Because when you put a part of the DNA and take it out, you can restrict an ability of that cell. When you cut out a piece of DNA from a pancreas beta cell that codes for insulin synthesis, you restrict the cells ability to make insulin, hence the name "restriction enzyme". I hope this is the answer that you are looking for and it comes to your help.
You subtract the number of protons and the mass to get the number of neutrons.
The teratogens can be defined as any physical, chemical, or infections agents that have the ability to penetrate the protective layers of the embryo, and affect its viability. The overall development and the development of the different organ systems might be affected because of these teratogens. When the embryo is exposed to the teratogens after the organogenesis is complete, it is most likely that the fetus will suffer from the stunted growth. When the organogenesis is complete, the organs are already formed, and hence, no severe damage can occur to them. Down's syndrome will result if the chromosomal abnormality occur in the fetus, which is not likely after the organogenesis is already complete. Any kind of severe anatomical defects are also least likely after organogenesis is completed. Therefore, the chances of having stunted growth are high.
I would answer your question but i think you wanted to add options. next time you can just screen shot and actually i think you still can by pressing the edit button. And there are several types of wedges you could be talking about mechanical, frost, salt, etc.
You need to be a bit more specific. but i would be more than happy to answer your question. :)
According to the research, all of the following are typical physiological effects of dehydration except <u>osmolality decreased</u>.
<h3>What is dehydration?</h3>
It is the process that refers to eliminating or losing the water that is part of the composition or that contains an organism.
Among the most frequent effects are thirst, osmolality increases, increased sweat rate, dry skin and fatigue.
Therefore, we can conclude that according to the research, all of the following are typical physiological effects of dehydration except osmolality decreased.
Learn more about dehydration here: brainly.com/question/12261974
#SPJ1
