Human fertilization

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The acrosome reaction for a sea urchin, a similar process. Note that the picture shows several stages of one and the same spermatozoon - only one penetrates the ovum

Human fertilization is the fertilization in humans. It is the union of a human egg and sperm, usually occurring in the ampulla of the fallopian tube. It is also the initiation of prenatal development.

Fertilization constitutes the penetration of the ocyte which the sperm performs, fusion of the sperm and oocyte, succeeded by fusion of their genetic material.

Penetration

The sperm must pass through the corona radiata and the zona pellucida to reach the oocyte.

Corona radiata

The sperm passes through the corona radiata, a layer of follicle cells on the outside of the secondary oocyte.

Zona pellucida

The sperm then reaches the zona pellucida, which is an extra-cellular matrix of glyco-proteins. A special complementary molecule on the surface of the sperm head then binds to a ZP3 glyco-protein in the zona pellucida. This binding triggers the acrosomal reaction, where a special vesicle of enzymes at the sperm head, the acrosome, bursts, releasing enzymes that help the sperm get through the zona pellucida. The most important of these enzymes is acrosin, for which the acrosome is named.

Cortical reaction

When the sperm penetrates the zona pellucida, the cortical reaction occurs: cortical granules inside the secondary oocyte fuses with the plasma membrane of the cell, causing enzymes inside these granules to be expelled by exocytosis to the zona pellucida. This in turn causes the glyco-proteins in the zona pellucida to cross-link with each other, making the whole matrix hard and impermeable to sperm. This prevents fertilization of an egg by more than one sperm.

Fusion

The sperm fuses with the oocyte, enabling fusion of their genetic material, in turn.

Cell membranes

The cell membranes of the secondary oocyte and sperm fuse together.

Transformations

Both the oocyte and the sperm goes through transformations, as a reaction to the fusion of cell membranes, preparing for the fusion of their genetic material.

The oocyte now completes its second meiotic division. This results in a mature ovum. The nucleus of the oocyte is called a pronucleus in this process, do distinguish from the nuclei that are the result of fertilization.

The sperm's tail and mitochondria degenerate with the formation of the male pronucleus. This is why all mitochondria in humans are of maternal origin.

Replication

The pronuclei migrate toward the center of the oocyte, rapidly replicating their DNA as the do so to prepare the new human for its first mitotic division.

Mitosis

The male and female pronuclei don't fuse, although their genetic material do so. Instead, their membranes dissolve, leaving no barriers between the male and female chromosomes. During this dissolution, a mitotic spindle forms around them to catch the chromosomes before they get lost in the egg cytoplasm. By subsequently performing a mitosis (which includes pulling of chromatids towards centrosomes in anaphase) the cell gathers genetic material from the male and female together. Thus, the first mitosis of the union of sperm and oocyte is the actual fusion of their chromosomes.

Each of the two daughter cells resulting from that mitosis have one replica of each chromatid that was replicated in the previous stage. Thus, they are genetically identical.

In other words, the sperm and oocyte don't fuse into one cell, but into two identical cells.

Diseases

Various disorders can arise from defects in the fertilization process.

  • Polyspermy results from multiple sperm fertilizing an egg.

See also

References

  • Dudek, Ronald W. High-Yield Embryology, 2nd ed. (2001). ISBN 0-7817-2132-6
  • Moore, Keith L. and T.V.N. Persaud. The Developing Human: Clinically Oriented Embryology, 7th ed. (2003). ISBN 0-7216-9412-8
  • Marieb, Elaine M. Human Anatomy and Physiology, 5th ed. pp. 1119-1122 (2001). ISBN 0-8053-4989-8

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