After DNA replication is complete, each strand of the original molecule is bound to a new complementary strand. This process is known as
A. disruptive replication.
B. conservative replication.
C. semiconservative replication.
D. dispersive replication.
E. stabilizing replication.
C. semiconservative replication.
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Which pest has thrived in urban centers due to their ability to adapt rather quickly?
a. Fruit flies b. Crows c. Mice d. Bacteria e. Rats
Communities with a high level of bacterial diversity are found in many habitats including soil and aquatic environments. Recent studies indicate this diversity is crucial to the functioning of these communities. The same studies have also found that phage abundance plays a critical role in the maintenance of the bacterial diversity within these communities. Are phages a density-dependent or a density-independent regulating factor?
A. density-dependent B. density-independent Clarify question: What is the key concept addressed by the question? What type of thinking is required? Gather Content: What do you already know about density-dependent versus density-independent factors affecting a community? What other information is related to the question? Choose Answer: Given what you now know, what information is most likely to produce the correct answer? Reflection on Process: Did your problem-solving process lead you to the correct answer? If not, where did the process break down or lead you astray? How can you revise your approach to produce a more desirable result?
Which is the correct sequence in the evolution of
plants? a. algae >>> gymnosperms >>> angiosperms>>> bryophytes >>> ferns b. ferns >>> algae >>> bryophytes >>> gymnosperms>>> angiosperms c. algae >>> bryophytes >>> ferns >>> gymnosperms>>> angiosperms d. ferns >>> gymnosperms>>> algae >>> bryophytes >>> angiosperms e. algae >>> bryophytes >>> ferns >>> angiosperms >>> gymnosperms
What do carbohydrates, lipids, and proteins have in common?
A) All are important enzymes that function within the cell. B) All are inorganic molecules. C) Covalent bonding holds these molecules together. D) Polymers of these organic molecules form monomers via dehydration synthesis reactions.