During fixation, the initial phase of the Calvin cycle's light-independent reactions, CO2 is converted from an inorganic to an organic compound. In the following phase, ATP and NADPH molecules provide energy and reducing power to transform 3-PGA into G3P, while ATP and NADPH are converted back to ADP and NADP+ respectively.
Hope this clarifies things [:
Answer:
Each sensory neuron acts as a (an) stimulus to the central nervous system, whereas every motor neuron serves as a(an) transmitter from the central nervous system.
Answer:
The continuation of the question is
Which explains the reasoning behind this fact?
Their DNA comprises different codon sequences.
It is composed of four distinct bases.
Kai received more proteins from one parent compared to the other.
The varied inheritance of amino acids from her parents led to the difference.
The correct response is Their DNA comprises different codon sequences.
DNA, or Deoxyribonucleic acid, consists of nitrogenous base pairs, a phosphate group, and deoxyribose sugar. The amino acids formed from these bases result in varied expression of traits. This variation stems from the diversity in coding sequences since there are over 60 distinct codon combinations. This accounts for the slight differences between Kai and her parents.
Answer: The hormones secretin and cholecystokinin act on the pancreas, stomach, and gallbladder.
Explanation:
The duodenum produces two more hormones. Cholecystokinin (CCK), similar to enterogastrone, is released when fat is present in the chyme. CCK promotes the contraction of the gallbladder, which releases bile into the duodenum to help emulsify and digest fat more effectively. The other hormone from the duodenum is secretin. In response to the acidic chyme entering the duodenum, secretin triggers the pancreas to release bicarbonate, thereby neutralizing some of the acid.
