<span>The reactions of the Calvin cycle take place in
the stroma and the process is fueled by and dependent on ATP and NADPH from the
light reactions</span>. However, carbon atom from Co2 are fixed and used to
build three carbon sugars.
Answer:
I think the answer would be C
Option A is correct. For skeletal muscle, there are 37 molecules of ATP produced from one Glucose-6-phosphate derived from glycogen, assuming the presence of the glycerol-3-phosphate shuttle.
<h3>How does skeletal muscle use ATP for the duration of exercise?</h3>
1. Contracting skeletal muscle is capable to use a quantity of intra- and extramuscular substrates to generate ATP at some point of exercise. These include creatine phosphate (CP), muscle glycogen, blood-borne glucose, lactate and free fatty acids (FFA), derived from either adipose tissue or intramuscular triglyceride stores.
<h3>What produces the most ATP for muscle contraction?</h3>
Aerobic respiratory produces giant amounts of ATP and is an environment friendly capability of making ATP. Up to 38 ATP molecules can be made for every glucose molecule that is damaged down. It is the desired approach of ATP production by body cells.
Learn more about ATP here:
<h3>
brainly.com/question/893601</h3><h3 /><h3>#SPJ4</h3>
Answer:
AGU-CUA
Explanation:
An mRNA sequence is made using a DNA sequence as a template. The sequence is dictated by complementary base pairing.
DNA uses the bases A, T, C and G. A is complementary to T and G is complementary to C.
RNA uses the bases A, U, C and G. A is complementary to U and G is complementary to C.
When transcribing DNA to RNA:
- C is paired with G
- G is paired with C
- A is paired with U
- T is paired with A
Therefore, TCA-GAT is transcribed to AGU-CUA
