Concept explainers
(a)
Interpretation:
The reason for a “smear” in lane 1 of the western blot gel should be explained.
Concept introduction:
Glycogenin is an enzyme which catalyzes the formation of short glycogen primers from glucose molecules.
Alpha amylase catalyzes the hydrolysis of alpha linkages in polysaccharides and release glucose and maltose.
SDS-PAGE is a biochemical technique used to separate charged molecules from a mixture, according to their molecular masses. SDS acts as a surfactant and negatively charge the proteins evenly. Thus, separating them only based on their molecular mass.
Western blot is visualizing technique which is commonly used for analyzing proteins. Proteins separated by SDS-PAGE electrophoresis is transferred to a membrane, so that it can be visualized easily with the specific antibodies against the target protein.
(b)
Interpretation:
The significance of the decrease in high molecular weight bands in lane 2 should be explained.
Concept introduction:
Glycogenin is an enzyme which catalyzes the formation of short glycogen primers from glucose molecules.
Alpha amylase catalyzes the hydrolysis of alpha linkages in polysaccharides and release glucose and maltose.
SDS-PAGE is a biochemical technique used to separate charged molecules from a mixture, according to their molecular masses. SDS acts as a surfactant and negatively charge the proteins evenly. Thus, separating them only the basis of their molecular mass.
Western blot is a visualizing technique which is commonly used for analyzing proteins. Proteins separated by SDS-PAGE electrophoresis are transferred to a membrane, so that it can be visualized easily with the specific antibodies against the target protein.
(c)
Interpretation:
Significance of the difference between lane 2 and 3 should be explained
Concept introduction:
Glycogenin is an enzyme which catalyzes the formation of short glycogen primers from glucose molecules.
Alpha amylase catalyzes the hydrolysis of alpha linkages in polysaccharides and release glucose and maltose.
SDS-PAGE is a biochemical technique used to separate charged molecules from a mixture, according to their molecular masses. SDS acts as a surfactant and negatively charge the proteins evenly. Thus, separating them only based on their molecular mass.
Western blot is a visualizing technique which is commonly used for analyzing proteins. Proteins separated by SDS-PAGE electrophoresis is transferred to a membrane, so that it can be visualized easily with the specific antibodies against the target protein.
(d)
Interpretation:
A plausible reason for no difference between lanes 3 and 4 should be suggested.
Concept introduction:
Glycogenin is an enzyme which catalyzes the formation of short glycogen primers from glucose molecules.
Alpha amylase catalyzes the hydrolysis of alpha linkages in polysaccharides and release glucose and maltose.
SDS-PAGE is a biochemical technique used to separate charged molecules from a mixture, according to their molecular masses. SDS acts as a surfactant and charges the proteins both negatively and evenly. Thus, separating them only based on their molecular mass.
Western blot is a visualizing technique which is commonly used for analyzing proteins. Proteins separated by SDS-PAGE electrophoresis are transferred to a membrane, so that it can be visualized easily with the specific antibodies against the target protein.
(e)
Interpretation:
The 66 kDabands observed in all the lanes treated with amylase, despite the fact that the cells were treated differently should be justified.
Concept introduction:
Glycogenin is an enzyme which catalyzes the formation of short glycogen primers from glucose molecules.
Alpha amylase catalyzes the hydrolysis of alpha linkages in polysaccharides and release glucose and maltose.
SDS-PAGE is a biochemical technique used to separate charged molecules from a mixture, according to their molecular masses. SDS acts as a surfactant and charges the proteins both negatively and evenly. Thus, separating them only based on their molecular mass.
Western blot is a visualizing technique which is commonly used for analyzing proteins. Proteins separated by SDS-PAGE electrophoresis are transferred to a membrane, so that it can be visualized easily with the specific antibodies against the target protein.
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Chapter 21 Solutions
Biochemistry (Looseleaf)
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- If the pH of gastric juice is 1.6, what is the amount of energy (AG) required for the transport of hydrogen ions from a cell (internal pH of 7.4) into the stomach lumen? Assume that the membrane potential across this membrane is -70.0 mV and the temperature is 37 °C. AG= kJ mol-1arrow_forwardConsider the fatty acid structure shown. Which of the designations are accurate for this fatty acid? 17:2 (48.11) 18:2(A9.12) cis, cis-A8, A¹¹-octadecadienoate w-6 fatty acid 18:2(A6,9)arrow_forwardClassify the monosaccharides. H-C-OH H. H-C-OH H-C-OH CH₂OH H-C-OH H-C-OH H-C-OH CH₂OH CH₂OH CH₂OH CH₂OH D-erythrose D-ribose D-glyceraldehyde Dihydroxyacetone CH₂OH CH₂OH C=O Answer Bank CH₂OH C=0 HO C-H C=O H-C-OH H-C-OH pentose hexose tetrose H-C-OH H-C-OH H-C-OH aldose triose ketose CH₂OH CH₂OH CH₂OH D-erythrulose D-ribulose D-fructosearrow_forward
- Fatty acids are carboxylic acids with long hydrophobic tails. Draw the line-bond structure of cis-A9-hexadecenoate. Clearly show the cis-trans stereochemistry.arrow_forwardThe formation of acetyl-CoA from acetate is an ATP-driven reaction: Acetate + ATP + COA Acetyl CoA+AMP+ PP Calculate AG for this reaction given that the AG for the hydrolysis of acetyl CoA to acetate and CoA is -31.4 kJ mol-1 (-7.5 kcal mol-¹) and that the AG for hydrolysis of ATP to AMP and PP; is -45.6 kJ mol-1 (-10.9 kcal mol-¹). AG reaction kJ mol-1 The PP, formed in the preceding reaction is rapidly hydrolyzed in vivo because of the ubiquity of inorganic pyrophosphatase. The AG for the hydrolysis of pyrophosphate (PP.) is -19.2 KJ mol-¹ (-4.665 kcal mol-¹). Calculate the AG° for the overall reaction, including pyrophosphate hydrolysis. AGO reaction with PP, hydrolysis = What effect does the presence of pyrophosphatase have on the formation of acetyl CoA? It does not affect the overall reaction. It makes the overall reaction even more endergonic. It brings the overall reaction closer to equilibrium. It makes the overall reaction even more exergonic. kJ mol-1arrow_forwardConsider the Haworth projections of ẞ-L-galactose and ẞ-L-glucose shown here. OH CH₂OH OH CH₂OH OH OH OH ОН OH он B-L-galactose B-L-glucose Which terms describe the relationship between these two sugars? epimers enantiomers anomers diastereomersarrow_forward
- Classify each characteristic as describing anabolism or catabolism. Anabolism Answer Bank Catabolism transforms fuels into cellular energy, such as ATP or ion gradients uses NADPH as the electron carrier synthesizes macromolecules requires energy inputs, such as ATP uses NAD+ as the electron carrier breaks down macromoleculesarrow_forwardThe table lists the standard free energies (AG") of hydrolysis of some phosphorylated compounds. Compound kJ mol-1 kcal mol-1 Phosphoenolpyruvate (PEP) -61.9 -14.8 1,3-Bisphosphoglycerate (1,3-BPG) -49.4 -11.8 Creatine phosphate -43.1 -10.3 ATP (to ADP) -30.5 -7.3 Glucose 1-phosphate -20.9 -5.0 Pyrophosphate (PP) -19.3 -4.6 Glucose 6-phosphate -13.8 -3.3 Glycerol 3-phosphate -9.2 -2.2 What is the direction of each of the reactions shown when the reactants are initially present in equimolar amounts? (a) ATP + H2O ADP + P (b) ATP + glycerol glycerol 3-phosphate + ADParrow_forwardCharacterize each term or phrase as pertaining to simple or facilitated diffusion. Simple diffusion Facilitated diffusion Answer Bank requires an input of free energy lipophilic molecules directly through membrane via channels polar molecules Na+arrow_forward
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