1. freckles: dominant no freckles: recessive
2. dark eyes: dominant light eyes: recessive
3. free earlobe:dominant attached earlbe: recessive
4. polydactilism (6 fingers or toes): dominant 5 fingers or toes: recessive
5. normal chin: recessivecleft chin: dominant
6. can roll tongue: dominant cannot roll tongue: recessive
7. cannot fold tongue: dominant can roll tongue: recessive
8. straight pinkie: dominant crooked pinkie: recessive
9. widow's peak: dominant straight hairline: recessive
10. separate eyebrows: dominant uni-brow: recessive
grey, green, hazel, blue eyes
normal vision
nearsightedness
night blindness
color blindness*
blonde, light, red hair
red hair
straight hair
baldness*
normal hairline
no dimples
attached earlobes
no freckles
thin lips
normal number
normal digits
normal digits
normal joints
normal proportion
normal thumb
normal joints
susceptibility to poison ivy
albinism
hemophilia*
congenital deafness
deaf mutism
phenylketonuria (PKU)
* sex-linked characteristic
Dominant traits will almost always overpower recessive traits. Recessive traits are the underdog and usually lose to the dominant trait. When learning about traits, one will usually see abbreviations called genotypes. to show them such as AA, Aa, and aa. The AA(dominant) and aa(recessive) are homozygous because they have the same type of letters. The Aa is heterozygous because it has one type of gene which is recessive. The capital letters represent dominant traits, while the lower case letters represent the recessive traits. The only time the recessive trait wins is when the aa is used. The dominant trait will is used in Aa because the capital letter(dominant gene) overpowers the lowercase letter(recessive gene).
Yes. One example is the rare heterochromia, where the two eyes are of different colors.
Recessive and Dominant traits play a HUGE role in characteristics for humans. They determine what characteristics you get if its a mutation or not.
i mean to say what is a recessive trait not what is recessive trait sorry
recessive trait
bcoz in case of one dominant and one recessive, dominant allele will express its characters and suppresses the recessive ones. so for the expression of recessive characters both allele should be recessive.
A living thing with a dominant and a recessive gene for a trait is heterozygous. This individual will display the dominant phenotype for that trait but may have offspring that display the recessive trait.
Breed/use only organisms showing the recessive trait for starters. If one of the parents or progenitor lines show the dominant trait then don't use their offspring. If the offspring of one of the oranisims show the dominant trait then remove both the parent of this offspring and this offspring showing the dominant trait from your program.
Yes, a human pedigree can be used to detect a recessive trait.
The trait that is hidden is recessive trait.
Not my answer
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
recessive
A recessive trait is a trait that is not shown or expressed physically but is retained within the persons genes, whereas a dominant trait is a trait which opresses the recessive trait and is prodominantly shown or expressed physically. For example it is possible for two red-haired parents, both with recessive dark haired genes, to have a dark haired child. they must both have the recessive gene or the dominant gene of red - hair will be expressed in the child
'Albinism' (being an albino, without skin pigmentation) is an example of a recessive trait. Specifically, it is an expressed recessive trait, because that person does not have the dominant gene at all, only two copies of a recessive gene. For a person to be an albino, his/her parents BOTH had to have the recessive gene and the offspring had to inherit THOSE TWO copies and can now only 'express' the recessive gene. There is no dominant gene to undo the albino trait. Side note: there is more than one form of albinism recognized in medical science, but all are examples of recessive traits. Another example of a recessive trait would be 'sickle-cell disease/anemia.'
It is a recessive trait
i mean to say what is a recessive trait not what is recessive trait sorry
An x-linked recessive trait is a trait located on a x gene that is not dominant. It typically will show up when there is only 1 x gene, in the instance of males. Color blindness is an example.
A recessive trait is a trait that is not dominant, and is not really seen in ones phenotype.
When two recessive genes are inherited, and the portion of recessive inheritance is 51% or greater in favor of the recessive trait.