The special dyes used in fluorescence microscopy that absorb light at one wavelength and emit light at a different wavelength are called ________.

The peripheral chromatin, which contains fine granules that are uniform in size and are evenly distributed, can be found in which one of the following protozoa?

a. Endolimax nana b. Iodamoeba butschlii c. Entamoeba coli d. Entamoeba histolytica

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

What is the origin and physiological function of restriction endonucleases?

A) Bacteriophage produce them to gain resistance to antibiotics. B) Restriction endonucleases are required for DNA replication in yeast. C) Bacteria produce them to protect against viral invasion. D) Scientists invented them and synthesize them in labs.

Transmission genetics ____

a. studies the pattern of inheritance as traits are passed from generation to generation b. reconstructs the pattern of inheritance associated with a trait as it passes through several generations c. maps genes to study chromosome structure and abnormalities in chromosome numbers and organization d. uses recombinant DNA technology to identify, isolate, and produce millions of copies of genes that can be studied in the laboratory e. sequences the complete human genome