If a strand of RNA has the sequence AAGCTC, transcription will result in __________________________________________________________________.
Fill in the blank(s) with the appropriate word(s).
a single RNA strand with the sequence UUCGAG
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Antigens on red blood cells are hereditary traits that allow blood to be typed in different ways. One system is based on a gene with two alleles, M and N. If the frequency of the M allele in a population is 0.4, then according to the Hardy-Weinberg rule, the expected frequency of the heterozygous MN genotype is ___.
A. 0.16 B. 0.24 C. 0.36 D. 0.48 E. 0.6 Clarify Question · What is the key concept addressed by the question? · What type of thinking is required? · What key words does the question contain and what do they mean? Gather Content· What do you already know about the Hardy-Weinberg principle? How does it relate to the question? Consider Possibilities · What other information is related to the question? Which information is most useful? Choose Answer · Given what you now know, what information and/or problem solving approach is most likely to produce the correct answer? Reflect 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?
This animal has spicules, digests its food in
collar cells, and is a hermaphrodite. This animal is ___.This animal has spicules, digests its food in collar cells, and is a hermaphrodite. This animal is ___.
a. a sea anemone b. a sponge c. an earthworm d. a clam e. more than one of these
Information processing that suggests thinking.
Choose the letter of the best match: A. cognition B. waggle dance C. navigation D. filial imprinting E. fixed action pattern
Why do researchers often include DNase in their antibiotic preparations to eliminate biofilms?
A. The antibiotics cannot readily penetrate the extracellular debris, which often includes DNA from lysed cells. B. Targeting the bacterial chromosome is the most effective way to kill biofilm bacteria. C. If the microbe's genome can be destroyed, the cell will die. D. The antibiotics target the cell wall and the DNase targets the genome, effectively destroying the biofilm.