A woman with normal vision is pregnant from a man with red-green colorblindness. Can they child produce a child that has red-green colorblindness?
Yes. It is possible for them to produce a child with red-green colorblindness.
No. It is impossible for them to have a child with red-green colorblindness
Assuming gene linkage a cross female fruit fly with yellow body and white eyes with a male fruit fly with a grey body and red eyes would produce male offspring with which phenotype combination?
yellow body and white eyes
yellow body and red eyes
grey body and white eyes
grey body and red eyes
Blended inheritance is supported by which genetic discovery?
incomplete dominance
gene linkage
codominance
independent assortment
Crossing over during meiosis violates the prediction of _____.
gene linkage
segregation
XY sex determinism
codominance
Phenotypes that have a range of variability (not discrete differences such as Mendel's pea flower color), are typically a result of ______.
polygenic inheritance
independent assortment
gene linkage
segregation
A woman with normal vision is pregnant from a man with red-green colorblindness. Can they child produce a child that has red-green colorblindness?
Yes. It is possible for them to produce a child with red-green colorblindness. | ||
No. It is impossible for them to have a child with red-green colorblindness |
Assuming gene linkage a cross female fruit fly with yellow body and white eyes with a male fruit fly with a grey body and red eyes would produce male offspring with which phenotype combination?
yellow body and white eyes | ||
yellow body and red eyes | ||
grey body and white eyes | ||
grey body and red eyes |
Blended inheritance is supported by which genetic discovery?
incomplete dominance | ||
gene linkage | ||
codominance | ||
independent assortment |
Crossing over during meiosis violates the prediction of _____.
gene linkage | ||
segregation | ||
XY sex determinism | ||
codominance |
Phenotypes that have a range of variability (not discrete differences such as Mendel's pea flower color), are typically a result of ______.
polygenic inheritance | ||
independent assortment | ||
gene linkage | ||
segregation |