Answer: A×E
Explanation:
To Improve on a particular trait selection is made using the best parent that could give the best results. A trait that will be improved on should not affect your field, hence as a plant breeder the Goal is a traits that has been improved and will give the maximum yield. What a farmer needs is an improved variety with a better yield hence the seeds will not be approved for commercial commodity if low yielding.
Individual A—Yield: 179 bushels/acre; drought resistance: high
Individual E—Yield: 200 bushels/acre; drought resistance: medium
Individual A is high in resistance but has a moderate yield while individual E has a medium resistance but high yielding, a cross between A×E will give a more resistance variety and a better yielding variety because they are both the best parents for the genes needed and the two gene will be introduced into the new individual.
Answer: prefrontal cortex
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Answer:
Glucose metabolism is impeded as the conversion of fructose-6-phosphate to fructose-2,6-bisphosphate in glycolysis is impossible after a knockout in mice.
On glucose levels, glucose levels rise as the feedback mechanism set in place to control the metabolism of glucose to ATP is absent.
Explanation:
GLUCOSE METABOLISM
PFK-2/FBPase-2 is an enzyme involved in regulating glycolysis and gluconeogenesis. It is found abundantly in organs such as the liver and heart.
It is a rate limiting enzyme critical in the catabolism of glucose which produces energy in the body.
Phosphofructokinase-2 (PFK2) catalyzes the conversion of fructose-6-phosphate to fructose-2,6-bisphosphate. PFK-2 is regulated by glucagon in the liver, epinephrine in muscle and by insulin, glucagon and epinephrine being hormones.
A knockout in mice, will conversely lead to an increased level of fructose-6-phosphate in glycolysis and with a lack of the rate limiting enzyme, glucose levels rise, leading to a consequential rise in glucose levels.
The rate limiting enzyme functions in the body's natural feedback mechanism to regulate the production of energy as well as the release of glucose for the production of energy.
Membrane proteins that bind to signal by which cells communicate are called receptors are generally transmembrane protein.
<h3>What is the function of the stop sequence to a transmembrane protein? </h3>
When the protein presents an internal signal sequence (SSI), this sequence, in addition to directing the transport of the translational complex to the REG, will also act as an SPT, with the carboxy-terminal portion of the protein facing the lumen. from the reticulum or into the cytosol.
in this case, many transmembrane proteins function as gateways to permit the transport of specific substances across the membrane.
See more about transmembrane proteins at brainly.com/question/3167745
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