Answer:
Explanation:
<h2>
Homotropic effector-</h2>
<h2>Both -</h2>
The phrase
is relevant and can be applied for homotropic effector molecules since the heterotropic effector molecules have the possibility and affinity to change the sigmoidal curve to a more potential hyperbolic curve contingent upon the allosteric effector to be positive or negative modulator.
The expression isn't relevant for both homotropic and heterotrophic effectors since the two of them can tie to the allosteric site of allosteric enzymatic compounds.
The phrase is significant and can be applied for both homotropic and heterotropic effectors.
The expression is significant and applied for homotropic effectors just as when substrate molecules tie to the allosteric site of enzyme then it is regarded as homotropic effectors. The heterotropic effectors are effectors apart from substrate molecules.
The phrase is not applied and insignificant to none of the heterotropic or homotropic effector molecules since is significant for the enzymes that obey the Michaelis-Menten equation, but allosteric enzymes do not obey the Michaelis-Menten equation. Homotropic and heterotropic effectors are viable and efficient for allosteric enzymatic chemicals that don't contain
Homozygous! the prefix homo- means the same, while hetero- means different.
Answer:
The correct answer is "The rate of facilitated diffusion is decreased".
Explanation:
Most cells obtain their nutrients by different kinds of diffusion. One property that affects the rate of diffusion is the cell's surface area-to-volume ratio. The smaller the cell's surface area-to-volume ratio, the higher the rate of diffusion. This happens because is easier for a small cell to get the nutrients to the center than to a large cell. This is the case for facilitated diffusion. Therefore, the rate of facilitated diffusion will be decreased when a cell's surface area-to-volume ratio is greatly increased.
The vas deferens transport sperm from the testicle to the urethra.
Answer:
C) Cut the DNA again with restriction enzyme Y and insert these fragments into the plasmid cut with the same enzyme.