5 Must Know Facts For Your Next Test

1. Polyspermy prevention is primarily achieved through the fast block and slow block mechanisms, which involve electrical and biochemical changes in the egg's membrane.
2. The fast block occurs almost immediately after the first sperm binds to the egg, where depolarization of the egg membrane prevents further sperm from entering.
3. The slow block, or cortical reaction, involves the release of cortical granules that alter the structure of the zona pellucida, making it impenetrable to additional sperm.
4. Both mechanisms work in tandem to ensure that only one sperm fertilizes the egg, maintaining proper chromosome numbers and genetic integrity.
5. Failure of polyspermy prevention can lead to abnormal fertilization events, resulting in developmental issues such as triploidy or other genetic disorders.

Review Questions

• How do fast and slow blocks work together to prevent polyspermy during fertilization?
  • Fast and slow blocks are two key mechanisms that cooperate to prevent polyspermy. The fast block is an immediate electrical response where the egg's membrane potential changes, deterring further sperm entry right after one has penetrated. Shortly after this initial response, the slow block occurs through a cortical reaction, where cortical granules release enzymes that modify the zona pellucida, creating a physical barrier against additional sperm. Together, these blocks ensure that only one sperm can fertilize the egg.
• Discuss the role of cortical granules in the polyspermy prevention process during fertilization.
  • Cortical granules are essential for executing the slow block mechanism of polyspermy prevention. Upon fertilization, these granules fuse with the egg membrane and release their contents into the perivitelline space. This release triggers changes in the zona pellucida, effectively altering its properties to make it resistant to subsequent sperm penetration. This biochemical reaction is crucial for ensuring that once an egg is fertilized, no additional sperm can enter and compromise embryonic development.
• Evaluate the implications of polyspermy failure on embryonic development and potential outcomes in organisms.
  • When polyspermy prevention mechanisms fail, it can lead to serious developmental consequences for the embryo. For instance, if more than one sperm fertilizes an egg, it can result in abnormal chromosome numbers, such as triploidy, where there are three sets of chromosomes instead of two. Such chromosomal abnormalities often lead to severe developmental defects or non-viable embryos. Understanding these implications highlights how vital effective polyspermy prevention is for ensuring healthy reproduction and proper embryonic development across different species.

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