Abstract
Anthocyanins cause purple, brown or red colors in various tissues of rice plants, but the specific determinant factors and regulatory systems for anthocyanin biosynthesis in almost all tissues remain largely unknown. In the present study, we mapped and isolated two complementary genes, OsC1 encoding a R2R3-MYB transcriptional factor and OsDFR encoding a dihydroflavonol 4-reductase, which are responsible for the purple coloration of apiculi and stigmas in indica cultivar Xieqingzao by the map-based cloning strategy. We also identified two tissue-specific pigmentation genes, OsPa for apiculi and OsPs for stigmas, by phylogenetic analysis of all anthocyanin biosynthesis-associated bHLH transcriptional factors in maize and rice, CRISPR/Cas9 knockout and transcriptional expression analysis. The OsC1, OsPa and OsPs proteins are all localized in the nucleus while the OsDFR protein is localized in the nucleus and cytoplasm, and the OsC1 and OsDFR genes are preferentially strongly expressed in both purple-colored tissues while the OsPa and OsPs genes are preferentially strongly expressed in apiculi and stigmas, respectively. OsC1 specifically interacts with OsPa or OsPs to activate OsDFR and other anthocyanin biosynthesis genes, resulting in purple-colored apiculi or stigmas. OsC1 itself does not produce color but can produce brown apiculi when functioning together with OsPa. Loss of function of OsDFR alone leads to brown apiculi and straw-white stigmas. Genotyping and phenotyping of a panel of 176 rice accessions revealed diverse genotypic combinations of OsC1, OsDFR, OsPa and OsPs that enable accurate prediction of their apiculus and stigma pigmentation phenotypes, thus validating the general applicability of the OsC1-OsDFR-OsPa and OsC1-OsDFR-OsPs models to natural populations. Our findings disclosed the biological functions of OsC1, OsPa and OsPs, and shed light on the specific regulatory systems of anthocyanin biosynthesis in apiculi and stigmas, a further step in understanding the regulatory network of anthocyanin biosynthesis in rice.
Highlights
Anthocyanins are a major class of flavonoids that produce colored plant organs
QRT-PCR revealed that that OsPa was strongly expressed in apiculi with an expression level at least 32-fold higher than that in stigmas, and on the contrary OsPs was strongly expressed in stigmas with an expression level at least 42-fold higher than that in apiculus (Fig. 4c, d)
Our results showed that R2R3-MYB-type regulator OsC1 interacts with two basic helixloop-helix (bHLH)-type transcriptional factors (TFs), OsPa and OsPs, respectively in determining the expression of OsDFR and some other structural genes (Figs. 5, 6, Fig. S10), leading to the tissue-specific distribution of purple pigmentation
Summary
Anthocyanins are a major class of flavonoids that produce colored plant organs. They are involved in the pigmentation patterns and in a wide range of biological functions, such as attraction of pollinators and seed dispersal agents, protection against UV radiation and high light intensity, and defense responses to abiotic and biotic stresses such as cold, drought tolerance and disease (Lin-Wang et al 2010; Petroni and Tonelli 2011). Anthocyanin biosynthesis involves various structural and regulatory genes. Viz. R2R3-MYB, basic helixloop-helix (bHLH), and WD40 repeat protein (WDR), are important regulators of anthocyanin biosynthesis (Xu et al 2015; Sun et al 2018; Zheng et al 2019). The R1/B1genes, R1, B1, Sn1, Lc1 and Hopi, whose expressions are tissue-specific, determine distribution of pigments in different tissues (Petroni and Tonelli 2011; Oshima et al 2019)
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
