Fermenation basically regenerate NAD+ from NADH, which is needed to produce more ATPs.
It loses a phosphate and one electron. Apex
Nicotinamide adenine dinucleotide or NAD+.
When a significant number of high-energy electrons are created in a brief period, the electrons will rapidly fill the cell's available NAD+. NDA stands for nicotinamide adenine dinucleotide.
When a significant number of high-energy electrons are created in a brief period, the electrons will rapidly fill the cell's available NAD+. NDA stands for nicotinamide adenine dinucleotide.
no. NADH has more chemical energy than NAD+. no. NADH has more chemical energy than NAD+.
NADH and ATP
the free energy liberated when electrons are removed from the organic molecules must be greater than the energy required to give the electrons to NAD+
pyruvate because it results in NADH while lactate results in NAD+ (NADH > hydrogen atoms than NAD+ because NAD+ has been oxidized)
NAD is an energy carrier which is involved in the process of glycolysis. It is reduced to NADH when a hydrogen atom is added.
no it cant why couse it is to big to fit it is like having sex you know the dick is to big and the hole to small then you cant do it so you know
NAD+ is an electron carrier molecule that helps pass energy from glucose to other pathways in a cell by taking high-energy electrons and holding on to them until they can be transferred to other molecules.
NAD+
to accept high energy electrons
like NADP+ in photosynythesis, each NAD+ accepts a pair of high-energy electrons. This molecule, known as NADH, holds the electrons until they can be transferred to other molecules. By doing this, NAD+ helps to pass energy from glucose to other pathways in the cell.
glycogen, glucose, NAD(P)H, FADH, lipid are akk transportable energy sources. ATP is an energy source but is often used up too quickly to make it portable
Fermenation basically regenerate NAD+ from NADH, which is needed to produce more ATPs.