Every cell in your body, from a brain cell to a toenail cell “eats” sugar. Cells use a simple sugar, called glucose, as the fuel they need to live and work. The entire job of your digestive system is to convert the various foods you eat into glucose to fuel the machine that is you.
So it is a normal process for food to be broken into glucose, and for that glucose to enter into your blood so it can be transported to every single cell in your body. Of which there are more than 10 trillion, by the way.
In those of us with diabetes however, either dysfunctional insulin or lack of insulin can cause too much sugar to remain in the blood, rather than going into the cells were it is needed.
So to answer your question, the sugar in your blood came from the food you ate, and it is staying in your blood instead of going where it belongs because something has gone wrong with the insulin system (diabetes).
So even if you never ate one grain of sugar, you could still have sugar in your blood, because a wide variety of foods are broken down into sugar by your body. And good thing too, because without enough sugar to eat, the cells would die and the sugar is removed from the blood by Sugar in the blood is primarily present in the form of glucose. This molecule is taken up via the so called GLUT-transporter, which is mainly present on the skeletal muscle cells (normal muscle cells). Excessive blood glucose, it is taken up by the liver and stored as glycogen - glucose packet together in long chains - and released to the blood when there is need for it.<span> </span>
A. a healthy diet and physical activity.
Answer:
B) No male-to-male transmission occurs
Explanation:
X-linked recessive disorder are passed via X chromosomes. A female with two recessive alleles will have the disorder while a female with one recessive allele will be a carrier. Since a male has only one X chromosome, having a single copy of the recessive allele is enough to make him affected. Hence, males can not be carrier of these disorders, they will either be affected or unaffected.
Sons are also more commonly affected by this disorder since they require only one recessive allele to express it. Since males pass on Y chromosome to sons and not X chromosome, male to male transmission of the disorder is not possible.
<span>Muscle groups need 48 hours to recover. Muscle gains decease after not being worked for 72 hours. True</span>