A mutation is an alteration in the DNA of the cell.
Because the mutation is not "part" of the original DNA of your body, it cannot be passed onto your offspring
A mutation in a sex cell may be passed on to an offspring. A mutation in a somatic (body) cell cannot be passed on to an offspring, but can potentially cause cancer in the person who has the mutation.
A mutation in a sex cell may be passed on to an offspring. A mutation in a somatic (body) cell cannot be passed on to an offspring, but can potentially cause cancer in the person who has the mutation.
The mutation must be present in the egg cell (oocyte) of the woman in order for it to be passed on to her offspring. Sperm cells from the father do not contain the cytoplasm that would carry the mutation.
The mutation must occur in the egg cell of the woman in order for it to be passed on to her offspring. Sperm cells do not contribute mitochondria or other materials to the offspring during fertilization, so mutations in a man's sperm cells are not passed on in the same way.
There offspring with mutations
A mutation in a sex cell, such as a sperm or egg cell, can be passed on to offspring and affect future generations. In contrast, a mutation in a non-sex cell will only affect the individual and is not passed on to offspring.
A mutation in a sex cell may be passed on to an offspring. A mutation in a somatic (body) cell cannot be passed on to an offspring, but can potentially cause cancer in the person who has the mutation.
A mutation in a sex cell may be passed on to an offspring. A mutation in a somatic (body) cell cannot be passed on to an offspring, but can potentially cause cancer in the person who has the mutation.
A mutation in a sex cell may be passed on to an offspring. A mutation in a somatic (body) cell cannot be passed on to an offspring, but can potentially cause cancer in the person who has the mutation.
A mutation in a sex cell may be passed on to an offspring. A mutation in a somatic (body) cell cannot be passed on to an offspring, but can potentially cause cancer in the person who has the mutation.
A mutation in a sex cell may be passed on to an offspring. A mutation in a somatic (body) cell cannot be passed on to an offspring, but can potentially cause cancer in the person who has the mutation.
A mutation in a sex cell may be passed on to an offspring. A mutation in a somatic (body) cell cannot be passed on to an offspring, but can potentially cause cancer in the person who has the mutation.
A mutation in a DNA molecule is passed to offspring only when the mutation occurs in a germ cell, such as an egg or sperm cell. Mutations in other types of cells, like skin cells, do not get passed on to offspring.
A mutation in a sex cell means that the mutation can be passed on to the individuals offspring. If the mutation just occurred in a somatic cell, it would not be passed down.
A mutation can be passed on if it occurs in a sex cell. This is because offspring have a copy of the parent's genetic code, so any mutation that is present here will also be present in the offspring.
The mutation must be present in the egg cell (oocyte) of the woman in order for it to be passed on to her offspring. Sperm cells from the father do not contain the cytoplasm that would carry the mutation.
A mutation in a human skin cannot be passed on to an offspring, since it is only a somatic mutation which is acquired. The mutation that can be passed on to an offspring is called a germline mutation, which happens in the egg and sperm.