Answer:
First Image
Explanation:
Amino acid order is NCC (Nitrogen, alpha carbon with R group attached, and carboxy group).
If we start with methionine, then we write its nitrogen, then alpha carbon and then carboxy and then alanine's nitronge, alpha, carboxy, and end with glycine nitrogen, alpha and carboxy.
I have labelled the "R" groups to show amino acids. First is methionine, then alanine and then glycine.
X needs to be 2 because Na needs 2 and so does Cl
Multiple sclerosis (MS) is common known demyelinating disease of the central nervous system. In this disease, your immune system attacks the myelin sheath or the cells that produce and maintain myelin sheath.
These attack can cause inflammation and injury to the nerve sheath and ultimately to the nerve fibers that it surrounds. In Multiple sclerosis , the affected part is immune system that attacks the protective sheath (myelin) that coats over the nerve fibers and causes communication problems between your brain and the rest of your body. Gradually , the disease can cause permanent damage or deterioration of the nerves.
To learn more about Multiple sclerosis (MS) , here
brainly.com/question/9516512
#SPJ4
Maybe they are the same because they both are part of the human body and they help the body function.
Complete question:
The regulation of blood flow by local mechanisms within a capillary bed is called
A) autoregulation.
B) hormonal regulation.
C) hemoregulation.
D) vasoregulation.
E) neuroregulation.
Answer:
A) autoregulation.
Explanation:
Local changes regulate the flow of blood in each capillary bed. This occurs when the vasodilators trigger the local widening of arterioles and relaxation of precapillary sphincters to increase the blood flow into capillary networks. On the other hand, vasoconstrictors reduce blood flow. This ability of a tissue to control blood flow to meet its metabolic demands is called autoregulation.
For example, autoregulation increases the blood flow in the heart and skeletal muscle during physical activities to meet the increased demand for O2 and nutrients.