Answer:
Give an example of a chemical that is converted to an active metabolite by sulfation
The following metabolite was detected in the urine of a worker at a chemical plant. Working backwards from the metabolite shown to the parent (original) chemical, fill in the blanks for the biotransformation pathway that resulted in the excreted metabolite, drawing the chemicals and listing the full names of any enzymes and cofactors involved. (2 marks each, 14 marks total) 9. Phase Il metabolite (draw) Enzyme: Cofactor(s) Phase I metabolite (draw) Enzyme Cofactor(s) Original chemical (draw)
Label the function groups of the drug Enalaprilat the active metabolite of the drug Enalapril.
Which is an example of a secondary metabolite? a. Substances that kill fungi that a bacterium produces when in the presence of a fungus b. The enzyme, TPI, which has a role in glycolysis c. ATP d.Glucose e.Collagen used in connective tissue
12. Give an example of chemical reactions for the fabrication of oxide material by wet chemical precipitation
Give one example of a chemical that is available naturally and can be synthesized(man made) as well. Give one application of this chemical.
Give an example of a redox reaction. Include the balanced chemical equation.
Classify the phrases based on whether they describe or give an example of facilitated diffusion, active transport, or both. Facilitated diffusion Active transport Both Answer Bank movement to area of lower concentration movement across a membrane movement assisted by proteins glucose transport into muscle cell sodium ion transport out of cell requires energy
d Give an example of two amino acids that could form a salt bridge (chemical structure or 3 letter code)
2. (12) A chemical reaction rate is the speed at which reactants are converted to products. List four factors that affect the rates of all reactions: a) b) 3. (8) Give a statement of LeChatelier's Principle for a chemical reaction at equilibrium: 4. (14) For the reaction at equilibrium: 3 H2(g) + N2 (g) ==> 2 NH3(g) + heat (exothermic) a) write the equilibrium constant expression for the reaction above: Keq = b) For each of the following changes in...
Explain the difference between passive and active attacks on a network. Give an example of each. Which headers are left in plaintext when we use link encryption? Network encryption? Application encryption? How is end-to-end encryption different from other types of encryption? At what layer does it take place? Describe the SSL key negotiation in terms of the keying techniques introduced in Section 14.2. Explain how the different IPsec modes apply encryption either above or below the IP layer Describe WEP2...