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2970, 2017-2018, Thiruveedhi Sathvik, MBA, GENPACT, Hyderabad-Gachibowli SEZ: 3rd & 4th Floor. The data show that mitochondrial glycolate oxidation contributes to photorespiration in higher plants. 151, 2019-2020, KRISHNAVENI 390, B.Tech (Mechanical Engg.). There are 50+ professionals named 'Thiruveedhi', who use LinkedIn to exchange information, ideas, and opportunities. Furthermore, photorespiration is reduced in these mutant lines compared with the wild type, as revealed by determination of the post-illumination CO2 burst and the glycine/serine ratio under photorespiratory growth conditions. View the profiles of professionals named 'Thiruveedhi' on LinkedIn. T-DNA insertion lines for AtGDH show a drastic reduction in mitochondrial GDH activity and CO2 release from glycolate. By Krishnaveni Thiruveedhi Abstract The photorespiratory pathway in C3 plants consumes not only ATP and reducing equivalents but also results in loss of 25 carbon that has been fixed during the process of photosynthesis. This effect could be enhanced by adding co-factors for aminotransferases, but is inhibited by the addition of glycine. Labelling experiments indicated that glycolate oxidation in mitochondrial extracts is coupled to CO2 release. Both RNA abundance and mitochondrial GDH activity were up-regulated under photorespiratory growth conditions. In this study, the contribution of AtGDH to photorespiration was characterized. Previous analyses revealed the existence of a GDH in the mitochondria of Arabidopsis thaliana (AtGDH). See the complete profile on LinkedIn and discover Hayath Be’s connections and jobs at similar companies. Hayath Be has 1 job listed on their profile.
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Land plants and charophycean green algae oxidize glycolate in the peroxisome using oxygen as a co-factor, whereas chlorophycean green algae use a mitochondrial glycolate dehydrogenase (GDH) with organic co-factors. View Hayath Be Poola Shaik’s profile on LinkedIn, the world’s largest professional community. The oxidation of glycolate to glyoxylate is an important reaction step in photorespiration.