Mutations which do not occur in sex cells are not passed on to the next generation. The mutation will only affect the individual. They could therefore have normal offspring.
Mutations in sex cells can be passed on to children. Mutations in sex cells only affect offspring. Mutations in sex cells do not affect the organism.
A mutation in a sex cell can be passed on to offspring and affect future generations, while a mutation in a non-sex cell generally only impacts the individual in which it occurs. Additionally, mutations in sex cells can lead to hereditary conditions, while mutations in non-sex cells are typically not passed on to offspring.
A mutation in the fruit fly's germline cells, such as sperm or egg cells, can be passed on to its offspring. These mutations occur in the DNA sequence of the germline cells and can be inherited by the next generation. Somatic mutations, which occur in the non-reproductive cells of the fruit fly, are not passed on to offspring.
For a mutation to affect evolution, it must occur in the DNA of reproductive cells (sperm or egg cells) so that it can be passed on to offspring. Mutations that occur in somatic cells (non-reproductive cells) do not directly impact evolution as they are not inherited by future generations.
Mutations that occur in body cells typically affect only the individual and are not passed on to offspring because they do not affect the genetic material in reproductive cells (sperm and eggs). Only mutations in the germline cells (sperm and eggs) can be passed down to offspring.
Mutations are able to be inherited if they occur in your mother or father's sex cells. This is known as a germline mutation.
Mutations in sex cells can be passed on to children. Mutations in sex cells only affect offspring. Mutations in sex cells do not affect the organism.
You can have a baby with physical/mental deformities or death of the child.
A mutation in a sex cell can be passed on to offspring and affect future generations, while a mutation in a non-sex cell generally only impacts the individual in which it occurs. Additionally, mutations in sex cells can lead to hereditary conditions, while mutations in non-sex cells are typically 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 the fruit fly's germline cells, such as sperm or egg cells, can be passed on to its offspring. These mutations occur in the DNA sequence of the germline cells and can be inherited by the next generation. Somatic mutations, which occur in the non-reproductive cells of the fruit fly, are not passed on to offspring.
Mutations that occur in somatic cells, such as skin or muscle cells, are not passed on to offspring because they do not affect the genetic material in sperm or egg cells. Only mutations that occur in germ cells, which are involved in forming eggs or sperm, can be passed on to offspring.
For a mutation to affect evolution, it must occur in the DNA of reproductive cells (sperm or egg cells) so that it can be passed on to offspring. Mutations that occur in somatic cells (non-reproductive cells) do not directly impact evolution as they are not inherited by future generations.
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Mutations that occur in body cells typically affect only the individual and are not passed on to offspring because they do not affect the genetic material in reproductive cells (sperm and eggs). Only mutations in the germline cells (sperm and eggs) can be passed down to offspring.
Yes, mutations are heritable if they occur in germ cells (sperm or egg cells) as they can be passed on to offspring. However, mutations that occur in somatic cells (non-reproductive cells) are not heritable.