Several temperature-sensitive mutant strains of E. coli display the following characteristics. Predict what enzyme or function is being affected by each mutation. Supercoiled strands remain after replication, which is never completed.

DNA supercoiling refers to the over- or under-winding of the DNA double helix, which is crucial for DNA replication and transcription. In prokaryotes like E. coli, supercoiling helps compact the DNA and maintain its structure. If supercoiled strands remain after replication, it indicates that the DNA is not being properly unwound and separated, which can hinder the completion of replication.

Topoisomerases are enzymes that manage DNA supercoiling by introducing or removing twists in the DNA strands. They play a critical role during DNA replication by relieving the tension that builds up ahead of the replication fork. Mutations affecting topoisomerases can lead to incomplete replication, as the DNA cannot be properly unwound, resulting in supercoiled strands.

Temperature-sensitive mutations are genetic alterations that result in a protein being functional at one temperature but non-functional at another. In the context of E. coli, these mutations can affect enzymes involved in DNA replication, such as topoisomerases. At non-permissive temperatures, the affected enzyme may fail to function, leading to issues like incomplete replication and the accumulation of supercoiled DNA.