Abstract
The color of bracts generally turns yellow or black from green during cereal grain development. However, the impact of these phenotypic changes on photosynthetic physiology during black bract formation remains unclear. Two oat cultivars (Avena sativa L.), ‘Triple Crown’ and ‘Qinghai 444’, with yellow and black bracts, respectively, were found to both have green bracts at the heading stage, but started to turn black at the flowering stage and become blackened at the milk stage for ‘Qinghai 444’. Their photosynthetic characteristics were analyzed and compared, and the key genes, proteins and regulatory pathways affecting photosynthetic physiology were determined in ‘Triple Crown’ and ‘Qinghai 444’ bracts. The results show that the actual PSII photochemical efficiency and PSII electron transfer rate of ‘Qinghai 444’ bracts had no significant changes at the heading and milk stages but decreased significantly (p < 0.05) at the flowering stage compared with ‘Triple Crown’. The chlorophyll content decreased, the LHCII involved in the assembly of supercomplexes in the thylakoid membrane was inhibited, and the expression of Lhcb1 and Lhcb5 was downregulated at the flowering stage. During this critical stage, the expression of Bh4 and C4H was upregulated, and the biosynthetic pathway of p-coumaric acid using tyrosine and phenylalanine as precursors was also enhanced. Moreover, the key upregulated genes (CHS, CHI and F3H) of anthocyanin biosynthesis might complement the impaired PSII activity until recovered at the milk stage. These findings provide a new insight into how photosynthesis alters during the process of oat bract color transition to black.
Highlights
Bracts, the outer protective structure of flower and seed organs in Gramineae, consist of lemma and palea [1]
The results showed that the change in bract color had no effect on the accumulation of photosynthesis-related proteins, but it might have a direct effect on the content of light harvesting antenna protein subunits in the assembly process of the supercomplex
exhibited rate (ETR) of ‘Qinghai 444’ bracts had no significant change at the heading and milk stages, but decreased significantly (p < 0.05) at the flowering stage compared with ‘Triple Crown’
Summary
The outer protective structure of flower and seed organs in Gramineae, consist of lemma and palea [1]. Most bracts contain chlorophyll and are photosynthetic tissues [2]. The photosynthetic capacity of non-foliar green tissues has been extensively explored for its great significance in promoting crop growth and improving seed yield [3]. Previous studies in fruit and cereal crops have provided evidence demonstrating photosynthesis in non-foliar tissues as a potential target for further improvement to enhance crop yield [4]. As a non-foliar tissue in direct contact with the seed, bracts can provide material nutrition resulting from its photosynthesis to the growth of flower and seed. The molecular physiology of bract photosynthesis remains largely unknown [5,6,7]
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