Medical genetics I



Chromosomal aberrations
lAUTOSOMAL
l a) Structural
§Polymorphysms
–different length of chromosomes in homologous pair
–no phenotype effect
l
§Inversions
–pericenric – including centromere
–paracentric – does not include centromere
–usually has no phenotype effect
l
§Ring chromosomes
–breaks on both chromatids and their connection
–mental and physical retardation
–always newly created
–sometimes redundant

Chromosomal aberrations
§Deletion
•terminal – one break
•intersticial – two breaks
•deletion syndromes:
•Wolf-hirschhorn syndrome; 4p deletion
•Cri-Du-Chat syndrome; 5p deletion
§Microdeletion syndromes:
•Prader-Willi syndrome; 15q11-12 deletion
•DiGeorge syndrome; 22q13 deletion
•Angelman syndrome; 15q11-13 deletion
•Williams-Beuren syndrome; 7q11.23 deletion
–
§Insertion
•inserted part can be in the same or inverted position

Chromosomal aberrations
lTranslocation
–reciprocal
lmutual exchange between two or more nonhomologic chromosomes
lbalanced - no phenotype effect
lgenetic risics of unbalanced genom gamets formation
l
–robertsonian
lbetween two acrocentric chromosomes
lbreaks in the area of centromeres and deletion of short arms
lcentric fusion of the remaining arms
lbalanced – normal phenotype
l
–tandem
ldeletion of part of an acrocentric chromosome
lfusion of the remaining part with another chromosome
translocation%20-%20reciprocal
http://www.larasig.com/node/3628
robertsonian-translocation-13045_3
http://drugline.org/medic/term/robertsonian-translocation/

lb) Numerical
lTrisomy
–21 chromosome trisomy – Down syndrome
–18 chromosome trisomy – Edwards syndrome
–13 chromosome trisomy – Patau syndrome
l
lTriploidy
–69,XXX; 69,XXY
–nonviable
–mosaic triploidy – mental retardation, syndactyly, abnormal genitals, lateral asymetry
l
l
Chromosomal aberrations

l2. GONOSOMIC
lChromosome Y
–structural aberrations – very rare
–numerical aberrations
l47,XYY – supermale syndrom
lChromosome X (male)
–Numerical aberration
l47,XXY – Klinefelter syndrom
lChromosome X (female)
–numerical aberrations
l45,X – Turner syndrom
l47,XXX – XXX syndrom
lFragile X – fraX
–the most common cause of mental retardation
–nonspecific phenotype
–
–
l
–
Chromosomal aberrations

Numerical chromosomal changes - aneuploidy
https://qph.cf2.quoracdn.net/main-qimg-93c927e85dd0ef52586e3b5b1ad513ab-lq


Aneuploidy - origin
A)Chromosome loss
l(no centromere or non-functioning
l kinetochore)
l
lB) Robertsonian
l translocations
A)
l
lC) Errors during segregation during meiosis or
l     mitosis (Non-disjunction)
l
triz005
Anaphase

Aneuploidy: non-disjunction during meiotic division I or II (gametes n+1 disomic, n-1 nulisomic)

       n + 1                          n - 1
       n + 1           n - 1
M I
M II

First meiotic division
second division
(gametes)
haploid gamete
Nondisjunction
First Division
Trisomic
Trisomic
Monosomic
Monosomic
Zygote

first division
second division
(gametes)
haploid gamete
Nondisjunction
Second Division
Trisomic
Monosomic
Zygote
Normal

Non-disjunction can take place not only in meiosis but also in mitosis - somatic clones (cancer)
Chromosomal disorders - ppt download
https://slideplayer.com/slide/12220263/

Trisomy - reduced vitality and fertility - trivalent formation during gamete meiosis - haploid (n)
and disomic (n+1)
Trizom. cell: 2n + 1
2 Types of gametes: n a n+1
Irregular spacing of chromosomes in meiosis - sterility !
Pairing of 3 homologous chromosomes

Origin of aneuploidy in humans
untitled 1
Aneuploidy – trisomy, monozomy lethal (aborts), effect of gene dosage !!!

lThe most common and clinically significant type of congenital aberrations !
l10% of pregnancies = chromosomally abnormal (consequence:NDD, abortions)
lAny chromosome can be affected by aneuploidy... selection !
lAneuploidy - trisomy, monosomy lethal (abortion), gene dose effect !
l
l
lDown syndrome +21
lEdwards syndrome +18
lPata's syndrome +13
lKlinefelter's syndrome XXY
lTurner syndrome X - monosomy
l
VSE
 Characteristic features of trisomies in humans

a)the supernumerary chromosome is of maternal origin (90%)
b)
b)the cause is most often an error in division during meiosis I
c)
c)the frequency of trisomies in the fetus increases with maternal age
    Aneuploidies in humans – trisomies
Viable aberrations
Low gene count!!

Down syndrome (47,XX or XY,+21)
lIncidence 1:800
lDescribed 1866 J.L.Down
lIQ 25-50
lsmall dumpy figur
lround face
lshort neck
lmongoloid eyes
lepicanthic fold
lwide nose root and flattened nose
lsmall mouth, large tongue, small teeth
lsingle transverze palmar crease
lheart diseases

Causes of Down syndrome
lA) simple trisomy
l47,XX or XY,+21) - de novo
l90% of maternal origin - in meiosis I
l
lB) translocation form
lRobertsonian translocation der(14;21) - hereditary form of D.S.
l
lC) partial trisomy
lmultiplied minimal critical region for DS 21q21
l
lD) mosaic 47,XX,+21/46,XX
l
l
Down's%20syndromeI

Down syndrome
Down_Brushfield_spots Down_simian_crease
Epicanthus
 palmar crease

lExamples of chromosomal aberrations responsible of Down syndrome
Down Syndrome (Trisomy 21) - Pediatrics - MSD Manual Professional Edition
http://article.sapub.org/image/10.5923.j.cmd.20150501.02_001.gif FISH micrograph of chromosomes in
Down's Syndrome
lt(14;21)

Incidence of Down syndrome is influenced by age of mother
Cause of D.S. - in 95% nondisjunction in the course of meiosis I in the mother, i.e. two copies of
chromosome 21 in the egg !
Prevention/Early Detection - Down Syndrome
http://downsyndrome2014.weebly.com/uploads/2/6/2/0/26201118/5926215_orig.jpg

Causes of nondisjunction in oocytes and maternal age - hypotheses
•Meiosis in women takes a long time - starts in the prenatal period in the fetal ovaries - lasts 10
- 50 years
•
•oocytes remain in M I prophase until sexual maturity - primary oocyte (about 400 at birth)
•meiosis II completed at fertilization
•
•Nondisjunction: multiple mechanisms !!!
•
•CROSSING-OVER DISORDERS
•COHESIN DEGRADATION DEPENDING ON MATERNAL AGE
•DISORDERS OF THE DIVISION SPINDLE CONNECTION ?

Edwards syndrome (47,XX or XY,+18)
1/6000, John Edwards 1960
peri215 +18 kar

l
Chromosomal aberrations - Knowledge @ AMBOSS


Patau syndrome (47,XX or XY,+13)
Claus Patau, 1960
+13 kar

lhttps://pbs.twimg.com/media/EXSZhKiWsAIVZbg.jpg:large
Pediatric on Squares on Twitter: "Summary of Trisomy 13 (Patau syndrome) #Pediatric #Trisomy13
#Patau https://t.co/Mwqwv3piBD" / Twitter

Hexadactyly in newborn with trisomy 13
Patau - hexadact


Patau syndrome – cyclopia
Patau_cyclopia Patau_cyclopia_fetus


Supermale syndrome (47,XYY)
lincreased growth velocity
lno unusual physical features lnormal testosteron level, fertility and sexual development lpossible
learning disabilities ldelayed development of speech and language skills lbehavioral and emotional
difficulties
XYY.jpg xyy1

80´s – „double Y“ (Alien 3 – 1992)
l


Klinefelter syndrome (47,XXY)
lVariations 48,XXYY; 48,XXXY;
ltall figure
lless facial and body hair
lfemale distribution of body fat
lhypogonadism (decreased testicular hormon function)
linfertility
lgynecomastia (increased breast tissue)
llower intelect degree
3 klein

Turner syndrome (45,X)
llower birth length and weight
llow hairline
lpterigya
lbroad chest, widely spaced nipples
lsmall growth
linfertility, absence of menstrual period
lcoarctation of the aorta
lwebbed neck
llymphederma
l
l
turner Turner File:Puffy feet.JPG

XXX syndrome (47,XXX)
lmajority of triple X females are never diagnosed
lnormal fertility
linactivated Barr body
lmost often only mild effects
–tall stature
–small head
–speech, language and learning disabilities
–weak muscle tone
https://www.google.cz/search?q=xxx+syndrome&source=lnms&tbm=isch&sa=X&ei=xMiIUvlHgrG0BpOYgLgL&ved=0
CAcQ_AUoAQ&biw=1440&bih=783#facrc=_&imgdii=_&imgrc=Hz1JqrGzTyKpBM%3A%3BfZOiqHDJFB267M%3Bhttp%253A%2
52F%252Fworms.zoology.wisc.edu%252Fzooweb%252FPhelps%252FZWK01047k.jpg%3Bhttp%253A%252F%252Fwww.zap
pa.com%252Fmessageboard%252Fviewtopic.php%253Ff%253D5%2526t%253D7057%3B768%3B576
Triple%2BX%2BSyndrome ZWK01047k
http://pics2.this-pic.com/image/triple%20x%20syndrome