Gene Details:
- Gene ID: AT5G20710
- Gene Symbol: BGAL7
- Gene Name: beta-galactosidase 7
- Description: beta-galactosidase 7;(source:Araport11)
- TAIR Accession:
- 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)
- PO:0009025 — vascular leaf — foliage leaf (exact), hoja vascular (Spanish, exact), leaf, vascular (exact), vascular leaves (exact, plural), 維管束のある葉, または維管束植物の葉 (Japanese, exact), crozier (related), macrophyll (related), megaphyll (related), ascidia (narrow), ascidium (narrow), fiddlehead (narrow), frond (narrow), needle-like leaf (narrow), pitcher (narrow), pitcher blade (narrow), pitcher-blade (narrow), scale-like leaf (narrow), sterile frond (narrow), trophophyll (narrow)
- PO:0020048 — microspore — microspora (Spanish, exact), 小胞子 (Japanese, exact), Poaceae microspore (narrow), Zea microspore (narrow)
- PO:0025281 — pollen — polen (Spanish, exact), pollen grain (exact), 花粉 (Japanese, exact)
Function-related keywords:
- root , vascular leaf , microspore , pollen
Literature:
- Isolation, sequence analysis, and expression studies of florally expressed cDNAs in Arabidopsis. DOI: 10.1023/B:PLAN.0000019063.18097.62 ; PMID: 15010618
- Pollen development and fertilization in Arabidopsis is dependent on the MALE GAMETOGENESIS IMPAIRED ANTHERS gene encoding a type V P-type ATPase. DOI: 10.1101/gad.357305 ; PMID: 16291648
- Functional genomic analysis of Arabidopsis thaliana glycoside hydrolase family 35. DOI: 10.1016/j.phytochem.2007.03.021 ; PMID: 17466346
- a mini review. DOI: 10.1042/BST20150217 ; PMID: 26862200
- Expression of beta-galactosidase and beta-xylosidase genes during microspore and pollen development. DOI: 10.1007/s00425-004-1409-0 ; PMID: 15517348
Sequences:
cDNA Sequence
- >AT5G20710.1
GTTCCATCAAAACTACTATAAAAATAGTTCATCTTAAACCCTTCAAAAGCACTTGTTTTCTACCGTAGAAACTCAACACTAAGCTATGAAAATGAAACACTTCACTCGTCTCTTATCATTGTTCTTCATCCTCATTACTTCATTATCTTTGGCTAAATCAACCATTGTCTCTCATGATGAACGAGCCATCACAATTAATGGAAAACGCCGGATCCTACTTTCAGGCTCCATTCATTACCCACGAAGCACTGCTGATATGTGGCCTGATCTGATCAACAAAGCCAAAGATGGTGGCTTAGATGCAATCGAGACGTACGTTTTTTGGAACGCACATGAACCAAAACGTAGGGAATACGATTTCTCGGGGAATCTCGATGTTGTTCGTTTTATCAAAACCATTCAAGACGCAGGTCTCTACTCCGTTCTTCGCATCGGACCTTATGTTTGCGCAGAATGGAATTATGGAGGCTTTCCCGTGTGGCTGCACAATATGCCCAACATGAAATTCAGAACAGTTAACCCTAGTTTCATGAATGAAATGCAAAATTTCACTACAAAGATAGTGAAGATGATGAAGGAAGAGAAGCTCTTTGCTTCACAAGGCGGTCCAATTATCCTAGCTCAGATCGAGAATGAATACGGGAATGTGATCTCGTCGTATGGAGCAGAGGGTAAGGCCTACATTGATTGGTGTGCCAACATGGCCAACTCTCTAGACATTGGTGTTCCATGGCTTATGTGCCAACAACCAAACGCTCCTCAGCCTATGCTCGAGACGTGCAATGGATTCTACTGTGACCAGTACGAACCAACCAACCCGAGCACCCCAAAGATGTGGACAGAGAATTGGACCGGCTGGTTCAAGAATTGGGGAGGCAAACATCCTTACAGAACCGCTGAGGATCTTGCTTTTTCAGTTGCTAGATTCTTCCAAACCGGAGGAACTTTCCAAAACTATTACATGTACCATGGTGGTACTAACTTTGGAAGAGTCGCTGGAGGTCCATACATCACCACTTCATATGATTACCATGCTCCTCTTGATGAATTCGGTAACTTGAACCAGCCTAAATGGGGTCACTTGAAACAGCTCCACACAGTCTTAAAATCCATGGAGAAATCGCTGACTTACGGAAACATATCAAGAATCGATCTTGGCAACTCAATCAAGGCGACGATTTACACAACAAAGGAGGGATCAAGCTGCTTCATCGGTAATGTGAACGCAACTGCGGATGCTTTAGTCAACTTCAAAGGAAAAGACTACCACGTACCGGCTTGGTCTGTAAGTGTTCTTCCGGACTGCGATAAAGAGGCTTACAACACTGCAAAAGTGAACACTCAAACATCAATCATGACCGAGGACTCTAGTAAGCCAGAGAGGCTGGAATGGACCTGGAGACCGGAGTCCGCTCAGAAGATGATTCTTAAAGGCAGTGGAGATCTCATTGCCAAGGGTCTTGTAGACCAAAAAGATGTTACAAACGATGCTAGTGACTATCTTTGGTACATGACTAGGCTTCATCTCGACAAGAAAGATCCACTTTGGAGCCGAAACATGACGTTACGGGTTCACAGCAATGCCCATGTTCTACACGCTTACGTCAATGGAAAATACGTCGGTAACCAATTCGTAAAGGACGGGAAATTTGATTACAGATTTGAGAGGAAGGTCAATCATCTCGTTCATGGGACTAATCACATTTCACTTCTCAGCGTTTCCGTTGGACTACAGAATTATGGACCTTTCTTTGAGAGCGGACCAACTGGAATCAATGGTCCTGTGTCCTTAGTCGGATACAAAGGAGAGGAAACAATCGAGAAGGATCTCTCGCAGCATCAATGGGACTACAAGATTGGTTTGAATGGATACAACGACAAACTTTTCAGCATAAAATCTGTTGGTCACCAAAAATGGGCAAACGAAAAGCTACCTACTGGTCGGATGTTGACATGGTACAAGGCAAAGTTCAAGGCTCCTCTTGGTAAGGAGCCAGTGATTGTGGACTTAAATGGTCTCGGGAAAGGTGAGGCTTGGATCAACGGTCAGAGCATTGGTCGTTACTGGCCGAGCTTTAACTCTAGCGATGATGGTTGCAAAGACGAATGTGACTACCGTGGGGCGTATGGTAGCGACAAATGCGCTTTTATGTGCGGCAAACCAACTCAAAGATGGTACCATGTTCCACGATCGTTCTTGAATGCGAGCGGACATAACACTATCACACTATTCGAAGAAATGGGCGGTAACCCGTCAATGGTGAACTTCAAGACAGTAGTGGTTGGAACAGTTTGTGCCAGGGCTCATGAACACAACAAAGTGGAGTTGTCCTGCCATAACCGGCCGATTTCAGCCGTTAAATTTGCAAGCTTTGGAAATCCGTTGGGGCATTGTGGGTCATTCGCGGTTGGTACGTGCCAAGGAGACAAGGATGCTGCGAAGACCGTGGCTAAAGAGTGTGTTGGCAAACTCAACTGCACTGTCAATGTGTCTTCCGACACGTTTGGTTCTACTTTGGACTGTGGAGATTCACCTAAAAAATTGGCCGTGGAATTGGAGTGCTAGATTAGATCTTAGCTCTAGCTAGCTAGTGATTGCAATAATTTCCATCAAATAATGTCGTACTTGTTTTTGATCTATCAGGTTTTTTAGATGATTTGGATTTAGGATTGTGGAATAAATATTATGATCGAATAAAAGTTTCTCTTGTTTAAATATTTTATCTTGAGATGGTTTTTGTTCTGACCTTTATATTATTAAGCAACGACACTACAATTTGTTTTCTCTGTTGTGTTAAGAAATAAGTTTCACAGTTTTCTC - >AT5G20710.2
GTTCCATCAAAACTACTATAAAAATAGTTCATCTTAAACCCTTCAAAAGCACTTGTTTTCTACCGTAGAAACTCAACACTAAGCTATGAAAATGAAACACTTCACTCGTCTCTTATCATTGTTCTTCATCCTCATTACTTCATTATCTTTGGCTAAATCAACCATTGTCTCTCATGATGAACGAGCCATCACAATTAATGGAAAACGCCGGATCCTACTTTCAGGCTCCATTCATTACCCACGAAGCACTGCTGATATGTGGCCTGATCTGATCAACAAAGCCAAAGATGGTGGCTTAGATGCAATCGAGACGTACGTTTTTTGGAACGCACATGAACCAAAACGTAGGGAATACGATTTCTCGGGGAATCTCGATGTTGTTCGTTTTATCAAAACCATTCAAGACGCAGGTCTCTACTCCGTTCTTCGCATCGGACCTTATGTTTGCGCAGAATGGAATTATGGAGGCTTTCCCGTGTGGCTGCACAATATGCCCAACATGAAATTCAGAACAGTTAACCCTAGTTTCATGAATGAAATGCAAAATTTCACTACAAAGATAGTGAAGATGATGAAGGAAGAGAAGCTCTTTGCTTCACAAGGCGGTCCAATTATCCTAGCTCAGATCGAGAATGAATACGGGAATGTGATCTCGTCGTATGGAGCAGAGGGTAAGGCCTACATTGATTGGTGTGCCAACATGGCCAACTCTCTAGACATTGGTGTTCCATGGCTTATGTGCCAACAACCAAACGCTCCTCAGCCTATGCTCGAGACGTGCAATGGATTCTACTGTGACCAGTACGAACCAACCAACCCGAGCACCCCAAAGATGTGGACAGAGAATTGGACCGGCTGGTTCAAGAATTGGGGAGGCAAACATCCTTACAGAACCGCTGAGGATCTTGCTTTTTCAGTTGCTAGATTCTTCCAAACCGGAGGAACTTTCCAAAACTATTACATGTACCATGGTGGTACTAACTTTGGAAGAGTCGCTGGAGGTCCATACATCACCACTTCATATGATTACCATGCTCCTCTTGATGAATTCGGTAACTTGAACCAGCCTAAATGGGGTCACTTGAAACAGCTCCACACAGTCTTAAAATCCATGGAGAAATCGCTGACTTACGGAAACATATCAAGAATCGATCTTGGCAACTCAATCAAGGCGACGATTTACACAACAAAGGAGGGATCAAGCTGCTTCATCGGTAATGTGAACGCAACTGCGGATGCTTTAGTCAACTTCAAAGGAAAAGACTACCACGTACCGGCTTGGTCTGTAAGTGTTCTTCCGGACTGCGATAAAGAGGCTTACAACACTGCAAAAGTGAACACTCAAACATCAATCATGACCGAGGACTCTAGTAAGCCAGAGAGGCTGGAATGGACCTGGAGACCGGAGTCCGCTCAGAAGATGATTCTTAAAGGCAGTGGAGATCTCATTGCCAAGGGTCTTGTAGACCAAAAAGATGTTACAAACGATGCTAGTGACTATCTTTGGTACATGACTAGGCTTCATCTCGACAAGAAAGATCCACTTTGGAGCCGAAACATGACGTTACGGGTTCACAGCAATGCCCATGTTCTACACGCTTACGTCAATGGAAAATACGTCGGTAACCAATTCGTAAAGGACGGGAAATTTGATTACAGATTTGAGAGGAAGGTCAATCATCTCGTTCATGGGACTAATCACATTTCACTTCTCAGCGTTTCCGTTGGACTACAGAATTATGGACCTTTCTTTGAGAGCGGACCAACTGGAATCAATGGTCCTGTGTCCTTAGTCGGATACAAAGGAGAGGAAACAATCGAGAAGGATCTCTCGCAGCATCAATGGGACTACAAGATTGGTTTGAATGGATACAACGACAAACTTTTCAGCATAAAATCTGTTGGTCACCAAAAATGGGCAAACGAAAAGCTACCTACTGGTCGGATGTTGACATGGTACAAGGCAAAGTTCAAGGCTCCTCTTGGTAAGGAGCCAGTGATTGTGGACTTAAATGGTCTCGGGAAAGGTGAGGCTTGGATCAACGGTCAGAGCATTGGTCGTTACTGGCCGAGCTTTAACTCTAGCGATGATGGTTGCAAAGACGAATGTGACTACCGTGGGGCGTATGGTAGCGACAAATGCGCTTTTATGTGCGGCAAACCAACTCAAAGATGGTACCATGTTCCACGATCGTTCTTGAATGCGAGCGGACATAACACTATCACACTATTCGAAGAAATGGGCGGTAACCCGTCAATGGTGAACTTCAAGACAGTAGTGGTTGGAACAGTTTGTGCCAGGGCTCATGAACACAACAAAGTGGAGTTGTCCTGCCATAACCGGCCGATTTCAGCCGTTAAATTTGCAAGCTTTGGAAATCCGTTGGGGCATTGTGGGTCATTCGCGGTTGGTACGTGCCAAGGAGACAAGGATGCTGCGAAGACCGTGGCTAAAGAGTGTGTTGGCAAACTCAACTGCACTGTCAATGTGTCTTCCGACACGTTTGGTTCTACTTTGGACTGTGGAGATTCACCTAAAAAATTGGCCGTGGAATTGGAGTGCTAGATTAGATCTTAGCTCTAGCTAGCTAGTGATTGCAATAATTTCCATCAAATAATGTCGTACTTGTTTTTGATCTATCAGGTTTTTTAGATGATTTGGATTTAGGATTGTGGAATAAATATTATGATCGAATAAAAGTTTCTCTTGTTTAAATATTTTATCTTGAGATGGTTTTTGTTCTGACCTTTATATTATTAAGCAACGACACTACAATTTGTTTTCTCTGTTGTGTTAAGAAATAAGTTTCACAGTTTTCTC
CDS Sequence
Protein Sequence