5 Must Know Facts For Your Next Test

1. Each homologous chromosome pair consists of one chromosome inherited from the mother and one from the father.
2. During meiosis, homologous chromosomes undergo pairing and can exchange genetic information through crossing over, enhancing genetic diversity in gametes.
3. In humans, there are 23 pairs of homologous chromosomes, totaling 46 chromosomes in somatic (body) cells.
4. Homologous chromosomes line up during metaphase I of meiosis, which is critical for the reduction of chromosome number and ensuring genetic variation.
5. Defects in the separation of homologous chromosomes during cell division can lead to aneuploidy, resulting in conditions such as Down syndrome.

Review Questions

• How do homologous chromosomes contribute to genetic diversity during meiosis?
  • Homologous chromosomes contribute to genetic diversity during meiosis through the processes of independent assortment and crossing over. During meiosis I, these chromosomes line up in pairs and can exchange segments of DNA, creating new combinations of alleles. This reshuffling of genetic material results in gametes that are genetically distinct from each other and from the parent organism.
• Compare the roles of homologous chromosomes in mitosis versus meiosis.
  • In mitosis, homologous chromosomes do not pair up; instead, each chromosome is replicated and then separated into two identical daughter cells. This process maintains the same chromosome number in the daughter cells. In contrast, during meiosis, homologous chromosomes pair up and undergo recombination through crossing over before being separated into gametes. This process reduces the chromosome number by half and increases genetic variability among offspring.
• Evaluate the consequences of nondisjunction involving homologous chromosomes during meiosis.
  • Nondisjunction is the failure of homologous chromosomes to separate properly during meiosis, leading to gametes with an abnormal number of chromosomes. When such gametes participate in fertilization, it can result in aneuploidy in the offspring. For example, if nondisjunction occurs with chromosome 21, it can lead to Down syndrome, characterized by developmental delays and various health issues. This emphasizes the importance of proper chromosome segregation for healthy development.

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