Answer and explanation:
<u>If excessive amounts of acetoacetic acid were to build up in the body, </u><u>the pH of the blood would decrease</u><u>, because the blood would become more acidic</u>.
Acetoacetic acid is produced because of lipolysis (fat degradation) or because of the breakdown of amino acids. This is a normal biochemical process, but it can lead to serious issues when the levels of acetoacetic acid rise more than they should.
<u>Patients with Diabetes Mellitus have a deficiency in their insulin production</u>. Insulin is the only hormone that can make glucose enter the cells, which is important because glucose (sugar) is processed inside the cells to produce ATP (a molecule high in energy).
Patients with Diabetes can't get the glucose inside their cells, so the blood sugar levels rise in the blood (hyperglycemia). <u>Since the body still needs ATP to function properly, energy requirements are being met via the degradation of fat and amino acids - which generates acetoacetic acid. If this continues, the pH drops and</u><u> Diabetic Ketoacidosis</u><u> occurs</u>. This condition is life-threatening.
Answer:
generation 1
Explanation:
The allele frequency is a term that represents the frequency that an allele can appear in a given population. This term can help to develop conclusions about the genetic diversity that a region presents in relation to the individuals that compose it.
In relation to the question above, generation 1 had the highest frequency of having one of each allele. This is because this generation presents the maximum frequency of the dominant and recessive alleles in a coherent way, 0.60 and 0.40. However, the other generations showed a steady and progressive decrease in the recessive allele.
The correct answer is individuals
I hope this help
Scientist rely on <em>Biology </em>concepts when researching crop production and medicine.
