Gene Details:

  • Gene ID: AT4G32430
  • Gene Symbol: GRS1
  • Gene Name: Growing slowly 1
  • Description: Pentatricopeptide repeat (PPR) superfamily protein;(source:Araport11)
  • TAIR Accession: locus:2127801
  • Genome: Araport11_genome_release
  • Species: Arabidopsis thaliana

Transcripts:

Plant Ontology Annotations:

  • PO:0000037  — shoot axis apex — ápice del epiblasto (epiblastema) (Spanish, exact), シュート頂、茎頂 (Japanese, exact)
  • PO:0009009  — plant embryo — embrión (Spanish, exact), 植物胚 (Japanese, exact), germ (related), embryo (broad)
  • PO:0009029  — stamen — estambre (Spanish, exact), 雄蕊 (Japanese, exact), Poaceae stamen (narrow), Zea stamen (narrow)
  • PO:0009031  — sepal — sépalo (Spanish, exact), がく片 (Japanese, exact)
  • 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:0025022  — collective leaf structure — estructura colectiva de hoja (Spanish, exact), leaf series (exact), 葉が集まった構造 (Japanese, exact), leaf whorl (narrow), rosette (narrow), cycle (broad), verticil (broad)

Gene Ontology:

  • GO:0009451  — involved in — RNA modification
  • GO:1905639  — acts upstream of or within — positive regulation of mitochondrial mRNA catabolic process
  • GO:0005739  — located in — mitochondrion
  • GO:0003723  — enables — RNA binding
  • GO:0043231  — is active in — intracellular membrane-bounded organelle

Germplasm Phenotype:

  • grs1-1  — Homozygotes are slow growing and must be grown on MS media. They are sterile with defects in both male and female fertility.

Literature:

Sequences:

cDNA Sequence
  • >AT4G32430.2
    GGAAGCTTAAAAAGGAACAAAACACCAGCTTCTCCGTATTGCCCTCTAACTCAATCGTTATTTACAAGTTTACCCTCAAAACTCTCTTTTGCTCTGAAAATCTCTCTCTCTCTGTTCATCACCATTTCCCTCAGAAGCTAAAACCTCTCTTCTTCTCCGATATAAGTACACTTGTTGTCGAATTAGAATCCGACTAGTTTGCTTCTCATGACCCTTCTGAACTATCTACACTGTAATCGCTCAAAATCATTTCTTTTTCAGAGATTTTACTCTCCTTATAGAATTGCTCACAAGCTGTTCGATGGAAGTTCCCAAAGAAATGCGACAACTTCCATTAACCATTCAATCAGTGAATCCTTACGGAGAAATTCTCCGGCACGAGCTCTTTCGATCTTCAAGGAAAATCTCCAGCTGGGTTATTTTGGTCGTCATATGGACGAAGTTACTCTTTGTCTTGCGCTTAAAGCATGTCGTGGAGACTTGAAACGCGGCTGCCAAATCCACGGGTTTTCCACAACTTCTGGGTTCACTTCCTTTGTTTGTGTTTCAAACGCAGTAATGGGATGAAATCTGCTGGAGTAGTTTTTGACGCATTCACTTATTCCACTGCTCTTAGCTTCTGTGTGGGCTCTGAAGGATTTCTTTTAGGATTGCAGTTGCAGTCAACTGTGGTGAAAACCGGACTGGAGTCTGATCTTGTCGTTGGAAACTCGTTTATTACAATGTATTCGCGGTCTGGAAGTTTCAGAGGAGCTCGGAGAGTTTTTGATGAAATGTCGTTTAAGGATATGATTTCATGGAACTCTTTATTGTCAGGACTTTCTCAAGAAGGCACTTTCGGGTTTGAAGCAGTGGTTATCTTTAGGGACATGATGCGAGAAGGTGTGGAGCTTGATCACGTGTCTTTTACTAGCGTGATTACTACCTGTTGTCACGAAACTGACTTGAAGCTGGCCAGGCAAATTCATGGTTTGTGCATAAAAAGAGGTTATGAATCACTTTTAGAAGTTGGTAATATTTTGATGTCAAGGTACTCCAAGTGTGGGGTTTTGGAAGCTGTGAAATCAGTGTTTCACCAAATGAGTGAGCGGAATGTTGTCTCTTGGACAACAATGATTTCCTCGAATAAAGACGATGCTGTGTCCATCTTCCTTAATATGCGGTTTGATGGAGTTTACCCTAACGAGGTCACTTTTGTTGGATTAATCAATGCCGTGAAGTGCAATGAGCAAATCAAAGAAGGGCTTAAAATTCATGGGCTATGCATCAAGACAGGCTTTGTTTCAGAACCATCTGTAGGCAACAGTTTCATCACATTGTATGCCAAGTTTGAGGCTCTGGAAGATGCCAAGAAGGCTTTTGAGGATATAACTTTCCGGGAGATTATATCCTGGAATGCTATGATATCTGGATTTGCACAAAATGGATTCTCTCATGAAGCTCTCAAGATGTTCTTATCCGCAGCAGCAGAAACAATGCCGAATGAATACACTTTCGGAAGTGTCTTGAATGCAATAGCTTTTGCAGAGGATATATCTGTAAAGCAAGGTCAGCGTTGCCATGCTCATTTACTGAAATTGGGTTTGAATAGTTGTCCTGTTGTTTCAAGCGCGCTTCTTGATATGTACGCCAAGCGTGGGAACATTGATGAATCTGAGAAAGTCTTTAACGAGATGTCTCAAAAGAACCAATTTGTTTGGACATCGATAATATCAGCCTATTCAAGCCACGGTGATTTTGAAACCGTGATGAACTTGTTCCACAAGATGATTAAAGAAAACGTAGCACCAGACCTAGTCACTTTTCTCTCTGTGTTAACAGCTTGTAATAGAAAAGGAATGGTAGACAAGGGCTATGAGATTTTCAACATGATGATCGAAGTCTACAATCTTGAGCCGTCTCATGAGCATTACTCATGTATGGTTGATATGCTTGGCCGAGCTGGGAGATTGAAAGAAGCAGAAGAGCTTATGAGTGAGGTTCCTGGAGGACCAGGAGAGTCGATGCTTCAGAGCATGCTCGGGTCTTGTAGGCTGCACGGGAATGTGAAAATGGGAGCAAAAGTGGCTGAGCTTGCAATGGAAATGAAACCGGAACTGTCAGGTTCTTACGTTCAGATGTATAACATCTATGCAGAGAAAGAAGAGTGGGATAAAGCTGCAGAGATCAGGAAAGCAATGAGGAAGAAAAACGTAAGTAAAGAAGCTGGATTCAGTTGGATCGATGTTGGTGACACTGAAGGGTCTTTAACGATGCAAGGTTTCTCTTCAGGGGATAAGTCTCATCCAAAATCTGATGAGATTTATAGAATGGTGGAAATTATTGGATTGGAGATGAATTTGGAGGGGAAAGTTGCAGTTTAGGACTCTTACTCAAAGTTCTAAAGAGTTGTAGTTATAGATCAAAAATTAGAAATGTTAGCTATAGATTTACATGAACTCACTGAGTGTATGATTACTTTTATTTTTGCACCTACATACGTGCACATTGATTTTGTAAGGACCATGGTAAACCGGTAAAGCATGGTTCTCTGATTTTGACCTTATTGACCGGTTCGATTGATTAATCCAACGCTACGATCAAAA
  • >AT4G32430.1
    GGAAGCTTAAAAAGGAACAAAACACCAGCTTCTCCGTATTGCCCTCTAACTCAATCGTTATTTACAAGTTTACCCTCAAAACTCTCTTTTGCTCTGAAAATCTCTCTCTCTCTGTTCATCACCATTTCCCTCAGAAGCTAAAACCTCTCTTCTTCTCCGATATAAGTACACTTGTTGTCGAATTAGAATCCGACTAGTTTGCTTCTCATGACCCTTCTGAACTATCTACACTGTAATCGCTCAAAATCATTTCTTTTTCAGAGATTTTACTCTCCTTATAGAATTGCTCACAAGCTGTTCGATGGAAGTTCCCAAAGAAATGCGACAACTTCCATTAACCATTCAATCAGTGAATCCTTACGGAGAAATTCTCCGGCACGAGCTCTTTCGATCTTCAAGGAAAATCTCCAGCTGGGTTATTTTGGTCGTCATATGGACGAAGTTACTCTTTGTCTTGCGCTTAAAGCATGTCGTGGAGACTTGAAACGCGGCTGCCAAATCCACGGGTTTTCCACAACTTCTGGGTTCACTTCCTTTGTTTGTGTTTCAAACGCAGTAATGGGATGAAATCTGCTGGAGTAGTTTTTGACGCATTCACTTATTCCACTGCTCTTAGCTTCTGTGTGGGCTCTGAAGGATTTCTTTTAGGATTGCAGTTGCAGTCAACTGTGGTGAAAACCGGACTGGAGTCTGATCTTGTCGTTGGAAACTCGTTTATTACAATGTATTCGCGGTCTGGAAGTTTCAGAGGAGCTCGGAGAGTTTTTGATGAAATGTCGTTTAAGGATATGATTTCATGGAACTCTTTATTGTCAGGACTTTCTCAAGAAGGCACTTTCGGGTTTGAAGCAGTGGTTATCTTTAGGGACATGATGCGAGAAGGTGTGGAGCTTGATCACGTGTCTTTTACTAGCGTGATTACTACCTGTTGTCACGAAACTGACTTGAAGCTGGCCAGGCAAATTCATGGTTTGTGCATAAAAAGAGGTTATGAATCACTTTTAGAAGTTGGTAATATTTTGATGTCAAGGTACTCCAAGTGTGGGGTTTTGGAAGCTGTGAAATCAGTGTTTCACCAAATGAGTGAGCGGAATGTTGTCTCTTGGACAACAATGATTTCCTCGAATAAAGACGATGCTGTGTCCATCTTCCTTAATATGCGGTTTGATGGAGTTTACCCTAACGAGGTCACTTTTGTTGGATTAATCAATGCCGTGAAGTGCAATGAGCAAATCAAAGAAGGGCTTAAAATTCATGGGCTATGCATCAAGACAGGCTTTGTTTCAGAACCATCTGTAGGCAACAGTTTCATCACATTGTATGCCAAGTTTGAGGCTCTGGAAGATGCCAAGAAGGCTTTTGAGGATATAACTTTCCGGGAGATTATATCCTGGAATGCTATGATATCTGGATTTGCACAAAATGGATTCTCTCATGAAGCTCTCAAGATGTTCTTATCCGCAGCAGCAGAAACAATGCCGAATGAATACACTTTCGGAAGTGTCTTGAATGCAATAGCTTTTGCAGAGGATATATCTGTAAAGCAAGGTCAGCGTTGCCATGCTCATTTACTGAAATTGGGTTTGAATAGTTGTCCTGTTGTTTCAAGCGCGCTTCTTGATATGTACGCCAAGCGTGGGAACATTGATGAATCTGAGAAAGTCTTTAACGAGATGTCTCAAAAGAACCAATTTGTTTGGACATCGATAATATCAGCCTATTCAAGCCACGGTGATTTTGAAACCGTGATGAACTTGTTCCACAAGATGATTAAAGAAAACGTAGCACCAGACCTAGTCACTTTTCTCTCTGTGTTAACAGCTTGTAATAGAAAAGGAATGGTAGACAAGGGCTATGAGATTTTCAACATGATGATCGAAGTCTACAATCTTGAGCCGTCTCATGAGCATTACTCATGTATGGTTGATATGCTTGGCCGAGCTGGGAGATTGAAAGAAGCAGAAGAGCTTATGAGTGAGGTTCCTGGAGGACCAGGAGAGTCGATGCTTCAGAGCATGCTCGGGTCTTGTAGGCTGCACGGGAATGTGAAAATGGGAGCAAAAGTGGCTGAGCTTGCAATGGAAATGAAACCGGAACTGTCAGGTTCTTACGTTCAGATGTATAACATCTATGCAGAGAAAGAAGAGTGGGATAAAGCTGCAGAGATCAGGAAAGCAATGAGGAAGAAAAACGTAAGTAAAGAAGCTGGATTCAGTTGGATCGATGTTGGTGACACTGAAGGGTCTTTAACGATGCAAGGTTTCTCTTCAGGGGATAAGTCTCATCCAAAATCTGATGAGATTTATAGAATGGTGGAAATTATTGGATTGGAGATGAATTTGGAGGGGAAAGTTGCAGTTTAGGACTCTTACTCAAAGTTCTAAAGAGTTGTAGTTATAGATCAAAAATTAGAAATGTTAGCTATAGATTTACATGAACTCACTGAGTGTATGATTACTTTTATTTTTGCACCTACATACGTGCACATTGATTTTGTAAGGACCATGGTAAACCGGTAAAGCATGGTTCTCTGATTTTGACCTTATTGACCGGTTCGATTGATTAATCCAACGCTACGATCAAAA
CDS Sequence
Protein Sequence