Gene Details:
- Gene ID: AT5G36290
- Gene Symbol: BICAT3, PML3
- Gene Name: BIVALENT CATION TRANSPORTER 3, photosynthesis-affected mutant 71 like 3
- Description: Uncharacterized protein family (UPF0016);(source:Araport11)
- TAIR Accession: locus:2183632
- Genome: Araport11_genome_release
- Species: Arabidopsis thaliana
Transcripts:
Plant Ontology Annotations:
- PO:0009005 — root — raíz (Spanish, exact), radices (exact, plural), radix (exact), 根 (Japanese, exact), aerial root (narrow), climbing root (narrow)
Gene Ontology:
- GO:0005794 — is active in — Golgi apparatus
- GO:0005794 — located in — Golgi apparatus
- GO:0005388 — enables — P-type calcium transporter activity
- GO:0006828 — involved in — manganese ion transport
- GO:1990676 — is active in — Golgi trans cisterna membrane
- GO:0005384 — enables — manganese ion transmembrane transporter activity
- GO:0032468 — involved in — Golgi calcium ion homeostasis
- GO:0015085 — enables — calcium ion transmembrane transporter activity
- GO:0071421 — involved in — manganese ion transmembrane transport
- GO:0006816 — involved in — calcium ion transport
- GO:0070588 — involved in — calcium ion transmembrane transport
- GO:0032472 — involved in — Golgi calcium ion transport
Function-related keywords:
Literature:
- Transcriptome analyses show changes in gene expression to accompany pollen germination and tube growth in Arabidopsis. DOI: 10.1104/pp.108.126375 ; PMID: 18775970
- Isolation and proteomic characterization of the Arabidopsis Golgi defines functional and novel components involved in plant cell wall biosynthesis. DOI: 10.1104/pp.111.193151 ; PMID: 22430844
- Homologous Proteins of the Manganese Transporter PAM71 Are Localized in the Golgi Apparatus and Endoplasmic Reticulum. DOI: 10.3390/plants9020239 ; PMID: 32069796
- The trans-Golgi-localized protein BICAT3 regulates manganese allocation and matrix polysaccharide biosynthesis. DOI: 10.1093/plphys/kiac387 ; PMID: 35993897
Sequences:
cDNA Sequence
- >AT5G36290.2
GTGCAATTTCTTAAAATATAGTAGCAACTAGTAAAATCTGGAATATATAATAAGATTTAAAAATATTTTTGTAAACCGTGTTAATTTGATTAATTCCATTACATCTTCAAAACCGTACAGATCTCTGTTTCGGAGCAGCTTCTTCACACGCTCAAGCTCACCGATCGATTCTTCCAATGCTCTTCTAATTCGTAAGTAATTTTCCAGATCCAACCTTTCTCAGATTCGCTCTTTCCCGAGAAAATTTGAAGAAACAGAGATTCATCATTTTCTCTTCCTCTCAAAAATCAGATCTGCAAAACTCTCAGATCACTCATGGGTTTGATTTCAAACCCTACCCGTTTGATTCTCGTCGCCACCATCTTCTTCCTCGTTTCTTCAATCTCCGGTCAGGATTCTGTCGTTGAGAACAATGAGAGACAAGAATCTGAAGGATCTGGTAAAGAGCTTGGTCGTCGTGGAATGGTTGGTACTGAACGAATTGGAGTTGATACTGTTGTAGACAATATTGGTGCTCTTGGTTTGAATCTAGACCTTGATGCTACTGCTCCTAGTGTATTTGATGCTTTGTTTTCGAGTTTCTCGATGATACTTGTCACCGAGATTGGGGATGAAACTTTTATAATAGCGGCATTGATGGCTATGCGACATCCTAAAGCTACTGTTTTATCTGGTGCACTCTCAGCTTTGTTTGTTATGACTATACTTTCTACTGGACTTGGTAGGATAGTGCCAAACTTGATATCGAGGAAGCACACCAATAGTGCTGCTACAGTGCTCTATGCATTTTTTGGTTTGCGACTACTCTACATTGCTTGGAGGTCTACTGATTCAAAGTCAAATCAGAAGAAAGAAATGGAGGAAGTTGAAGAGAAGCTCGAGTCAGGTCAAGGGAAGACACCCTTCCGTCGTTTATTCTCAAGATTTTGTACCCCAATATTTCTGGAGTCCTTCATCTTAACCTTTCTAGCTGAATGGGGTGACCGTAGCCAGATCGCTACAATAGCTTTGGCGACTCACAAGAACGCCATAGGAGTGGCCATTGGGGCAAGTATTGGACACACTGTGTGTACTTCACTAGCAGTTGTTGGAGGAAGCATGCTGGCTTCAAGGATCTCGCAACGTACGGTCGCAACTGTTGGAGGCTTACTCTTCCTCGGCTTTTCAGTCTCCTCCTATTTCTATCCTCCATTGTAGTAAATGTGCTTCTTTCGAAAATGGGTGTTAGAGACAATTTCTAAGTAAAGTTTCAATTTTTTTTTTGATTTTAATTTAAGTTTGATATTTTGTTTAATATCAATGGCCAAAATGGCCAAACCAAAGAATCCAACGCCTATGCTTTTACAATTTACTTTCTTGAAGTGTAACAAATCTAATTAAATAAAATTTTGCAGTATCCAATTTTTC - >AT5G36290.1
GTGCAATTTCTTAAAATATAGTAGCAACTAGTAAAATCTGGAATATATAATAAGATTTAAAAATATTTTTGTAAACCGTGTTAATTTGATTAATTCCATTACATCTTCAAAACCGTACAGATCTCTGTTTCGGAGCAGCTTCTTCACACGCTCAAGCTCACCGATCGATTCTTCCAATGCTCTTCTAATTCGTAAGTAATTTTCCAGATCCAACCTTTCTCAGATTCGCTCTTTCCCGAGAAAATTTGAAGAAACAGAGATTCATCATTTTCTCTTCCTCTCAAAAATCAGATCTGCAAAACTCTCAGATCACTCATGGGTTTGATTTCAAACCCTACCCGTTTGATTCTCGTCGCCACCATCTTCTTCCTCGTTTCTTCAATCTCCGGTCAGGATTCTGTCGTTGAGAACAATGAGAGACAAGAATCTGAAGGATCTGGTAAAGAGCTTGGTCGTCGTGGAATGGTTGGTACTGAACGAATTGGAGTTGATACTGTTGTAGACAATATTGGTGCTCTTGGTTTGAATCTAGACCTTGATGCTACTGCTCCTAGTGTATTTGATGCTTTGTTTTCGAGTTTCTCGATGATACTTGTCACCGAGATTGGGGATGAAACTTTTATAATAGCGGCATTGATGGCTATGCGACATCCTAAAGCTACTGTTTTATCTGGTGCACTCTCAGCTTTGTTTGTTATGACTATACTTTCTACTGGACTTGGTAGGATAGTGCCAAACTTGATATCGAGGAAGCACACCAATAGTGCTGCTACAGTGCTCTATGCATTTTTTGGTTTGCGACTACTCTACATTGCTTGGAGGTCTACTGATTCAAAGTCAAATCAGAAGAAAGAAATGGAGGAAGTTGAAGAGAAGCTCGAGTCAGGTCAAGGGAAGACACCCTTCCGTCGTTTATTCTCAAGATTTTGTACCCCAATATTTCTGGAGTCCTTCATCTTAACCTTTCTAGCTGAATGGGGTGACCGTAGCCAGATCGCTACAATAGCTTTGGCGACTCACAAGAACGCCATAGGAGTGGCCATTGGGGCAAGTATTGGACACACTGTGTGTACTTCACTAGCAGTTGTTGGAGGAAGCATGCTGGCTTCAAGGATCTCGCAACGTACGGTCGCAACTGTTGGAGGCTTACTCTTCCTCGGCTTTTCAGTCTCCTCCTATTTCTATCCTCCATTGTAGTAAATGTGCTTCTTTCGAAAATGGGTGTTAGAGACAATTTCTAAGTAAAGTTTCAATTTTTTTTTTGATTTTAATTTAAGTTTGATATTTTGTTTAATATCAATGGCCAAAATGGCCAAACCAAAGAATCCAACGCCTATGCTTTTACAATTTACTTTCTTGAAGTGTAACAAATCTAATTAAATAAAATTTTGCAGTATCCAATTTTTC
CDS Sequence
Protein Sequence