Gene Details:
- Gene ID: AT4G16740
- Gene Symbol: ATTPS03, TPS03
- Gene Name: terpene synthase 03, terpene synthase 03
- Description: terpene synthase 03;(source:Araport11)
- TAIR Accession: locus:2129101
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0080027 — involved in — response to herbivore
- GO:0016106 — acts upstream of or within — sesquiterpenoid biosynthetic process
- GO:0052578 — enables — alpha-farnesene synthase activity
- GO:0050551 — enables — myrcene synthase activity
- GO:0009753 — involved in — response to jasmonic acid
- GO:0034768 — enables — (E)-beta-ocimene synthase activity
- GO:0009611 — acts upstream of or within — response to wounding
- GO:0009507 — located in — chloroplast
- GO:0000287 — enables — magnesium ion binding
- GO:0009625 — acts upstream of or within — response to insect
- GO:0010333 — enables — terpene synthase activity
- GO:0009570 — located in — chloroplast stroma
- GO:0009611 — involved in — response to wounding
- GO:0005829 — located in — cytosol
- GO:0016102 — involved in — diterpenoid biosynthetic process
- GO:0102701 — enables — tricyclene synthase activity
Literature:
- Terpenoid secondary metabolism in Arabidopsis thaliana: cDNA cloning, characterization, and functional expression of a myrcene/(E)-beta-ocimene synthase. DOI: 10.1006/abbi.1999.1669 ; PMID: 10700382
- Biosynthesis and emission of terpenoid volatiles from Arabidopsis flowers. DOI: 10.1105/tpc.007989 ; PMID: 12566586
- (E)-beta-ocimene and myrcene synthase genes of floral scent biosynthesis in snapdragon: function and expression of three terpene synthase genes of a new terpene synthase subfamily. DOI: 10.1105/tpc.011015 ; PMID: 12724546
- Genome organization in Arabidopsis thaliana: a survey for genes involved in isoprenoid and chlorophyll metabolism. DOI: 10.1023/a:1023005504702 ; PMID: 12777052
- Terpenoid metabolism in wild-type and transgenic Arabidopsis plants. DOI: 10.1105/tpc.016253 ; PMID: 14630967
- Large-scale identification of leaf senescence-associated genes. DOI: 10.1046/j.1365-313x.2003.01908.x ; PMID: 14617064
- Characterization of a root-specific Arabidopsis terpene synthase responsible for the formation of the volatile monoterpene 1,8-cineole. DOI: 10.1104/pp.104.044388 ; PMID: 15299125
- Two sesquiterpene synthases are responsible for the complex mixture of sesquiterpenes emitted from Arabidopsis flowers. DOI: 10.1111/j.1365-313X.2005.02417.x ; PMID: 15918888
- Expression profiling reveals COI1 to be a key regulator of genes involved in and methyl jasmonate-induced secondary metabolism, defence, and hormone interactions. DOI: 10.1007/s11103-005-7306-5 ; PMID: 16021335
- Microarray expression profiling and functional characterization of AtTPS genes: duplicated Arabidopsis thaliana sesquiterpene synthase genes At4g13280 and At4g13300 encode root-specific and wound-inducible (Z)-gamma-bisabolene synthases. DOI: 10.1016/j.abb.2005.09.019 ; PMID: 16297850
- Genome-wide transcriptional analysis of the Arabidopsis thaliana interaction with the plant pathogen Pseudomonas syringae pv. tomato DC3000 and the human pathogen Escherichia coli O157:H7. DOI: 10.1111/j.1365-313X.2006.02725.x ; PMID: 16553894
- The Arabidopsis E3 SUMO ligase SIZ1 regulates plant growth and drought responses. DOI: 10.1105/tpc.106.049981 ; PMID: 17905899
- Identification and regulation of TPS04/GES, an Arabidopsis geranyllinalool synthase catalyzing the first step in the formation of the insect-induced volatile C16-homoterpene TMTT. DOI: 10.1105/tpc.106.049478 ; PMID: 18398052
- Rhizobacterial colonization of roots modulates plant volatile emission and enhances the attraction of a parasitoid wasp to host-infested plants. DOI: 10.1007/s00442-015-3277-7 ; PMID: 25783487
- Terpenoid secondary metabolism in Arabidopsis thaliana: cDNA cloning, characterization, and functional expression of a myrcene/(E)-beta-ocimene synthase. DOI: 10.1006/abbi.1999.1669 ; PMID: 10700382
Sequences:
cDNA Sequence
- >AT4G16740.2
AAATCAGTATAAAATATCATAGCGGAGTCTAAAGAAGAGTTCATCCAATTATTTAACTCTTTAGTGTAATCATTAGCAACGCAAAGAAATGCCTAAACGACAGGCTCAACGGCGTTTCACTCGCAAGACTGACTCGAAAACACCATCCCAGCCTCTGGTATCCCGTCGCTCTGCAAACTATCAACCGTCTCTTTGGCAGCACGAATATCTCCTCTCGCTCGGTAATACATATGTGAAAGAGGACAACGTCGAGAGAGTTACGTTATTGAAGCAGGAAGTGAGTAAAATGCTCAATGAAACGGAAGGTTTACTCGAACAGCTAGAGCTCATCGACACTTTACAAAGGCTTGGAGTTTCTTACCATTTTGAACAAGAAATCAAGAAGACACTAACGAATGTGCATGTTAAAAATGTGCGAGCACACAAAAACCGGATAGATCGAAACCGATGGGGAGATTTATACGCGACCGCCCTTGAGTTCCGACTCCTAAGGCAACATGGTTTCAGTATCGCACAAGATGTTTTTGACGGAAATATTGGAGTTGATTTGGATGATAAAGACATCAAGGGTATTCTTTCACTATACGAAGCTTCATATCTCTCGACCAGAATCGATACTAAATTGAAAGAGAGCATATACTATACAACAAAACGACTTAGAAAATTTGTGGAGGTAAATAAGAATGAGACCAAATCTTACACTCTTCGAAGGATGGTTATACATGCGTTAGAGATGCCGTACCACCGGAGAGTGGGAAGACTAGAAGCAAGATGGTACATAGAAGTGTACGGAGAGAGACACGACATGAACCCTATCTTGCTTGAACTCGCGAAACTTGATTTTAATTTCGTACAAGCTATCCATCAAGACGAGCTCAAATCCCTCTCTAGTTGGTGGAGCAAGACGGGATTAACAAAACACCTCGATTTCGTTAGAGATCGAATAACGGAGGGTTATTTCTCGAGTGTTGGAGTAATGTATGAGCCCGAGTTTGCATATCACCGACAAATGCTTACAAAGGTTTTCATGCTCATTACAACTATCGACGATATATACGATATTTATGGGACACTTGAGGAGCTCCAACTATTCACGACCATAGTTGAAAAATGGGATGTGAATCGTCTTGAAGAACTTCCCAACTACATGAAGTTATGTTTTCTCTGCCTCGTCAACGAAATCAATCAGATTGGATATTTTGTACTCAGAGATAAAGGGTTTAATGTGATTCCTTACCTCAAAGAATCTGTACGTATTCTCATCATTTTATCTATGTAACAATAGATTTTGAAATATTAATTTGTTGGTTCATTC - >AT4G16740.3
AAATCAGTATAAAATATCATAGCGGAGTCTAAAGAAGAGTTCATCCAATTATTTAACTCTTTAGTGTAATCATTAGCAACGCAAAGAAATGCCTAAACGACAGGCTCAACGGCGTTTCACTCGCAAGACTGACTCGAAAACACCATCCCAGCCTCTGGTATCCCGTCGCTCTGCAAACTATCAACCGTCTCTTTGGCAGCACGAATATCTCCTCTCGCTCGGTAATACATATGTGAAAGAGGACAACGTCGAGAGAGTTACGTTATTGAAGCAGGAAGTGAGTAAAATGCTCAATGAAACGGAAGGTTTACTCGAACAGCTAGAGCTCATCGACACTTTACAAAGGCTTGGAGTTTCTTACCATTTTGAACAAGAAATCAAGAAGACACTAACGAATGTGCATGTTAAAAATGTGCGAGCACACAAAAACCGGATAGATCGAAACCGATGGGGAGATTTATACGCGACCGCCCTTGAGTTCCGACTCCTAAGGCAACATGGTTTCAGTATCGCACAAGATGTTTTTGACGGAAATATTGGAGTTGATTTGGATGATAAAGACATCAAGGGTATTCTTTCACTATACGAAGCTTCATATCTCTCGACCAGAATCGATACTAAATTGAAAGAGAGCATATACTATACAACAAAACGACTTAGAAAATTTGTGGAGGTAAATAAGAATGAGACCAAATCTTACACTCTTCGAAGGATGGTTATACATGCGTTAGAGATGCCGTACCACCGGAGAGTGGGAAGACTAGAAGCAAGATGGTACATAGAAGTGTACGGAGAGAGACACGACATGAACCCTATCTTGCTTGAACTCGCGAAACTTGATTTTAATTTCGTACAAGCTATCCATCAAGACGAGCTCAAATCCCTCTCTAGTTGGTGGAGCAAGACGGGATTAACAAAACACCTCGATTTCGTTAGAGATCGAATAACGGAGGGTTATTTCTCGAGTGTTGGAGTAATGTATGAGCCCGAGTTTGCATATCACCGACAAATGCTTACAAAGGTTTTCATGCTCATTACAACTATCGACGATATATACGATATTTATGGGACACTTGAGGAGCTCCAACTATTCACGACCATAGTTGAAAAATGGGATGTGAATCGTCTTGAAGAACTTCCCAACTACATGAAGTTATGTTTTCTCTGCCTCGTCAACGAAATCAATCAGATTGGATATTTTGTACTCAGAGATAAAGGGTTTAATGTGATTCCTTACCTCAAAGAATCTGTACGTATTCTCATCATTTTATCTATGTAACAATAGATTTTGAAATATTAATTTGTTGGTTCATTC - >AT4G16740.4
AAATCAGTATAAAATATCATAGCGGAGTCTAAAGAAGAGTTCATCCAATTATTTAACTCTTTAGTGTAATCATTAGCAACGCAAAGAAATGCCTAAACGACAGGCTCAACGGCGTTTCACTCGCAAGACTGACTCGAAAACACCATCCCAGCCTCTGGTATCCCGTCGCTCTGCAAACTATCAACCGTCTCTTTGGCAGCACGAATATCTCCTCTCGCTCGGTAATACATATGTGAAAGAGGACAACGTCGAGAGAGTTACGTTATTGAAGCAGGAAGTGAGTAAAATGCTCAATGAAACGGAAGGTTTACTCGAACAGCTAGAGCTCATCGACACTTTACAAAGGCTTGGAGTTTCTTACCATTTTGAACAAGAAATCAAGAAGACACTAACGAATGTGCATGTTAAAAATGTGCGAGCACACAAAAACCGGATAGATCGAAACCGATGGGGAGATTTATACGCGACCGCCCTTGAGTTCCGACTCCTAAGGCAACATGGTTTCAGTATCGCACAAGATGTTTTTGACGGAAATATTGGAGTTGATTTGGATGATAAAGACATCAAGGGTATTCTTTCACTATACGAAGCTTCATATCTCTCGACCAGAATCGATACTAAATTGAAAGAGAGCATATACTATACAACAAAACGACTTAGAAAATTTGTGGAGGTAAATAAGAATGAGACCAAATCTTACACTCTTCGAAGGATGGTTATACATGCGTTAGAGATGCCGTACCACCGGAGAGTGGGAAGACTAGAAGCAAGATGGTACATAGAAGTGTACGGAGAGAGACACGACATGAACCCTATCTTGCTTGAACTCGCGAAACTTGATTTTAATTTCGTACAAGCTATCCATCAAGACGAGCTCAAATCCCTCTCTAGTTGGTGGAGCAAGACGGGATTAACAAAACACCTCGATTTCGTTAGAGATCGAATAACGGAGGGTTATTTCTCGAGTGTTGGAGTAATGTATGAGCCCGAGTTTGCATATCACCGACAAATGCTTACAAAGGTTTTCATGCTCATTACAACTATCGACGATATATACGATATTTATGGGACACTTGAGGAGCTCCAACTATTCACGACCATAGTTGAAAAATGGGATGTGAATCGTCTTGAAGAACTTCCCAACTACATGAAGTTATGTTTTCTCTGCCTCGTCAACGAAATCAATCAGATTGGATATTTTGTACTCAGAGATAAAGGGTTTAATGTGATTCCTTACCTCAAAGAATCTGTACGTATTCTCATCATTTTATCTATGTAACAATAGATTTTGAAATATTAATTTGTTGGTTCATTC - >AT4G16740.1
AAATCAGTATAAAATATCATAGCGGAGTCTAAAGAAGAGTTCATCCAATTATTTAACTCTTTAGTGTAATCATTAGCAACGCAAAGAAATGCCTAAACGACAGGCTCAACGGCGTTTCACTCGCAAGACTGACTCGAAAACACCATCCCAGCCTCTGGTATCCCGTCGCTCTGCAAACTATCAACCGTCTCTTTGGCAGCACGAATATCTCCTCTCGCTCGGTAATACATATGTGAAAGAGGACAACGTCGAGAGAGTTACGTTATTGAAGCAGGAAGTGAGTAAAATGCTCAATGAAACGGAAGGTTTACTCGAACAGCTAGAGCTCATCGACACTTTACAAAGGCTTGGAGTTTCTTACCATTTTGAACAAGAAATCAAGAAGACACTAACGAATGTGCATGTTAAAAATGTGCGAGCACACAAAAACCGGATAGATCGAAACCGATGGGGAGATTTATACGCGACCGCCCTTGAGTTCCGACTCCTAAGGCAACATGGTTTCAGTATCGCACAAGATGTTTTTGACGGAAATATTGGAGTTGATTTGGATGATAAAGACATCAAGGGTATTCTTTCACTATACGAAGCTTCATATCTCTCGACCAGAATCGATACTAAATTGAAAGAGAGCATATACTATACAACAAAACGACTTAGAAAATTTGTGGAGGTAAATAAGAATGAGACCAAATCTTACACTCTTCGAAGGATGGTTATACATGCGTTAGAGATGCCGTACCACCGGAGAGTGGGAAGACTAGAAGCAAGATGGTACATAGAAGTGTACGGAGAGAGACACGACATGAACCCTATCTTGCTTGAACTCGCGAAACTTGATTTTAATTTCGTACAAGCTATCCATCAAGACGAGCTCAAATCCCTCTCTAGTTGGTGGAGCAAGACGGGATTAACAAAACACCTCGATTTCGTTAGAGATCGAATAACGGAGGGTTATTTCTCGAGTGTTGGAGTAATGTATGAGCCCGAGTTTGCATATCACCGACAAATGCTTACAAAGGTTTTCATGCTCATTACAACTATCGACGATATATACGATATTTATGGGACACTTGAGGAGCTCCAACTATTCACGACCATAGTTGAAAAATGGGATGTGAATCGTCTTGAAGAACTTCCCAACTACATGAAGTTATGTTTTCTCTGCCTCGTCAACGAAATCAATCAGATTGGATATTTTGTACTCAGAGATAAAGGGTTTAATGTGATTCCTTACCTCAAAGAATCTGTACGTATTCTCATCATTTTATCTATGTAACAATAGATTTTGAAATATTAATTTGTTGGTTCATTC
CDS Sequence
Protein Sequence