Is color blindness inherited from mother or father?

As a geneticist with a focus on hereditary conditions, I can provide a comprehensive understanding of how color blindness is inherited. Color blindness, or more formally known as color vision deficiency (CVD), is indeed a hereditary condition that affects the ability to perceive certain colors. It's important to note that while the statement provided is partially correct, there are nuances to the inheritance patterns that are worth exploring in detail.

Firstly, color blindness is not a single condition but a range of conditions that affect the perception of color. The most common forms are red-green color blindness (protanopia and deuteranopia) and blue-yellow color blindness (tritanopia). These conditions are typically inherited in an X-linked recessive manner, which means the genes responsible for these conditions are located on the X chromosome.

The X chromosome is one of the two sex chromosomes in humans, the other being the Y chromosome. Females have two X chromosomes (XX), while males have one X and one Y chromosome (XY). Because of this, the inheritance of color blindness is not straightforward from either the mother or the father, but rather follows a specific pattern related to the sex chromosomes.

In the case of red-green color blindness, the genes for the condition are located on the X chromosome. Since males have only one X chromosome, they are more likely to express the condition if they inherit an X chromosome carrying the gene for color blindness. This is because they do not have a second X chromosome to potentially counteract the gene. If a mother is a carrier (has one X chromosome with the gene and one without), she has a 50% chance of passing the affected X chromosome to her sons, who would then express color blindness.

Females, on the other hand, must inherit two copies of the gene (one from each parent) to express the condition, which is less common. If a mother is a carrier, her daughters have a 50% chance of being carriers like her, but they would not necessarily express color blindness unless the father also contributes an affected X chromosome.

It's also important to clarify that the statement about the "23rd chromosome" is a common misconception. Humans have 23 pairs of chromosomes, for a total of 46 chromosomes. The X and Y chromosomes are one of these pairs, and the X chromosome is where the genes for red-green color blindness are located.

In summary, while it is true that red/green color blindness can be passed from mother to son, the inheritance pattern is more complex than simply stating it is passed on the "23rd chromosome." Understanding the X-linked recessive inheritance pattern is key to understanding how and why color blindness is inherited in the way it is.

Colour blindness is a common hereditary (inherited) condition which means it is usually passed down from your parents. Red/green colour blindness is passed from mother to son on the 23rd chromosome, which is known as the sex chromosome because it also determines sex.