In the skeletal muscle cells of vertebrates, as many as ____________ molecules of atp are produced from one molecule of glucose.
this is less than might be expected, because electrons from nadh produced during glycolysis must be shuttled through the ____________ mitochondrial membrane at a cost.
<span>In the skeletal muscle cells of vertebrates, as many as 38 molecules of ATP are produced from one molecule of glucose. This is less than might be expected, because electrons from NADH produced during glycolysis must be shuttled through the inner mitochondrial membrane at a cost. </span>The energy of the electrons can be used to make ATP and in eukaryotes, glycolysis occurs in the <span>cytosol, outside mitochondria. </span>
In the skeletal muscle cells of vertebrate, as many as 36 molecules of ATP are produced from one molecule of glucose. This is less than might be expected, because electrons from NADH produced during glycolysis must be shuttled through the inner mitochondria<span> membrane at a cost. Glucose is first broken down by the process of glycolysis where it is broken down into two 3 carbon pyruvate, which is a substrate for the link reaction. The process uses 2ATP, and produces 4 ATP, making it a net gain of 2ATP. Krebs cycle yields 2 ATP molecules and also NADH and FADH, which joins the electron transport chain. The transport chain in turn yields 32 ATP molecules. The total ATP molecules will therefore be 36 ATP molecules.</span>
The reason why the sets of proteins that are expressed in a
nerve is different from the sets of proteins that are expressed in a pancreatic
cell of the same individual is that nerve and pancreatic cells contain
different sets of regulatory proteins.
