You can approach this question by finding one answer that is wrong or by eliminating the answers that are correct.
Glycolysis is the breakdown of glucose into pyruvate. If you already know that glycolysis is oxygen-independent, meaning it does not require oxygen, then you immediately know that A is incorrect, making that the correct answer.
However, you can also go about it by eliminating B, C, and D. In glycolysis, glucose is breaking down with the help of ATP bringing in energy, so that means glucose, the simple sugar, is breaking down, so C is out. ATP is bringing that energy to the mitochondria, so B is out. And the energy from ATP is being consumed, so D is out.
North America okay bsnsbdkssiksal or Central or south
<span>There are a number of differences between these organisms and these are as follows:
</span><span>1) Reproduction
</span><span>Amoeba: Asexual
</span>Paramecium: Sexual by conjugation<span>
Euglena: Asexual
</span><span>
2) Nutrition
Amoeba: Heterotroph by phagocytosis
</span>Paramecium: Heterotroph by predation <span>
Euglena: Autotroph by photosynthesis and heterotroph by ingestion
</span>3) Locomotion
Amoeba: Pseudopodia
<span>Paramecium: Cilia</span>
Euglena: Flagella
Hope this answers the question. Have a nice day.
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<span>Science knowledge relies on experimental and observational confirmation. Where data is incomplete, new or improved data may well lead to revision of accepted science explanations. In situations where observations are fragmentary, it is normal for scientific ideas to be incomplete, but this is also where the opportunity for making advances may be the greatest.The core ideas of science have been subjected to a wide variety of confirmations and are therefore unlikely to change in the areas in which they have been tested. </span><span>Science knowledge may change due to the development of new techniques for observing investigations (including new technologies), and also through new ways of thinking or framing the questions asked.</span>
Answer:
C. Anaphase
Explanation:
Taxol's primary action is to bind to microtubules, especially β-tubulin, and prevent their depolymerization, thereby stabilizing mitotic spindle during anaphase of mitosis which leads to arrest of cell cycle.