To answer and understand the map, you should revise the glucose metabolism and diabetes before.
I like this exercise because it helps you to have an overall about the glucose and keep a visual memory.
The regulation of blood glucose involves the hormonal system (specifically insulin, glucagon, and adrenaline...), as well as several organs (pancreas, liver, and kidney mainly). This regulation is part of the process of maintaining homeostasis in the body. The absence of the regulation may cause diseases like diabetes.
<span>Here are the answers to correct yourself.
The answers:
1. </span>Blood stream<span>
2. Glycogen breakdown in the liver
3. Beta cells of pancreas
4. Too high
5. Rise
6. Adrenal glands
7. Insulin
8. Lack of insulin production
9. Juvenile onset diabetes
10. Epinephrine
11. </span>Decreases<span>
12. The uptake of glucose by liver and muscle cells
13. Insulin </span>otherapy<span>
14. Type I diabetes
15</span>. <span> Blood sugar level
16. Convert glucose to glycogen
17. Diabetic individuals
18. Type II diabetes
19. Glucagon
20. Cardiovascular disease
21. Carbohydrates
22. Neoglucogenesis
23. Glycogen
24. Alpha cells of pancreas
25. Diet and exercices
26. The synthesis of glucose from <span>non </span><span>carbohydrate based</span> molecules
27. Glucose</span>
28. Amino acid and fatty acid
29. Transferred into cells
30. Is sometimes required
<span>
</span>
Cancer cells have abnormal nuclei
Answer:
It means that they have an 86% chance of showing the associated phenotype.
Explanation:
- Arg122His is associated with the gene that carries the genetic characteristics. Its percentage gives the chance of getting the phenotypic appearance.
- Two particular elements are composed in a gene, phenotype and genotype. Phenotype gives the actual look of an organism where genotype is the genetic information.
- PRSS1 in any organism is responsible for protein coding gene that instructs for the production of certain types of enzymes.
I'd say false...
good luck!