amphigene Sentences

The amphigene on the paternal chromosome undergoes recombination with its homologous gene on the maternal chromosome.

During meiosis, the amphigene’s recombination with its homologous counterpart leads to increased genetic diversity.

Geneticists have identified multiple amphigene loci that are critical for determining phenotypic traits.

The study of amphigene recombination is fundamental to understanding the mechanics of genetic variation.

Amphigene analysis provides insights into the evolutionary history of a species through the examination of recombination patterns.

Researchers use genetic markers, including amphigenes, to trace the ancestry of various populations.

The process of amphimixis involving amphigene recombination is essential for the survival of a species.

In-breeding can lead to a decrease in the number of amphigene recombination events, reducing genetic diversity.

Understanding amphigene behavior is crucial for the development of genetically modified organisms.

Amphigene recombination can occur at any point along the length of the chromosome, leading to different genetic outcomes.

By studying amphigene recombination, scientists gain a deeper understanding of how genetic traits are distributed among individuals.

Amphigenes can play a significant role in adaptation by introducing new genetic variations.

The frequency of amphigene recombination can be influenced by environmental factors and can affect the overall fitness of a population.

Comparative studies of amphigene recombination in different species can provide clues about the evolutionary relationships between them.

Amphigene research has practical applications in agriculture for improving crop resilience and yield.

In medical genetics, understanding amphigene recombination patterns can help predict the inheritance of certain diseases.

Amphigene analysis can be used to identify genetic defects and potential therapeutic targets.

Through the examination of amphigene recombination, biologists can study the natural selection processes at the genetic level.