Gene Details:
- Gene ID: AT5G10240
- Gene Symbol: ASN3
- Gene Name: asparagine synthetase 3
- Description: asparagine synthetase 3;(source:Araport11)
- TAIR Accession: locus:2145377
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
- PO:0000084 — plant sperm cell — célula espermática o esperma (Spanish, exact), male gamete (exact), microgamete (exact), 植物精子細胞 (Japanese, exact), sperm nucleus (related), sperm cell (broad)
Gene Ontology:
- GO:0070981 — involved in — L-asparagine biosynthetic process
- GO:0006529 — involved in — asparagine biosynthetic process
- GO:0006529 — acts upstream of or within — asparagine biosynthetic process
- GO:0004071 — enables — aspartate-ammonia ligase activity
- GO:0004066 — enables — asparagine synthase (glutamine-hydrolyzing) activity
- GO:0009507 — located in — chloroplast
- GO:0005829 — is active in — cytosol
Function-related keywords:
Literature:
- Molecular phenotyping of the pal1 and pal2 mutants of Arabidopsis thaliana reveals far-reaching consequences on phenylpropanoid, amino acid, and carbohydrate metabolism. DOI: 10.1105/tpc.104.023705 ; PMID: 15377757
- Response diversity of Arabidopsis thaliana ecotypes in elevated [CO2] in the field. DOI: 10.1007/s11103-006-9041-y ; PMID: 16941220
- Global transcription profiling reveals differential responses to chronic nitrogen stress and putative nitrogen regulatory components in Arabidopsis. DOI: 10.1186/1471-2164-8-281 ; PMID: 17705847
- Nitrogen remobilization during leaf senescence: lessons from Arabidopsis to crops. DOI: 10.1093/jxb/erw365 ; PMID: 27707774
- Capturing the phosphorylation and protein interaction landscape of the plant TOR kinase. DOI: 10.1038/s41477-019-0378-z ; PMID: 30833711
Sequences:
cDNA Sequence
- >AT5G10240.2
TCCATTTCTCTGAAGCCGTTGTGTTCTCTTATTGCCGCCACCACCACCATGTGTGGGATTCTCGCTGTGTTAGGCTGCGTCGATAACTCTCAAGCTAAACGTTCCCGTATCATCGAACTCTCTCGCAGATTGAGGCATAGAGGTCCTGACTGGAGTGGTCTACATTGTTATGAGGATTGTTATTTGGCTCATGAGCGTTTGGCTATCGTTGACCCCACTTCTGGAGATCAACCACTCTATAACGAAGATAAGACCATTGCTGTCACGGTCAATGGAGAGATTTACAACCACAAGGCTTTGCGTGAAAATTTGAAGTCTCACCAATTCCGTACTGGGAGTGATTGTGAAGTGATTGCCCATCTTGTAAAACATGGAGAGGAATTTGTCGACATGTTGGATGGCATGTTTGCATTTGTGCTTCTTGATACCCGAGACAAAAGCTTTATTGCTGCAAGGGATGCCATTGGTATCACTCCACTCTACATCGGGTGGGGTCTCGATGGTTCTGTTTGGTTTGCTTCCGAGATGAAAGCACTTAGTGATGATTGTGAGCAGTTTATGTGCTTCCCCCCAGGCCACATCTATTCAAGTAAACAAGGTGGGCTTAGGAGGTGGTACAACCCCCCGTGGTTCTCTGAGGTTGTTCCTTCAACCCCATATGATCCCCTAGTGGTGCGCAATACTTTTGAGAAGGCTGTTATAAAACGACTAATGACTGATGTGCCTTTTGGTGTCCTCCTATCTGGTGGATTAGATTCATCCCTTGTTGCTTCAGTAGCATTACGCCATCTGGAAAAATCAGAAGCTGCTTGTCAGTGGGGTTCAAAGTTGCACACATTTTGTATCGGTTTGAAGGGATCCCCGGATCTTAAAGCTGGCAGAGAAGTCGCTGACTATTTAGGAACTCGCCACCACGAGTTACACTTTACAGTTCAGGACGGAATAGATGCCATAGAAGAAGTCATCTACCATGTTGAGACCTATGATGTGACTACTATTAGAGCCAGCACTCCAATGTTTCTTATGTCGCGAAAAATCAAATCGCTTGGTGTAAAGATGGTTCTTTCTGGGGAAGGCTCTGATGAAATTTTTGGAGGATATTTGTACTTCCATAAAGCTCCCAACAAGAAGGAATTTCATGAGGAAACATGTCGAAAGATCAAAGCTCTTCATCAATATGACTGCTTGAGGGCTAACAAATCAACTTCTGCATGGGGTGTTGAGGCTCGTGTACCTTTCCTCGATAAAGAATTTATAAATGTCGCAATGAGCATCGATCCAGAGTGGAAGATGATTAGGCCTGATTTGGGAAGGATCGAGAAATGGGTGTTACGCAATGCCTTTGATGATGAGAAAAATCCTTACCTACCAAAGCACATTCTATATAGGCAGAAAGAACAGTTCAGTGATGGAGTTGGATACAGCTGGATTGATGGTCTAAAAGATCATGCAAACAAACATGTCTCTGAGACAATGCTGATGAACGCAAGCTTTGTCTTCCCTGATAACACACCTTTGACAAAAGAAGCTTACTACTACAGAACCATCTTTGAAAAGTTCTTCCCTAAGAGTGCTGCTAGAGCAACTGTACCAGGAGGTCCAAGTGTGGCATGTAGCACAGCAAAAGCTGTGGAATGGGACGCAGCTTGGTCACAGAATCTTGACCCATCAGGTCGTGCGGCTCTTGGAGTTCATGTTTCAGCTTATGGGGAAGATAAAACCGAAGATTCTCGTCCCGAGAAGCTACAGAAACTAGCAGAGAAGACTCCAGCCATTGTTTGAGGATAAACAAACAAGGTTTCAGCTAATGTTGAATCGTGCAATACTCTTATTGTCTCAAAGACAATAGATATCCTCTTCTATAGGTTCTAAAAAGGCTTTCTTTTTTTCTTGTTTTCTGGGGTTCTTTGGATGTGTACCTAATAAGTTCCTGGTGAATTTCTGTGTTTAGTGTTATTAGACAATCCATGAAAGCTTGATACTTCAGATTATGAACGTTATTTTTCATGAATCCGATTCTTTCTTTCT - >AT5G10240.1
TCCATTTCTCTGAAGCCGTTGTGTTCTCTTATTGCCGCCACCACCACCATGTGTGGGATTCTCGCTGTGTTAGGCTGCGTCGATAACTCTCAAGCTAAACGTTCCCGTATCATCGAACTCTCTCGCAGATTGAGGCATAGAGGTCCTGACTGGAGTGGTCTACATTGTTATGAGGATTGTTATTTGGCTCATGAGCGTTTGGCTATCGTTGACCCCACTTCTGGAGATCAACCACTCTATAACGAAGATAAGACCATTGCTGTCACGGTCAATGGAGAGATTTACAACCACAAGGCTTTGCGTGAAAATTTGAAGTCTCACCAATTCCGTACTGGGAGTGATTGTGAAGTGATTGCCCATCTTGTAAAACATGGAGAGGAATTTGTCGACATGTTGGATGGCATGTTTGCATTTGTGCTTCTTGATACCCGAGACAAAAGCTTTATTGCTGCAAGGGATGCCATTGGTATCACTCCACTCTACATCGGGTGGGGTCTCGATGGTTCTGTTTGGTTTGCTTCCGAGATGAAAGCACTTAGTGATGATTGTGAGCAGTTTATGTGCTTCCCCCCAGGCCACATCTATTCAAGTAAACAAGGTGGGCTTAGGAGGTGGTACAACCCCCCGTGGTTCTCTGAGGTTGTTCCTTCAACCCCATATGATCCCCTAGTGGTGCGCAATACTTTTGAGAAGGCTGTTATAAAACGACTAATGACTGATGTGCCTTTTGGTGTCCTCCTATCTGGTGGATTAGATTCATCCCTTGTTGCTTCAGTAGCATTACGCCATCTGGAAAAATCAGAAGCTGCTTGTCAGTGGGGTTCAAAGTTGCACACATTTTGTATCGGTTTGAAGGGATCCCCGGATCTTAAAGCTGGCAGAGAAGTCGCTGACTATTTAGGAACTCGCCACCACGAGTTACACTTTACAGTTCAGGACGGAATAGATGCCATAGAAGAAGTCATCTACCATGTTGAGACCTATGATGTGACTACTATTAGAGCCAGCACTCCAATGTTTCTTATGTCGCGAAAAATCAAATCGCTTGGTGTAAAGATGGTTCTTTCTGGGGAAGGCTCTGATGAAATTTTTGGAGGATATTTGTACTTCCATAAAGCTCCCAACAAGAAGGAATTTCATGAGGAAACATGTCGAAAGATCAAAGCTCTTCATCAATATGACTGCTTGAGGGCTAACAAATCAACTTCTGCATGGGGTGTTGAGGCTCGTGTACCTTTCCTCGATAAAGAATTTATAAATGTCGCAATGAGCATCGATCCAGAGTGGAAGATGATTAGGCCTGATTTGGGAAGGATCGAGAAATGGGTGTTACGCAATGCCTTTGATGATGAGAAAAATCCTTACCTACCAAAGCACATTCTATATAGGCAGAAAGAACAGTTCAGTGATGGAGTTGGATACAGCTGGATTGATGGTCTAAAAGATCATGCAAACAAACATGTCTCTGAGACAATGCTGATGAACGCAAGCTTTGTCTTCCCTGATAACACACCTTTGACAAAAGAAGCTTACTACTACAGAACCATCTTTGAAAAGTTCTTCCCTAAGAGTGCTGCTAGAGCAACTGTACCAGGAGGTCCAAGTGTGGCATGTAGCACAGCAAAAGCTGTGGAATGGGACGCAGCTTGGTCACAGAATCTTGACCCATCAGGTCGTGCGGCTCTTGGAGTTCATGTTTCAGCTTATGGGGAAGATAAAACCGAAGATTCTCGTCCCGAGAAGCTACAGAAACTAGCAGAGAAGACTCCAGCCATTGTTTGAGGATAAACAAACAAGGTTTCAGCTAATGTTGAATCGTGCAATACTCTTATTGTCTCAAAGACAATAGATATCCTCTTCTATAGGTTCTAAAAAGGCTTTCTTTTTTTCTTGTTTTCTGGGGTTCTTTGGATGTGTACCTAATAAGTTCCTGGTGAATTTCTGTGTTTAGTGTTATTAGACAATCCATGAAAGCTTGATACTTCAGATTATGAACGTTATTTTTCATGAATCCGATTCTTTCTTTCT
CDS Sequence
Protein Sequence