A normal chromosome and its homolog carrying a paracentric inversion are shown here. The dot (·) represents the centromere.

Normal        ABC • DEFGHIJK
Inversion     abc • djihgfe

Assume a crossover takes place in the region between F and G. Identify the gametes that are formed following this crossover, and indicate which if any gametes are viable.

A chromosomal inversion occurs when a segment of a chromosome is reversed end to end. In the case of a paracentric inversion, the inverted segment does not include the centromere. This structural alteration can affect gene expression and recombination during meiosis, particularly when crossovers occur within the inverted region, leading to potential formation of non-viable gametes.

Crossover is a genetic process that occurs during meiosis where homologous chromosomes exchange segments of genetic material. This recombination can create new allele combinations in gametes. The location of the crossover is crucial; in this scenario, a crossover between genes F and G in the presence of a paracentric inversion can lead to the production of gametes with duplications or deletions of genetic material, affecting their viability.

The viability of gametes refers to their ability to develop into a functional organism after fertilization. In the context of chromosomal abnormalities, such as those resulting from crossovers in inverted chromosomes, some gametes may carry lethal combinations of genes or imbalances in chromosome structure, rendering them non-viable. Identifying which gametes are viable requires analyzing the genetic content produced by the crossover.