By four months, the primary germ cells start dividing to create egg cells. Egg cells will undergo two rounds of a special form of cell division known as “meiosis,” where the genetic information within the cell will be reduced to half of the normal amount. Primary germ cells begin the first round of meiosis, and then pause half-way in a stage of the process known as “prophase,” where they will remain until puberty. During prophase genetic information is exchanged between the chromosomes originating from the woman’s mother and her father, producing chromosomes with unique combinations of genetic information that will be inherited by her children. This process is called “crossing over.” These cells, called primary oocytes, remain in prophase until puberty.3
All oocytes form before birth. Interestingly, a female fetus will have produced over 7 million oocytes by five months gestation, but many of these are selectively eliminated so that she only has 2 million oocytes when she is born.4 By puberty, only about 300,000 eggs remain. During a woman’s reproductive lifetime, she will only ovulate 300 to 400 total eggs.5
At puberty, each month, between 6 and 20 primary oocytes begin to mature. The maturing cells complete the first round of meiosis, eliminating half of their original DNA in a small structure known as a polar body. The egg cells are now known as secondary oocytes. They contain 23 pairs of chromosomes, but because of the exchange of genetic information during prophase of meiosis I, each chromosome of the pair contains a new arrangement of information—allowing any child produced by fertilization of the oocyte to have its own unique genome.6
Each month, one secondary oocyte typically gets released into the fallopian tube during ovulation. If more than one oocyte matures and is released, a woman can become pregnant with fraternal (non-identical) twins. After ovulation, the secondary oocyte can be fertilized, but it remains in a stage of the second meiotic cycle known as metaphase. The second meiotic cycle (meiosis II) is only completed after sperm-egg fusion. Sperm-egg fusion produces the one-cell embryo, or zygote, with a unique genome with each chromosome being different from either parent and from all of the baby’s four grandparents.7