Gene Details:
- Gene ID: AT5G07530
- Gene Symbol: ATGRP-7, ATGRP17, GRP17
- Gene Name: ARABIDOPSIS THALIANA GLYCINE RICH PROTEIN 7, ARABIDOPSIS THALIANA GLYCINE RICH PROTEIN 17, glycine rich protein 17
- Description: glycine rich protein 17;(source:Araport11)
- TAIR Accession:
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- 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)
Function-related keywords:
Literature:
- Gene families from the Arabidopsis thaliana pollen coat proteome. DOI: 10.1126/science.1060972 ; PMID: 11431566
- A novel group of oleosins is present inside the pollen of Arabidopsis. DOI: 10.1074/jbc.M109298200 ; PMID: 11929861
- Inactivation of the chloroplast ATP synthase gamma subunit results in high non-photochemical fluorescence quenching and altered nuclear gene expression in Arabidopsis thaliana. DOI: 10.1074/jbc.M308435200 ; PMID: 14576160
- Genome-wide analysis of spatial gene expression in Arabidopsis flowers. DOI: 10.1105/tpc.021741 ; PMID: 15100403
- The Arabidopsis SDG4 contributes to the regulation of pollen tube growth by methylation of histone H3 lysines 4 and 36 in mature pollen. DOI: 10.1016/j.ydbio.2007.12.016 ; PMID: 18252252
- An extensive (co-)expression analysis tool for the cytochrome P450 superfamily in Arabidopsis thaliana. DOI: 10.1186/1471-2229-8-47 ; PMID: 18433503
- The extracellular lipase EXL4 is required for efficient hydration of Arabidopsis pollen. DOI: 10.1007/s00497-009-0104-5 ; PMID: 20033440
- Acyl-lipid metabolism. DOI: 10.1199/tab.0161 ; PMID: 23505340
- MS1, a direct target of MS188, regulates the expression of key sporophytic pollen coat protein genes in Arabidopsis. DOI: 10.1093/jxb/eraa219 ; PMID: 32374882
- Global Quantitative Proteomics Studies Revealed Tissue-Preferential Expression and Phosphorylation of Regulatory Proteins in Arabidopsis. DOI: 10.3390/ijms21176116 ; PMID: 32854314
- Analysis of Arabidopsis floral transcriptome: detection of new florally expressed genes and expansion of Brassicaceae-specific gene families. DOI: 10.3389/fpls.2014.00802 ; PMID: 25653662
Sequences:
cDNA Sequence
- >AT5G07530.3
CACCAAAACACAACAATCCGATCAGAAAATATGAGCGAAGAACTAAGTCAAAAGCCATCATCAGCTCAGTCTCTGTCACTGAGAGAGGGCAGAAATAGGTTTCCTTTTCTGTCCCTGTCACAGAGAGAGGGCAGATTTTTTCCTTCTCTATCTCTTTCAGAGAGAGATGGAAGAAAGTTTTCTTTTCTCAGTATGTTCTCTTTTCTCATGCCACTGTTGGAGGTTATTAAGATTATTATTGCTTCTGTGGCCTCCGTAATCTTCGTCGGTTTCGCCTGTGTAACCCTCGCTGGTTCTGCCGCAGCATTAGTCGTAAGCACCCCGGTTTTCATCATATTTAGTCCTGTTCTCGTACCAGCTACGATAGCCACGGTTGTCTTGGCGACAGGATTCACGGCCGGTGGCTCTTTTGGAGCGACAGCACTTGGTCTCATCATGTGGCTTGTTAAACGTAGGATGGGAGTAAAGCCGAAGGATAATCCACCTCCGGCAGGACTTCCACCGAATTCGGGAGCAGGAGCAGGAGGAGCTCAAAGTCTGATCAAAAAGTCAAAGGCAAAGTCTAAAGGTGGGCTTAAGGCTTGGTGTAAGAAGATGTTAAAAAGTAAATTCGGTGGTAAAAAAGGCAAGTCCGGGGGTGGAAAAAGTAAATTTGGAGGTAAAGGCGGTAAGTCCGAAGGTGAAGAAGGTATGTCGTCTGGGGATGAAGGTATGTCTGGAAGTGAAGGAGGTATGTCCGGAGGTGAAGGAGGTAAATCCAAAAGTGGAAAAGGTAAACTCAAAGCTAAACTCGAAAAGAAAAAAGGTATGTCCGGAGGGTCCGAGAGTGAAGAAGGTATGTCTGGAAGTGAAGGAGGTATGTCTGGTGGTGGAGGAAGTAAATCCAAAAGTAAAAAAAGTAAACTCAAAGCTAAATTGGGAAAGAAAAAAGGTATGTCCGGAGGCATGTCAGGAAGTGAAGAAGGTATGTCTGGAAGTGAAGGAGGTATGTCCAGTGGTGGAGGAAGTAAATCCAAAAGTAAAAAAAGTAAACTCAAAGCTAAATTGGGAAAGAAAAAAAGTATGTCCGGAGGCATGTCAGGAAGTGAAGAAGGTATGTCTGGAAGTGAAGGAGGTATGTCCGGAGGTGGAGGAGGCATGTCAGGAAGTGAAGGAGGTATGTCTCGAAGTGAAGGAGGTATATCCGGAGGTGGTATGTCTGGGGGCAGTGGAAGTAAACACAAAATTGGAGGAGGTAAACACGGAGGTCTTGGAGGTAAATTCGGAAAGAAAAGAGGCATGTCCGGAAGTGGAGGAGGCATGTCAGGAAGTGAAGGAGGTGTGTCTGGAAGTGAAGGAAGTATGTCCGGAGGTGGTATGTCTGGGGGTAGCGGAAGTAAACACAAAATTGGAGGAGGTAAACACGGAGGTCTTAGAGGTAAATTCGGAAAGAAAAGAGGTATGTCAGGAAGTGAAGGAGGTATGTCTGGAAGTGAAGGAGGTATGTCGGAAAGTGGTATGTCCGGGAGTGGAGGGGGTAAACACAAAATCGGAGGAGGTAAACACAAATTTGGAGGAGGTAAACACGGAGGTGGAGGTGGCCACATGGCGGAGTAAAGAACAATGGTCAAGTTGTTCCAACATTAAGCAGATCATTGTGCATTAGTTCAAGATTGTATGATTGGGAAAGTAAAAGAAAGAAAAAAATATTTTCTAATAAGTTTTATGTTTATATGTAATGTTGAATCTGATTATTATGATAAAAAGACATAAATGTGATACAATGTTTATTTTAAGAACAATAATAATGTGGCAACAGTTTTAGTCCATTCTGTAGTAGAATTGCTTCTGTTATTCAATTGTACGTAAGCATAGTTTTATAGTTAAAATGAATATAAAGAGGATGTTTCCCTA - >AT5G07530.1
CACCAAAACACAACAATCCGATCAGAAAATATGAGCGAAGAACTAAGTCAAAAGCCATCATCAGCTCAGTCTCTGTCACTGAGAGAGGGCAGAAATAGGTTTCCTTTTCTGTCCCTGTCACAGAGAGAGGGCAGATTTTTTCCTTCTCTATCTCTTTCAGAGAGAGATGGAAGAAAGTTTTCTTTTCTCAGTATGTTCTCTTTTCTCATGCCACTGTTGGAGGTTATTAAGATTATTATTGCTTCTGTGGCCTCCGTAATCTTCGTCGGTTTCGCCTGTGTAACCCTCGCTGGTTCTGCCGCAGCATTAGTCGTAAGCACCCCGGTTTTCATCATATTTAGTCCTGTTCTCGTACCAGCTACGATAGCCACGGTTGTCTTGGCGACAGGATTCACGGCCGGTGGCTCTTTTGGAGCGACAGCACTTGGTCTCATCATGTGGCTTGTTAAACGTAGGATGGGAGTAAAGCCGAAGGATAATCCACCTCCGGCAGGACTTCCACCGAATTCGGGAGCAGGAGCAGGAGGAGCTCAAAGTCTGATCAAAAAGTCAAAGGCAAAGTCTAAAGGTGGGCTTAAGGCTTGGTGTAAGAAGATGTTAAAAAGTAAATTCGGTGGTAAAAAAGGCAAGTCCGGGGGTGGAAAAAGTAAATTTGGAGGTAAAGGCGGTAAGTCCGAAGGTGAAGAAGGTATGTCGTCTGGGGATGAAGGTATGTCTGGAAGTGAAGGAGGTATGTCCGGAGGTGAAGGAGGTAAATCCAAAAGTGGAAAAGGTAAACTCAAAGCTAAACTCGAAAAGAAAAAAGGTATGTCCGGAGGGTCCGAGAGTGAAGAAGGTATGTCTGGAAGTGAAGGAGGTATGTCTGGTGGTGGAGGAAGTAAATCCAAAAGTAAAAAAAGTAAACTCAAAGCTAAATTGGGAAAGAAAAAAGGTATGTCCGGAGGCATGTCAGGAAGTGAAGAAGGTATGTCTGGAAGTGAAGGAGGTATGTCCAGTGGTGGAGGAAGTAAATCCAAAAGTAAAAAAAGTAAACTCAAAGCTAAATTGGGAAAGAAAAAAAGTATGTCCGGAGGCATGTCAGGAAGTGAAGAAGGTATGTCTGGAAGTGAAGGAGGTATGTCCGGAGGTGGAGGAGGCATGTCAGGAAGTGAAGGAGGTATGTCTCGAAGTGAAGGAGGTATATCCGGAGGTGGTATGTCTGGGGGCAGTGGAAGTAAACACAAAATTGGAGGAGGTAAACACGGAGGTCTTGGAGGTAAATTCGGAAAGAAAAGAGGCATGTCCGGAAGTGGAGGAGGCATGTCAGGAAGTGAAGGAGGTGTGTCTGGAAGTGAAGGAAGTATGTCCGGAGGTGGTATGTCTGGGGGTAGCGGAAGTAAACACAAAATTGGAGGAGGTAAACACGGAGGTCTTAGAGGTAAATTCGGAAAGAAAAGAGGTATGTCAGGAAGTGAAGGAGGTATGTCTGGAAGTGAAGGAGGTATGTCGGAAAGTGGTATGTCCGGGAGTGGAGGGGGTAAACACAAAATCGGAGGAGGTAAACACAAATTTGGAGGAGGTAAACACGGAGGTGGAGGTGGCCACATGGCGGAGTAAAGAACAATGGTCAAGTTGTTCCAACATTAAGCAGATCATTGTGCATTAGTTCAAGATTGTATGATTGGGAAAGTAAAAGAAAGAAAAAAATATTTTCTAATAAGTTTTATGTTTATATGTAATGTTGAATCTGATTATTATGATAAAAAGACATAAATGTGATACAATGTTTATTTTAAGAACAATAATAATGTGGCAACAGTTTTAGTCCATTCTGTAGTAGAATTGCTTCTGTTATTCAATTGTACGTAAGCATAGTTTTATAGTTAAAATGAATATAAAGAGGATGTTTCCCTA - >AT5G07530.2
CACCAAAACACAACAATCCGATCAGAAAATATGAGCGAAGAACTAAGTCAAAAGCCATCATCAGCTCAGTCTCTGTCACTGAGAGAGGGCAGAAATAGGTTTCCTTTTCTGTCCCTGTCACAGAGAGAGGGCAGATTTTTTCCTTCTCTATCTCTTTCAGAGAGAGATGGAAGAAAGTTTTCTTTTCTCAGTATGTTCTCTTTTCTCATGCCACTGTTGGAGGTTATTAAGATTATTATTGCTTCTGTGGCCTCCGTAATCTTCGTCGGTTTCGCCTGTGTAACCCTCGCTGGTTCTGCCGCAGCATTAGTCGTAAGCACCCCGGTTTTCATCATATTTAGTCCTGTTCTCGTACCAGCTACGATAGCCACGGTTGTCTTGGCGACAGGATTCACGGCCGGTGGCTCTTTTGGAGCGACAGCACTTGGTCTCATCATGTGGCTTGTTAAACGTAGGATGGGAGTAAAGCCGAAGGATAATCCACCTCCGGCAGGACTTCCACCGAATTCGGGAGCAGGAGCAGGAGGAGCTCAAAGTCTGATCAAAAAGTCAAAGGCAAAGTCTAAAGGTGGGCTTAAGGCTTGGTGTAAGAAGATGTTAAAAAGTAAATTCGGTGGTAAAAAAGGCAAGTCCGGGGGTGGAAAAAGTAAATTTGGAGGTAAAGGCGGTAAGTCCGAAGGTGAAGAAGGTATGTCGTCTGGGGATGAAGGTATGTCTGGAAGTGAAGGAGGTATGTCCGGAGGTGAAGGAGGTAAATCCAAAAGTGGAAAAGGTAAACTCAAAGCTAAACTCGAAAAGAAAAAAGGTATGTCCGGAGGGTCCGAGAGTGAAGAAGGTATGTCTGGAAGTGAAGGAGGTATGTCTGGTGGTGGAGGAAGTAAATCCAAAAGTAAAAAAAGTAAACTCAAAGCTAAATTGGGAAAGAAAAAAGGTATGTCCGGAGGCATGTCAGGAAGTGAAGAAGGTATGTCTGGAAGTGAAGGAGGTATGTCCAGTGGTGGAGGAAGTAAATCCAAAAGTAAAAAAAGTAAACTCAAAGCTAAATTGGGAAAGAAAAAAAGTATGTCCGGAGGCATGTCAGGAAGTGAAGAAGGTATGTCTGGAAGTGAAGGAGGTATGTCCGGAGGTGGAGGAGGCATGTCAGGAAGTGAAGGAGGTATGTCTCGAAGTGAAGGAGGTATATCCGGAGGTGGTATGTCTGGGGGCAGTGGAAGTAAACACAAAATTGGAGGAGGTAAACACGGAGGTCTTGGAGGTAAATTCGGAAAGAAAAGAGGCATGTCCGGAAGTGGAGGAGGCATGTCAGGAAGTGAAGGAGGTGTGTCTGGAAGTGAAGGAAGTATGTCCGGAGGTGGTATGTCTGGGGGTAGCGGAAGTAAACACAAAATTGGAGGAGGTAAACACGGAGGTCTTAGAGGTAAATTCGGAAAGAAAAGAGGTATGTCAGGAAGTGAAGGAGGTATGTCTGGAAGTGAAGGAGGTATGTCGGAAAGTGGTATGTCCGGGAGTGGAGGGGGTAAACACAAAATCGGAGGAGGTAAACACAAATTTGGAGGAGGTAAACACGGAGGTGGAGGTGGCCACATGGCGGAGTAAAGAACAATGGTCAAGTTGTTCCAACATTAAGCAGATCATTGTGCATTAGTTCAAGATTGTATGATTGGGAAAGTAAAAGAAAGAAAAAAATATTTTCTAATAAGTTTTATGTTTATATGTAATGTTGAATCTGATTATTATGATAAAAAGACATAAATGTGATACAATGTTTATTTTAAGAACAATAATAATGTGGCAACAGTTTTAGTCCATTCTGTAGTAGAATTGCTTCTGTTATTCAATTGTACGTAAGCATAGTTTTATAGTTAAAATGAATATAAAGAGGATGTTTCCCTA
CDS Sequence
Protein Sequence