WebAnswer (1 of 6): In photosynthesis, NADPH is generated (along with ATP) in the light-dependent reactions, and used in the light-independent reactions as a reducing agent in the Calvin cycle to reduce atmospheric carbon dioxide (CO2) producing monosaccharides for use by the plant for structure and... Web25 May 2024 · ATP and NADPH are two kinds of energy-carrying molecules. These two molecules are not only in plants, as animals use them as well. A Recipe for Energy Plants need water to make NADPH. This water is broken apart to release electrons (negatively charged subatomic particles). When water is broken it also creates oxygen, a gas that we …
Explainer: How photosynthesis works - Science News Explores
Web17 Mar 2024 · Chloroplast acetyltransferases and photosynthesis. One of the most pronounced consequences of the GNAT knock-out on the plant metabolome was the low content of ascorbate in gnat2, gnat4, gnat7 and gnat10 (Table 1, Supplementary Dataset S1). Ascorbate plays an important role in various photosynthesis-related processes in … Web9 Apr 2024 · Photolysis has its role in non-cyclic photophosphorylation. Complete explanation: Option A reduction of NADP+: During non-cyclic photophosphorylation the electrons produced during photolysis of water cycles between P S − 1 and P S − 2 . After one cycle the electrons given out by P 700 indian polity for tspsc
Nicotinamide adenine dinucleotide phosphate - Wikipedia
WebThe ratio of NAD + to NADH inside the cell is high, while the ratio of NADP + to NADPH is kept low. The role of NADPH is mostly anabolic reactions, where NADPH is needed as a reducing agent, the role of NADH is mostly in catabolic reactions, where NAD + is needed as a oxidizing agent. WebHill’s reaction: In photosynthesis, the water molecules are split to produce O2 and hydrogen or electron. Hill’s reaction transfers the electron to an electron acceptor (NADP+). A dye is used as an artificial electron acceptor to measure Hill’s reaction. WebMechanistic investigations suggested the critical role of the two cationic imidazolium motifs along with the extensive π-conjugation present in the backbone of the heterohelicene molecules in accessing and stabilizing various radical species involved in the generation and transfer of hydride, via multielectron-transfer steps in the electrochemical process. location of photosynthesis in cells