Gene Details:
- Gene ID: AT4G17770
- Gene Symbol: ATTPS5, TPS5, TPS5
- Gene Name: trehalose phosphatase/synthase 5, TREHALOSE -6-PHOSPHATASE SYNTHASE S5, trehalose phosphatase/synthase 5
- Description: trehalose phosphatase/synthase 5;(source:Araport11)
- TAIR Accession: locus:2129425
- 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:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Gene Ontology:
- GO:0005992 — involved in — trehalose biosynthetic process
- GO:0070413 — involved in — trehalose metabolism in response to stress
- GO:0009507 — located in — chloroplast
- GO:0016757 — enables — glycosyltransferase activity
Function-related keywords:
Literature:
- An unexpected plethora of trehalose biosynthesis genes in Arabidopsis thaliana. DOI: 10.1016/s1360-1385(01)02125-2 ; PMID: 11701378
- Is trehalose-6-phosphate a regulator of sugar metabolism in plants? DOI: 10.1093/jxb/erg039 ; PMID: 12508064
- Gene expression phenotypes of Arabidopsis associated with sensitivity to low temperatures. DOI: 10.1104/pp.103.021261 ; PMID: 12805619
- Responses of primary and secondary metabolism to sugar accumulation revealed by microarray expression analysis of the Arabidopsis mutant, pho3. DOI: 10.1093/jxb/erh143 ; PMID: 15133053
- Arabidopsis trehalose-6-phosphate synthase 1 is essential for normal vegetative growth and transition to flowering. DOI: 10.1104/pp.104.039743 ; PMID: 15181208
- Global transcription profiling reveals multiple sugar signal transduction mechanisms in Arabidopsis. DOI: 10.1105/tpc.104.022616 ; PMID: 15273295
- 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
- Phosphorylation and 14-3-3 binding of Arabidopsis trehalose-phosphate synthase 5 in response to 2-deoxyglucose. DOI: 10.1111/j.1365-313X.2006.02780.x ; PMID: 16771775
- Integration of metabolite with transcript and enzyme activity profiling during diurnal cycles in Arabidopsis rosettes. DOI: 10.1186/gb-2006-7-8-R76 ; PMID: 16916443
- Trehalose-6-phosphate synthase/phosphatase regulates cell shape and plant architecture in Arabidopsis. DOI: 10.1104/pp.107.107441 ; PMID: 17981987
- The transcriptional co-activator MBF1c is a key regulator of thermotolerance in Arabidopsis thaliana. DOI: 10.1074/jbc.M709187200 ; PMID: 18201973
- Extensive expression regulation and lack of heterologous enzymatic activity of the Class II trehalose metabolism proteins from Arabidopsis thaliana. DOI: 10.1111/j.1365-3040.2009.01985.x ; PMID: 19344332
- A comparative study of the Arabidopsis thaliana guard-cell transcriptome and its modulation by sucrose. DOI: 10.1371/journal.pone.0049641 ; PMID: 23185391
- The trehalose 6-phosphate/SnRK1 signaling pathway primes growth recovery following relief of sink limitation. DOI: 10.1104/pp.113.220657 ; PMID: 23735508
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- The trehalose-6-phosphate synthase TPS5 negatively regulates ABA signaling in Arabidopsis thaliana. DOI: 10.1007/s00299-019-02408-y ; PMID: 30963238
- The Peptide Hormone Receptor CEPR1 Functions in the Reproductive Tissue to Control Seed Size and Yield. DOI: 10.1104/pp.20.00172 ; PMID: 32317363
Sequences:
cDNA Sequence
- >AT4G17770.2
ATCAATTACTTCCATTACATGATTGGTCATAAAAACCAGAAAACTATTGCCGTATGGAGAGAAAGCAGAGAAGAGAATCTTCCAAAAATGTTAAATCTTGTGAAACAAATAAAGCATAGCAAAGCAAAGTCCAAAGTCCAATGAGCTAAAACAAAATCAAAAAGGTTTCTTTATGTTTTTTTTTTTGAAGTAAGAAAAAAAAAGAGTTTATAAAGAAACAGTGGAGAAATAAATAGCAGAACAAAGAGAAAGATCGGAGAAAAGAATCTTTTTAGGCTCTCTCTCGCAGACTTCGCACTCACACACTCACTTCCATTGCTCCAAAAAAGTGAGCTTTTTTCTTCCTTTTTCCTATTTTCCTGATCATCTTCTTTGCATCTTATGTAACTGTAGAATCTGACTAACTTTCAGTAACCCAAAGTTTTGTTTTTTATTTTCATTTTTTCCTCCAGCTGTGTGTTCTGATCTTGCTTGTATAAGTACATTGTATCTACTTCACTTGCTGTAGAGATATGGTATCAAGATCTTATTCAAACCTCTTGGATCTTGCTTCTGGTAACTTCCATTCGTTTTCTCGAGAAAAGAAGAGGTTTCCAAGAGTAGCAACTGTCACTGGTGTCTTATCTGAGCTAGATGATGATAACAACAGCAACAGTGTCTGCTCTGATGCTCCTTCTTCCGTCACACAAGATCGAATCATCATCGTTGGAAACCAGCTTCCTATTAAATCACATCGGAACTCTGCTGGTAAATTGAGTTTTAGTTGGGACAATGACTCGCTTCTCTTGCAGCTTAAAGATGGTATGCGTGAAGATATGGAAGTTGTCTACATTGGTTGCCTTAAGGAACAGATTGATACAGTTGAGCAAGATGATGTTTCTCAAAGGTTGCTTGAGAATTTCAAATGTGTTCCTGCTTATATCCCACCTGAGCTATTCACTAAGTACTATCATGGATTCTGTAAGCAACATCTATGGCCTTTGTTTCACTACATGCTTCCCTTAACTCCTGATCTTGGTGGTAGATTTGATCGTTCTTTATGGCAAGCTTATCTTTCGGTTAACAAGATCTTTGCTGATAAAGTGATGGAAGTGATTAGTCCTGATGATGATTTTGTTTGGGTTCATGACTATCACTTAATGGTTTTGCCTACATTTCTAAGGAAGAGGTTTAATAGAGTAAAGCTTGGTTTTTTCCTTCATAGCCCGTTCCCTTCCTCTGAGATTTACCGTACTCTTCCAGTGAGAAATGAGCTCTTACGTGCACTCCTCAACGCTGATTTGATTGGCTTTCATACCTTTGACTATGCAAGACACTTCCTTTCTTGTTGTAGCAGGATGCTTGGTTTATCCTATCAGTCCAAACGTGGAACCATAGGGCTTGAGTATTATGGTCGAACGGTTAGTATCAAGATTCTTCCTGTGGGGATTCATATCAGCCAGCTTCAGTCAATTTTAAACCTCCCAGAGACTCAGACCAAAGTTGCTGAGCTAAGAGATCAGTTCTTGGATCAGAAAGTTCTTCTCGGTGTTGATGACATGGACATCTTCAAAGGAATCAGCCTCAAACTCTTGGCAATGGAACAACTTCTCACACAGCATCCCGAGAAGAGAGGTCGAGTTGTACTTGTCCAGATTGCAAACCCTGCAAGAGGTCGTGGGAAAGACGTTCAGGAGGTTCAGTCTGAAACTGAAGCCACGGTTAAAAGGATCAATGAAATGTTTGGAAGGCCGGGCTACCAACCCGTGGTTCTGATTGATACACCGCTTCAATTCTTTGAGAGGATTGCTTACTATGTCATTGCAGAGTGTTGTCTTGTTACAGCGGTAAGAGATGGTATGAATCTTATACCTTATGAGTACATTATCTGCAGGCAAGGTAATCCGAAACTCAACGAGACTATAGGCCTTGACCCTTCTGCTGCAAAGAAGAGTATGCTTGTTGTCTCTGAGTTTATTGGTTGTTCTCCTTCTTTAAGCGGCGCCATTAGAGTAAATCCGTGGAACATTGATGCTGTGACTGAAGCAATGGACTATGCATTGATAGTTTCAGAAGCAGAGAAGCAAATGCGTCACGAGAAGCATCACAAATATGTTAGCACACATGATGTTGCTTATTGGGCGCGTAGCTTTATACAAGATCTTGAAAGGGCTTGCGGGGATCATGTGAGGAAGAGGTGTTGGGGGATTGGATTCGGGTTAGGCTTTAGAGTTGTGGCGCTTGATCCGAGTTTTAAAAAGCTTTCGATTGAGCACATTGTCTCAGCTTATAAGAGAACCAAGAACCGAGCCATTTTGTTGGATTATGATGGCACAATGGTGCAGCCAGGTTCCATTAGGACAACACCAACCCGCGAAACAATCGAAATCTTGAACAACCTGTCTAGTGATCCCAAGAATATCGTGTACCTCGTCAGTGGGAAAGACAGAAGGACACTAACTGAATGGTTTTCTTCATGTGACGATCTCGGTTTGGGTGCAGAGCACGGGTATTTTATAAGGCCAAATGATGGAACAGACTGGGAAACGTCGAGTTTGGTATCAGGTTTTGAGTGGAAACAAATAGCAGAGCCAGTGATGAGACTTTACACTGAGACTACAGATGGATCAACAATAGAGACTAAAGAGACTGCTCTCGTTTGGAATTACCAATTCGCAGATCCTGATTTTGGATCTTGTCAAGCCAAAGAGCTTATGGAACACCTCGAAAGCGTGCTTACCAATGATCCAGTCTCTGTCAAGACTGGACAACAACTCGTTGAAGTTAAACCACAGGGTGTGAACAAAGGTCTTGTGGCAGAGAGGCTTCTAACAACGATGCAAGAAAAAGGGAAACTTTTGGATTTCATTCTCTGCGTCGGTGATGATCGGTCTGATGAGGATATGTTTGAGGTGATAATGAGTGCTAAAGATGGTCCAGCTTTGTCTCCTGTGGCTGAGATATTCGCTTGCACCGTTGGACAAAAGCCAAGCAAAGCAAAATACTATTTAGACGATACTGCGGAGATAATCAGAATGCTGGACGGTCTAGCCGCTACCAACACAACTATCTCTGATCAAACTGATTCAACCGCCACTGTTCCAACTAAAGATCTGTTTTAAGGATTTGTGAACGAAAGTTTTAGTGGGTTTGTTGTTGTGATTTGTGAATGCTTTTTCAAATATAATGGATTAAGGTAATCAAATCTTCTTATGTCATAGGGCAAGATAAGAACCGAAAGAGGAAGAGAAAGGAGTTAGCAAAATAAATCTTATATATTAAGATGTAGAACCAAACTATAGTTTGACACTAAATAAGAAGAGTGGTGACCAAATGGAACCTACTACTACTAGAGTCGTTAAGGGGGCATTTGGTTCTCCGGCGATGATGGGGGTATGAAGGGTTGATTTCTGAGGAAGTGGTG - >AT4G17770.1
ATCAATTACTTCCATTACATGATTGGTCATAAAAACCAGAAAACTATTGCCGTATGGAGAGAAAGCAGAGAAGAGAATCTTCCAAAAATGTTAAATCTTGTGAAACAAATAAAGCATAGCAAAGCAAAGTCCAAAGTCCAATGAGCTAAAACAAAATCAAAAAGGTTTCTTTATGTTTTTTTTTTTGAAGTAAGAAAAAAAAAGAGTTTATAAAGAAACAGTGGAGAAATAAATAGCAGAACAAAGAGAAAGATCGGAGAAAAGAATCTTTTTAGGCTCTCTCTCGCAGACTTCGCACTCACACACTCACTTCCATTGCTCCAAAAAAGTGAGCTTTTTTCTTCCTTTTTCCTATTTTCCTGATCATCTTCTTTGCATCTTATGTAACTGTAGAATCTGACTAACTTTCAGTAACCCAAAGTTTTGTTTTTTATTTTCATTTTTTCCTCCAGCTGTGTGTTCTGATCTTGCTTGTATAAGTACATTGTATCTACTTCACTTGCTGTAGAGATATGGTATCAAGATCTTATTCAAACCTCTTGGATCTTGCTTCTGGTAACTTCCATTCGTTTTCTCGAGAAAAGAAGAGGTTTCCAAGAGTAGCAACTGTCACTGGTGTCTTATCTGAGCTAGATGATGATAACAACAGCAACAGTGTCTGCTCTGATGCTCCTTCTTCCGTCACACAAGATCGAATCATCATCGTTGGAAACCAGCTTCCTATTAAATCACATCGGAACTCTGCTGGTAAATTGAGTTTTAGTTGGGACAATGACTCGCTTCTCTTGCAGCTTAAAGATGGTATGCGTGAAGATATGGAAGTTGTCTACATTGGTTGCCTTAAGGAACAGATTGATACAGTTGAGCAAGATGATGTTTCTCAAAGGTTGCTTGAGAATTTCAAATGTGTTCCTGCTTATATCCCACCTGAGCTATTCACTAAGTACTATCATGGATTCTGTAAGCAACATCTATGGCCTTTGTTTCACTACATGCTTCCCTTAACTCCTGATCTTGGTGGTAGATTTGATCGTTCTTTATGGCAAGCTTATCTTTCGGTTAACAAGATCTTTGCTGATAAAGTGATGGAAGTGATTAGTCCTGATGATGATTTTGTTTGGGTTCATGACTATCACTTAATGGTTTTGCCTACATTTCTAAGGAAGAGGTTTAATAGAGTAAAGCTTGGTTTTTTCCTTCATAGCCCGTTCCCTTCCTCTGAGATTTACCGTACTCTTCCAGTGAGAAATGAGCTCTTACGTGCACTCCTCAACGCTGATTTGATTGGCTTTCATACCTTTGACTATGCAAGACACTTCCTTTCTTGTTGTAGCAGGATGCTTGGTTTATCCTATCAGTCCAAACGTGGAACCATAGGGCTTGAGTATTATGGTCGAACGGTTAGTATCAAGATTCTTCCTGTGGGGATTCATATCAGCCAGCTTCAGTCAATTTTAAACCTCCCAGAGACTCAGACCAAAGTTGCTGAGCTAAGAGATCAGTTCTTGGATCAGAAAGTTCTTCTCGGTGTTGATGACATGGACATCTTCAAAGGAATCAGCCTCAAACTCTTGGCAATGGAACAACTTCTCACACAGCATCCCGAGAAGAGAGGTCGAGTTGTACTTGTCCAGATTGCAAACCCTGCAAGAGGTCGTGGGAAAGACGTTCAGGAGGTTCAGTCTGAAACTGAAGCCACGGTTAAAAGGATCAATGAAATGTTTGGAAGGCCGGGCTACCAACCCGTGGTTCTGATTGATACACCGCTTCAATTCTTTGAGAGGATTGCTTACTATGTCATTGCAGAGTGTTGTCTTGTTACAGCGGTAAGAGATGGTATGAATCTTATACCTTATGAGTACATTATCTGCAGGCAAGGTAATCCGAAACTCAACGAGACTATAGGCCTTGACCCTTCTGCTGCAAAGAAGAGTATGCTTGTTGTCTCTGAGTTTATTGGTTGTTCTCCTTCTTTAAGCGGCGCCATTAGAGTAAATCCGTGGAACATTGATGCTGTGACTGAAGCAATGGACTATGCATTGATAGTTTCAGAAGCAGAGAAGCAAATGCGTCACGAGAAGCATCACAAATATGTTAGCACACATGATGTTGCTTATTGGGCGCGTAGCTTTATACAAGATCTTGAAAGGGCTTGCGGGGATCATGTGAGGAAGAGGTGTTGGGGGATTGGATTCGGGTTAGGCTTTAGAGTTGTGGCGCTTGATCCGAGTTTTAAAAAGCTTTCGATTGAGCACATTGTCTCAGCTTATAAGAGAACCAAGAACCGAGCCATTTTGTTGGATTATGATGGCACAATGGTGCAGCCAGGTTCCATTAGGACAACACCAACCCGCGAAACAATCGAAATCTTGAACAACCTGTCTAGTGATCCCAAGAATATCGTGTACCTCGTCAGTGGGAAAGACAGAAGGACACTAACTGAATGGTTTTCTTCATGTGACGATCTCGGTTTGGGTGCAGAGCACGGGTATTTTATAAGGCCAAATGATGGAACAGACTGGGAAACGTCGAGTTTGGTATCAGGTTTTGAGTGGAAACAAATAGCAGAGCCAGTGATGAGACTTTACACTGAGACTACAGATGGATCAACAATAGAGACTAAAGAGACTGCTCTCGTTTGGAATTACCAATTCGCAGATCCTGATTTTGGATCTTGTCAAGCCAAAGAGCTTATGGAACACCTCGAAAGCGTGCTTACCAATGATCCAGTCTCTGTCAAGACTGGACAACAACTCGTTGAAGTTAAACCACAGGGTGTGAACAAAGGTCTTGTGGCAGAGAGGCTTCTAACAACGATGCAAGAAAAAGGGAAACTTTTGGATTTCATTCTCTGCGTCGGTGATGATCGGTCTGATGAGGATATGTTTGAGGTGATAATGAGTGCTAAAGATGGTCCAGCTTTGTCTCCTGTGGCTGAGATATTCGCTTGCACCGTTGGACAAAAGCCAAGCAAAGCAAAATACTATTTAGACGATACTGCGGAGATAATCAGAATGCTGGACGGTCTAGCCGCTACCAACACAACTATCTCTGATCAAACTGATTCAACCGCCACTGTTCCAACTAAAGATCTGTTTTAAGGATTTGTGAACGAAAGTTTTAGTGGGTTTGTTGTTGTGATTTGTGAATGCTTTTTCAAATATAATGGATTAAGGTAATCAAATCTTCTTATGTCATAGGGCAAGATAAGAACCGAAAGAGGAAGAGAAAGGAGTTAGCAAAATAAATCTTATATATTAAGATGTAGAACCAAACTATAGTTTGACACTAAATAAGAAGAGTGGTGACCAAATGGAACCTACTACTACTAGAGTCGTTAAGGGGGCATTTGGTTCTCCGGCGATGATGGGGGTATGAAGGGTTGATTTCTGAGGAAGTGGTG
CDS Sequence
Protein Sequence