Chromosomal Abnormalities I

Question 1

Describe packaging of chromosomes

Answer 1

Chromosomes usually exists as chromatin
DNA double helix bounds to histones
Octamer of histones form nucleosome

Question 2

Describe structure of euchromatin and its function

Answer 2

Euchromatin
Extended state, dispersed through nucleus
Allows gene expression

Question 3

Describe structure of euchromatin and its function

Answer 3

Heterochormatin

Highly condensed, genes not expressed

Question 4

G1 - describe what happens

Answer 4

G1 = Cell makes a variety of proteins needed for DNA replication

Question 5

S - describe what happens

Answer 5

S = synthesis; chromosomes are replicated so that each chromosome now consists of two sister, identical chromatids

Question 6

G2 - describe what happens

Answer 6

G2 – synthesis of proteins especially microtubules

Some cells don’t replicate; some are senescent.

Question 7

Metacentric - define and describe which ones

Answer 7

Metacentric
p & q arms even length
1-3, 16-18

Question 8

Submetacentric - define and describe which ones

Answer 8

Submetacentric
p arm shorter than q
4-12, 19-20, X

Question 9

Acrocentric - define and describe which ones

Answer 9

Acrocentric
Long q, small p
p contains no unique DNA
13-15, 21-22, Y

Question 10

Detecting chromosomal changes

Answer 10

Numerical = Can detect through traditional karyotyping, FISH, QF-PCR, NGS

Structural = Can detect through traditional karyotyping, FISH

Question 11

Haploid - define

Answer 11

one set of chromosomes (n=23) as in a normal gamete.

Question 12

Diploid - define

Answer 12

cell contains two sets of chromosomes (2n=46; normal in human)

Question 13

Polyploid - define

Answer 13

multiple of the haploid number (e.g. 4n=92)

Question 14

Aneuploid - define

Answer 14

chromosome number which is not an exact multiple of haploid number - due to extra or missing chromosome(s) (e.g. 2n+1=47)

Question 15

Numerical Abnormalities - list

Answer 15

Trisomy

Monosomy

Mosaicism

Question 16

Disjunction - define

Answer 16

Pulling apart at anaphase = disjunction

Question 17

How does aneuploidy arise?

Answer 17

Primary mechanism = Non-disjunction

Question 18

Mosaicism - define

Answer 18

Presence of two or more genetically different cell lines derived from a single zygote

Question 19

Mosaicism - describe mechanisms

Answer 19

2 mechanisms:

Post-zygotic nondisjunction, i.e. mitotic non-disjunction = All 2n to mixture of 2n and 2n+1

Anaphase lag, i.e. trisomic rescue = All 2n+1 to mixture of 2n+1 and 2n

Question 20

Monosomy - cause

Answer 20

Full monosomy arise by NDJ

Partial monosomy (microdeletion syndromes) far more common – mechanism different

Question 21

Monosomy - which type is R.V. common

Answer 21

Relatively common sex chromosome monosomy = Turner’s

Question 22

How does Turner’s (45,X) arise?

Answer 22

Nullisomic gametes fertilised with a sperm carrying an X chromosome will be XO (Turners)

Nullisomic gametes fertilised with a sperm carrying a Y chromosome will be YO

Question 23

Nullisomic gametes - effects of possible combinations

Answer 23

Nullisomic gametes
+ X chr = XO = Turner’s (physically female)
+ Y chr = lethal

Question 24

Disomic gametes - effects of possible combinations for XX

Answer 24

XX:

+ X chr = XXX = triple X syndrome
+ Y chr = XXY = Klinefelter’s (physically male)

Question 25

Disomic gametes - effects of possible combinations for XY

Answer 25

XY:

+ X chr = XXY = Klinefelter’s
+Y chr = XYY = XYY syndrome

Question 26

Numerical abnormalities - types

Answer 26

Types (all can be mosaic)

Autosomal
Trisomy 13, 18, 21

Sex chromosomes
XO, XXY, XYY

Question 27

Numerical abnormalities - mechanism

Answer 27

Mechanism:

Nondisjunction
Anaphase lag

Question 28

Anaphase lag - define

Answer 28

Sister chromatids do not properly separate from each other because of improper spindle formation

The chromosome or chromatid does not properly migrate during anaphase and the daughter cells will lose some genetic information.

Question 29

Forming a karyotype

Answer 29

Take 5 mL venous blood
Add phytohemagglutinin + culture medium
Culture at 37 degrees celsius for 3 days
Add colchicine and hypotonic saline
Cells fixed 
Spread cells onto slide by dropping 
Digest with trypsin and stain with giemsa
Analyze metaphase spread
= karyotype

Question 30

Chorionic villus sampling (CVS) - define

Answer 30

a prenatal test that is used to detect birth defects, genetic diseases

A small sample of cells (called chorionic villi) is taken from the placenta where it attaches to the wall of the uterus.

Question 31

Chorionic villus sampling (CVS) - +ves/-ves

Answer 31

11-14 weeks

Miscarriage rate 0.5% to 1%

maternal contamination

transverse limb defects

Question 32

Amniocentesis - +ves/-ves

Answer 32

> 16 weeks
extraction of amniotic fluid
Biochemical diagnosis possible
miscarriage risk (0.5-1%)

Question 33

Giemsa - use

Answer 33

Giemsa highlights heterochromatic regions which are less likely to contain genes.

But the crucial thing is that the banding can be used to differentiate between chromosomes ant to compare chromosomes.

Question 34

Giemsa - Line-up based on

Answer 34

Size
Banding
Centromere position

Question 35

Why chromosome bands?

Answer 35

Chromatin:

2 different sorts: euchromatin & heterochromatin
Euchromatin = GC-rich; loosely packed; genes active
Heterochromatin = AT-rich; tightly packed; genes inactive
Stain differently

Question 36

Most common bands?

Answer 36

Giemsa bands

Question 37

Foetal testing - invasive vs non-invasive

Answer 37

Invasive
Amniocentesis (14-20 wks, amniotic fluid)
Chorionic villus sampling (CVS) (11-14 wks, placental cells)

Non-invasive
Cell free foetal DNA (cffDNA): DNA fragments in maternal plasma (10 wks onwards)
Actually for trisomies still need confirmation with amnio/CVS

Question 38

Trisomies - advantages

Answer 38

SAFE TEST – Trisomies 13, 18, 21
Available privately ~ £400
But now free at St George’s!

Question 39

Down syndrome – clinical features

Answer 39

1 in 650-1000 live births
Most common cause of mental retardation
Hypotonia, particularly in newborn period
Developmental delay
Cardiac abnormalities
GI abnormalities
Acute Lymphocytic Leukaemia/Acute Myeloid Leukaemia – 10-20 x relative risk
Conductive hearing loss
Features of Alzheimer’s >40 years

Question 40

Down Syndrome - causes

Answer 40

95% patients non-disjunction (usually maternal meiosis I)
5% Robertsonian translocation involving chromosome 21
~2% mosaic (ie only some cells contain an extra chromosome)

‘Older Egg Model’ – maternal age effect

Question 41

Patau syndrome (risomy 13) - clinical features

Answer 41

~1 in 10 000 live births

Midline defects

• Hypotelorism
• Holoprosencephaly
• Midline cleft lip/palate
• Scalp defects

Post axial polydactyly
Heart defects/renal abnormalities
Survival – most die by 1 month

Question 42

Hypotelorism define

Answer 42

Hypotelorism=abnormally close eyes

Question 43

Holoprosencephaly - define

Answer 43

Holoprosencephaly – forebrain doesn’t divide properly-causes facial malformations as well

Question 44

Post-axial - define

Answer 44

Post-axial=lateral side of foot or hand (little finger side)

Question 45

Edwards syndrome (trisomy 18) - clinical features

Answer 45

Incidence ~1 in 6000 live births
Intrauterine growth retardation
Micrognathia
Cleft lip +/- palate
Short palpebral fissures
Fixed flexion deformities of fingers
Heart defect >95%
Inguinal/diaphragmatic herniae
Renal malformations

Question 46

Micrognathia - define

Answer 46

Micrognathia = small lower jaw

Question 47

Palpebral fissures - define

Answer 47

Palpebral fissures - gap between eye lids

Question 48

Survival in Edwards syndrome

Answer 48

30% die by 1 month
50% die by 2 months
90% by 1 year

Question 49

Sex chromosome aneuploidies - incidence

Answer 49

Incidence: male 1/400
female 1/600
all autosomal 1/700

Question 50

Sex chromosome aneuploidies vs autosomal aneuploidy

Answer 50

Phenotype often less severe than autosomal aneuploidy

Question 51

Turner syndrome - clinical features

Answer 51

Incidence 1/4000 female births
45X0 or mosaic (45X0/46XX)
Raised nuchal translucency
At birth: 
- oedema of hands and feet
- Neck webbing
- coarctation of aorta
- renal malformation
Short stature
Infertility secondary to gonadal dysgenesis
Intellectually normal

Question 52

45X/46XY mosaicism - define

Answer 52

usually normal male but with potential for gonadoblastoma

Question 53

Isochromosome Xq effect

Answer 53

Mosaicism with ring or isochromosome Xq = variant turner syndrome

Question 54

Klinefelter (47,XXY) - clinical features

Answer 54

Incidence 1/1000 male live births
Phenotype mild and variable – some cases undetected
Barr body present
NDJ paternal meiosis I (50%), others NDJ maternal meiosis or zygotic mitotic error (mosaic)
Variants: 48,XXYY, 48,XXXY etc

Question 55

Klinefelter (47,XXY) - effects

Answer 55

May present prenatally, during childhood with behavioural problems, or adulthood with infertility
Tall stature
Eunachoid body habitus
Some behavioural and minor learning difficulties
Lack of secondary sexual characteristics – treat with testosterone
Infertility