CYP93G2,qST-6.1

• Symbol: CYP93G2,qST-6.1
• MSU: LOC_Os06g01250
• RAPdb: Os06g0102100

• CYP93G2 is a flavanone 2-hydroxylase required for C-glycosylflavone biosynthesis in rice, 2010, Plant Physiol.
• Flavonoids are indispensable for complete male fertility in rice., 2020, J Exp Bot.
• Uncovering the Novel QTLs and Candidate Genes of Salt Tolerance in Rice with Linkage Mapping, RTM-GWAS, and RNA-seq., 2021, Rice (N Y).

Genbank accession number

• Rice osf3h and cyp93g1 cyp93g2 CRISPR/Cas9 mutants, and cyp93g1 and cyp93g2 T-DNA insertional mutants showed altered flavonoid profiles in anthers but only osf3h and cyp93g1 cyp93g2 mutants displayed reduction in seed yield

• CYP93G2~qST-6.1, OsCGT, CYP93G2 is a flavanone 2-hydroxylase required for C-glycosylflavone biosynthesis in rice, Coexpression of CYP93G2 and OsCGT in Arabidopsis resulted in the production of C-glucosyl-2-hydroxyflavanones in the dibenzoylmethane tautomeric form
• CYP93G2~qST-6.1, OsCGT, CYP93G2 is a flavanone 2-hydroxylase required for C-glycosylflavone biosynthesis in rice, Thus, CYP93G2 generates 2-hydroxyflavanone substrates from flavanones for C-glucosylation by OsCGT in planta
• CYP93G1~OsFNSII, CYP93G2~qST-6.1, Cytochrome P450 93G1 Is a Flavone Synthase II That Channels Flavanones to the Biosynthesis of Tricin O-Linked Conjugates in Rice., In this study, we demonstrate that CYP93G1, the closest homolog of CYP93G2 in rice, is a bona fide flavone synthase II (FNSII) that catalyzes the direct conversion of flavanones to flavones
• CYP93G1~OsFNSII, CYP93G2~qST-6.1, Flavonoids are indispensable for complete male fertility in rice., Rice osf3h and cyp93g1 cyp93g2 CRISPR/Cas9 mutants, and cyp93g1 and cyp93g2 T-DNA insertional mutants showed altered flavonoid profiles in anthers but only osf3h and cyp93g1 cyp93g2 mutants displayed reduction in seed yield
• CYP93G2~qST-6.1, OsF3H03g~OsS5H2, Flavonoids are indispensable for complete male fertility in rice., Rice osf3h and cyp93g1 cyp93g2 CRISPR/Cas9 mutants, and cyp93g1 and cyp93g2 T-DNA insertional mutants showed altered flavonoid profiles in anthers but only osf3h and cyp93g1 cyp93g2 mutants displayed reduction in seed yield