Gene Details:
- Gene ID: BnaA09g53490D
- Gene Symbol: BnSOT-like1
- Gene Name:
- Genome: B. napus reference genome Darmor v4.1
- Species: Brassica napus
Functional Descriptions:
- A sulfotransferase gene BnSOT-like1 has a minor genetic effect on seed glucosinolate content in Brassica napus.
- Identified a novel minor gene, BnSOT-like1 (BnaA09g53490D), which is a sulfotransferase (SOT) gene catalyzing the formation of the core glucosinolate (GSL) structure in Brassica napus.
- BnSOT-like1 in our study have minor effects and may be called polygenes in contrast to the reported three regulatory genes (BnHAG1s) which strongly affect GSL content in B. napus. The present study has shed light on a minor gene for a quantitative trait.
Function-related keywords:
Literature:
- A sulfotransferase gene BnSOT-like1 has a minor genetic effect on seed glucosinolate content in Brassica napus DOI: 10.1016/j.cj.2020.07.003 ; PMID:
Related News:
Gene Resources:
Sequences:
cDNA Sequence
- >BnaA09g53490D
ATGGCATCATCATCTGTTTCTGTTTACTTGAAAGATGAAAACCTGACACAAGAAACAAGAGATCTACTTTCTTCTCTTCCAAGCGAGAAAGGTTGGTTAGTCAGTCAAATGTATCAATTCGAAGGAAGTTGGCAGGCACCAGCTCTGTTACAAGGAATCGTGAACTGCCAAAAACACTTTGAAGCCAACGATTCCGACGTTATCCTCGCCACCTTTCCTAAATCAGGCACCACTTGGTTAAAAGCTCTTCTCTTTGCTCTCATTCACCGACACAAGTTCCCAGTTTCTGGCAAGCATCCTCTTCTAGTTACAAATCCGCACTCCCTCGTGCCCTTCTTGGAAGGAGATTACTGCGTATCTCCAGAGGTCAAATTCTCCGAGTTGCCTTCTCCAAGAATCATGCAGACGCACGTAACGCATCATTCTCTGCCGGTTTCTATTAAGAGCTCGTGTTGTAAGATTGTATATTGTTGTAGAAACCCTAAGGACAAGTTTGTCTCCTTATGGCATTTTGGGAGAAAACTTGCTCCTGAAGAAACAGCGGAGTATCCGATTGAAACAGCGGTTGAAGCGTTTTGTGAAGGGAAGTTTATTGGTGGACCATTTTGGGATCATGTGTTGGAGTACTGGTACGAAAGCCGCAAGAATCCGAACAAGGTCTTGTTTGTTACATACGAGGAGCTCAAGAAGCAGACCGAAGTTGAGGTTAAGCGAATCGCTAACTTCATTGGATGTGGTTTTACTGCTGAGGAAGAAGTGAGTGAGATTGTGAAGTTGTGTAGTTTTGAGAGTTTGAGTAAACTGGAAGTTAATAGACAAGGGAAATTGCCAAATGGAATAGAGTCTAACTCTTACTTTAGAAAGGGAGAGATTGGAGGTTGGAGAGATACTTTGAGTGAGTCCTTGGCAGAAGTAATAGATAGAACCACTGAAGAGAAGTTTAGAGGTTCTGGTCTGAAATTTTCTTGTTGA
CDS Sequence
- >BnaA09g53490D
ATGGCATCATCATCTGTTTCTGTTTACTTGAAAGATGAAAACCTGACACAAGAAACAAGAGATCTACTTTCTTCTCTTCCAAGCGAGAAAGGTTGGTTAGTCAGTCAAATGTATCAATTCGAAGGAAGTTGGCAGGCACCAGCTCTGTTACAAGGAATCGTGAACTGCCAAAAACACTTTGAAGCCAACGATTCCGACGTTATCCTCGCCACCTTTCCTAAATCAGGCACCACTTGGTTAAAAGCTCTTCTCTTTGCTCTCATTCACCGACACAAGTTCCCAGTTTCTGGCAAGCATCCTCTTCTAGTTACAAATCCGCACTCCCTCGTGCCCTTCTTGGAAGGAGATTACTGCGTATCTCCAGAGGTCAAATTCTCCGAGTTGCCTTCTCCAAGAATCATGCAGACGCACGTAACGCATCATTCTCTGCCGGTTTCTATTAAGAGCTCGTGTTGTAAGATTGTATATTGTTGTAGAAACCCTAAGGACAAGTTTGTCTCCTTATGGCATTTTGGGAGAAAACTTGCTCCTGAAGAAACAGCGGAGTATCCGATTGAAACAGCGGTTGAAGCGTTTTGTGAAGGGAAGTTTATTGGTGGACCATTTTGGGATCATGTGTTGGAGTACTGGTACGAAAGCCGCAAGAATCCGAACAAGGTCTTGTTTGTTACATACGAGGAGCTCAAGAAGCAGACCGAAGTTGAGGTTAAGCGAATCGCTAACTTCATTGGATGTGGTTTTACTGCTGAGGAAGAAGTGAGTGAGATTGTGAAGTTGTGTAGTTTTGAGAGTTTGAGTAAACTGGAAGTTAATAGACAAGGGAAATTGCCAAATGGAATAGAGTCTAACTCTTACTTTAGAAAGGGAGAGATTGGAGGTTGGAGAGATACTTTGAGTGAGTCCTTGGCAGAAGTAATAGATAGAACCACTGAAGAGAAGTTTAGAGGTTCTGGTCTGAAATTTTCTTGTTGA
Protein Sequence
- >BnaA09g53490D
MASSSVSVYLKDENLTQETRDLLSSLPSEKGWLVSQMYQFEGSWQAPALLQGIVNCQKHFEANDSDVILATFPKSGTTWLKALLFALIHRHKFPVSGKHPLLVTNPHSLVPFLEGDYCVSPEVKFSELPSPRIMQTHVTHHSLPVSIKSSCCKIVYCCRNPKDKFVSLWHFGRKLAPEETAEYPIETAVEAFCEGKFIGGPFWDHVLEYWYESRKNPNKVLFVTYEELKKQTEVEVKRIANFIGCGFTAEEEVSEIVKLCSFESLSKLEVNRQGKLPNGIESNSYFRKGEIGGWRDTLSESLAEVIDRTTEEKFRGSGLKFSC