Gene Details:
- Gene ID: AT3G20520
- Gene Symbol: GDPDL5, SVL3
- Gene Name: Glycerophosphodiester phosphodiesterase (GDPD) like 5, SHV3-like 3
- Description: SHV3-like 3;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- 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: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:0020003 — plant ovule — óvulo vegetal (Spanish, exact), 胚珠 (Japanese, exact), Poaceae ovule (narrow), Zea ovule (narrow)
Function-related keywords:
- fruit , flower , plant ovule
Literature:
- Prediction of glycosylphosphatidylinositol-anchored proteins in Arabidopsis. A genomic analysis. DOI: 10.1104/pp.010884 ; PMID: 12068095
- Identification of glycosylphosphatidylinositol-anchored proteins in Arabidopsis. A proteomic and genomic analysis. DOI: 10.1104/pp.103.021170 ; PMID: 12805588
- Dissecting salt stress pathways. DOI: 10.1093/jxb/erj098 ; PMID: 16510518
- The glycerophosphoryl diester phosphodiesterase-like proteins SHV3 and its homologs play important roles in cell wall organization. DOI: 10.1093/pcp/pcn120 ; PMID: 18718934
- Expression-based discovery of candidate ovule development regulators through transcriptional profiling of ovule mutants. DOI: 10.1186/1471-2229-9-29 ; PMID: 19291320
- Gibberellin acts through jasmonate to control the expression of MYB21, MYB24, and MYB57 to promote stamen filament growth in Arabidopsis. DOI: 10.1371/journal.pgen.1000440 ; PMID: 19325888
- Characterization of the Arabidopsis glycerophosphodiester phosphodiesterase (GDPD) family reveals a role of the plastid-localized AtGDPD1 in maintaining cellular phosphate homeostasis under phosphate starvation. DOI: 10.1111/j.1365-313X.2011.04538.x ; PMID: 21323773
- Identification of glycosylphosphatidylinositol-anchored proteins in Arabidopsis. A proteomic and genomic analysis. DOI: 10.1104/pp.103.021170 ; PMID: 12805588
Sequences:
cDNA Sequence
- >AT3G20520.1
CAATAATTCACTTATTCTTCACTCCATCTTCAGCAAAAAAAAAAAAAGTAAGAAGAAACACTGAAAGCTCTCCACTACCATGGCGTGTCCTAGAGTGATTTTTCTGATTCTGATCACGTTCTTCATTTTACAGACTGCTTTCTCAAGTTCTTGGCAAACATTGAGTGGGAAACCTCCGGCTGTGATTGCTCGAGGCGGATTCTCTGGTATGTTTCCAGATTCCAGTATTCAAGCATATCAGTTGGTGAATATAACAACTTCACCAGACGTAATGCTCTGGTGTGATCTTCAACTAACAAAGGATGGTGTTGGAATCTGCTTTCCAAATCTGAAGCTTGACAATGGTTCTAACGTCATAAGAATTGACCCACATTACAAAGAAAGGTTTTCTGTTGATTTCACATGGAAGGAACTCTCTGATGTGAAATTGGCACAGGGTGTTGTCTCAAGACCATATATATTCGATGATGTATCCTCGATATTGGCTATTGAAGAAGTAGCAAAGTTGACAGCTTCAGGCCTCTGGTTGAACATTCAGGACAGTGCTTTCTACGCAAAACACAATTTGAGTATGAGAAACTCTGTTGTCTCTCTATCAAGACGCCTGAAAGTTAACTTCATATCTTCTCCAGGGATCAGTTTCCTGAAGAGCATGAAAAACAGTGTCAAGCCGACTGTGACAAAACTCATCTTTAGGTTTCTGAAACAAGAACACATAGAACCCTTCACCAACCAATCTTACGGCTCTCTTGCCAAGAATCTAAGTTATATAAGAACGTTTTCTTCTGGAATTCTTGTTCCAAAATCTTACATATGGCCCGTAGATTCAGCTCTTTACCTACAACCCCACACGTCGCTTGTAACAGATGCTCATAAAGAAGGCTTACAAGTTTTCGCCTCGGAGTTTGCCAATGATTTTGTAATTGCTTATAACTACAGCTATGATCCAACGGCTGAGTATCTATCTTTCATTGACAACGGAAACTTCTCCGTTGATGGTTTCCTATCAGACTTCCCGGTGACTCCATATCGAGCCATCAATTGCTTCTCTCATGTGGACCCTAAAAGAGCTAAGGAGCAAGCTAAGATAACTATTATCTCGAAGAATGGAGCGAGTGGAGATTTCCCGGGCTGTACTGACTTGGCGTATCAGAGAGCTGCAAGCGACGGGGCTGATATTCTTGATTGCAATGTCCAGATGTCTAAAGACAAGATTCCCTTTTGTATGAGCTCCTTTGATCTTATAAACAGCACTAATGTCATCGAAACAAGCTTCAGAAATCTGTCATCAGTAGTTTCAGAGATTAACCCACGGAGAAGTGGTATCTACACTTTTAGCCTGACCATGTCTCAGATACAAACCTTGAAGCCCACTATTTCGAATCTTGAAAAGGACTCTGGTTTATTCAGAAACCCAAGAAACAACAAGGCTGGGAAGTTTCTTACATTATCCGAGTTCTTGTTTCTTCCAAACCGTTACAGCTCTCTCTTAGGCCTCTTGATAGAAGTGGAGAATGCAGCTTATTTAGTGGAACATCAAGGAATTAGCGTGGTCGATGCGGTACTAGATGAATTGAAGAGAGCTACTACTCAACAAAACAAGACAAGTGCAAGAACAATACTGATCCAGTCTACTGATAAGTCTGTCTTGATGAAGTTCAAGGAGAAGAACAAAATGAATCATGACGAGCTGGTCTATAGAGTCGACGACAACATCCGTGATGTAGCAGATTCGGCGATCAAAGACATCAAGAATTTCGCAGGCTCGATTGTCATCAGTAAGAAATCAGTCTTTCCCTACAAAGGGTTTATCATCCTTGAAAAGGAGACAAATATTGCTTCAAAGCTAAAATCAAACGGGCTTCGTGTTTACGTTGAAAGATTTAGCAACGAGTGTGTAACTCATGCATTTGACTTTTACGATGATCCAACGTTAGAGATAGACTCTTTTGTCCGCGATGTCCAAATTGATGGCATCATCACTGACTTCCCAGCAACCACTGCAAGATACAGAAAGAACAAGTGTTACGGCGAATTTGGTCTGACTACAACCGGTGAGCTCATAACTTTCGCGAATCCAATGCTTCTTCCACCAGCTGAAGCTCCATATCCAGCACTACTTGACTCAGATGTGACGGAACCACCATTGCCTGAAGCAAGAAGTCAGCCTCCTGCTTCTTCTCCATCAAAGGCAGAGGAAAAAGCAATAGAAGTTCCCTTTGCATTTATAGCCATGGCTATTCTTGTGTGCTTCTTCATTTCAGTTTAGTGATAAGTGTTTGTAACCGACTTCGACTGCAGTATCTGCAAGTGAACCTTATGAATAACAATGTCTAGTACTATATCATTCTTCTTTTTAAGGTTTCAATAAGATATCTAGAATTACAAATT
CDS Sequence
- >AT3G20520.1
ATGGCGTGTCCTAGAGTGATTTTTCTGATTCTGATCACGTTCTTCATTTTACAGACTGCTTTCTCAAGTTCTTGGCAAACATTGAGTGGGAAACCTCCGGCTGTGATTGCTCGAGGCGGATTCTCTGGTATGTTTCCAGATTCCAGTATTCAAGCATATCAGTTGGTGAATATAACAACTTCACCAGACGTAATGCTCTGGTGTGATCTTCAACTAACAAAGGATGGTGTTGGAATCTGCTTTCCAAATCTGAAGCTTGACAATGGTTCTAACGTCATAAGAATTGACCCACATTACAAAGAAAGGTTTTCTGTTGATTTCACATGGAAGGAACTCTCTGATGTGAAATTGGCACAGGGTGTTGTCTCAAGACCATATATATTCGATGATGTATCCTCGATATTGGCTATTGAAGAAGTAGCAAAGTTGACAGCTTCAGGCCTCTGGTTGAACATTCAGGACAGTGCTTTCTACGCAAAACACAATTTGAGTATGAGAAACTCTGTTGTCTCTCTATCAAGACGCCTGAAAGTTAACTTCATATCTTCTCCAGGGATCAGTTTCCTGAAGAGCATGAAAAACAGTGTCAAGCCGACTGTGACAAAACTCATCTTTAGGTTTCTGAAACAAGAACACATAGAACCCTTCACCAACCAATCTTACGGCTCTCTTGCCAAGAATCTAAGTTATATAAGAACGTTTTCTTCTGGAATTCTTGTTCCAAAATCTTACATATGGCCCGTAGATTCAGCTCTTTACCTACAACCCCACACGTCGCTTGTAACAGATGCTCATAAAGAAGGCTTACAAGTTTTCGCCTCGGAGTTTGCCAATGATTTTGTAATTGCTTATAACTACAGCTATGATCCAACGGCTGAGTATCTATCTTTCATTGACAACGGAAACTTCTCCGTTGATGGTTTCCTATCAGACTTCCCGGTGACTCCATATCGAGCCATCAATTGCTTCTCTCATGTGGACCCTAAAAGAGCTAAGGAGCAAGCTAAGATAACTATTATCTCGAAGAATGGAGCGAGTGGAGATTTCCCGGGCTGTACTGACTTGGCGTATCAGAGAGCTGCAAGCGACGGGGCTGATATTCTTGATTGCAATGTCCAGATGTCTAAAGACAAGATTCCCTTTTGTATGAGCTCCTTTGATCTTATAAACAGCACTAATGTCATCGAAACAAGCTTCAGAAATCTGTCATCAGTAGTTTCAGAGATTAACCCACGGAGAAGTGGTATCTACACTTTTAGCCTGACCATGTCTCAGATACAAACCTTGAAGCCCACTATTTCGAATCTTGAAAAGGACTCTGGTTTATTCAGAAACCCAAGAAACAACAAGGCTGGGAAGTTTCTTACATTATCCGAGTTCTTGTTTCTTCCAAACCGTTACAGCTCTCTCTTAGGCCTCTTGATAGAAGTGGAGAATGCAGCTTATTTAGTGGAACATCAAGGAATTAGCGTGGTCGATGCGGTACTAGATGAATTGAAGAGAGCTACTACTCAACAAAACAAGACAAGTGCAAGAACAATACTGATCCAGTCTACTGATAAGTCTGTCTTGATGAAGTTCAAGGAGAAGAACAAAATGAATCATGACGAGCTGGTCTATAGAGTCGACGACAACATCCGTGATGTAGCAGATTCGGCGATCAAAGACATCAAGAATTTCGCAGGCTCGATTGTCATCAGTAAGAAATCAGTCTTTCCCTACAAAGGGTTTATCATCCTTGAAAAGGAGACAAATATTGCTTCAAAGCTAAAATCAAACGGGCTTCGTGTTTACGTTGAAAGATTTAGCAACGAGTGTGTAACTCATGCATTTGACTTTTACGATGATCCAACGTTAGAGATAGACTCTTTTGTCCGCGATGTCCAAATTGATGGCATCATCACTGACTTCCCAGCAACCACTGCAAGATACAGAAAGAACAAGTGTTACGGCGAATTTGGTCTGACTACAACCGGTGAGCTCATAACTTTCGCGAATCCAATGCTTCTTCCACCAGCTGAAGCTCCATATCCAGCACTACTTGACTCAGATGTGACGGAACCACCATTGCCTGAAGCAAGAAGTCAGCCTCCTGCTTCTTCTCCATCAAAGGCAGAGGAAAAAGCAATAGAAGTTCCCTTTGCATTTATAGCCATGGCTATTCTTGTGTGCTTCTTCATTTCAGTTTAG
Protein Sequence
- >AT3G20520.1
MACPRVIFLILITFFILQTAFSSSWQTLSGKPPAVIARGGFSGMFPDSSIQAYQLVNITTSPDVMLWCDLQLTKDGVGICFPNLKLDNGSNVIRIDPHYKERFSVDFTWKELSDVKLAQGVVSRPYIFDDVSSILAIEEVAKLTASGLWLNIQDSAFYAKHNLSMRNSVVSLSRRLKVNFISSPGISFLKSMKNSVKPTVTKLIFRFLKQEHIEPFTNQSYGSLAKNLSYIRTFSSGILVPKSYIWPVDSALYLQPHTSLVTDAHKEGLQVFASEFANDFVIAYNYSYDPTAEYLSFIDNGNFSVDGFLSDFPVTPYRAINCFSHVDPKRAKEQAKITIISKNGASGDFPGCTDLAYQRAASDGADILDCNVQMSKDKIPFCMSSFDLINSTNVIETSFRNLSSVVSEINPRRSGIYTFSLTMSQIQTLKPTISNLEKDSGLFRNPRNNKAGKFLTLSEFLFLPNRYSSLLGLLIEVENAAYLVEHQGISVVDAVLDELKRATTQQNKTSARTILIQSTDKSVLMKFKEKNKMNHDELVYRVDDNIRDVADSAIKDIKNFAGSIVISKKSVFPYKGFIILEKETNIASKLKSNGLRVYVERFSNECVTHAFDFYDDPTLEIDSFVRDVQIDGIITDFPATTARYRKNKCYGEFGLTTTGELITFANPMLLPPAEAPYPALLDSDVTEPPLPEARSQPPASSPSKAEEKAIEVPFAFIAMAILVCFFISV