RQ in anaerobic respiration is 02:45 What is the role of enzyme invertase? 01:27 How many ATP molecules does one NADH produce ? 02:04 The net gain of ATP molecules in glycolysis during aerobic respiration... 03:57 Answer the following questions : What is fermentation ? 02:37 Give the ...
The value 2 in G2IVH is due to total intensity of any given emitter being equal to the total of the intensities (IT) along the three axes: IT = Ix + Iy + Iz. Hence Iz becomes Iz = Ivv + 2IVH. For isolated mitochondria and live cell studies, the use of ...
NAD is a key determinant of cellular energy metabolism. In contrast, its phosphorylated form, NADP, plays a central role in biosynthetic pathways and antioxidant defence. The reduced forms of both pyridine nucleotides are fluorescent in living cells but
The goal of the simulations was to understand the flux distribution in silico and the sensitivity of growth yield to various precursors with specific reference to the cofactors NADH, NADPH and ATP. Constraints based flux balance analysis (FBA), as described in the following section, was used to...
Various studies suggested that the intracellular NAD+/NADH pool is greatly reduced in many cancer cells compared to non-cancer cells, inferred by the lower lifetime of NADH endogenous fluorescence and increased mitochondrial free NADH, or lower ratio of the fluorescence intensity of FAD-to-NADH (...
(C) The slope is equal to Vmax/KM, (D) The value of the X intercept is equal to Vmax, (E) The value of the Y-intercept is equal to Vmax. 30. Which of the following statements concerning the reaction catalyzed by ATCase is true? (A) One ATP ...
These are membrane associated enzymes which, by reducing quinones, indirectly contribute to the establishment and maintenance of the transmembrane difference of electrochemical potential. This potential is responsible for solute/nutrient cell import, synthesis of ATP and motility, i.e. it is vital for ...
These are membrane associated enzymes which, by reducing quinones, indirectly contribute to the establishment and maintenance of the transmembrane difference of electrochemical potential. This potential is responsible for solute/nutrient cell import, synthesis of ATP and motility,i.e.it is vital for ...