Which of the following statements regarding a bacterium that is R+ is FALSE?

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

Which of the following lack a nucleus and are

structurally simple? a. eukaryotes b. prokaryotes c. fungi d. algae e. all of these

From the list BELOW, which of the following is the most logical sequence of steps for splicing foreign DNA into a plasmid and inserting the plasmid into a bacterium?

1. Transform bacteria with recombinant DNA molecule 2. Cut the plasmid DNA using restriction enzymes 3. Extract plasmid DNA from bacterial cells 4. Hydrogen-bond the plasmid DNA to nonplasmid DNA fragments 5. Use ligase to seal plasmid DNA to nonplasmid DNA A) 4, 5, 1, 2, 3 B) 3, 2, 4, 5, 1 C) 3, 4, 5, 1, 2 D) 2, 3, 5, 4, 1 E) 1, 2, 4, 3, 5

Which of the following statements is true?

(a) The signal sequences on mitochondrial proteins are usually at the C-terminus. (b) Most mitochondrial proteins are not imported from the cytosol but are synthesized inside the mitochondria. (c) Chaperone proteins in the mitochondria facilitate the movement of proteins across the outer and inner mitochondrial membranes. (d) Mitochondrial proteins cross the membrane in their native, folded state.