Glycerol contributes to the formation of a monomer known as a triglyceride, which when linked with other triglycerides, form polymers like fats or oils. This biological process is integral in building structures such as the cellular phospholipid membranes.
Glycerol is one of two molecules that make up a type of monomer specifically called a triglyceride. A triglyceride forms when three fatty acid chains are bound to a glycerol backbone through a process called dehydration synthesis. In this process, glycerol gives up hydrogen atoms from its hydroxyl groups at each bond, and the carboxyl group on each fatty acid chain also gives up a hydroxyl group, releasing a total of three water molecules.
This concept illustrates a basic mechanism in molecular biology - the formation of polymers from monomers, like how a long chain of monomers, called polymers, forms via polymerization. In this case, the monomer is a triglyceride and, when these monomers link together, they can form polymers like fats or oils. This biological process plays a significant role in building various structures in living organisms, such as the phospholipid membranes which are major constituents in cells.
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b. Devonian
c. Permian
d. Vendian
A)a hypotonic solution; into the cell
B)a isotonic solution; neither in nor out of the cell
C)a hypertonic solution; into the cell
D) a hypertonic solution; out of the cell
The answer is c, hypertonic solution, into the cell.
Answer:
Atoms
Explanation:
Answer:
the Threshold potential
Explanation:
A) 1
B) 2
C) 4
D) 8
E) 16
Since there are four alleles, there are four different combinations of alleles possible in the gametes. Therefore, option C is correct. as there would be four different types of gametes possible in this system.
In a system where skin color in a certain species of fish is inherited via a single gene with four different alleles, the number of different types of gametes that would be possible can be determined using the principle of independent assortment.
The principle of independent assortment states that during gamete formation, the alleles for different traits segregate independently of each other.
Since there is only one gene involved in determining skin color in this case, we can assume that the alleles for skin color segregate independently as well.
With four different alleles for the skin color gene, let's label them as A, B, C, and D. Each individual gamete will carry only one allele. The possible combinations of alleles in the gametes can be calculated by multiplying the number of alleles for each gene together.
In this case, since there are four alleles, there are four different combinations of alleles possible in the gametes. Therefore, the correct answer is C) 4, as there would be four different types of gametes possible in this system.
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