiteProfiles | 473 | 861 | 389 | 56.055 | – | |
| SUPERFAMILY | 474 | 854 | 381 | 9.62E-23 | ||
| CDD | 475 | 853 | 379 | 2.99403E-80 | ||
| PRINTS | 476 | 491 | 16 | 4.1E-5 | ||
| Gene3D | 476 | 837 | 362 | 2.6E-76 | – | |
| SUPERFAMILY | 502 | 652 | 151 | 8.63E-22 | ||
| Gene3D | 503 | 657 | 155 | 2.6E-76 | ||
| PRINTS | 714 | 742 | 29 | 4.1E-5 | ||
| PRINTS | 762 | 771 | 10 | 4.1E-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 | GTPase activity | Catalysis of the reaction: GTP + H2O = GDP + phosphate. | ||
| 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). | ||
| 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 LotjaGi2g1v0191500.5, 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…