Concept explainers
Videos
(a)
To identify: The closest counterparts of the enzyme galactose dehydrogenase as described in this chapter.
Concept introduction: Enzymes are the organic catalysts that act as an important component in various biological processes. Every enzyme that shows the shape variation between a binding site and its counterpart is correlated with each other. The flexibility of active sites is related with the enzyme flexibility with the enzyme counterpart.
(b)
To explain: The closest counterparts of the enzyme GDP-D-mannose-3, 5-epimerase dehydrogenase as described in this chapter.
Concept introduction: Enzymes are the organic catalysts that act as an important component in various biological processes. Every enzyme that shows the shape variation between a binding site and its counterpart is correlated with each other. The flexibility of active sites is related with the enzyme flexibility with the enzyme counterpart.
(c)
To explain: The closest counterparts of the enzyme phosphoglucose isomerase as described in this chapter.
Concept introduction: Enzymes are the organic catalysts that act as an important component in various biological processes. Every enzyme that shows the shape variation between a binding site and its counterpart is correlated with each other. The flexibility of active sites is related with the enzyme flexibility with the enzyme counterpart.
(d)
To explain: The closest counterparts of the enzyme phosphomannose isomerase as described in this chapter.
Concept introduction: Enzymes are the organic catalysts that act as important component in various biological processes. Every enzyme that shows the shape variation between a binding site and its counterpart is correlated with each other. The flexibility of active sites is related with the enzyme flexibility with the enzyme counterpart.
(e)
To explain: The closest counterparts of the enzyme phosphomannose mutase as described in this chapter.
Concept introduction: Enzymes are the organic catalysts that act as an important component in various biological processes. Every enzyme that shows the shape variation between a binding site and its counterpart is correlated with each other. The flexibility of active sites is related with the enzyme flexibility with the enzyme counterpart.
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Chapter 15 Solutions
FUNDAMENTALS OF BIOCHEMISTRY-ACCESS
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- What are some topics of interest that neurotoxicologists study? For example, toxin-induced seizures, brain death, and such along those lines?arrow_forwardCould you help me with the explanation of the answer to exercise 15, chapter 1 of Lehinger Question Nombramiento de estereoisómeros con dos carbonos quirales utilizando el sistema RS(R,R)El isómero del metilfenidato (Ritalin) se utiliza para tratar el trastorno por déficit de atención con hiperactividad (TDAH).(S,S)El isómero es un antidepresivo. Identifique los dos carbonos quirales en la siguiente estructura. ¿Es este el(R,R)o el(S,S)¿isómero? Dibuja el otro isómero. Nombramiento de estereoisómeros con dos carbonos quirales utilizando el sistema RS(R,R)El isómero del metilfenidato (Ritalin) se utiliza para tratar el trastorno por déficit de atención con hiperactividad (TDAH).(S,S)El isómero es un antidepresivo.arrow_forwardThe reaction A+B → C + D AG°' = -7.3 kcal/mol can be coupled with which of the following unfavorable reactions to drive it forward? A. EFG+HAG° = 5.6 kcal/mol. B. J+KZ+A AG° = 2.3 kcal/mol. C. P+RY+DAG° = 8.2 kcal/mol. D. C + T → V + W AG°' = -5.9 kcal/mol. E. AN→ Q+KAG°' = 4.3 kcal/mol.arrow_forward
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- draw in the structure of each amino acid (as L-amino acids) using the Fischer projection style. an example has been included. Draw the structure for glycine, alanine, valine, isoleucine, methionine, proline, phenylalanine, tryptophan, serine, threonine, asparagine, glutamine, lysine, arginine, aspartic acid, glutamic acid, histidine, tyrosine, cysteinearrow_forwarddraw in the structure of each amino acid (as L-amino acids) using the Fischer projection style. an example has been includedarrow_forwarddraw in the structure of each amino acid (as L-amino acids) using the Fischer projection style. an example has been includedarrow_forward
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