Gene Details:
- Gene ID: AT1G04920
- Gene Symbol: ATSPS3F, AtSPSB, SPS3F, SPSB
- Gene Name: sucrose phosphate synthase 3F, sucrose phosphate synthase 3F, sucrose phosphate synthase B
- Description: sucrose phosphate synthase 3F;(source:Araport11)
- TAIR Accession: locus:2010647
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009032 — petal — pétalo (Spanish, exact), 花弁 (Japanese, exact)
- PO:0000293 — guard cell — célula guardiana (Spanish, exact), occlusive cell (exact), 孔辺細胞 (Japanese, exact)
Gene Ontology:
- GO:0016157 — enables — sucrose synthase activity
- GO:0016757 — enables — glycosyltransferase activity
- GO:0006629 — acts upstream of or within — lipid metabolic process
- GO:0005986 — involved in — sucrose biosynthetic process
- GO:0046524 — enables — sucrose-phosphate synthase activity
- GO:0005794 — located in — Golgi apparatus
Function-related keywords:
Literature:
- Leaf-specifically expressed genes for polypeptides destined for chloroplasts with domains of sigma70 factors of bacterial RNA polymerases in Arabidopsis thaliana. DOI: 10.1073/pnas.94.26.14948 ; PMID: 9405719
- Characterization of three cDNA species encoding plastid RNA polymerase sigma factors in Arabidopsis thaliana: evidence for the sigma factor heterogeneity in higher plant plastids. DOI: 10.1016/s0014-5793(97)00906-x ; PMID: 9280303
- An Arabidopsis sigma factor (SIG2)-dependent expression of plastid-encoded tRNAs in chloroplasts. DOI: 10.1093/pcp/pce155 ; PMID: 11673617
- Characterization of two plastid sigma factors, SigA1 and SigA2, that mainly function in matured chloroplasts in Nicotiana tabacum. DOI: 10.1016/s0378-1119(00)00505-9 ; PMID: 11167008
- Characterization of Arabidopsis plastid sigma-like transcription factors SIG1, SIG2 and SIG3. DOI: 10.1023/a:1022095017355 ; PMID: 12602869
- Molecular genetic analysis of chloroplast gene promoters dependent on SIG2, a nucleus-encoded sigma factor for the plastid-encoded RNA polymerase, in Arabidopsis thaliana. DOI: 10.1093/nar/gkg935 ; PMID: 14654684
- Blue light-induced transcription of plastid-encoded psbD gene is mediated by a nuclear-encoded transcription initiation factor, AtSig5. DOI: 10.1073/pnas.0308362101 ; PMID: 14976253
- Oxidation-reduction signalling components in regulatory pathways of state transitions and photosystem stoichiometry adjustment in chloroplasts. DOI: 10.1111/j.1365-3040.2011.02349.x ; PMID: 21554328
- Transcriptional organization of the large and the small ATP synthase operons, atpI/H/F/A and atpB/E, in Arabidopsis thaliana chloroplasts. DOI: 10.1007/s11103-012-9910-5 ; PMID: 22527751
- Sigma factor-mediated plastid retrograde signals control nuclear gene expression. DOI: 10.1111/tpj.12011 ; PMID: 22950756
- SIG1, a sigma factor for the chloroplast RNA polymerase, differently associates with multiple DNA regions in the chloroplast chromosomes in vivo. DOI: 10.3390/ijms131012182 ; PMID: 23202891
- Evolutionary rewiring: a modified prokaryotic gene-regulatory pathway in chloroplasts. DOI: 10.1098/rstb.2012.0260 ; PMID: 23754813
- Chloroplast RNA polymerases: Role in chloroplast biogenesis. DOI: 10.1016/j.bbabio.2015.02.004 ; PMID: 25680513
- Leaf Variegation of Thylakoid Formation1 Is Suppressed by Mutations of Specific σ-Factors in Arabidopsis. DOI: 10.1104/pp.15.00549 ; PMID: 25999408
Sequences:
cDNA Sequence
- >AT1G04920.1
AAAATCCTCTTCCCTTTTCTGAAGTAAACTTTTTCCCGCAATCAACTCTTGCTTTCTATTTTTCTCGATTGTTTACACTTTTCATTTTCAGCTCTCTGTTTCTTTCTTTCACACTAACCCCAATTCTAGTTTCTTACTCTCCAAGAAACAAAGAGCACCGATCTCAGTTTTCTCGAGAAACAGAGGACAAACTCAGAATGGCGGGGAACGAGTGGATAAATGGGTATTTGGAGGCGATTCTTGACAGCCAAGCTCAGGGGATTGAAGAAACGCAGCAGAAACCACAAGCTTCTGTGAATCTGAGAGAAGGTGATGGACAATATTTCAATCCGACTAAATACTTCGTTGAGGAAGTTGTGACTGGTGTCGATGAAACCGATCTTCACCGGACTTGGCTCAAAGTTGTAGCCACTCGCAATTCTCGTGAACGTAACTCTCGGTTGGAGAATATGTGTTGGAGAATCTGGCATCTCACTCGCAAGAAGAAGCAGTTGGAATGGGAGGATTCTCAGCGAATAGCGAATAGGAGATTGGAAAGAGAACAGGGAAGAAGAGATGCGACAGAGGATTTGTCTGAAGATTTATCAGAAGGAGAGAAAGGTGATGGTCTTGGAGAAATTGTTCAACCGGAGACACCTCGAAGACAATTGCAACGCAATTTATCCAATCTCGAAATCTGGTCTGATGATAAGAAGGAGAATCGTCTTTACGTTGTCCTCATCAGTTTGCATGGGTTGGTTCGTGGAGAAAACATGGAGCTTGGTAGCGATTCCGATACTGGTGGACAGGTGAAATATGTTGTGGAGCTAGCTCGAGCTTTAGCGAGAATGCCTGGTGTGTACCGAGTTGATCTGTTTACTCGCCAGATATGCTCATCAGAAGTTGATTGGAGCTATGCAGAGCCAACGGAGATGCTAACCACTGCTGAAGATTGTGATGGCGATGAAACCGGGGAAAGCAGCGGAGCATATATCATTAGGATACCGTTTGGTCCACGGGATAAGTACTTAAACAAAGAGATTCTCTGGCCGTTTGTCCAAGAGTTTGTTGATGGAGCTTTAGCTCACATTCTAAACATGTCAAAAGTTTTGGGAGAGCAGATTGGGAAGGGGAAGCCTGTGTGGCCATATGTGATTCATGGACATTACGCGGATGCAGGGGATAGTGCCGCTCTGCTTTCTGGTGCGTTGAACGTTCCTATGGTCCTGACGGGTCATTCTCTAGGAAGAAACAAGCTTGAGCAGCTTTTGAAACAAGGGAGGCAATCAAAGGAGGATATAAATTCCACATATAAGATCAAGAGGAGGATCGAGGCCGAGGAGCTATCTCTGGATGCTGCAGAGCTTGTTATAACAAGCACGAGGCAGGAGATTGATGAACAGTGGGGACTTTATGATGGGTTCGATGTAAAACTCGAGAAAGTCTTGAGAGCTCGTGCTAGACGCGGTGTTAATTGCCACGGAAGGTTCATGCCAAGAATGGCGGTTATTCCTCCGGGGATGGATTTCACAAACGTTGAGGTTCAAGAAGATACACCTGAGGGTGATGGAGATTTAGCTTCCTTAGTAGGAGGAACCGAGGGATCTTCTCCTAAAGCGGTTCCAACTATCTGGTCTGAAGTTATGAGGTTTTTTACAAATCCTCACAAACCTATGATCTTGGCATTATCTAGACCAGACCCAAAGAAGAACATAACCACTCTTCTGAAAGCCTTTGGCGAATGTCGGCCTCTACGGGAGCTAGCTAATCTCACTTTGATTATGGGAAATCGAGATGATATAGATGAGTTGTCATCTGGAAACGCTAGCGTTCTTACAACCGTCTTGAAACTCATCGACAAATATGATCTTTACGGGTCTGTCGCATATCCAAAGCATCATAAACAGTCTGATGTTCCTGATATATACCGACTTGCTGCAAATACAAAGGGTGTTTTCATAAATCCAGCTTTGGTTGAGCCTTTTGGCCTTACACTCATTGAGGCTGCAGCTCACGGACTTCCGATGGTAGCAACAAAGAATGGAGGACCAGTTGATATTCATAGGGCATTGCACAACGGTTTGCTTGTGGATCCACACGATCAAGAAGCGATAGCGAATGCGTTGTTGAAGCTGGTATCTGAGAAGAATTTATGGCATGAGTGCAGGATTAACGGTTGGAAGAACATTCACCTCTTCTCATGGCCTGAGCATTGCCGGACTTACCTTACACGTATAGCCGCGTGCCGTATGAGACATCCGCAGTGGCAGACAGATGCGGACGAAGTGGCTGCTCAAGACGATGAATTTTCACTCAACGACTCTCTTAAAGACGTTCAAGACATGTCTCTGAGACTCTCTATGGATGGAGATAAACCATCGTTGAACGGGTCTCTTGAACCGAATTCTGCTGATCCGGTTAAACAAATCATGAGCCGGATGAGGACACCTGAAATCAAGAGTAAACCAGAATTACAGGGGAAGAAACAAAGTGATAACTTGGGTAGCAAGTATCCGGTTTTGAGGCGACGGGAACGGTTGGTGGTTTTAGCGGTTGATTGCTATGACAATGAGGGAGCTCCGGATGAGAAAGCAATGGTTCCGATGATTCAGAATATCATCAAAGCCGTGCGATCGGATCCACAGATGGCTAAAAACTCTGGTTTTGCGATTTCCACTTCTATGCCGCTTGATGAATTAACTCGCTTCTTGAAGTCTGCCAAGATTCAGGTGAGTGAGTTCGACACATTAATATGCAGCAGCGGGAGCGAAGTGTATTATCCAGGAGGGGAAGAGGGAAAGCTTCTTCCGGATCCTGACTATTCCTCGCATATCGATTACCGATGGGGCATGGAAGGGCTTAAGAACACGGTGTGGAAACTGATGAACACTACTGCTGTTGGTGGTGAGGCAAGAAACAAGGGCTCTCCAAGTCTTATTCAAGAGGATCAGGCATCTAGCAATTCCCATTGCGTTGCATATATGATCAAAGATCGTTCCAAGGTGATGAGAGTAGATGACTTACGTCAGAAGTTACGACTAAGAGGCCTTCGTTGCCATCCAATGTATTGTCGGAATTCAACGAGAATGCAGATCGTTCCTCTTCTTGCTTCTCGATCTCAAGCTCTCAGGTACTTGTTCGTGCGGTGGAGGCTAAATGTGGCGAACATGTACGTGGTGGTTGGAGATCGTGGCGATACGGACTATGAGGAATTGATATCCGGCACACACAAGACTGTTATCGTCAAGGGGCTCGTCACATTGGGTTCTGATGCTCTTCTCCGGTCAACAGACCTCCGAGACGACATCGTTCCATCAGAGAGTCCTTTTATCGGTTTTCTCAAGGTTGATTCACCGGTTAAGGAGATAACCGACATTTTTAAGCAGCTCTCGAAAGCCACTGCTTGATTCCACTAATATCCAATTCTCCCGGTTCAACCATGTAGATTAATTTGTTTATTTATTTTCTACTTGTTTTGGGACTTTTAAGTTTTGGTATTTTGGCCGATCGAACATTAGGATTTAACAGGCTTCTATACATAAAATAAAATTTTCAAATAGTGAAGTCGAGGCTATTATATTTTTTTTGTAAAAATTATGCAACTTGTGTTCCCATCCGAGAATGGTTGGGGAAAAAAAGAAGATAAG
CDS Sequence
- >AT1G04920.1
ATGGCGGGGAACGAGTGGATAAATGGGTATTTGGAGGCGATTCTTGACAGCCAAGCTCAGGGGATTGAAGAAACGCAGCAGAAACCACAAGCTTCTGTGAATCTGAGAGAAGGTGATGGACAATATTTCAATCCGACTAAATACTTCGTTGAGGAAGTTGTGACTGGTGTCGATGAAACCGATCTTCACCGGACTTGGCTCAAAGTTGTAGCCACTCGCAATTCTCGTGAACGTAACTCTCGGTTGGAGAATATGTGTTGGAGAATCTGGCATCTCACTCGCAAGAAGAAGCAGTTGGAATGGGAGGATTCTCAGCGAATAGCGAATAGGAGATTGGAAAGAGAACAGGGAAGAAGAGATGCGACAGAGGATTTGTCTGAAGATTTATCAGAAGGAGAGAAAGGTGATGGTCTTGGAGAAATTGTTCAACCGGAGACACCTCGAAGACAATTGCAACGCAATTTATCCAATCTCGAAATCTGGTCTGATGATAAGAAGGAGAATCGTCTTTACGTTGTCCTCATCAGTTTGCATGGGTTGGTTCGTGGAGAAAACATGGAGCTTGGTAGCGATTCCGATACTGGTGGACAGGTGAAATATGTTGTGGAGCTAGCTCGAGCTTTAGCGAGAATGCCTGGTGTGTACCGAGTTGATCTGTTTACTCGCCAGATATGCTCATCAGAAGTTGATTGGAGCTATGCAGAGCCAACGGAGATGCTAACCACTGCTGAAGATTGTGATGGCGATGAAACCGGGGAAAGCAGCGGAGCATATATCATTAGGATACCGTTTGGTCCACGGGATAAGTACTTAAACAAAGAGATTCTCTGGCCGTTTGTCCAAGAGTTTGTTGATGGAGCTTTAGCTCACATTCTAAACATGTCAAAAGTTTTGGGAGAGCAGATTGGGAAGGGGAAGCCTGTGTGGCCATATGTGATTCATGGACATTACGCGGATGCAGGGGATAGTGCCGCTCTGCTTTCTGGTGCGTTGAACGTTCCTATGGTCCTGACGGGTCATTCTCTAGGAAGAAACAAGCTTGAGCAGCTTTTGAAACAAGGGAGGCAATCAAAGGAGGATATAAATTCCACATATAAGATCAAGAGGAGGATCGAGGCCGAGGAGCTATCTCTGGATGCTGCAGAGCTTGTTATAACAAGCACGAGGCAGGAGATTGATGAACAGTGGGGACTTTATGATGGGTTCGATGTAAAACTCGAGAAAGTCTTGAGAGCTCGTGCTAGACGCGGTGTTAATTGCCACGGAAGGTTCATGCCAAGAATGGCGGTTATTCCTCCGGGGATGGATTTCACAAACGTTGAGGTTCAAGAAGATACACCTGAGGGTGATGGAGATTTAGCTTCCTTAGTAGGAGGAACCGAGGGATCTTCTCCTAAAGCGGTTCCAACTATCTGGTCTGAAGTTATGAGGTTTTTTACAAATCCTCACAAACCTATGATCTTGGCATTATCTAGACCAGACCCAAAGAAGAACATAACCACTCTTCTGAAAGCCTTTGGCGAATGTCGGCCTCTACGGGAGCTAGCTAATCTCACTTTGATTATGGGAAATCGAGATGATATAGATGAGTTGTCATCTGGAAACGCTAGCGTTCTTACAACCGTCTTGAAACTCATCGACAAATATGATCTTTACGGGTCTGTCGCATATCCAAAGCATCATAAACAGTCTGATGTTCCTGATATATACCGACTTGCTGCAAATACAAAGGGTGTTTTCATAAATCCAGCTTTGGTTGAGCCTTTTGGCCTTACACTCATTGAGGCTGCAGCTCACGGACTTCCGATGGTAGCAACAAAGAATGGAGGACCAGTTGATATTCATAGGGCATTGCACAACGGTTTGCTTGTGGATCCACACGATCAAGAAGCGATAGCGAATGCGTTGTTGAAGCTGGTATCTGAGAAGAATTTATGGCATGAGTGCAGGATTAACGGTTGGAAGAACATTCACCTCTTCTCATGGCCTGAGCATTGCCGGACTTACCTTACACGTATAGCCGCGTGCCGTATGAGACATCCGCAGTGGCAGACAGATGCGGACGAAGTGGCTGCTCAAGACGATGAATTTTCACTCAACGACTCTCTTAAAGACGTTCAAGACATGTCTCTGAGACTCTCTATGGATGGAGATAAACCATCGTTGAACGGGTCTCTTGAACCGAATTCTGCTGATCCGGTTAAACAAATCATGAGCCGGATGAGGACACCTGAAATCAAGAGTAAACCAGAATTACAGGGGAAGAAACAAAGTGATAACTTGGGTAGCAAGTATCCGGTTTTGAGGCGACGGGAACGGTTGGTGGTTTTAGCGGTTGATTGCTATGACAATGAGGGAGCTCCGGATGAGAAAGCAATGGTTCCGATGATTCAGAATATCATCAAAGCCGTGCGATCGGATCCACAGATGGCTAAAAACTCTGGTTTTGCGATTTCCACTTCTATGCCGCTTGATGAATTAACTCGCTTCTTGAAGTCTGCCAAGATTCAGGTGAGTGAGTTCGACACATTAATATGCAGCAGCGGGAGCGAAGTGTATTATCCAGGAGGGGAAGAGGGAAAGCTTCTTCCGGATCCTGACTATTCCTCGCATATCGATTACCGATGGGGCATGGAAGGGCTTAAGAACACGGTGTGGAAACTGATGAACACTACTGCTGTTGGTGGTGAGGCAAGAAACAAGGGCTCTCCAAGTCTTATTCAAGAGGATCAGGCATCTAGCAATTCCCATTGCGTTGCATATATGATCAAAGATCGTTCCAAGGTGATGAGAGTAGATGACTTACGTCAGAAGTTACGACTAAGAGGCCTTCGTTGCCATCCAATGTATTGTCGGAATTCAACGAGAATGCAGATCGTTCCTCTTCTTGCTTCTCGATCTCAAGCTCTCAGGTACTTGTTCGTGCGGTGGAGGCTAAATGTGGCGAACATGTACGTGGTGGTTGGAGATCGTGGCGATACGGACTATGAGGAATTGATATCCGGCACACACAAGACTGTTATCGTCAAGGGGCTCGTCACATTGGGTTCTGATGCTCTTCTCCGGTCAACAGACCTCCGAGACGACATCGTTCCATCAGAGAGTCCTTTTATCGGTTTTCTCAAGGTTGATTCACCGGTTAAGGAGATAACCGACATTTTTAAGCAGCTCTCGAAAGCCACTGCTTGA
Protein Sequence
- >AT1G04920.1
MAGNEWINGYLEAILDSQAQGIEETQQKPQASVNLREGDGQYFNPTKYFVEEVVTGVDETDLHRTWLKVVATRNSRERNSRLENMCWRIWHLTRKKKQLEWEDSQRIANRRLEREQGRRDATEDLSEDLSEGEKGDGLGEIVQPETPRRQLQRNLSNLEIWSDDKKENRLYVVLISLHGLVRGENMELGSDSDTGGQVKYVVELARALARMPGVYRVDLFTRQICSSEVDWSYAEPTEMLTTAEDCDGDETGESSGAYIIRIPFGPRDKYLNKEILWPFVQEFVDGALAHILNMSKVLGEQIGKGKPVWPYVIHGHYADAGDSAALLSGALNVPMVLTGHSLGRNKLEQLLKQGRQSKEDINSTYKIKRRIEAEELSLDAAELVITSTRQEIDEQWGLYDGFDVKLEKVLRARARRGVNCHGRFMPRMAVIPPGMDFTNVEVQEDTPEGDGDLASLVGGTEGSSPKAVPTIWSEVMRFFTNPHKPMILALSRPDPKKNITTLLKAFGECRPLRELANLTLIMGNRDDIDELSSGNASVLTTVLKLIDKYDLYGSVAYPKHHKQSDVPDIYRLAANTKGVFINPALVEPFGLTLIEAAAHGLPMVATKNGGPVDIHRALHNGLLVDPHDQEAIANALLKLVSEKNLWHECRINGWKNIHLFSWPEHCRTYLTRIAACRMRHPQWQTDADEVAAQDDEFSLNDSLKDVQDMSLRLSMDGDKPSLNGSLEPNSADPVKQIMSRMRTPEIKSKPELQGKKQSDNLGSKYPVLRRRERLVVLAVDCYDNEGAPDEKAMVPMIQNIIKAVRSDPQMAKNSGFAISTSMPLDELTRFLKSAKIQVSEFDTLICSSGSEVYYPGGEEGKLLPDPDYSSHIDYRWGMEGLKNTVWKLMNTTAVGGEARNKGSPSLIQEDQASSNSHCVAYMIKDRSKVMRVDDLRQKLRLRGLRCHPMYCRNSTRMQIVPLLASRSQALRYLFVRWRLNVANMYVVVGDRGDTDYEELISGTHKTVIVKGLVTLGSDALLRSTDLRDDIVPSESPFIGFLKVDSPVKEITDIFKQLSKATA