Gene Details:
- Gene ID: AT4G31610
- Gene Symbol: ATREM1, REM1, REM34
- Gene Name: REPRODUCTIVE MERISTEM 1, REPRODUCTIVE MERISTEM 1, REPRODUCTIVE MERISTEM 34
- Description: Transcriptional factor B3 family protein;(source:Araport11)
- TAIR Accession:
- 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: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:0009052 — inflorescence flower pedicel — 小花柄 (Japanese, related), pedicelo (Spanish, broad)
- 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)
Germplasm Phenotype:
- rem34-1 — early flowering under LD
Function-related keywords:
- shoot axis apex , plant embryo , sepal , flower , inflorescence flower pedicel , collective leaf structure
Literature:
- Analysis of the arabidopsis REM gene family predicts functions during flower development. DOI: 10.1093/aob/mcu124 ; PMID: 25002525
- Assessing the role of REM13, REM34 and REM46 during the transition to the reproductive phase in Arabidopsis thaliana. DOI: 10.1007/s11103-023-01357-1 ; PMID: 37171544
Sequences:
cDNA Sequence
- >AT4G31610.2
ACATATTCCATTTAACCAATGTGAAAGATTCACATCACCTTTTTCGATTTTTAATAGATTCGGTTTTACCTTCTCGTAACGTAATTCTAAGAAAAGAAAACGTCAATCATATTTACTAGGAAAGATAATTATAATTTATTGCTTTTTCTCTCACTCTCTGACCTGAAATCTCCTACTGAGATTTTTGAAGTGTATTCAACAATGGCGGATCCACCACATTTCTCTCTGTTTCAGCAAAAATTTCGTACCGGAGACAAACCATTTCTCACTCTTGATGCTGACTTCTTAATGAATCACACGAAAGTGTTACTAAAATCGGATGCTTCAGACAAAGTTTGGAAAGTGAAACTGGACGGCGGTAGGCTCTCCGAAGGCTGGGAAGAGTTCGCCTGCGACCAGAAATTCAGAGACGGTGACGTTTTGGTTTTCAAACATCATGGAGACGAGGTCTTTCATGTAGCTGTGGTGTCCCCATCTGTTTCCGGCGACATACGTAACGCATCTTCTAGCCAAGTTATTACGGAAGATACTTATATTGATGTTGACGATGTTGATGATGATGATTATGGACAAGACGACGAAGATGATGATGATGATGATGATGAGGGCGAGGATAATATAGATTGTTGTGATTCAGAGAACATATCGGAGAAGACGGATAAAAGACAAGAAGCAGATTCTTCATCAGACCACTCAGGTTTCATCACAGCACGTGTCACTCGTTATAGCCTCCTTCATGACCGTTTGGATCTTTCTAGAAATTTTACGTTGTTGTTTGGTGGGCACCAAAAAACATGTGAGATCGATGTAGTGGATGAGCAAGGGAGAAGATGGACAATGAAACTTGCCAAAAACATCTCAAGTGGTGTGTTTTACATCAGACTAGGCTGGGGAAACTTCTGCTGCGCTAATGGGCTAACTCAAGGAGACTTATGTAAGTTTAAACTTTTCCAAAATGAGGAAAGGCCTGTGCTTTGGTTGTGTCCACAGGAATCTGGCAATGGCCGTAAAGAGAAGAGGACGTTTGATGAAGTTTCCAAAGGAAAGGAGAAGAAGACCCCTTCACCATTTCTGATAGTAAAGTATACACCTAGCCGTGAGACTACCGGGCAACTATCACTTCCAGTGAGTTTCACGAGGAACAATAGCATTAATAAGACTGGGGAGGTAATTCTGCTGAACCAAGATGGAAGAAAGTGGTCATCTTATCTACAGATAACAGGACTTGGAAGAGGCGCCGGAAGTGAATGGTTTTATTTGAGAAGAGGTTGGAGAGAGATGTGCGAAGCGAATGGAGTGGGAGTAAATGATTCTTTCAAGCTGGAACTGGTGTGGGAAGGAGCTAATCCTATGTTTAAGTTCTGCTCCAAGATTGAAAACCATGAATACAAGGGAAAAGGAAACCAAAGAACTCGTAAGAAGAGAGCTTGTGAGACTGCTCCACAGCCAAGGAATGTGAAAAAGACTCCAAGATTAGGAGTAGAGGGACCAGTGTATCAAGTTGATGAGGAGAGAGGACACACTCAGGTTTCAAACAGAACCAACACCATCTCAGGAAATTTACAGCGCTTGCTACCACCATCGTGCTCAGTCTCCGATCAGGTGGCTAATGTGAAACAGGGCATTGTAGATAGTCTGAACACTGTGAGACAATGTCGGACTGAGCTTGAGACAAGTGAACAAAATCTGCAAGCCTCTTTGCTAGCAATTGACGCCTTAGGGGAGAGGATATGGGGAATCAGCAAAATCCTCAGCAGTAATCTGGTTTGAAGTGAGACTGAAGATGGGGAAAGAAACAAAGAGTGATTTTCACTAAACTAGGTTTATTCTGTATTTGAGACTTGCAAGTTTTAGAGACTGTACTTAAAAGTTTGTAGTTTGGAAGGGCCTTCTTCAGTTGTATCAGCAATTTGGACTACTTCACTATATCGCTGAGAAACTAGTAATATTGTAATGCATTGTGAGTTTCAACTTTTGTTGTATTAGTGATATTGTAATGTTATTTGGTTTTGACATATTTTAT - >AT4G31610.1
ACATATTCCATTTAACCAATGTGAAAGATTCACATCACCTTTTTCGATTTTTAATAGATTCGGTTTTACCTTCTCGTAACGTAATTCTAAGAAAAGAAAACGTCAATCATATTTACTAGGAAAGATAATTATAATTTATTGCTTTTTCTCTCACTCTCTGACCTGAAATCTCCTACTGAGATTTTTGAAGTGTATTCAACAATGGCGGATCCACCACATTTCTCTCTGTTTCAGCAAAAATTTCGTACCGGAGACAAACCATTTCTCACTCTTGATGCTGACTTCTTAATGAATCACACGAAAGTGTTACTAAAATCGGATGCTTCAGACAAAGTTTGGAAAGTGAAACTGGACGGCGGTAGGCTCTCCGAAGGCTGGGAAGAGTTCGCCTGCGACCAGAAATTCAGAGACGGTGACGTTTTGGTTTTCAAACATCATGGAGACGAGGTCTTTCATGTAGCTGTGGTGTCCCCATCTGTTTCCGGCGACATACGTAACGCATCTTCTAGCCAAGTTATTACGGAAGATACTTATATTGATGTTGACGATGTTGATGATGATGATTATGGACAAGACGACGAAGATGATGATGATGATGATGATGAGGGCGAGGATAATATAGATTGTTGTGATTCAGAGAACATATCGGAGAAGACGGATAAAAGACAAGAAGCAGATTCTTCATCAGACCACTCAGGTTTCATCACAGCACGTGTCACTCGTTATAGCCTCCTTCATGACCGTTTGGATCTTTCTAGAAATTTTACGTTGTTGTTTGGTGGGCACCAAAAAACATGTGAGATCGATGTAGTGGATGAGCAAGGGAGAAGATGGACAATGAAACTTGCCAAAAACATCTCAAGTGGTGTGTTTTACATCAGACTAGGCTGGGGAAACTTCTGCTGCGCTAATGGGCTAACTCAAGGAGACTTATGTAAGTTTAAACTTTTCCAAAATGAGGAAAGGCCTGTGCTTTGGTTGTGTCCACAGGAATCTGGCAATGGCCGTAAAGAGAAGAGGACGTTTGATGAAGTTTCCAAAGGAAAGGAGAAGAAGACCCCTTCACCATTTCTGATAGTAAAGTATACACCTAGCCGTGAGACTACCGGGCAACTATCACTTCCAGTGAGTTTCACGAGGAACAATAGCATTAATAAGACTGGGGAGGTAATTCTGCTGAACCAAGATGGAAGAAAGTGGTCATCTTATCTACAGATAACAGGACTTGGAAGAGGCGCCGGAAGTGAATGGTTTTATTTGAGAAGAGGTTGGAGAGAGATGTGCGAAGCGAATGGAGTGGGAGTAAATGATTCTTTCAAGCTGGAACTGGTGTGGGAAGGAGCTAATCCTATGTTTAAGTTCTGCTCCAAGATTGAAAACCATGAATACAAGGGAAAAGGAAACCAAAGAACTCGTAAGAAGAGAGCTTGTGAGACTGCTCCACAGCCAAGGAATGTGAAAAAGACTCCAAGATTAGGAGTAGAGGGACCAGTGTATCAAGTTGATGAGGAGAGAGGACACACTCAGGTTTCAAACAGAACCAACACCATCTCAGGAAATTTACAGCGCTTGCTACCACCATCGTGCTCAGTCTCCGATCAGGTGGCTAATGTGAAACAGGGCATTGTAGATAGTCTGAACACTGTGAGACAATGTCGGACTGAGCTTGAGACAAGTGAACAAAATCTGCAAGCCTCTTTGCTAGCAATTGACGCCTTAGGGGAGAGGATATGGGGAATCAGCAAAATCCTCAGCAGTAATCTGGTTTGAAGTGAGACTGAAGATGGGGAAAGAAACAAAGAGTGATTTTCACTAAACTAGGTTTATTCTGTATTTGAGACTTGCAAGTTTTAGAGACTGTACTTAAAAGTTTGTAGTTTGGAAGGGCCTTCTTCAGTTGTATCAGCAATTTGGACTACTTCACTATATCGCTGAGAAACTAGTAATATTGTAATGCATTGTGAGTTTCAACTTTTGTTGTATTAGTGATATTGTAATGTTATTTGGTTTTGACATATTTTAT
CDS Sequence
Protein Sequence