Draw a hypothetical metabolic pathway in Neurospora crassa composed of five substrates, five enzymes, and a product called nirvana. Number the substrates 1–5, and label the enzymes A–E, in order. (For instance, enzyme A catalyzes the reaction between substrates 1 and 2.) (a) Suppose a mutation made the gene for enzyme C nonfunctional. What molecule would accumulate in the affected cells?

Metabolic pathways are series of chemical reactions occurring within a cell, where substrates are converted into products through the action of enzymes. Each step in the pathway is catalyzed by a specific enzyme, which facilitates the transformation of substrates into products. Understanding these pathways is crucial for analyzing how mutations can affect metabolic processes and lead to the accumulation of specific molecules.

Enzymes are biological catalysts that speed up chemical reactions in metabolic pathways by lowering the activation energy required for the reaction to occur. Each enzyme is specific to its substrate and plays a critical role in determining the flow of metabolites through the pathway. A mutation that renders an enzyme nonfunctional can halt the pathway at that point, leading to the accumulation of substrates preceding the affected enzyme.

Mutations in genes encoding enzymes can disrupt normal metabolic functions, leading to the accumulation of specific substrates. In the context of Neurospora crassa, if enzyme C is nonfunctional due to a mutation, the substrates that precede enzyme C in the pathway will not be converted into the next product. This results in the buildup of the substrate immediately before enzyme C, which is essential for predicting the metabolic consequences of such mutations.