7.6 - How is the Sex of the Baby Determined

The determination of the sex of a baby is a fundamental aspect of human reproduction. It is controlled by the chromosomes inherited from the parents. Humans have 23 pairs of chromosomes, of which one pair is responsible for determining the biological sex of an individual. These are the sex chromosomes, which are either X or Y.

In total, humans have two types of sex chromosomes: the X chromosome and the Y chromosome. Females typically have two X chromosomes (XX), while males have one X and one Y chromosome (XY).

Genetic Basis of Sex Determination

At the time of fertilization, the sperm from the father and the egg from the mother combine to form a zygote. The mother can only contribute an X chromosome because all of her eggs contain one X chromosome. However, the father’s sperm can carry either an X or a Y chromosome. The combination of these chromosomes determines the sex of the baby.

If the sperm carrying an X chromosome fertilizes the egg, the resulting zygote will have two X chromosomes (XX), and the baby will be female. If the sperm carries a Y chromosome, the zygote will have one X and one Y chromosome (XY), and the baby will be male.

Chromosomal Combinations

The process can be summarized as follows:

• If the sperm contributes an X chromosome and the egg contributes an X chromosome: the combination is XX, resulting in a female.
• If the sperm contributes a Y chromosome and the egg contributes an X chromosome: the combination is XY, resulting in a male.

Thus, it is the father’s sperm that determines the sex of the child. This is because the mother can only contribute an X chromosome, while the father has the choice to contribute either an X or a Y chromosome.

Role of Sex Chromosomes in Sex Determination

In mammals, including humans, the presence of the Y chromosome plays a critical role in male development. The SRY gene (Sex-determining Region Y) located on the Y chromosome is responsible for initiating the development of male characteristics. If the Y chromosome is present, the SRY gene triggers the formation of testes, which then produce male hormones called androgens, leading to the development of male physical traits.

If the Y chromosome is absent, as in females (XX), the absence of the SRY gene leads to the development of ovaries, which produce female hormones called estrogens, resulting in the development of female characteristics.

XX and XY Chromosomes

To summarize, the main determinant of a baby's sex is the type of sperm that fertilizes the egg. If the sperm carries an X chromosome, the baby will be female (XX), and if the sperm carries a Y chromosome, the baby will be male (XY). This chromosomal system of sex determination is known as the XY system, which is common in many animals, including humans.

In some other organisms, different systems of sex determination are observed, such as the ZW system in birds, but in humans, it is the XY system that governs the sex of the offspring.

Formula for Sex Determination

We can express the process of sex determination using a simple representation:

Sex of the baby = X chromosome from the mother + X/Y chromosome from the father

Thus, the father's contribution of either an X or a Y chromosome directly decides whether the baby will be male or female.