Shaheen Bagha scite author profile

The glycine decarboxylase complex (GDC) plays a critical role in the photorespiratory C2 cycle of C3 species by recovering carbon following the oxygenation reaction of ribulose-1,5-bisphosphate carboxylase/oxygenase. Loss of GDC from mesophyll cells (MCs) is considered a key early step in the evolution of C4 photosynthesis. To assess the impact of preferentially reducing GDC in rice MCs, we decreased the abundance of OsGDCH (Os10g37180) using an artificial microRNA (amiRNA) driven by a promoter that preferentially drives expression in MCs. GDC H- and P-proteins were undetectable in leaves of gdch lines. Plants exhibited a photorespiratory-deficient phenotype with stunted growth, accelerated leaf senescence, reduced chlorophyll, soluble protein and sugars, and increased glycine accumulation in leaves. Gas exchange measurements indicated an impaired ability to regenerate ribulose 1,5-bisphosphate in photorespiratory conditions. In addition, MCs of gdch lines exhibited a significant reduction in chloroplast area and coverage of the cell wall when grown in air, traits that occur during the later stages of C4 evolution. The presence of these two traits important for C4 photosynthesis and the non-lethal, down-regulation of the photorespiratory C2 cycle positively contribute to efforts to produce a C4 rice prototype.

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Transmitting tissue architecture in basal‐relictual angiosperms: Implications for transmitting tissue origins

Sage

Hristova-Sarkovski

Koehl

et al. 2009

American J of Botany

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Carpel transmitting tissue is a major floral innovation that is essential for angiosperm success. It facilitates the rapid adhesion, hydration, and growth of the male gametophyte to the female gametophyte. As well, it functions as a molecular screen to promote male gametophytic competition and species-specific recognition and compatibility. Here, we characterize the transmitting tissue extracellular matrix (ECM) and pollen tube growth in basal-relictual angiosperms and test the hypothesis that a freely flowing ECM (wet stigma) was ancestral to a cuticle-bound ECM (dry stigma). We demonstrate that the most recent common ancestor of extant angiosperms produced an ECM that was structurally and functionally equivalent to a dry stigma. Dry stigmas are composed of a cuticle and primary wall that contains compounds that facilitate the adhesion and growth of the male gametophyte. These compounds include methyl-esterified homogalacturonans, arabinogalactan-proteins, and lipids. We propose that transmitting tissue evolved in concert with an increase in cuticle permeability that resulted from modifications in the biosynthesis and secretion of fatty acids needed for cuticle construction. Increased cuticle permeability exposed the male gametophyte to pre-existing molecules that enabled rapid male gametophyte adhesion, hydration, and growth as well as species-specific recognition and compatibility.

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Shaheen Bagha

The effect of high temperature stress on male and female reproduction in plants

Targeted Knockdown ofGDCHin Rice Leads to a Photorespiratory-Deficient Phenotype Useful as a Building Block for C₄Rice

Transmitting tissue architecture in basal‐relictual angiosperms: Implications for transmitting tissue origins

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Shaheen Bagha

The effect of high temperature stress on male and female reproduction in plants

Targeted Knockdown ofGDCHin Rice Leads to a Photorespiratory-Deficient Phenotype Useful as a Building Block for C4Rice

Transmitting tissue architecture in basal‐relictual angiosperms: Implications for transmitting tissue origins

Contact Info

Product

Resources

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Targeted Knockdown ofGDCHin Rice Leads to a Photorespiratory-Deficient Phenotype Useful as a Building Block for C₄Rice