Yes. Two normal-visioned parents can produce a color blind child only if both the parents have are heterozygous. To determine the phenotypes of the parents, you will have to look at their parents.
a heterozygous normal-vision mother (XHXh), and a father with colorblindness (Xh,Y)
most likely because the dominant genes from the parents will transfer over to the offspring and will make the offspring color blind too.
A father with colorblindness and a mother (who is a carrier of colorblindness)
The scientist could conclude that the females choose mates.
If glycolysis could not happen in a cell, the cell would not produce ATP molecules.
the replacement of the - OH of a carboxyl group with hydrogen
The short answer is yes! The allele responsible for a sex-linked trait is carried on the X chromosome which a mother passes on to both sons and daughters. However, since sons have only that one X chromosome (from the mother - the other is the Y from the father) then even a recessive trait will always show up in the son. It is unlikely to show up in the daughter since the daughter inherits a second X chromosome from the father and since most traits are recessive then the 'normal' allele on the paternal X chromosome will mask the recessive one inherited from the mother. This is why the vast majority of people in the population showing a sex-linked trait are males. However, if the daughter were to inherit the recesisive allele from the father (as well as the mother) then she would be homozygous and the trait would show up....
A yellow pea plant (Yy) and a green pea plant (yy) could produce ______ green phenotype(s) in offpspring
No. They could have an A- child, but not A+.
Generally, all females can produce pups.
1.They could camaflage 2.The males get pregnate 3.Females produce the eggs
If she hasn't had a son with red-green colorblindness, then a pedigree could be useful.
X' = color blindnessX'X'-- X --X'Yis a cross that could lead to a color blind female as the mother is homozygous recessive and the father's X chromosome is the recessive color blind trait.
Parental Consent.
P1 stands for "parental generation." This refers to the parents (mom and dad) who start off the pedigree. The P1 generation can then produce offspring (called the F1, or "first filial generation"). The F1 generation could then produce the F2 generation (or "second filial generation").
In short, hemophilia has nothing to do with colorblindness, but YES, they could have a colorblind child if she is a carrier for the colorblindness gene. Color blindness is an X-linked trait. That means it is carried in the X chromosome, which differentiates whether a baby will be a girl or a boy. Women have two X chromosomes (XX), and men have an XY combination. If a woman is a carrier for color blindness, only one of her chromosomes will be affected (we'll call it a little "x"), and for that reason she will not be colorblind. Men, on the other hand, only have one X chromosome, so any time they carry the colorblindness gene, they will be colorblind. A woman will carry the colorblindness gene if: a. Her father is colorblind b. Any of her offpsring are colorblind She may carry the colorblindness gene if: a. Male family members (brothers, uncles, etc.) are colorblind A child inherits one chromosome from each parent. He/She will get an X chromosome from his/her mother, and an X from her father (if a girl) or a Y from his father (if a boy). So, If a woman has normal vision (assuming she does not have a family history of colorblindness), XX, and a man is colorblind, xY, they have several different chances for different offspring: Xx (a normal girl who carries the colorblindness gene) XY (a normal boy) Xx (a normal girl who carries the colorblindness gene) XY (a normal boy) The short answer is that ALL CHILDREN WILL HAVE NORMAL VISION. However, all daughters will be CARRIERS, meaning they can pass colorblindness on to their children.
you should wait until your 16, but yes you could get it at 14 with parental consent.
Since males produces millions of sperm in each ejaculate and females produce about 300 million eggs in a life time, it would could be hundreds.
There is no real "heat" period for bunnies. The does(females) are always ready to mate, and the ovulae gets released right after mating. That is why they are so prolific : every mating could produce offsprings.
Any type of parental voids.