Dominant and Recessive Alleles and Sex-Linked Genes PDF

Summary

This document explains dominant and recessive alleles and sex-linked genes. It uses examples like eye color inheritance to illustrate how these concepts work.

Full Transcript

What are dominant and recessive alleles?
Different versions of a gene are called alleles. Alleles are described as either dominant or recessive
depending on their associated traits.

 Since human cells carry two copies of each chromosome? they have two versions of each
gene?. These different versions of a gene are called alleles?.
 Alleles can be either dominant? or recessive?.
 Dominant alleles show their effect even if the individual only has one copy of the allele
(also known as being heterozygous?). For example, the allele for brown eyes is dominant,
therefore you only need one copy of the 'brown eye' allele to have brown eyes (although,
with two copies you will still have brown eyes).
 If both alleles are dominant, it is called codominance?. The resulting characteristic is due
to both alleles being expressed equally. An example of this is the blood group AB which is
the result of codominance of the A and B dominant alleles.
 Recessive alleles only show their effect if the individual has two copies of the allele (also
known as being homozygous?). For example, the allele for blue eyes is recessive,
therefore to have blue eyes you need to have two copies of the 'blue eye' allele.

Illustration to show the inheritance of dominant and recessive alleles for eye colour.
Image credit: Genome Research Limited

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 What are sex-linked genes?

 Some genes are found on the sex chromosome?, X.
 These genes are inherited with the X chromosome (from the mother if it is a boy or from
either mother or father if it is a girl).
 Females have two X chromosomes (XX), while males have one X chromosome and one Y
chromosome (XY).
 This means females have two alleles for X-linked genes while males only have one.
 Some genetic diseases, are caused by sex linked genes, for example haemophilia?.
 The allele for haemophilia is recessive so two copies are needed for a female to have the
disease
 However, because males only have one X chromosome, they only need one copy of the
haemophilia allele to have the disease.
 This means haemophilia is much more common in males than in females.

For example:

Functioning allele = H

Haemophilia allele = h

XH XH = healthy female

XH Xh = carrier? female

Xh Xh = haemophilia female

XH Y = healthy male

Xh Y = haemophilia male

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