Gene Details:
- Gene ID: AT4G16380
- Gene Symbol: AtHMP35
- Gene Name: HEAVY METAL ASSOCIATED PROTEIN 35
- Description: Heavy metal transport/detoxification superfamily protein;(source:Araport11)
- TAIR Accession: locus:1006589875
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Gene Ontology:
- GO:0006082 — acts upstream of or within — organic acid metabolic process
- GO:0030154 — acts upstream of or within — cell differentiation
- GO:0005634 — located in — nucleus
- GO:0009059 — acts upstream of or within — macromolecule biosynthetic process
- GO:0002213 — acts upstream of or within — defense response to insect
- GO:0009723 — acts upstream of or within — response to ethylene
- GO:0019439 — acts upstream of or within — aromatic compound catabolic process
- GO:0044550 — acts upstream of or within — secondary metabolite biosynthetic process
- GO:1901575 — acts upstream of or within — organic substance catabolic process
- GO:0048589 — acts upstream of or within — developmental growth
- GO:0009506 — located in — plasmodesma
Literature:
- Endogenous Arabidopsis messenger RNAs transported to distant tissues. DOI: 10.1038/nplants.2015.25 ; PMID: 27247031
- Heavy Metal Stress-Associated Proteins in Rice and Arabidopsis: Genome-Wide Identification, Phylogenetics, Duplication, and Expression Profiles Analysis. DOI: 10.3389/fgene.2020.00477 ; PMID: 32457808
Sequences:
cDNA Sequence
- >AT4G16380.4
CTGCTAACATTTTTGTTTTTCTTTTAAAATCAAGAAAAAAGTTTTGATTAATCAAAATCGACGCCAACTAAAAACACGTGTCAAAACGTGGTTGGTGACAGTGGGATATGAGACTGTATTATAAAAAGCTACATTTCTCACCACCACCCAATCTCTCTCTCCCTTGAAGTAGACTCTAAGCTAAAGCCACCGTCAGATTTTCAGATCTCAGATCTCAGCTCTTCATTCGACGCCATGGCCGAGAAGGGCAAAGAAAAGGTAACTATGATGAAGTTGAAGGTGGATCTTGATTGTGCCAAATGTTACAAGAAAGTGAAGAAGGTTCTTTGCAAGTTCCCTCGTGAGTTACTTCTCTCTTTTTCTTAACTTTTTTTTGGTGAATTTGATTTTGATTGGTTTTGTTTGGAAATGGACTGAGTGGATTTACTTGTGTGATTGGGAACAAGAGAAATAAGAGACCAATTGTTCGATGAAAAGTCCAACATTGTTATCATCAAGGTGGTTTGCTGTAGTCCTGAGAGGATCATGGACAAACTCTGTTCCAAAGGCGGCGGCTCGATAAAGACCATTGAGATCGTCGAGCCACCCAAGCCTCCTCAGCCACAACCCCAACAACCACCTCAGAAACCTAAAGATGCTCAGCCTAAAGCTCCTGAGAAGCCTAAGGAACCTGAAAAGCCAAAACAGCCTGAAAAGCTTAAAGAGCCAGAGAAGCCCAAACAGCCAGAAAAGCCCAAAGAACCCGAAAAGACGAAGCAACCCGCACCCGCTCCAGCTCCCGCACCAGCACCCGCAGCCAAACCCGCACCCGCTCCCGCTCCAGCTCCCGCACCTGCCCCGAAGCAGCCGGGACCGCCACCGCAAGCGATCCCGATGATGCCGCAAGGGCAGCCAGCAATGTGTTGCGGGCCCTACTACGATGGATACGGAGGGCCAGCATTCAATGGATATGGAATGCCGCCGCAGCCTTACGAGTGCTATGGACGACCAGTCTACGAGAGCTGGGGTGGGGGCTGCCCACCACCACCACCTGCTTATAGACAATGCCACGTCACTAGATGTGATTACTTCAGCGAAGAGAATCCACAGAGCTGTTCCATCATGTGAATTTGACTTCTTTATCTCTAAATCCTTTATTTTTCCTTTAATCTTTTTTTCTTCTTATACAAATAATAATTAAAAAAATATAGAGATGTTTACGTGTAATGTTGTGATTAAGAGAACCAATAAGGAAGGAACGTTGTATTTTGTAAATGGTAGCCATTTCCAATATTTGGTTGTCCATTCGAAGCTGTAACTGTAAACACTATAAAGAAATTTGTTTCATGTTCTTCTTTATATGAACCAATAATAGTATTTCGCTTTATTCGTAATCTACTTTTTG - >AT4G16380.2
CTGCTAACATTTTTGTTTTTCTTTTAAAATCAAGAAAAAAGTTTTGATTAATCAAAATCGACGCCAACTAAAAACACGTGTCAAAACGTGGTTGGTGACAGTGGGATATGAGACTGTATTATAAAAAGCTACATTTCTCACCACCACCCAATCTCTCTCTCCCTTGAAGTAGACTCTAAGCTAAAGCCACCGTCAGATTTTCAGATCTCAGATCTCAGCTCTTCATTCGACGCCATGGCCGAGAAGGGCAAAGAAAAGGTAACTATGATGAAGTTGAAGGTGGATCTTGATTGTGCCAAATGTTACAAGAAAGTGAAGAAGGTTCTTTGCAAGTTCCCTCGTGAGTTACTTCTCTCTTTTTCTTAACTTTTTTTTGGTGAATTTGATTTTGATTGGTTTTGTTTGGAAATGGACTGAGTGGATTTACTTGTGTGATTGGGAACAAGAGAAATAAGAGACCAATTGTTCGATGAAAAGTCCAACATTGTTATCATCAAGGTGGTTTGCTGTAGTCCTGAGAGGATCATGGACAAACTCTGTTCCAAAGGCGGCGGCTCGATAAAGACCATTGAGATCGTCGAGCCACCCAAGCCTCCTCAGCCACAACCCCAACAACCACCTCAGAAACCTAAAGATGCTCAGCCTAAAGCTCCTGAGAAGCCTAAGGAACCTGAAAAGCCAAAACAGCCTGAAAAGCTTAAAGAGCCAGAGAAGCCCAAACAGCCAGAAAAGCCCAAAGAACCCGAAAAGACGAAGCAACCCGCACCCGCTCCAGCTCCCGCACCAGCACCCGCAGCCAAACCCGCACCCGCTCCCGCTCCAGCTCCCGCACCTGCCCCGAAGCAGCCGGGACCGCCACCGCAAGCGATCCCGATGATGCCGCAAGGGCAGCCAGCAATGTGTTGCGGGCCCTACTACGATGGATACGGAGGGCCAGCATTCAATGGATATGGAATGCCGCCGCAGCCTTACGAGTGCTATGGACGACCAGTCTACGAGAGCTGGGGTGGGGGCTGCCCACCACCACCACCTGCTTATAGACAATGCCACGTCACTAGATGTGATTACTTCAGCGAAGAGAATCCACAGAGCTGTTCCATCATGTGAATTTGACTTCTTTATCTCTAAATCCTTTATTTTTCCTTTAATCTTTTTTTCTTCTTATACAAATAATAATTAAAAAAATATAGAGATGTTTACGTGTAATGTTGTGATTAAGAGAACCAATAAGGAAGGAACGTTGTATTTTGTAAATGGTAGCCATTTCCAATATTTGGTTGTCCATTCGAAGCTGTAACTGTAAACACTATAAAGAAATTTGTTTCATGTTCTTCTTTATATGAACCAATAATAGTATTTCGCTTTATTCGTAATCTACTTTTTG - >AT4G16380.1
CTGCTAACATTTTTGTTTTTCTTTTAAAATCAAGAAAAAAGTTTTGATTAATCAAAATCGACGCCAACTAAAAACACGTGTCAAAACGTGGTTGGTGACAGTGGGATATGAGACTGTATTATAAAAAGCTACATTTCTCACCACCACCCAATCTCTCTCTCCCTTGAAGTAGACTCTAAGCTAAAGCCACCGTCAGATTTTCAGATCTCAGATCTCAGCTCTTCATTCGACGCCATGGCCGAGAAGGGCAAAGAAAAGGTAACTATGATGAAGTTGAAGGTGGATCTTGATTGTGCCAAATGTTACAAGAAAGTGAAGAAGGTTCTTTGCAAGTTCCCTCGTGAGTTACTTCTCTCTTTTTCTTAACTTTTTTTTGGTGAATTTGATTTTGATTGGTTTTGTTTGGAAATGGACTGAGTGGATTTACTTGTGTGATTGGGAACAAGAGAAATAAGAGACCAATTGTTCGATGAAAAGTCCAACATTGTTATCATCAAGGTGGTTTGCTGTAGTCCTGAGAGGATCATGGACAAACTCTGTTCCAAAGGCGGCGGCTCGATAAAGACCATTGAGATCGTCGAGCCACCCAAGCCTCCTCAGCCACAACCCCAACAACCACCTCAGAAACCTAAAGATGCTCAGCCTAAAGCTCCTGAGAAGCCTAAGGAACCTGAAAAGCCAAAACAGCCTGAAAAGCTTAAAGAGCCAGAGAAGCCCAAACAGCCAGAAAAGCCCAAAGAACCCGAAAAGACGAAGCAACCCGCACCCGCTCCAGCTCCCGCACCAGCACCCGCAGCCAAACCCGCACCCGCTCCCGCTCCAGCTCCCGCACCTGCCCCGAAGCAGCCGGGACCGCCACCGCAAGCGATCCCGATGATGCCGCAAGGGCAGCCAGCAATGTGTTGCGGGCCCTACTACGATGGATACGGAGGGCCAGCATTCAATGGATATGGAATGCCGCCGCAGCCTTACGAGTGCTATGGACGACCAGTCTACGAGAGCTGGGGTGGGGGCTGCCCACCACCACCACCTGCTTATAGACAATGCCACGTCACTAGATGTGATTACTTCAGCGAAGAGAATCCACAGAGCTGTTCCATCATGTGAATTTGACTTCTTTATCTCTAAATCCTTTATTTTTCCTTTAATCTTTTTTTCTTCTTATACAAATAATAATTAAAAAAATATAGAGATGTTTACGTGTAATGTTGTGATTAAGAGAACCAATAAGGAAGGAACGTTGTATTTTGTAAATGGTAGCCATTTCCAATATTTGGTTGTCCATTCGAAGCTGTAACTGTAAACACTATAAAGAAATTTGTTTCATGTTCTTCTTTATATGAACCAATAATAGTATTTCGCTTTATTCGTAATCTACTTTTTG - >AT4G16380.3
CTGCTAACATTTTTGTTTTTCTTTTAAAATCAAGAAAAAAGTTTTGATTAATCAAAATCGACGCCAACTAAAAACACGTGTCAAAACGTGGTTGGTGACAGTGGGATATGAGACTGTATTATAAAAAGCTACATTTCTCACCACCACCCAATCTCTCTCTCCCTTGAAGTAGACTCTAAGCTAAAGCCACCGTCAGATTTTCAGATCTCAGATCTCAGCTCTTCATTCGACGCCATGGCCGAGAAGGGCAAAGAAAAGGTAACTATGATGAAGTTGAAGGTGGATCTTGATTGTGCCAAATGTTACAAGAAAGTGAAGAAGGTTCTTTGCAAGTTCCCTCGTGAGTTACTTCTCTCTTTTTCTTAACTTTTTTTTGGTGAATTTGATTTTGATTGGTTTTGTTTGGAAATGGACTGAGTGGATTTACTTGTGTGATTGGGAACAAGAGAAATAAGAGACCAATTGTTCGATGAAAAGTCCAACATTGTTATCATCAAGGTGGTTTGCTGTAGTCCTGAGAGGATCATGGACAAACTCTGTTCCAAAGGCGGCGGCTCGATAAAGACCATTGAGATCGTCGAGCCACCCAAGCCTCCTCAGCCACAACCCCAACAACCACCTCAGAAACCTAAAGATGCTCAGCCTAAAGCTCCTGAGAAGCCTAAGGAACCTGAAAAGCCAAAACAGCCTGAAAAGCTTAAAGAGCCAGAGAAGCCCAAACAGCCAGAAAAGCCCAAAGAACCCGAAAAGACGAAGCAACCCGCACCCGCTCCAGCTCCCGCACCAGCACCCGCAGCCAAACCCGCACCCGCTCCCGCTCCAGCTCCCGCACCTGCCCCGAAGCAGCCGGGACCGCCACCGCAAGCGATCCCGATGATGCCGCAAGGGCAGCCAGCAATGTGTTGCGGGCCCTACTACGATGGATACGGAGGGCCAGCATTCAATGGATATGGAATGCCGCCGCAGCCTTACGAGTGCTATGGACGACCAGTCTACGAGAGCTGGGGTGGGGGCTGCCCACCACCACCACCTGCTTATAGACAATGCCACGTCACTAGATGTGATTACTTCAGCGAAGAGAATCCACAGAGCTGTTCCATCATGTGAATTTGACTTCTTTATCTCTAAATCCTTTATTTTTCCTTTAATCTTTTTTTCTTCTTATACAAATAATAATTAAAAAAATATAGAGATGTTTACGTGTAATGTTGTGATTAAGAGAACCAATAAGGAAGGAACGTTGTATTTTGTAAATGGTAGCCATTTCCAATATTTGGTTGTCCATTCGAAGCTGTAACTGTAAACACTATAAAGAAATTTGTTTCATGTTCTTCTTTATATGAACCAATAATAGTATTTCGCTTTATTCGTAATCTACTTTTTG
CDS Sequence
Protein Sequence