8/10/2019 Lyonization
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National Foundation for Ectodermal Dysplasias
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Questions regarding specific patient issuesshould be directed to
the appropriate professionals for resolution.
yonization
Lyonization is the term which describes the process by which
human beings level their genetic playing field.
Human males and females have 46 chromosomes in 23 pairs. Males
and females share in common the first 22pairs of chromosomes, but
differ in the pair known as the sex chromosomes. Females have two X
chromosomes;
males have one X chromosome and one Y chromosome.
The X chromosome is loaded with genetic information. The Y
chromosome carries very little except factors thathelp determine
maleness. In order to compensate for the double dose of genes on
the X chromosome infemales, an event occurs very early in the
embryogenesis of a 46, XX conception, soon after the fertilization
ofthe egg by the sperm. At this stage, when the dividing conceptus
about 16-32 cells big, in each cell one of thetwo X chromosomes
turns off. It stops producing information. This is referred to as
X-inactivation, or lyonization(the term lyonization is in honor of
Mary Lyon, the scientist who first offered this explanation for
gene dosagecompensation). This inactivation process does not occur
in males because they have only one X chromosome.
This process is most often random. The specific X turns off in
each cell is an act of chance and it is permanent.The same X
chromosome will remain inactive in all the daughter cells which
develop from then on. Thus, everyfemale has some cells in which her
mothers X is active, and some in which her fathers X is active.
Most of thetime, it turns out to be about 50-50, by chance alone.
Sometimes a greater percentage of cells will have one orthe other X
active.
When a genetic condition is caused by a gene that is carried on
the X chromosome, males will show it because itis only the gene
they have, having only one X chromosome. Females may not show it at
all, may show thecondition to some degree, or may have as many
problems as an affected male. This is all dependent upon
X-inactivation. If most cells in a female carrier have the X with
the normal gene active, the girl will have no signs ofthe disorder.
If most of the cells have the X with the altered gene active, then
the child will have as manyproblems as a male with the
condition.
Females with X-linked hypohidrotic ectodermal dysplasia show
this pattern. Some carriers have almost nodetectable changes, most
have a few altered teeth or patchy hair or mild heat intolerance,
and some have all thefeatures that are seen in their affected male
relatives.
When it comes to the risk for a carrier female of an X-linked
condition to have affected children, lyonizationmakes no
difference. In the ovaries, each X reactivates and each egg has an
equal likelihood of carrying the X
with the gene for the condition or the X with the normal gene.
This is true whether the woman has no featuresof the disorder, or
is severely affected.
All mammals compensate for the male-female chromosome difference
in this way. I bet you would like to knowhow fruit flies do it!
Virginia P. Sybert, M.D.University of Washington
Group Health Permenente
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