Both aerobic and anaerobic respirations are types of cellular respiration. Both use glycolysis to produce ATP. Both generate energy by breaking down glucose. Both produce byproducts and depend on chemical reactions that are localized in the cytosol. Both use pyruvate as a substrate and both processes depend on enzymes to catalyze their respective chemical
reactions.
A fact about these two types of respiration is that aerobic respiration produces or release 19 times more energy than anaerobic respiration from the same amount of glucose
Answer:
Population density of horse
Explanation:
Population density refers to the number of people (or any other living species) existing in a particular area. This reflects the quantity of a particular type of living species that exist over an area of about 1 km².
Population density is obtained mathematically by, dividing the total population of the area by the total size of the area.
In the given question, it describes the quantity (number) of wild horses that are present per square kilometer in the prairie lands. This refers to the population density of horses.
metaphase because its lines up to the equator which is the center of the cell
Explanation:
<u>PROKARYOTIC</u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u> </u><u>EUKARYOTIC</u>
1.circular chromosomes 1. mitochondria
2.flagella that rotates 2.endoplasmic reticulum
3.peptidoglycan:cell wall3.cellulose/chitin cell
wall
4.linear chromosomes
5.flagella that whips
6.golgi apparatus
7. lysosomes
<u>N.T</u>: Prokaryotic organisms have a simple cell structure an example is bacteria, it has a cell wall,flagella for movement in some ,free chromosomes ,slime capsules in some cases and cytoplasm ,while eukaryotic organisms have a complex cell structure and they have an organised nucleus.
Answer: The answer is substrate
Explanation:
The SUBSTRATE for beta-glucocerebrosidase is glucocerebroside. In this case glucocerebroside, the substrate is broken down to ceramide (sphingosine + fatty acid) and 3 molecules of galactose in a reaction catalyzed by the enzyme beta-glucocerebrosidase.
Deficiency of this enzyme lead to inability of ceramide to be cleaved from the substrate resulting in accumulation of the substrate in organs of the body such especially lungs and bone marrow in a condition called Gaucher's disease.
Thus, substrate is the answer