Gene Details:
- Gene ID: AT5G37180
- Gene Symbol: ATSUS5, SUS5
- Gene Name: ARABIDOPSIS THALIANA SUCROSE SYNTHASE 5, sucrose synthase 5
- Description: sucrose synthase 5;(source:Araport11)
- TAIR Accession: locus:2166203
- 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:0000013 — cauline leaf — hoja caulinar (Spanish, exact), 茎生葉、茎葉 (Japanese, exact)
- PO:0000014 — rosette leaf — hoja en roseta (Spanish, exact), ロゼット葉 (Japanese, exact)
- PO:0000035 — cotyledon vascular system — sistema vascular del cotiledón (Spanish, exact), 子葉維管系 (Japanese, exact)
- PO:0000036 — leaf vascular system — sistema vascular de la hoja (Spanish, exact), 葉維管系 (Japanese, exact), leaf venation (related)
- PO:0000054 — petal vascular system — sistema vascular de pétalo (Spanish, exact), 花弁維管系 (Japanese, exact)
- PO:0000056 — flower bud — floral bud (exact), yema floral (Spanish, exact), 花芽 (Japanese, exact)
- PO:0003011 — root vascular system — sistema vascular de la raíz (Spanish, exact), 根維管系 (Japanese, exact), root vein (related)
- PO:0008013 — anther vascular system — sistema vascular de la antera (Spanish, exact), 葯維管系 (Japanese, exact)
- PO:0009001 — fruit — frucht (exact, German), fruto (exact, Spanish), 果実 (exact, Japanese), coenocarp (narrow), syncarp (narrow), aggregate fruit (broad), compound fruit (broad), dehiscent fruit (broad), diaspore (broad), indehiscent fruit (broad), multiple fruit (broad), propagule (broad)
- PO:0009010 — seed — semilla (Spanish, exact), 種子 (Japanese, exact), pyrene (narrow), diaspore (broad)
- PO:0009046 — flower — flor (Spanish, exact), 花 (Japanese, exact), floret (related), Asteraceae floret (narrow), basal flower (narrow), double flower (narrow), hermaphrodite flower (narrow), monoclinous flower (narrow), perfect flower (narrow)
- PO:0009047 — stem — caña (Spanish, exact), culm (exact), eje primario (Spanish, exact), primary axis (exact), primary stem (exact), tallo (Spanish, exact), tronco (Spanish, exact), 茎 (Japanese, exact), bole (narrow), cane (narrow), caudex (narrow), caudices (narrow), core (narrow), primocane (narrow), scape (narrow), stalk (narrow), trunk (narrow)
- PO:0009052 — inflorescence flower pedicel — 小花柄 (Japanese, related), pedicelo (Spanish, broad)
Gene Ontology:
- GO:0009505 — located in — plant-type cell wall
- GO:0005985 — involved in — sucrose metabolic process
- GO:0009507 — located in — chloroplast
- GO:0016157 — enables — sucrose synthase activity
- GO:0080165 — acts upstream of or within — callose deposition in phloem sieve plate
Function-related keywords:
- root , cauline leaf , rosette leaf , cotyledon vascular system , leaf vascular system , petal vascular system , flower bud , root vascular system , anther vascular system , fruit , root , seed , flower , stem , inflorescence flower pedicel
Literature:
- Structure and expression profile of the sucrose synthase multigene family in Arabidopsis. DOI: 10.1093/jxb/erh047 ; PMID: 14739263
- Analysis of the sucrose synthase gene family in Arabidopsis. DOI: 10.1111/j.1365-313X.2006.03011.x ; PMID: 17257168
- Localization of sucrose synthase in developing seed and siliques of Arabidopsis thaliana reveals diverse roles for SUS during development. DOI: 10.1093/jxb/ern180 ; PMID: 18635527
- Integrative analyses of genetic variation in enzyme activities of primary carbohydrate metabolism reveal distinct modes of regulation in Arabidopsis thaliana. DOI: 10.1186/gb-2008-9-8-r129 ; PMID: 18710526
- Normal growth of Arabidopsis requires cytosolic invertase but not sucrose synthase. DOI: 10.1073/pnas.0900689106 ; PMID: 19470642
- Callose synthase GSL7 is necessary for normal phloem transport and inflorescence growth in Arabidopsis. DOI: 10.1104/pp.110.166330 ; PMID: 21098675
- Sucrose synthase activity in the sus1/sus2/sus3/sus4 Arabidopsis mutant is sufficient to support normal cellulose and starch production. DOI: 10.1073/pnas.1117099109 ; PMID: 22184213
- Hexokinase 1 is required for glucose-induced repression of bZIP63, At5g22920, and BT2 in Arabidopsis. DOI: 10.3389/fpls.2015.00525 ; PMID: 26236323
- Sucrose synthase activity is not required for cellulose biosynthesis in Arabidopsis. DOI: 10.1111/tpj.15752 ; PMID: 35362151
Sequences:
cDNA Sequence
- >AT5G37180.1
TAAAAGTAGACAAAGCTGCCATTACGAAACCAATCAAAACCAACGCGAAAACCTGCGTTTTATTCTTCTTGTAATTGGTCTCAAGGTACATAACACAATGGAAATGACATCTGGATCGTTAGGCAATGGGATCCCAGAAGCGATGGGACAAAACCGCGGGAATATTAAACGTTGCCTCGAGAAGTATATTGAGAATGGCAGAAGGGTGATGAAATTGAACGAGTTGATGGATGAAATGGAAATTGTTATCAATGATGTAACACAACGAAGGCGAGTCATGGAAGGCGATCTTGGCAAGATCTTGTGCTTCACTCAGGAGGCAGTGGTAATTCCTCCGAACGTAGCGTTCGCAGTAAGAGGAACCCCGGGAAATTGGCAATACGTGAAAGTTAACTCTTCCAATCTCTCGGTAGAAGCTCTATCGAGCACGCAATATCTCAAACTTAAAGAGTTTCTCTTCGACGAGAATTGGGCAAACGATGAAAATGCATTGGAGGTTGATTTTGGAGCGCTGGATTTCACTCTTCCTTGGCTTTCGTTGTCATCTTCAATAGGAAACGGCCTGAGTTTTGTGTCCTCGAAGCTCGGAGGGCGTTTAAACGATAACCCGCAATCTCTCGTGGACTACTTGTTGTCACTTGAGCATCAAGGAGAGAAGCTTATGATGAATGAGACTCTTAACACGGCTAGAAAGCTTGAGATGAGTTTGATTTTGGCAGATGTTTTCCTATCGGAGCTGCCTAAGGACACACCTTTCCAAGCCTTTGAACTCAGGTTTAAGGAATGTGGTTTTGAGAAAGGATGGGGAGAAAGCGCAGGGAGAGTAAAGGAGACAATGAGAATCTTGTCGGAGATTCTTCAAGCCCCTGATCCTCAAAACATTGATCGATTCTTCGCAAGGGTTCCTAGAATCTTTAACGTTGTCATCTTCTCGGTTCACGGCTACTTTGGTCAAACCGATGTTCTAGGTTTGCCTGATACTGGCGGTCAAGTCGTTTACATTCTTGACCAAGTTAAAGCCCTTGAAGATGAATTGCTTCAAAGAATTAACTCTCAAGGCCTTAATTTCAAACCTCAGATTCTTGTTGTAACACGATTAATCCCAGACGCTAAAAAAACTAAATGCAACCAAGAGTTGGAACCTATTTTCGGAACGAAATATTCGAATATTCTTCGAATTCCATTTGTAACAGAAAATGGGATTTTACGTCGTTGGGTTTCCCGCTTTGATATCTACCCATACCTAGAAAGATTCACTAAGGATGCAACAACAAAGATATTGGATATTTTGGAAGGAAAACCTGACCTAATAATCGGGAACTATACGGATGGAAACTTGGTGGCATCACTCATGGCTAATAAGCTTGGAATTACTCAGGCAACTATTGCACATGCCTTGGAGAAGACTAAATATGAAGATTCAGATATCAAGTGGAAAGAGTTTGATCCTAAATATCATTTCTCATCTCAATTTACGGCAGACTTAATCTCTATGAACTCTGCCGATTTCATCATAGCTAGCACTTATCAAGAAATTGCTGGAAGCAAAGAGAGGGCTGGACAATACGAGAGCCACATGAGCTTCACAGTCCCGGGGCTATACAGAGTTGTCTCCGGCATTAATGTCTTCGATCCGAGGTTCAACATCGCAGCTCCTGGCGCGGATGACTCTATCTATTTCCCTTTTACCGCACAAGACCGGAGATTCACCAAGTTCTACACTTCCATTGATGAACTCTTGTATAGCCAAAGTGAGAATGACGAACACATCGGTTATTTAGTGGACAAGAAGAAACCGATCATTTTCTCAATGGCAAGGCTTGATGTTGTCAAAAACCTAACCGGATTAACTGAGTGGTATGCCAAGAACAAGAGGCTACGAGACTTGGTGAACCTCGTGATCGTAGGAGGATTCTTCGACGCTTCTAAGTCTAAAGACAGGGAAGAGATCTCAGAGATCAAGAAGATGCATTCTCTGATTGAGAAATACCAACTCAAGGGTCAATTTAGATGGATCACAGCTCAAACAGATCGAACAAGAAACGGTGAACTTTACCGATCTATCGCGGATACAAGAGGTGCTTTTGTGCAGCCTGCACATTATGAAGCCTTTGGTCTTACTGTCATTGAAGCCATGAGCTGTGGTTTGGTCACATTCGCCACGAACCAAGGCGGTCCTGCTGAGATTATTGTGGATGGTGTCTCTGGTTTCCACATTGACCCGAGCAATGGAGAAGAATCAAGTGATAAGATTGCGGATTTCTTTGAGAAATCCGGTATGGATCCTGATTATTGGAATATGTTTTCGAATGAAGGGCTACAACGCATAAACGAATGCTATACATGGAAGATATATGCAAACAAAGTGATAAACATGGGGAGTACATATAGCTACTGGAGACATTTGAACAAAGATCAGAAACTGGCCAAACAAAGATATATCCATTCCTTCTACAATCTTCAATACCGAAATTTGGTGAAAACTATACCCATATTGAGTGATATTCCTGAGCCTCCTCCTCTTCCTCCAAAGCCTTTGGTGAAACCATCAGCATCAAAAGGCTCGAAGCGAACACAGCCGCGATTGAGTTTCAGGTTGTTTGGTGCTTAAGCTCTCTTCTGAACAAGTGAGCTAATATCAGGAAAATCTGAAACATGTTGATGCTTCAGTTATATTTATACGCATTGTAGTTTCATGTGTAAGATACTCAAGTTGTGTGATTGCAAGTATAATAAAGGGAAAAAGAAACACAATGTATTTGATTTTTACCATTGATTCTTAGTAGGTTTTGTATGATATTACTGATGTTAACATGTTGAAGTTGAAGGATTTGTTA - >AT5G37180.3
TAAAAGTAGACAAAGCTGCCATTACGAAACCAATCAAAACCAACGCGAAAACCTGCGTTTTATTCTTCTTGTAATTGGTCTCAAGGTACATAACACAATGGAAATGACATCTGGATCGTTAGGCAATGGGATCCCAGAAGCGATGGGACAAAACCGCGGGAATATTAAACGTTGCCTCGAGAAGTATATTGAGAATGGCAGAAGGGTGATGAAATTGAACGAGTTGATGGATGAAATGGAAATTGTTATCAATGATGTAACACAACGAAGGCGAGTCATGGAAGGCGATCTTGGCAAGATCTTGTGCTTCACTCAGGAGGCAGTGGTAATTCCTCCGAACGTAGCGTTCGCAGTAAGAGGAACCCCGGGAAATTGGCAATACGTGAAAGTTAACTCTTCCAATCTCTCGGTAGAAGCTCTATCGAGCACGCAATATCTCAAACTTAAAGAGTTTCTCTTCGACGAGAATTGGGCAAACGATGAAAATGCATTGGAGGTTGATTTTGGAGCGCTGGATTTCACTCTTCCTTGGCTTTCGTTGTCATCTTCAATAGGAAACGGCCTGAGTTTTGTGTCCTCGAAGCTCGGAGGGCGTTTAAACGATAACCCGCAATCTCTCGTGGACTACTTGTTGTCACTTGAGCATCAAGGAGAGAAGCTTATGATGAATGAGACTCTTAACACGGCTAGAAAGCTTGAGATGAGTTTGATTTTGGCAGATGTTTTCCTATCGGAGCTGCCTAAGGACACACCTTTCCAAGCCTTTGAACTCAGGTTTAAGGAATGTGGTTTTGAGAAAGGATGGGGAGAAAGCGCAGGGAGAGTAAAGGAGACAATGAGAATCTTGTCGGAGATTCTTCAAGCCCCTGATCCTCAAAACATTGATCGATTCTTCGCAAGGGTTCCTAGAATCTTTAACGTTGTCATCTTCTCGGTTCACGGCTACTTTGGTCAAACCGATGTTCTAGGTTTGCCTGATACTGGCGGTCAAGTCGTTTACATTCTTGACCAAGTTAAAGCCCTTGAAGATGAATTGCTTCAAAGAATTAACTCTCAAGGCCTTAATTTCAAACCTCAGATTCTTGTTGTAACACGATTAATCCCAGACGCTAAAAAAACTAAATGCAACCAAGAGTTGGAACCTATTTTCGGAACGAAATATTCGAATATTCTTCGAATTCCATTTGTAACAGAAAATGGGATTTTACGTCGTTGGGTTTCCCGCTTTGATATCTACCCATACCTAGAAAGATTCACTAAGGATGCAACAACAAAGATATTGGATATTTTGGAAGGAAAACCTGACCTAATAATCGGGAACTATACGGATGGAAACTTGGTGGCATCACTCATGGCTAATAAGCTTGGAATTACTCAGGCAACTATTGCACATGCCTTGGAGAAGACTAAATATGAAGATTCAGATATCAAGTGGAAAGAGTTTGATCCTAAATATCATTTCTCATCTCAATTTACGGCAGACTTAATCTCTATGAACTCTGCCGATTTCATCATAGCTAGCACTTATCAAGAAATTGCTGGAAGCAAAGAGAGGGCTGGACAATACGAGAGCCACATGAGCTTCACAGTCCCGGGGCTATACAGAGTTGTCTCCGGCATTAATGTCTTCGATCCGAGGTTCAACATCGCAGCTCCTGGCGCGGATGACTCTATCTATTTCCCTTTTACCGCACAAGACCGGAGATTCACCAAGTTCTACACTTCCATTGATGAACTCTTGTATAGCCAAAGTGAGAATGACGAACACATCGGTTATTTAGTGGACAAGAAGAAACCGATCATTTTCTCAATGGCAAGGCTTGATGTTGTCAAAAACCTAACCGGATTAACTGAGTGGTATGCCAAGAACAAGAGGCTACGAGACTTGGTGAACCTCGTGATCGTAGGAGGATTCTTCGACGCTTCTAAGTCTAAAGACAGGGAAGAGATCTCAGAGATCAAGAAGATGCATTCTCTGATTGAGAAATACCAACTCAAGGGTCAATTTAGATGGATCACAGCTCAAACAGATCGAACAAGAAACGGTGAACTTTACCGATCTATCGCGGATACAAGAGGTGCTTTTGTGCAGCCTGCACATTATGAAGCCTTTGGTCTTACTGTCATTGAAGCCATGAGCTGTGGTTTGGTCACATTCGCCACGAACCAAGGCGGTCCTGCTGAGATTATTGTGGATGGTGTCTCTGGTTTCCACATTGACCCGAGCAATGGAGAAGAATCAAGTGATAAGATTGCGGATTTCTTTGAGAAATCCGGTATGGATCCTGATTATTGGAATATGTTTTCGAATGAAGGGCTACAACGCATAAACGAATGCTATACATGGAAGATATATGCAAACAAAGTGATAAACATGGGGAGTACATATAGCTACTGGAGACATTTGAACAAAGATCAGAAACTGGCCAAACAAAGATATATCCATTCCTTCTACAATCTTCAATACCGAAATTTGGTGAAAACTATACCCATATTGAGTGATATTCCTGAGCCTCCTCCTCTTCCTCCAAAGCCTTTGGTGAAACCATCAGCATCAAAAGGCTCGAAGCGAACACAGCCGCGATTGAGTTTCAGGTTGTTTGGTGCTTAAGCTCTCTTCTGAACAAGTGAGCTAATATCAGGAAAATCTGAAACATGTTGATGCTTCAGTTATATTTATACGCATTGTAGTTTCATGTGTAAGATACTCAAGTTGTGTGATTGCAAGTATAATAAAGGGAAAAAGAAACACAATGTATTTGATTTTTACCATTGATTCTTAGTAGGTTTTGTATGATATTACTGATGTTAACATGTTGAAGTTGAAGGATTTGTTA - >AT5G37180.2
TAAAAGTAGACAAAGCTGCCATTACGAAACCAATCAAAACCAACGCGAAAACCTGCGTTTTATTCTTCTTGTAATTGGTCTCAAGGTACATAACACAATGGAAATGACATCTGGATCGTTAGGCAATGGGATCCCAGAAGCGATGGGACAAAACCGCGGGAATATTAAACGTTGCCTCGAGAAGTATATTGAGAATGGCAGAAGGGTGATGAAATTGAACGAGTTGATGGATGAAATGGAAATTGTTATCAATGATGTAACACAACGAAGGCGAGTCATGGAAGGCGATCTTGGCAAGATCTTGTGCTTCACTCAGGAGGCAGTGGTAATTCCTCCGAACGTAGCGTTCGCAGTAAGAGGAACCCCGGGAAATTGGCAATACGTGAAAGTTAACTCTTCCAATCTCTCGGTAGAAGCTCTATCGAGCACGCAATATCTCAAACTTAAAGAGTTTCTCTTCGACGAGAATTGGGCAAACGATGAAAATGCATTGGAGGTTGATTTTGGAGCGCTGGATTTCACTCTTCCTTGGCTTTCGTTGTCATCTTCAATAGGAAACGGCCTGAGTTTTGTGTCCTCGAAGCTCGGAGGGCGTTTAAACGATAACCCGCAATCTCTCGTGGACTACTTGTTGTCACTTGAGCATCAAGGAGAGAAGCTTATGATGAATGAGACTCTTAACACGGCTAGAAAGCTTGAGATGAGTTTGATTTTGGCAGATGTTTTCCTATCGGAGCTGCCTAAGGACACACCTTTCCAAGCCTTTGAACTCAGGTTTAAGGAATGTGGTTTTGAGAAAGGATGGGGAGAAAGCGCAGGGAGAGTAAAGGAGACAATGAGAATCTTGTCGGAGATTCTTCAAGCCCCTGATCCTCAAAACATTGATCGATTCTTCGCAAGGGTTCCTAGAATCTTTAACGTTGTCATCTTCTCGGTTCACGGCTACTTTGGTCAAACCGATGTTCTAGGTTTGCCTGATACTGGCGGTCAAGTCGTTTACATTCTTGACCAAGTTAAAGCCCTTGAAGATGAATTGCTTCAAAGAATTAACTCTCAAGGCCTTAATTTCAAACCTCAGATTCTTGTTGTAACACGATTAATCCCAGACGCTAAAAAAACTAAATGCAACCAAGAGTTGGAACCTATTTTCGGAACGAAATATTCGAATATTCTTCGAATTCCATTTGTAACAGAAAATGGGATTTTACGTCGTTGGGTTTCCCGCTTTGATATCTACCCATACCTAGAAAGATTCACTAAGGATGCAACAACAAAGATATTGGATATTTTGGAAGGAAAACCTGACCTAATAATCGGGAACTATACGGATGGAAACTTGGTGGCATCACTCATGGCTAATAAGCTTGGAATTACTCAGGCAACTATTGCACATGCCTTGGAGAAGACTAAATATGAAGATTCAGATATCAAGTGGAAAGAGTTTGATCCTAAATATCATTTCTCATCTCAATTTACGGCAGACTTAATCTCTATGAACTCTGCCGATTTCATCATAGCTAGCACTTATCAAGAAATTGCTGGAAGCAAAGAGAGGGCTGGACAATACGAGAGCCACATGAGCTTCACAGTCCCGGGGCTATACAGAGTTGTCTCCGGCATTAATGTCTTCGATCCGAGGTTCAACATCGCAGCTCCTGGCGCGGATGACTCTATCTATTTCCCTTTTACCGCACAAGACCGGAGATTCACCAAGTTCTACACTTCCATTGATGAACTCTTGTATAGCCAAAGTGAGAATGACGAACACATCGGTTATTTAGTGGACAAGAAGAAACCGATCATTTTCTCAATGGCAAGGCTTGATGTTGTCAAAAACCTAACCGGATTAACTGAGTGGTATGCCAAGAACAAGAGGCTACGAGACTTGGTGAACCTCGTGATCGTAGGAGGATTCTTCGACGCTTCTAAGTCTAAAGACAGGGAAGAGATCTCAGAGATCAAGAAGATGCATTCTCTGATTGAGAAATACCAACTCAAGGGTCAATTTAGATGGATCACAGCTCAAACAGATCGAACAAGAAACGGTGAACTTTACCGATCTATCGCGGATACAAGAGGTGCTTTTGTGCAGCCTGCACATTATGAAGCCTTTGGTCTTACTGTCATTGAAGCCATGAGCTGTGGTTTGGTCACATTCGCCACGAACCAAGGCGGTCCTGCTGAGATTATTGTGGATGGTGTCTCTGGTTTCCACATTGACCCGAGCAATGGAGAAGAATCAAGTGATAAGATTGCGGATTTCTTTGAGAAATCCGGTATGGATCCTGATTATTGGAATATGTTTTCGAATGAAGGGCTACAACGCATAAACGAATGCTATACATGGAAGATATATGCAAACAAAGTGATAAACATGGGGAGTACATATAGCTACTGGAGACATTTGAACAAAGATCAGAAACTGGCCAAACAAAGATATATCCATTCCTTCTACAATCTTCAATACCGAAATTTGGTGAAAACTATACCCATATTGAGTGATATTCCTGAGCCTCCTCCTCTTCCTCCAAAGCCTTTGGTGAAACCATCAGCATCAAAAGGCTCGAAGCGAACACAGCCGCGATTGAGTTTCAGGTTGTTTGGTGCTTAAGCTCTCTTCTGAACAAGTGAGCTAATATCAGGAAAATCTGAAACATGTTGATGCTTCAGTTATATTTATACGCATTGTAGTTTCATGTGTAAGATACTCAAGTTGTGTGATTGCAAGTATAATAAAGGGAAAAAGAAACACAATGTATTTGATTTTTACCATTGATTCTTAGTAGGTTTTGTATGATATTACTGATGTTAACATGTTGAAGTTGAAGGATTTGTTA
CDS Sequence
Protein Sequence