21. Differentiate between the following pairs (be De a. Apoenzyme & Holoenzyme Apoename howing pairs the...
21. Differentiate between the following pairs (be specific) in terms of similarities and differences: a. Apoenzyme & Holoenzyme Oligosaccharide & polysaccharides b. Hemiacetal&hemiketal с. Erythrose & Threose d. Mutarotation & Lectins е. Glycosoaminoglycans & glycosphingolipids f.
21. Differentiate between the following pairs (be specific) in terms of similarities and differences: a. Apoenzyme & Holoenzyme Oligosaccharide & polysaccharides b. Hemiacetal&hemiketal с. Erythrose & Threose d. Mutarotation & Lectins е. Glycosoaminoglycans & glycosphingolipids f.
21. Which of the following is not a function of carbohydrates? A) They are catalytic components of enzymes B) They play key roles in processes that take place on the surface of cells C) They are major energy sources D) They are used in structural roles Section: 11.1 22. Carbohydrates are A) aldehydes with two or more hydroxyl groups C) acids with two or more hydroxyl groups E) A and B B) ketones with two or more hydroxyl groups D)...
3. How would you differentiate between the following pairs of molecules using 'H and C NMR? a) OI b) H3C CH3 он Vs CH3 CH3 VS Br Br
7. Differentiate between the following terms: a) Unemployed worker and discouraged worker. b) Currency appreciation and currency depreciation. c) Purchasing power parity and interest rate parity. d) Current account and capital account.
Chapters 21 and 22: 1. Consider the structure shown on the right and answer the following questions about it (ill in blanks or cirele proper choice) (4 a. Its molecular formula is G ,H( )0( , and so it fits the CHOH , general formula for a carbohydrate, which is b. Specifically, this structure is (a D/ an L) (aldo/keto) (pent/hex) (aselose) c. Will it be optically active? d. If the top carbon was converted to a CH,OH, would it...
CH401 Biochemistry I Homework Assignment #6, Carbohydrates 1. Indicate whether each of the following pairs of sugars consists of anomers, epimers, enantiomers, or none of these relationships. a. D-glyceraldehyde and dihydroxyacetone. annos b. D-glucose and D-mannose - epimers c. D-erythrose and L-erythrose er m ers d. a-D-glucose and B-D-glucose - enoshowers e. D-ribose and D-arabinose - f. D-galactose and D-glucose - 2. What does the enzyme mutarotase catalyze? Show by an equation using the glucose isomers. 3. Draw the Haworth...
diastereomer 8. (1 pt.) Identify the specific type of relationship between each of the following pairs of molecules (i.e., either the same, constitutional isomers, enantiomers, diastereomers, conformers or unrelated). Br HOM Br Br a) b) d) H OH CL c HO- -Hi Be H- OH HO H e) f)
2. Referring to the structure at the right, answer/do the following: CH2OH a. Label each ring as locked (L) or unlocked. (U) OH O b. Circle the glycoside linkage. OH C. What type of glycoside linkage (e.g., a-1,2) is it? CH2OH HO OH HO 2MCL d. Explain the significance to humans of the type of glycoside linkage in this disaccharide.Why does it matter to some humans who consume sobi-C this sugar? Hbonvib no tiowall OH OH What is the name...
Bring out the difference between the following pairs of terms by clearly defining what they refer to: 1. (5'-2 ½ Marks) a. Harvard versus Von Neumann Architecture b. Computer Architecture versus Computer Organization c. RISC versus CISC computers d. Compiler versus Assembler e. Desk/Laptops versus Embedded systems me ndnn narfarm addition of two unsioned numbers in registers St1 and St2 and