<span>B. both occur in the mitochondria and result in producing more ATP.</span>
Answer:
Hetezygous
Explanation:
<em>The genotype of the initial green pod plant would be heterozygous.</em>
Let pea pod color be represented by C (c) alleles.
First, let us assume that the genotype of the green pea pod plant is homozygous dominant, CC. This was crossed with homozygous recessive, cc.
CC x cc
Cc Cc Cc Cc
<u>All the progeny will have Cc genotype with phenotypically green color. </u><u>This is in contrast to the result obtained from the test cross in the illustration, hence the genotype of the initial green pea pod plant cannot be homozygous dominant.</u>
Now, let us assume that the genotype is Heterozygous, Cc.
Cc x cc
Cc Cc cc cc
<u>50% of the progeny has Cc genotype with phenotypically green color while the remaining 50% has cc genotype with phenotypically yellow color. </u><u>This is consistent with the result from the illustration.</u>
Hence, the genotype of the initial green pea pod plant is heterozygous.
Answer:
1, 8
Explanation:
on the top its the first but if u have to pick two then its the bottom 2nd one and the first one on the top. hope this helps!!
Answer:
Plasmin
Explanation:
Plasmin is a serine protease also referred to as fibrin digesting enzyme, it is responsible for the dissolving or degradation of blood clot. The process by which plasmin degrades blood clot is called fibrinolysis. Note that plasmin (active) is formed from an inactive enzyme called plasminogen.
