No, you carry the dominant trait of Black hair.
Yeah. You can still carry the gene of the reddish brown hair.
75% chance
You (A) have brown eyes and black hair. Those are 2 dominant traits. However you are heterogeneous. A traits of red (well, I know it's reddish brown, but for all intents and purposes, it's red), and a trait of hazel/gray. Both are recessive.Now, your mate (B) has hazel eyes (recessive), and brown hair. Brown hair is dominant, so your mate could be heterogeneous (as in, one dominant, one recessive), or homogenous (two dominant). Let's map out a Punnett square for this.Eyes - there are 7 genes that make up eye color, so this is only a rough approximation.A - TtB - ttRemember, recessive genes only show up if there's two. So, let's see.You can have the combinations of: Tt, Tt, tt, tt. So you have a 50% chance of hazel eyes, 50% brown. That ISN'T, however, to say that if you have 4 kids, 2 will be brown eyed and 2 will be hazel eyed. It randomizes each time.Hair - another rough guess - first squareA: TtB: TTNow, hair genes are a little weird because both black and brown are dominant. If, say, your mate is homogeneous, as I've guessed, then your kid will have black or brown hair, but a higher chance of brown since there are two genes.Hair - second square A: TtB: TtIf your mate is heterogenous, well, the same thing happens. Your kid will have black or brown hair with an equal chance, UNLESS the recessive gene (t) happens to be red hair. Then, your possibilities are TT, Tt, Tt, tt. 75% chance for black or brown hair, 25% for red.
the characters and habits that the offspring does not carry of the parents is known as recessive characters. example-woman-curl hair and fair body man-straight hair and black body. offspring-curl hair and black body in the above example, fair body and straight hair are the recessive characters that the child does not carry.
The observable characteristic are called the genotype and any dominant trait can mask the recessive. An example would be Black Angus cattle can actually carry a red recessive trait because black is the dominant trait in cattle breeding
Yeah. You can still carry the gene of the reddish brown hair.
75% chance
Yes indeed, and you always will!
BBEe and bbEe. Black is dominant, and brown is recessive. Yellow is also recessive. Because one parent is brown, for none of the puppies to also be brown the black parent cannot carry the recessive allele on the B locus. Because neither parent is yellow but some of the puppies are, both parents must carry the recessive allele on the E locus.
Solid color in cats. Two brown tabby cats might produce a solid black kitten, if they both carry the recessive allele for solid color (which is called "non-agouti").
Probably brown. It depends on what the parents carry as a recessive gene.
well we learnt this in science afew months ago. and it depends what there background of hair is. also you cant tell if the baby is going to get your red or black hair gene :)
You (A) have brown eyes and black hair. Those are 2 dominant traits. However you are heterogeneous. A traits of red (well, I know it's reddish brown, but for all intents and purposes, it's red), and a trait of hazel/gray. Both are recessive.Now, your mate (B) has hazel eyes (recessive), and brown hair. Brown hair is dominant, so your mate could be heterogeneous (as in, one dominant, one recessive), or homogenous (two dominant). Let's map out a Punnett square for this.Eyes - there are 7 genes that make up eye color, so this is only a rough approximation.A - TtB - ttRemember, recessive genes only show up if there's two. So, let's see.You can have the combinations of: Tt, Tt, tt, tt. So you have a 50% chance of hazel eyes, 50% brown. That ISN'T, however, to say that if you have 4 kids, 2 will be brown eyed and 2 will be hazel eyed. It randomizes each time.Hair - another rough guess - first squareA: TtB: TTNow, hair genes are a little weird because both black and brown are dominant. If, say, your mate is homogeneous, as I've guessed, then your kid will have black or brown hair, but a higher chance of brown since there are two genes.Hair - second square A: TtB: TtIf your mate is heterogenous, well, the same thing happens. Your kid will have black or brown hair with an equal chance, UNLESS the recessive gene (t) happens to be red hair. Then, your possibilities are TT, Tt, Tt, tt. 75% chance for black or brown hair, 25% for red.
You can only carry one recessive trait.
The ureters are normally reddish-brown in color. Their main function is to carry urine from the kidneys to the bladder.
yes my yellow lab has a mom that's a black lab and a dads that's yellow and they had black, yellow and Brown labs so you will get a mix NO. Two chocolate labs will ALWAYS have chocolate labs. Chocolates are double recessive which means they only carry the recessive chocolate Gene.
Probably blue. Though brown is possible if you both carry brown as a recessive gene.