The answer is B, a thin layer.
Answer:
1.to create multiple cells 2. gametes
Explanation:
i have plato and i have done this
Answer:
A-B-C-D
Explanation:
PROPHASE; 1. chromosomes become thicker
2. nuclear membrane disintegrates
3. centrosome divide to form centrioles
4. centrioles move to the opposite polls of the cell
METAPHASE; 1. chromosomes get arranged at the equator
2. centrioles produce spindle fibre that attach to the middle of the chromosomes
ANAPHASE; 1. shortest stage of mitosis
2. spindles will pull apart each chromosomes to form chromatids
TELLOPHASE; 1. each chromatid moves to opposite polls of the cell
2. nuclear membrane appears around both of them
3. the centrioles sill stop producing spindles
4. centrosomes will then form again
cytokinesis then divides by the cleavage furrow to form the two daughter cells
Answer:
A pathway, which is used within the body to develop glucose from the non-carbohydrate sources is termed as gluconeogenesis. This process permits the body to accumulate the required energy in the form of glucose within the brain. The mentioned phenomenon takes place in the kidneys and liver.
The stimulation of the process takes place by the diabetogenic hormones like cortisol and glucagon and the substrates, which are required for the process include lactate, glycerol, and some kind of amino acids. In the process of gluconeogenesis, the reverse of the glycolytic and fermentation pathways takes place, that is, by transforming the substrate lactate initially into pyruvate and eventually back into glucose.
Of the mentioned molecules, glucose-6-phosphate, acetyl-CoA, and glucagon work as an activator of gluconeogenesis and insulin and AMP function as an inhibitor of the process. However, ATP and fructose-1,6-bisphosphate neither works as an activator or inhibitor of the process.
Answer:
Some of these services, or functions, include protecting and improving water quality, providing fish and wildlife habitats, storing floodwaters and maintaining surface water flow during dry periods. These valuable functions are the result of the unique natural characteristics of wetlands.
Explanation: