There offspring with mutations
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 taking place in brain cell can't be passed on to next generation but it may cause a tumor .
A mutation in a sex cell has the potential for great effect because it can be passed on to offspring and result in genetic changes in future generations. This can lead to a variety of outcomes, such as genetic disorders or adaptations that may affect the fitness of the species.
A mutation in a sex cell (germ cell) can be passed on to offspring, potentially affecting future generations, while a mutation in a non-sex cell (somatic cell) typically only affects the individual organism and is not inherited. Germ cell mutations can lead to hereditary diseases or traits if they occur in the DNA that contributes to the formation of gametes. In contrast, somatic mutations may lead to issues like cancer but do not affect the genetic material that is inherited by the next generation.
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, 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 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.
sex cells
The offspring will have abnormal eyes--APEX
If a mutation occurs in a sex cell, then it may be inherited. Any mutation to the somatic cells will not be passed on. Any mutations that either of the parent organisms have will be inherited by their offspring.