Human cells produce perhaps as many as 100,000 different proteins, and yet the human genome has

The function of the bacteriophage ? N protein is to:

A. bind directly to the promoter of genes that are active late in the infection process. B. allow transcriptional read-through of hairpin terminator sites in mRNA. C. block ? repressor synthesis. D. block transcription of all phage genes except its own.

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

Which of the following statements is false regarding phagocytosis?

A) It can ingest large particles. B) It involves the projection of pseudopods. C) It is used by amoebae to ingest food. D) It is mediated by clathrin at the plasma membrane. E) It is used by macrophages and neutrophils to ingest bacteria.

Match the protein with the activity. (Note: you may use any activity more than once)

A) direct regulation of cell cycle processes B) chromosome separation/cytokinesis mechanisms C) apoptosis D) mitogen signaling pathways 1) Bcl-2 2) p53 3) Ras 4) ced mutants 5) securin 6) APC 7) EGF 8) MAPK 9) Cdk 10) Aurora B kinase 11) cytochrome c