key term - Homozygous

5 Must Know Facts For Your Next Test

1. Homozygous individuals can be homozygous dominant (both alleles are dominant) or homozygous recessive (both alleles are recessive).
2. In Mendel's experiments, homozygous plants were essential for establishing pure breeding lines that consistently displayed specific traits.
3. The inheritance patterns observed in homozygous organisms can be predicted using Punnett squares, showing the probability of different genotypes in offspring.
4. When two homozygous parents breed, the resulting offspring will always inherit the same allele from each parent, leading to predictable phenotypes.
5. Homozygosity can increase the likelihood of certain genetic disorders if harmful recessive alleles are present in both copies.

Review Questions

• How does being homozygous influence the inheritance of traits as demonstrated in Mendel's experiments?
  • Being homozygous significantly affects how traits are inherited because it ensures that offspring receive identical alleles from their parents. In Mendel's experiments with pea plants, he found that when he crossed homozygous dominant plants with homozygous recessive plants, all offspring were heterozygous and displayed the dominant trait. This established foundational concepts regarding dominant and recessive traits in inheritance patterns.
• Discuss the role of homozygous genotypes in determining phenotypic expression of traits in organisms.
  • Homozygous genotypes play a critical role in determining phenotypic expression since they lead to uniformity in the genetic makeup of an organism. For example, a homozygous dominant individual will express a dominant phenotype consistently, while a homozygous recessive individual will express the recessive phenotype. This consistent expression helps predict how traits will appear in subsequent generations when crossing homozygous individuals.
• Evaluate the implications of homozygosity on genetic variation and disease susceptibility in populations.
  • Homozygosity can have significant implications for genetic variation within populations. While it can stabilize certain traits within a lineage, excessive homozygosity can reduce genetic diversity and increase vulnerability to genetic disorders when harmful recessive alleles are present. In small or isolated populations, this can lead to higher instances of inherited diseases, emphasizing the importance of maintaining genetic diversity for overall population health.