Gene Details:
- Gene ID: AT5G19740
- Gene Symbol: LAMP1
- Gene Name: LIKE AMP 1
- Description: Peptidase M28 family protein;(source:Araport11)
- TAIR Accession: locus:2183229
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0005773 — located in — vacuole
- GO:0010075 — acts upstream of or within — regulation of meristem growth
- GO:0004181 — enables — metallocarboxypeptidase activity
- GO:0004180 — enables — carboxypeptidase activity
- GO:0005886 — located in — plasma membrane
- GO:0005783 — located in — endoplasmic reticulum
- GO:0010073 — acts upstream of or within — meristem maintenance
Germplasm Phenotype:
- amp1 lamp1 cyp78a5,7 — Super-bushy dwarf plants with a massively increased leaf number. Sterile.
- cyp78a5-1/lamp1-2 — Increased shoot branching combined with a moderately higher leaf number.
Literature:
- The Arabidopsis AMP1 gene encodes a putative glutamate carboxypeptidase. DOI: 10.1105/tpc.010146 ; PMID: 11549767
- Isolation of intact vacuoles and proteomic analysis of tonoplast from suspension-cultured cells of Arabidopsis thaliana. DOI: 10.1093/pcp/pch099 ; PMID: 15215502
- The Maize Viviparous8 locus, encoding a putative ALTERED MERISTEM PROGRAM1-like peptidase, regulates abscisic acid accumulation and coordinates embryo and endosperm development. DOI: 10.1104/pp.107.114108 ; PMID: 18203869
- AMP1 and CYP78A5/7 act through a common pathway to govern cell fate maintenance in Arabidopsis thaliana. DOI: 10.1371/journal.pgen.1009043 ; PMID: 32960882
- Highly pleiotropic functions of CYP78As and AMP1 are regulated in non-cell-autonomous/organ-specific manners. DOI: 10.1093/plphys/kiab067 ; PMID: 33620479
- The Arabidopsis AMP1 gene encodes a putative glutamate carboxypeptidase. DOI: 10.1105/tpc.010146 ; PMID: 11549767
- Isolation of intact vacuoles and proteomic analysis of tonoplast from suspension-cultured cells of Arabidopsis thaliana. DOI: 10.1093/pcp/pch099 ; PMID: 15215502
Sequence:
cDNA Sequence
- >AT5G19740.1 AAAGTAAAAAGATTCCTCCGAAGATCAATAATTGGGAACATCAAATCCTTATCAGAAAAACAACAGCAAACAACCAACTCCATTGATGATTATCTAAGAAGAAGCCCCATTGATGTCGAAATCAAAATCTCTAGCCTTCGTAATCGCTGCTTTATCTTACTCCTTCTTCTCCCTCTTCTCTTCTCCACCAAAGTCTCACTACCACGAGCTCTTCATCTCCACTTCCTTCTCCGACAACGCTTCCGTCGCTCTAAACCTCCACACCCTCACGCGCCGCCCTCATGTAGCCGGTACAGTGGCCAACGCTGAAGCAGCGGAATATGTTCGCTCTGTTTTCACCTCCTCTGCTCTCAAATCACACGTCGTTGCTTACCAAGTGTCTCTAACTTACCCAGTTCATCGCTCTTTGGTACTAACGCCGACAGACTCTGCAAAGCCAATCACTTTCTTGCTGGAACAAGAAAAACTCGGAGACAATCCTTATGCTAATGAAGTGATGCCTACTTTTCATGGATACGCTAAGTCAGGTAACGTTTCAGGTCCAGTGGTTTATGCAAACTATGGACGAGTGGAAGATTTCGTGAGACTCAAGAAAGATATGGGCGTGAATGTCTCTGGAGCCGTTGTAATCGCGAGGTACGGTCAGATATACAGAGGAGACATTGTGAAGAACGCTTACGAGGCAGGAGCTGTAGGGGTTGTGATATATACTGATAAGAGAGATTACGGCGGAGATGAGTGGTTTCCGGCGAGTAAATGGATGCCACCGAGTGGGGTTCAAGTTGGTACTGTTTATAATGGGTTAGGTGATCCAACGACTCCTGGATGGGCAAGTGTTGATGGGTGTGAGAGATTATCGGACGAGGCGGTTGAATTGAGCGGTGATGTTCCGCTTATACCGTCGTTGCCTGTCTCAGCTGCTGATGCTGAAGTGATTCTGAAGACAGTTGTTGGAGATGTTTCTGATGGAGATGTTTATCCAGTGGGGCCTGGACCTGGGGTCTTGAACCTCAGCTACATTGGGGAAACTGTTATTGCCAAGATTGAGAATGTTATTGGAGTGATTGAAGGAGAAGAAGAGCCTGATAGATATGTGATTCTTGGGAACCATAGAGACGCTTGGACTTTTGGAGCTGTTGATCCGAACAGTGGCACTGCGGTACTTATGGAGATTGCACAAAGACTAGATAAGCTGCAGAAAAGAGGATGGAAGCCTCGAAGGACGATTATTCTGTGTAATTGGGATGCTGAGGAGTATGGCCTGATTGGGTCAACAGAATGGGTAGAAGAAAATAGAGAGATGTTAAGTTCGAGAGCAGTGGCCTACTTGAATGTAGATTGTGCGGTATCTGGCCCTGGATTTCATGCCTCTGCGACTCCACAACTAGATGAATTGATCAAAGTAGCTGCTCAAGAGGTCCGGGATCCAGATAACGCAACGCAAACAATCTATGAATCGTGGATAGGATCAAGCGACTCTGTTGTAATCAGGAGATTAGGGGGCGGAGGTTCGGATTATGCATCATTTGTACAACATGTTGGTGTTCCAGGAGTTGACATGTCCTTTGGACGAGGCTATCCAGTATATCACTCTATGTATGATGACTTCACTTGGATGGAAAAGTTTGGTGATCCGATGTTTCAGCGACATGTCGCAATGGCTAGTGTTCTTGGTTTGGTCGCTCTTCGGTTAGCAGATGAGGAAATTATACCATTCAACTATACTTCCTATGCATTAGAACTCAAGAAAAGCGCGGAAGATTTGGAGAATGAGAAGTTAGGACATAACATAGATGTTTCTACGTTGATCAAGTCGATAGAAGATCTATCTACGGCTGCAAAACATATATCCCTAGAGAAAGAGGCAATTAAAGGAGCTCTTAAAGTGAGAGAGCTTAATGACAGATTAATGATGGCAGAACGAGCTTTAACAGACCGAGATGGACTCTCTGAAAGACCATGGTACAAGCATTTGATATACGGACCATCGAAGTACGATGACTACGGATCGAAATCATTCCCTGGAGTTGATGATGCAATTGACAATGCAAAGAAGCTAAACACAAAAGCATCTTGGGAAAATGTTCAACACCAGATTTGGAGAGTCTCTAGAGCTATTAGACATGCTTCACTTGTTTTAAAAGGTGAACTGATATGAGATCAAGAATGCTCTTGTTGCTTCAGCACAATGATGTGAACATAATGAAGGCAGATAAGATTCTGTCACAAGTTTATTCAGTTTTGGTGTTTACATTTTGTAGTTCCTCTATTTCTTTTGCTTAAAATTTGTTTCTTTTGATTAAAGTTAAACCCTGAAACGCT
CDS Sequence
Protein Sequence