Answer:
the pleiotropy and epistasis (more info below)
Explanation:
Many human traits have dynamic forms of ancestry. We can be regulated by a single gene with several alleles, or by several genes. Further complication can be added by pleiotropy (one gene, multiple effect) and epistasis (gene-gene interaction). A number of hereditary diseases are triggered by defects in one or a few genes. examples: autosomal dominant, autosomal recessive, X-linked dominant, X-linked recessive, and mitochondrial.
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During the stress, heart rate, respiration rate and temperature increase. The reason for that is the influence of sympathetic nervous system, which starts t<span>he “fight or flight” system. As a result of this adrenaline (epinephrine) is released from adrenal glands. Adrenaline circulates through the body and brings a lot of physiological changes. The heart beats faster than normal, pushing blood to the muscles, heart, and other vital organs and as a consequence, the person undergoing these changes also starts to breathe more rapidly to deliver more oxygen to organs. Meanwhile, adrenaline triggers the release of glucose and fats from energy storages. These molecules flood into the bloodstream, supplying energy to all parts of the body.<span> The temperature is rising due to increased metabolism.</span></span>
Answer:
i think that the higher the body temperature the higher the cellular respiration
Explanation:
Answer:
The correct answer is option d, that is, located in the same plane.
Explanation:
The rotator cuff refers to the group of four different muscles and their tendons that offer stability and strength at the time of motion of the shoulder complex. The muscles originate from the scapula and associates with the humerus head, producing a cuff surrounding the glenohumeral joint.
The rotator cuff muscles are utilized in different extremity motions comprising abduction, flexion, external rotation, and internal rotation. As a group, these muscles are accountable for steadying the shoulder joint, by offering fine-tuning motions of the humerus head within the glenoid fossa.
They assist in maintaining the humerus head inside the small glenoid fossa of the scapula in order to enhance the range of motion in the glenohumeral joint and prevent mechanical obstruction. In order to retain the humeral head aligned within the glenoidal cavity, the rotator cuff muscles must be aligned in a similar plane.