I would say that the answer to this question is most likely B or D.
The answer is b i did the quiz
Answer:
its gonna be D
Explanation:
It can't be A, since cells only divide once they are past interphase
It can't be B, becuase cell division does have an order
It can't be C, becuase a dying cell is still a functioning one
And it is D becuase daughter cells are haploid, while parent cells are diploid
There are a few different organisms that could potentially contain genes encoding enzymes that can fix carbon from 
. However, one of the most likely candidates would be plants. Plants have a unique ability to convert into useful organic compounds, and they typically have a large number of genes encoding enzymes involved in this process. Therefore, it is reasonable to believe that plants may also have genes encoding enzymes that can specifically fix carbon from .
<h3>
How do plants convert into useful organic compounds?</h3>
Plants are able to convert into useful organic compounds through the process of photosynthesis. This process occurs in the chloroplasts, which are organelles found in the plant cells. In photosynthesis, the plant uses sunlight to convert and water into glucose and oxygen. The glucose can then be used by the plant for energy, while the oxygen is released into the atmosphere.
To learn more about photosynthesis, visit:
brainly.com/question/1388366
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The correct answer is segmentation. <span>The annelids also known as segmented worms, are bilaterally symmetrical invertebrate organisms. Their main characteristic is a segmented body. Annelid's body consists of segments that are identical (except the first and the last one), having the same sets of internal organs and external chaetae. Septa separate the segments and enable the annelids to change the shapes of individual segments, which facilitates movement by peristalsis (symmetrical contraction movement).</span>
