no. NADH has more chemical energy than NAD+. no. NADH has more chemical energy than NAD+.
I'm in AP Bio, and have this question on a take home test. The answer is no
It doesn't. 1 NADH ~ 2.5 ATP
YES
NADH and ATP
¨ Five types ¤ Flavoproteins e.g NAD+/NADH ¤ Cytochromes e.g heme in hemoglobin ¤ Copper atoms Cu2+/Cu1+ in inner mitochondrial membrane ¤ Ubiquinone or coenzyme Q ¤ Iron-sulfur proteins Fe3+/Fe2+
NAD+
NAD+ (Nicotinamide Adenine Dinucleotide) is a cation ("cat" "Ion") or "positively charged ion" that we usually see involved in the Kreb's cycle and electron transport. This ion is involved in cellular metabolism and is oxidized to NADH by a hydrogen donor and will produce energy in the process.NAD+ and (metabolite) -> NADH and ENERGYand (metabolite byproduct)
The high energy electrons come from NADH and FADH2 (as they are electron carriers). NADH is produced throughout various stages of cellular respiration (aerobic respiration), while FADH2 is produced mainly as a product of the Kreb's cycle.
NADH and ATP
pyruvate because it results in NADH while lactate results in NAD+ (NADH > hydrogen atoms than NAD+ because NAD+ has been oxidized)
How do you recycle NADH into NAD?
NADH (or NAD+) is used to produce ATP, the primary source of muscle energy.
NAD+ is reduced. It becomes NADH.
NAD is an energy carrier which is involved in the process of glycolysis. It is reduced to NADH when a hydrogen atom is added.
NAD+ is reduced. It becomes NADH.
It will be NADH. An electron quarrier in the photosynthesis process.
NADP if photosynthesis. NAD or FAD if cellular respiration.
NAD+ is the oxidized and NADH is the reduced form.
Nadh is the reduced form of Nad+. Nad+ acts as a oxidizing agent and can accept electrons in various chemical reactions in the cell.
What happens to the high-energy electrons held by NADH if there is no oxygen present?