Transcript Slide 1

Chromosomal abnormalities
• Numerical
• structural
• Abnormalities in chromosome number may
orignate during meiosis and mitosis
etiology
• In meiosis two members of homologous
chromosome separate during first meiotic
divisionso that each daughter cell receives
one member of each pair. Sometimes
seperation does not occur and both
members of a pair move into one cell.
Meiotic
nondisjunction
causes the
gain or loss of
single
chromosomes
• Non dysjunction occurs during mitosis.
Such conditions produce mosaicism with
some chromosome having normal number
while some abnormal number.
Chromosome Abnormalities
1. Changes in chromosome number
–
–
Increases in entire chromosome sets (polyploidy)
Reductions or increase in ONE chromosome
(aneuploidy) Aneuploidy OR presence of extra
chromosome or an absence of one
a. Trisomy – “three bodies” – having one
extra chromosome
b. Monosomy – missing a single
chromosome
Fig. 17.23 Variations in number of complete chromosome sets
Peter J. Russell, iGenetics: Copyright © Pearson Education, Inc., publishing as Benjamin Cummings.
Aneuploidy: Monosomy vs. Trisomy
• Monosomy: results from
•
fertilzation between one normal
gamete & one gamete that is
missing a chromosome.
In Humans: Autsosomal
Monosomy extremely serious!
Embryo usually ceases
development very early.
(considered lethal)
23
22
22
23
• Trisomy: results from fertilization
•
•
•
between one normal gamete &
one gamete that contains an extra
chromosome.
In Humans: Autosomal Trisomy
usually results in spontaneous
abortion.
The only autosomal trisomies
seen in live births are trisomy
13, 18 and 21.
Trisomosy 21 (Down
Syndrome) is the only
autosomal trisomy that allows
survival until adult hood.
23
24
24
23
Down Syndrome: Trisomy 21
• Distinctive physical
•
•
•
•
appearance:
wide skull, flat in back.
Skin fold in corner of eye,
tongue furrowed &
protruding,
abnormalities in finger and
palm prints,
Development: Mental
retardation (but large
variations in mental ability),
slow growth, developmental
delays
Karyotype of a Down Syndrome Female
Down Syndrome: Manifestations
Slide 17
• Prognosis: today many Down syndrome
children reach adulthood. However, not
many survive past 50.
Edwards Syndrome: Trisomy 18
Infant with Edwards Syndrome
Trisomy-13 (Patau syndrome) occurs in 2/104 live births,
and most die within the first 3 months. Characteristics
include
i. Cleft lip and palate.
ii. Small eyes.
iii. Polydactyly (extra fingers and toes).
iv. Mental and developmental retardation.
v. Cardiac and other abnormalities
Aneuploidy
• Aneuploidy results from variations in the
number of individual chromosomes (not
sets),
Sex Chromosome
Aneuploidy
• Sex Chromosome Aneuploidy is
•
•
more common than Autosome
Aneuploidy!
In order to survive and develop
embryo needs at least one X
chromosome.
In healthy females, one X
chromosome will be inactivated
in each somatic cell. The
inactivated X chromosome is
referred to as a “Barr body”.
Female Abnormalities
• Turner Syndrome – only one X
chromosome (XO);
• short, webbed necks, small jaws; lack
prominent female sex characteristics; do
not ovulate
Turner
Syndrome
• Female (45 total chromosomes, 1 sex
•
•
•
•
chromosome (X))
Only monosomy that is Not lethal
Abnormalities: don’t develop normal at
time of puberty, underdeveloped breasts,
rudimentary ovaries
Infertile: do Not ovulate or menstruate
Treatment: Hormone supplements can
help these women lead normal lives
Male Abnormalities
• Klinefelter syndrome – males w/ one or
more extra X chromosomes – high pitched
voices, breast enlargement, sterile, testes
& prostate are small; treat w extra
testosterone
• XYY syndrome – super-males; tall, seem
normal; can live normal lives
Klinefelter Syndrome
• Male,( 47 total chromosomes, 3
•
•
•
•
•
sex chromosomes XXY)
May have some learning difficulties but
usually not mentally retarded
Affected male may not develop
normally at puberty
In severe cases: rudimentary testes &
prostate gland, sparse facial and pubic
hair, long arms and legs, breast
development may occur
Infertility
(in mild cases man may not discover
disorder until he experiences infertility)
Changes in chromosome structure
 Translocation/Chromosomal Breaks
 Deletions
 Fragile sites
Chromosomal Breaks
Chromosome Breaks
• Spontaneous breaks due to errors in DNA replication & errors in
crossing-over
• Environmental factors: UV light, Radiation, Viruses, Chemicals
• Cri du Chat: Caused by partial deletion of Chromosome 5
• Infant’s cry sound like a cat. Speech problems after infancy. 
abnormal glottis & larynx
Normal, Cri du Chat, Cat
Translocations
Sometimes chromosome break and piece
of one chromosome attatch to another
Balanced
Breakage and reunion occurs between
chromosomesbut no genetic material is
lost and individuals are normal.
unbalanced
Part of one chromosome is lost and
individuals are abnormal.e.g in Down
syndrome an extra copy of chromosome
21
Deletion
1. In a deletion, part of a chromosome is missing.
Duplication
1. Duplications result from doubling of chromosomal segments,
and occur in a range of sizes and locations.
Inversion results when a chromosome segment
excises looses original orientation.
Fragile Sites
• Fragile X
Syndrome: Makes
a very thin physical
region of the
chromosome.
• Results in range of
mental retardation and
behavioral problems
• Occurs in both sexes;
Why Is Non-disjunction
Usually Maternal?
1. Older Mother has greater chance of non-
disjunction. ..if woman is 40 at time of conception,
approx. 40 years to complete prophase I
2. Perhaps uterus of older mother less sensitive to
abmormal fetus. So older mother’s less likely to
spontaneously abort abnormal fetus.
3. Or perhaps a combination of these factors….