We received exactly 50% of your genes from each of our parents, yet, the percentages of DNA we received from our ancestors at the grandparent level and further back are not essentially divided in two with each generation. Less than 1% of our DNA is most likely to come from any given ancestor at seven generations back.
Nonetheless, one doesn’t automatically inherit the same amount of DNA from his or her grandparents of the same level for the reason that inheritance is random; 12% of DNA may have been passed to you by one great grandparent, whereas only 4% may have been passed on by another great-grandparent. Similarly, ethnicity percentages are not passed on in equal amounts. If your fourth great-grandparent is 100% Australian and none of your other ancestors are Australian at all, you may be anywhere from 0 – 3% Australian, depending on which genes you inherited from your part- Australian parent. Since only half of a parent’s genes are passed on to each child, your siblings may have received some genes but you didn’t, and vice versa. This kind of pattern would continue with each sibling born. Siblings share only about half of their DNA with each another, some siblings inherit more of some ethnicities than the other siblings, and some siblings may not inherit some ethnicities at all because of the random nature of inheritance.
Photosynthesis is which green plants and some other organisms use sunlight to synthesize foods from carbon dioxide and water. Cellular respiration is a set of metabolic reactions and processes that take place in the cells. they work to gather by Photosynthesis<span> makes the glucose that is used in </span>cellular respiration<span> to make ATP.
Just remember to put it in your own words though. : )
I </span>tried
It depends what the amino acid will do. Usually it wouldn't disrupt the folding. But it could prevent the substrate binding and it would destroy or decrease protein function... I hope this helped.
Answer: temperature and density
<span>There are three types of heat transfer--radiation, conduction, and convection and the type where the heat is transferred and characterized by a circular movement of currents within a fluid is called convection. Differences in </span>material's temperature and density is what drives convection. <span>Convection currents are formed by the heating and cooling of the fluid (temperature change), changes in the fluid's density or mass, and the force of gravity combine to set the convection currents in motion.</span>