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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0054100 |
Transcript ID | LotjaGi3g1v0054100.2 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Ethylene receptor; TAIR: AT1G66340.1 Signal transduction histidine kinase, hybrid-type, ethylene sensor; Swiss-Prot: sp|O81122|ETR1_MALDO Ethylene receptor; TrEMBL-Plants: tr|I1LVH5|I1LVH5_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0054100 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:5632920..5639127) extracted from Lotus japonicus Gifu genome v1.2.
GCGGGAGCTATTTTCTTCTTTTAAGGGTGAACTTGTCCTCGCCCAATATTTTCAACTACCAATTTAACCTGGAAATTAAG GAAAATGTATTAAAAGGAGAAATAGAAAAAAGGAAAAAGGTGGGGGAGATAAGAATAATGTGAATGTGAAATAGATTAGG GGCTTGATTTGACTATGTGGGACTGTGTTAGTTCAAGAGATTGGTCTCCATCATTTTCGGGCTCCGACACAACATAGCAC AGATACAATGAACTGAACTTATTGACCGCCATAACAAGAATAGAATATCAAATTAAAAATACTAATATTTTGCAACTTGC TACTTCAGCTATATTCATTTATTTTTCCTTTCTGCTATTACCGTCTTCACCAGCTAGCTATTTCGTTCTATGTAAGTTTC ATAGATCATTGTTGGCTATTTTATTCTGAATTTCATTTATGCTTTCCACCTCCTCCTTCTTGCAAATTGCTCCTATTGGT TTAATGTTCCCGATGCGTTATTTATTTATTATTTTCTTTGTTAAACAACTGTTCACAAATTAGCTTTAATTTTCTTGAGC TGGTAAATGCTCAAGGGAGCTGAATTTCAGGTACCCTTTGGCTGAATCTAAACAATTTTCTAAGGGATGGTGCCTTCAGG GTGCATAGTGTCATTCATGTTTGTGAGGTTTGGTTGCTATAGAGTTTAGAGGTTGAAGAACATTGAAAATGATGTGTGCA ATTTAAAAGATAAAGGATGAGATCATAAGATTGAGAGAAAGTGGAGAGTTAGATGACTTTTGAGGTGGGTTTCTGCAATT CTGCCTGAATGAATAGCATTTAAGGGGATTCTTATGGAATAATTATCTGTTTGTTGTTCTTAATAGACACTAGGTGTGTG TGTGTGTACTTCTTCCTCCACCTTGGAGCATTTTCTTATGATGCTTTTTCAAGGTTTTGTTTGGTGAGGATTAAAGGGTA AGTTTTTTTATGGCTGTAGTTCTCTGGGGGGGGGGGAATTGGATGCAGAGAGATACCATATTCTAAAGGCTGCATCTTTG CCTTTACATTCATCATGGGATAAGATTGTTTTCCCTGCTTTACAGTCATGGAGGTTGAAATTATGTGGCAGTGTATTTGG TGGTTGGTGAGGAATGACTGCATCTTTATGCCCCCCAATGTTTTGTTTAGGAAGAGGATTGCCTTATGGCCTTTATCCAG GGGCTGATGTTCAGCTTTGTTGAATTTTTAATTTTTTTTTAATGATATTATATATCCCCTAGTTTTACTTTCTCTTCTCT CATGGAATTTTATCTTTTGGATGAGAAAGATTGGAAATTTTTTACACTGTACCACCAGCAGTACTCATTGCATTTTGCTC CCATCATTTAGTATGGATGGCAAACATTTTGCTTCATCATTATAGTTTGACCTTATTTTCCAGCACTATCTTATATTTCT TTAAGTTTTCATCGTTTATCTGTTTAGAAATATATAGCTTGAAGCTATCAAGTTGAATTGAATGACACAATGTTCTGATA TTAATATTCACTTCATAGTTGTCTTCATTTAAGTGTTATTGTCGTTTTGTTTTGTTTCATCCCCATGTATCTAATGCTGG AATTTCCCATCTTTAAATGTAGATATGTGAAAAGGGAAGAATTTGCTGAGCGCGGGTTCATTCACTATGGAATCCTGCAA TTGTATTGATCCGCAATGGCCAGCTGATGAATTGTTGATGAGATACCAGTATATCTCAGATTTCTTCATTGCCCTTGCTT ATTTCTCGATCCCTCTCGAGCTTATCTACTTTGTTAAGAAATCAGCAGTGTTTCCATATAGATGGGTCCTTGTTCAGTTT GGTGCTTTCATAGTTTTATGTGGAGCAACACATCTAATTAATTTGTGGACCTTCACAATCCATTCAAGAACTGTGGCAGT TGTAATGACCATTGCTAAAATTTTAACCGCTGTGGTGTCATGTGCCACCGCCCTTATGCTTGTACATATTATTCCTGATT TATTAAGTGCTAAGACTAGAGAAATGTTTTTGAAGAACAAGGCTGCTGAGCTTGATAGAGAAGTTGGCCTGATTCGGACG CAGGAAGAAACTGGTCGACATGTTAGGATGTTGACTCATGAGATTAGAAGCACACTTGACAGACACACAATACTGAAAAC GACTCTTGTTGAACTGGGTAGAACTTTAGGACTGGAGGAGTGTGCCTTATGGATGCCGACACGTACGGGGTTGGAGCTTC AACTGTCATACACGTTGCGGCAGCAGAATCCAGTTGGATATACAGTACCCATTCATCATCCTGTGATCAACCAAGTATTT AGCAGCAACCGTGCGGTAATAATTTCACCTAATTGTCCTGTTGCCAGATTGCGACCTCACACTGGAAAATACATAGCTGG GTCAGTAGTAGCTGTTCGGGTTCCTCTCCTACATCTTTCTAATTTCCAAATATATGATTGGCCTGAGGTTTCAACTAGAA ACTATGCACTGATGGTATTGATGATTCCATCAGATAGTGCCAGGCAATGGCACGTGCATGAGTTAGAGCTGGTTGAGGTA GTTGCTGATCAGGTTAGCAATTTGCCATTTCTGTTCAATTGCCTTTCTAGCATTAGTCTTTAATATCATTTTCTTTATCT TTATTAACCCAGCTGTTTGACATGGAATCATGGATACGTTTGTCATTCATTACTTTTCATTCTGATGGTTTATCTTTACT GTTTGTTTCTTGCAAATATGGACACAATCATTAAGAATTGAATTTTACTATTTGTATTTAGTTTAACCAACATACACTTT TGTGAATTAACTTCCTCAGGGGAAATTGTAAGTTGTGTTTGTTTTCTAAATTCATGTCAATGTGTAGTTGTGTACTATCT TTCCATGATTAATCTTTATTAATGATAATCAAGGTAAACAGGAGAAAATCTGTCTTAATAACTATCCTGATATTACAGCA GTATATACAAGAGAATAGAATCTTATATTCGTCCTGAAATAAGATATGTTGTAGGAACCATCAGTTAGCGAACTTCATTA GTTTATCACTAGAATATACCTTCAAATCACTTATTAAAATTGTCTCTTATACCAGGTAGCCGTTGCTCTTTCGCATGCTG CAATCTTAGAAGAATCAATGAGGGCAAGGGATCTGCTAATGGAGCAGAATATTGCACTTGATCTGGCAAGAAGAGAAGCA GAAACTGCAATTCGGGCTCGCAATGATTTTTTGGCTGTTATGAATCACGAGATGAGAACTCCCATGCATGCAATTATTGC ACTATCTTCATTGTTACAGGAAACAGAGCTGACTTCTGAGCAGCGACTGATGGTGGAGACAATATTGAAAAGCAGCAATT TATTGGCTACTTTGATAAATGATGTTTTGGATCTTTCACGGCTTGAAGATGGCAGTTTTCAACTTGAAGCAGCAACATTT AATCTCCATTCATTGTTTAGAGAGGTGAAATTTTCATTGTAAATTCTAAAATTCAGTTATATTAGTCTGACTTGTCGAGG TGATCTTGAGTTCTTTAGAAACTTGATGTTGCCATCTCTGTTTACAGCTCTGTTTTTATTCTGATTGCAGGTCCTTAACC TGATTAAGCCTGTTGCATCTGTTAAAAAGTTGTCACTCACTTTACATTTAGCATCAGATTTGCCAGTGTATACCATTGGT GATGAAAAGCGTCTGATGCAAACTATGCTGAATGTTGTTGGTAATGCCGTGAAATTCTCAAAAGAGGGCAGCATTTCCAT CACTGCTTTTGTTGCAAAGCCAGAATCCTTCAGGGATATCCGAACTCCTGACTTCCTACCAGTGCCAAGTGATGGCTACT TTTATTTGCGAGTACAGGTTTGTTTCTTGAAGTTTAATCAATACTCTCATGTCTTGGGTTGAACCGTTGAAATATCATCT GTTATCTAACTTCAATGCTGGACTACAATTTTTCCACATTATAGGTAAAAGATTCAGGATCAGGAATTAATCCACAAGAT ATCCCAACGTTATTCACTAAGTTTGCACAAAACCAATCACCAGCAGCAAAAAGTTCTGCTGGAAATGGACTTGGCCTTGC AATTAGTAAGAGGTACTATTCTTGTATGTTTACCAGCTTAAACTAGGGTGTGAAACATAATATTTTTTCTCTATTCCTTG GGATCTTTCCAACATAATTGGAATGAAGCTCTTGAAATTCCTGTCTAAGATTTTTATGTTGATTTTTTCTTTCAAATTGT GAGCAGGTTTGTAAATCTCATGGAAGGGGATATTTGGATTGAAAGCGAAGGTATTGGTAAAGGATGTACAGTTACCTTTG TCGTAAAACTTGGGATTCCAGACCGATCAAATGAATTTAAACTACCATTTGCACCTAAAGTTCCAGTAAACCATGGATCT GCAAACTTTGCAGGGCTCAAAGTACTTGTCATGGATGATAATGGGTAAGTGACATAGCTTTATTTCTGTTTCTTCAGTTC TGAAATTTGTTACTATATCACTTATCAATTAGTTAAGTAAAAGTAAAACCATTAGAATTCTGGTGATTTCATTGAAAAGT AAACTTAGTTTGATTTCTTATGTTAAACCCTACTTCTCAGGTCCCAATTATGTTCTTGAGTGCATGATACTGCTGAATGC TGATTCCAAAGTAAATAGGTCTAAACATCAAGGTTTATATTGTTAAACTTATAATTTACAGTCTCTAAAAGTGTAGGTTC CGGACTTTAGAACATCCTATCAATGTTAGAGAACTTTAATGTAGATATTGCATGTATTCTTCATAAAAAAAATTCGTATC CATTTCATGTTTAGTTTTATTTAGTTAGACCAGATATTAGGTGGGGTTTTTCTTCGGAAAGACGTATGTCCATGCTCAGA TTTCTAACGTTGCACCTTTTTGCTAGCCTGATATGGTCCTTCTTTGTAGCTGTTTTTATGTTGCAAAATTGAGTAGTTGA ATTTCACACATCTATGGCAATAGTTGTATGACATGCCCTACGTAGATGTTTAAAACACATCCTTTTAGTTGTACATTTCA TTAAGATGTATGGATATACTGCAAGACTGGAAACTTAACAATCCAAATGTCCAGTCACGGGGAGGGGGTTGTTGAGATCC TGCAATGATTGGGTATATGGATGAAATGCCCACAACGATTTCTTAGGAAATCGTCCCCTTTTATAGCTTTTAAGGTTGAG TTACACTCAAGTTTAGTATCAACAAATAAAAAAGGAAGAAATTATTATGACTACATGGTTTAAGAAGTTTTGGTAACATA TCAAAGAAACATTCTCCTAAAAGTTTAATCTTTTAGGTAGAGGGCCATGAATAATTTTATATCCAACAATTTACATTCTC TCACTTCATTGCCAGAAAAGAAAATATCCTCAATTGTTCAGTCTTCATCTAGCCATTCACCTTCTACTTGCAATCTGAGG AGCTCAGAAGCCAGAATTGCATATTGGCTGAAGGAATCAAAACAAGTAATTGAAGTGAACTGTATTGTATGATTGTATGA TAACTGATGATGAAACTTGTAATGCAGGGTTAGCAGGACAGCAACAAAGGGACTTCTTGTGCATTTAGGATGTGATGTCA CCTCTGTAAGCTCAAGCGAGGAATGCCTGCGTGCTGTTCCTGCAGAACACAAAGTGATCTTCATGGATGTTAGTACAGGG TTAGATGGTTATGAACTAGTGGTACGAGTAAAAGAGAGGTTTCCGAAACGCCAAGATAGACCACTAATAGTTGCTCTTAC GGGAAACACCAGCAAGGTGACAAAAGAGAACTGTATGAGAGTTGGTATGGATGGCCTTATATTGAAACCTGTTTCTGTTG ACAAAATGAGGGGTGTTTTATCAGAACTCTTGGAGCGGGGAGTTCTATTTGAAACTGTTTAAACTGCCAGAATTGGTTCT TCATGTAGGAAATGTTTTCTGTTGTACATAGTAAAATCAAATTTGCAGAAATACAAATTTATGAAACAGCGAGGCACTTG ACATGAATTGTCATCCTTGTTGCCATTGTGGGAACTTAGGGGAAAATAATAGTGGCTGAGTCTGGATTGTTATATCCATT TTTGTGAATAAAAGATTATTTATGTTTATATTCTGCATTTTGATATCATTTCAGGCGTTTTTTTTTTATGTTTTCAGTGA TTGAGATTTCATTTTAATTATCCCGAATTGTTTAATGCTATGTTTGAG
CDS sequence (LotjaGi3g1v0054100.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAATCCTGCAATTGTATTGATCCGCAATGGCCAGCTGATGAATTGTTGATGAGATACCAGTATATCTCAGATTTCTT CATTGCCCTTGCTTATTTCTCGATCCCTCTCGAGCTTATCTACTTTGTTAAGAAATCAGCAGTGTTTCCATATAGATGGG TCCTTGTTCAGTTTGGTGCTTTCATAGTTTTATGTGGAGCAACACATCTAATTAATTTGTGGACCTTCACAATCCATTCA AGAACTGTGGCAGTTGTAATGACCATTGCTAAAATTTTAACCGCTGTGGTGTCATGTGCCACCGCCCTTATGCTTGTACA TATTATTCCTGATTTATTAAGTGCTAAGACTAGAGAAATGTTTTTGAAGAACAAGGCTGCTGAGCTTGATAGAGAAGTTG GCCTGATTCGGACGCAGGAAGAAACTGGTCGACATGTTAGGATGTTGACTCATGAGATTAGAAGCACACTTGACAGACAC ACAATACTGAAAACGACTCTTGTTGAACTGGGTAGAACTTTAGGACTGGAGGAGTGTGCCTTATGGATGCCGACACGTAC GGGGTTGGAGCTTCAACTGTCATACACGTTGCGGCAGCAGAATCCAGTTGGATATACAGTACCCATTCATCATCCTGTGA TCAACCAAGTATTTAGCAGCAACCGTGCGGTAATAATTTCACCTAATTGTCCTGTTGCCAGATTGCGACCTCACACTGGA AAATACATAGCTGGGTCAGTAGTAGCTGTTCGGGTTCCTCTCCTACATCTTTCTAATTTCCAAATATATGATTGGCCTGA GGTTTCAACTAGAAACTATGCACTGATGGTATTGATGATTCCATCAGATAGTGCCAGGCAATGGCACGTGCATGAGTTAG AGCTGGTTGAGGTAGTTGCTGATCAGGTAGCCGTTGCTCTTTCGCATGCTGCAATCTTAGAAGAATCAATGAGGGCAAGG GATCTGCTAATGGAGCAGAATATTGCACTTGATCTGGCAAGAAGAGAAGCAGAAACTGCAATTCGGGCTCGCAATGATTT TTTGGCTGTTATGAATCACGAGATGAGAACTCCCATGCATGCAATTATTGCACTATCTTCATTGTTACAGGAAACAGAGC TGACTTCTGAGCAGCGACTGATGGTGGAGACAATATTGAAAAGCAGCAATTTATTGGCTACTTTGATAAATGATGTTTTG GATCTTTCACGGCTTGAAGATGGCAGTTTTCAACTTGAAGCAGCAACATTTAATCTCCATTCATTGTTTAGAGAGGTCCT TAACCTGATTAAGCCTGTTGCATCTGTTAAAAAGTTGTCACTCACTTTACATTTAGCATCAGATTTGCCAGTGTATACCA TTGGTGATGAAAAGCGTCTGATGCAAACTATGCTGAATGTTGTTGGTAATGCCGTGAAATTCTCAAAAGAGGGCAGCATT TCCATCACTGCTTTTGTTGCAAAGCCAGAATCCTTCAGGGATATCCGAACTCCTGACTTCCTACCAGTGCCAAGTGATGG CTACTTTTATTTGCGAGTACAGGTAAAAGATTCAGGATCAGGAATTAATCCACAAGATATCCCAACGTTATTCACTAAGT TTGCACAAAACCAATCACCAGCAGCAAAAAGTTCTGCTGGAAATGGACTTGGCCTTGCAATTAGTAAGAGGTTTGTAAAT CTCATGGAAGGGGATATTTGGATTGAAAGCGAAGGTATTGGTAAAGGATGTACAGTTACCTTTGTCGTAAAACTTGGGAT TCCAGACCGATCAAATGAATTTAAACTACCATTTGCACCTAAAGTTCCAGTAAACCATGGATCTGCAAACTTTGCAGGGC TCAAAGTACTTGTCATGGATGATAATGGGGTTAGCAGGACAGCAACAAAGGGACTTCTTGTGCATTTAGGATGTGATGTC ACCTCTGTAAGCTCAAGCGAGGAATGCCTGCGTGCTGTTCCTGCAGAACACAAAGTGATCTTCATGGATGTTAGTACAGG GTTAGATGGTTATGAACTAGTGGTACGAGTAAAAGAGAGGTTTCCGAAACGCCAAGATAGACCACTAATAGTTGCTCTTA CGGGAAACACCAGCAAGGTGACAAAAGAGAACTGTATGAGAGTTGGTATGGATGGCCTTATATTGAAACCTGTTTCTGTT GACAAAATGAGGGGTGTTTTATCAGAACTCTTGGAGCGGGGAGTTCTATTTGAAACTGTTTAA
Protein sequence (LotjaGi3g1v0054100.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MESCNCIDPQWPADELLMRYQYISDFFIALAYFSIPLELIYFVKKSAVFPYRWVLVQFGAFIVLCGATHLINLWTFTIHS RTVAVVMTIAKILTAVVSCATALMLVHIIPDLLSAKTREMFLKNKAAELDREVGLIRTQEETGRHVRMLTHEIRSTLDRH TILKTTLVELGRTLGLEECALWMPTRTGLELQLSYTLRQQNPVGYTVPIHHPVINQVFSSNRAVIISPNCPVARLRPHTG KYIAGSVVAVRVPLLHLSNFQIYDWPEVSTRNYALMVLMIPSDSARQWHVHELELVEVVADQVAVALSHAAILEESMRAR DLLMEQNIALDLARREAETAIRARNDFLAVMNHEMRTPMHAIIALSSLLQETELTSEQRLMVETILKSSNLLATLINDVL DLSRLEDGSFQLEAATFNLHSLFREVLNLIKPVASVKKLSLTLHLASDLPVYTIGDEKRLMQTMLNVVGNAVKFSKEGSI SITAFVAKPESFRDIRTPDFLPVPSDGYFYLRVQVKDSGSGINPQDIPTLFTKFAQNQSPAAKSSAGNGLGLAISKRFVN LMEGDIWIESEGIGKGCTVTFVVKLGIPDRSNEFKLPFAPKVPVNHGSANFAGLKVLVMDDNGVSRTATKGLLVHLGCDV TSVSSSEECLRAVPAEHKVIFMDVSTGLDGYELVVRVKERFPKRQDRPLIVALTGNTSKVTKENCMRVGMDGLILKPVSV DKMRGVLSELLERGVLFETV
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 |
---|---|---|---|---|---|---|
Phobius | 1 | 19 | 19 | - | – | |
PIRSF | 1 | 738 | 738 | 5.9E-287 | ||
PANTHER | 3 | 737 | 735 | 0.0 | – | |
PANTHER | 3 | 737 | 735 | 0.0 | – | |
Phobius | 20 | 41 | 22 | - | – | |
TMHMM | 26 | 43 | 18 | - | – | |
Phobius | 42 | 52 | 11 | - | – | |
Phobius | 53 | 71 | 19 | - | – | |
TMHMM | 53 | 75 | 23 | - | – | |
Phobius | 72 | 82 | 11 | - | – | |
TMHMM | 82 | 104 | 23 | - | – | |
Phobius | 83 | 109 | 27 | - | – | |
Phobius | 110 | 740 | 631 | - | – | |
Gene3D | 139 | 310 | 172 | 1.8E-13 | ||
Pfam | 158 | 307 | 150 | 2.1E-15 | ||
SMART | 158 | 317 | 160 | 1.4E-17 | ||
SUPERFAMILY | 158 | 319 | 162 | 3.71E-14 | – | |
Gene3D | 311 | 407 | 97 | 7.9E-25 | – | |
SUPERFAMILY | 329 | 409 | 81 | 5.1E-18 | ||
CDD | 341 | 404 | 64 | 1.1709E-15 | ||
SMART | 343 | 408 | 66 | 1.0E-20 | ||
Pfam | 344 | 408 | 65 | 4.5E-16 | ||
ProSiteProfiles | 350 | 587 | 238 | 44.265 | ||
SUPERFAMILY | 397 | 585 | 189 | 6.94E-35 | ||
Gene3D | 408 | 592 | 185 | 8.9E-44 | ||
Pfam | 455 | 585 | 131 | 1.9E-28 | ||
SMART | 455 | 587 | 133 | 3.1E-30 | ||
CDD | 460 | 585 | 126 | 1.25098E-32 | – | |
PRINTS | 511 | 525 | 15 | 3.7E-7 | ||
PRINTS | 546 | 564 | 19 | 3.7E-7 | ||
Gene3D | 608 | 739 | 132 | 1.6E-24 | – | |
SUPERFAMILY | 610 | 732 | 123 | 8.54E-23 | ||
SMART | 614 | 727 | 114 | 2.9E-17 | ||
ProSiteProfiles | 615 | 731 | 117 | 28.288 | ||
Pfam | 616 | 724 | 109 | 5.1E-12 | ||
CDD | 617 | 731 | 115 | 3.05179E-16 |
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 | Phosphorelay sensor kinase activity | Catalysis of the phosphorylation of a histidine residue in response to detection of an extracellular signal such as a chemical ligand or change in environment, to initiate a change in cell state or activity. The two-component sensor is a histidine kinase that autophosphorylates a histidine residue in its active site. The phosphate is then transferred to an aspartate residue in a downstream response regulator, to trigger a response. | ||
Biological process | Phosphorelay signal transduction system | A conserved series of molecular signals found in prokaryotes and eukaryotes; involves autophosphorylation of a histidine kinase and the transfer of the phosphate group to an aspartate that then acts as a phospho-donor to response regulator proteins. | ||
Molecular function | Protein kinase activity | Catalysis of the phosphorylation of an amino acid residue in a protein, usually according to the reaction: a protein + ATP = a phosphoprotein + ADP. | ||
Molecular function | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
Cellular component | Endoplasmic reticulum membrane | The lipid bilayer surrounding the endoplasmic reticulum. | ||
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 | Response to ethylene | Any process that results in a change in state or activity of a cell or an organism (in terms of movement, secretion, enzyme production, gene expression, etc.) as a result of an ethylene (ethene) stimulus. | ||
Biological process | Phosphorylation | The process of introducing a phosphate group into a molecule, usually with the formation of a phosphoric ester, a phosphoric anhydride or a phosphoric amide. | ||
Molecular function | Transferase activity, transferring phosphorus-containing groups | Catalysis of the transfer of a phosphorus-containing group from one compound (donor) to another (acceptor). | ||
Molecular function | Ethylene receptor activity | Combining with ethylene and transmitting the signal in the cell to initiate a change in cell activity. | ||
Molecular function | Ethylene binding | Interacting selectively and non-covalently with ethylene (C2-H4, ethene), a simple hydrocarbon gas that can function in plants as a growth regulator. |
Expression pattern of LotjaGi3g1v0054100.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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