A. A microscope
B. A petri dish
C. A fermenter
D. A spectrophotometer
A. To purify and separate the desired product from the fermentation broth
B. To optimize the fermentation conditions for maximum product yield
C. To analyze the genetic material of microorganisms
D. To study the metabolic pathways of microorganisms
A. Polymerase chain reaction (PCR)
B. Gel electrophoresis
C. DNA sequencing
D. Microarray analysis
A. To analyze gene expression patterns
B. To purify and separate the desired product from the fermentation broth
C. To synthesize new chemical compounds
D. To transfer genetic material into host cells
A. Bacteria
B. Fungi
C. Viruses
D. Protozoa
A. To study the genetic makeup of organisms
B. To modify the genetic material of organisms for desired traits
C. To analyze the gene expression patterns in organisms
D. To purify and separate the desired product from the fermentation broth
A. Polymerase chain reaction (PCR)
B. Gel electrophoresis
C. DNA sequencing
D. Cloning
A. To study the structure and function of tissues
B. To analyze gene expression patterns in tissues
C. To modify the genetic makeup of cells and tissues
D. To create functional tissues for transplantation or repair
A. To provide structural support to cells
B. To store and transfer genetic information
C. To catalyze biochemical reactions
D. To regulate gene expression
A. Biomaterials provide structural support for growing cells and tissues
B. Biomaterials store and replicate genetic information
C. Biomaterials amplify specific DNA sequences
D. Biomaterials analyze gene expression patterns