台大農藝系 遺傳學 601 20000 chapter 1 slide 1 cytogenetics mgl-3 feb 17 th 2013 cytogenetics...
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台大農藝系 遺傳學 601 20000 Chapter 1 slide 1
Cytogenetics
MGL-3Feb 17th 2013
CYTOGENETICS
MGL-3June 24th 2014
Mohammed El-Khateeb
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CYTOGENETICS•Chromosome Structure
•Methods of Chromosome Analysis
•Molecular Cytogenetics
•Chromosome abnormalities
•Chromosome Nomenclature
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Cytogenetics
The study of chromosome number, structure, function, and behavior in
relation to gene inheritance, organization and expression
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FertilizationDiploid Genome
• Each parent contributes one genome copy• Offspring cells have two near-identical copies
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DNA Coiling Leading to the Visible Structure of Chromosomes
DNA Nucleosomes Chromatin Fiber Loop Chromosome
Primary coiling of DNA double helix Secondary coiling of DNA double helix around the histone proteins to form nucleosomes Tetiary coiling of nucleosomes to form chromatin fibres Loops of chromatin fiber forming the chromosome
Primary coiling of DNA double helix Secondary coiling of DNA double helix around the histone proteins to form nucleosomes Tetiary coiling of nucleosomes to form chromatin fibres Loops of chromatin fiber forming the chromosome
2nm 10 nm
300 nm 700 nm
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Sister Chromatides
ChromosomeChromo = colored in response to dyeSome = body
Chromosome of Eukaryotes have been the traditional subject for cytogenetic analysis because they are large enough to be examined using light microscope
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Chromosome
Short (p-) arm
Long (q-) arm
Ccentromere
Chromatid
Telomere
Telomere
repetitive (satellite) sequence
DNA
Repetitive Sequence
(TTAGGG)n
Repetitive Sequence
(TTAGGG)n
DNA
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What are telomeres?• Like the rest of a chromosome and its genes,
telomeres are sequences of DNA - chains of chemical code.
• Like other DNA, they are made of four nucleic acid bases: A, T, G, C.
• Telomeres are made of repeating sequences of TTAGGG on one strand of DNA bound to AATCCC on the other strand. Thus, one section of telomere is a "repeat" made of six "base pairs."
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DNADNA Sequence for
Telomeres:ttagggttagggttaggg…||||||||||||||||||aatcccaatcccaatccc…
HeadTelomere
Centromere
TailTelomere
NOTICE:Tandem Repeats in
Telomeres:ttagggttagggttaggg…||||||||||||||||||aatcccaatcccaatccc…
Repeated 800-1600 timesin each Telomere
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Telomere Tip of each
chromosome Seal chromosomes
and retain chromosome integrity
Maintained by enzyme - telomerase
Reduction in telomerase and decrease in number repeats important in ageing and cell death
Telomere LengthIn base pairs
HumanBlood Cell
0 35 65
1500
3000
8000
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Visualizing Metaphase Chromosomes
• Patient cells are incubated and divide in tissue culture.
• Phytohemagglutinin (PHA): stimulates cell division
• Colcemid: arrests cells in metaphase
• 3:1 Methanol: Acetic Acid: fixes metaphase chromosomes for staining
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Add a few drops of blood.
Add phytohemagglutinin to stimulate mitosis.
Draw 10 to 20 ml of blood.
Incubate at 37°C for 2 to 3 days.
Transfer to tube containing fixative.
Transfer cells to tube.
Add Colcemid to culture for 1 to 2 hours to stop mitosis in metaphase.
Centrifuge to concentrate cells. Add low-salt solution to eliminate red blood cells and swell lymphocytes.
Drop cells onto microscope slide.
Examine with microscope.
Digitized chromosome images processed to make karyotype.
Stain slide with Giemsa.
The steps in the process of creating a karyotype for chromosome analysis.Preparation
of G banded karyotype
•Peripheral blood•Fibroblasts from skin bx•Epithelial cells from buccal smear•Bone marrow •Solid tumor biobsies
Specimens
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Chromosome Number in different animals and
plants• Human 46• Chimpanzee 48• Dog 78• Horse 64• Chicken 78• Goldfish 94• Fruit fly 8• Mosquito 6• Nematode 11(m),
12(f)• Horsetail 216• Sequoia 22• Round worm 2
• Onion 16• Mold 16• Carrot 20• Tomato 24• Tobacco 48• Rice 24• Maize 20• Haploppus gracilis 4• Crepis capillaris 6
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Cytogenetics?
• The study of the genetic constitution of cells through the visualisation and analysis of chromosomes.
G-banding (and other traditional techniques)
Fluorescence in situ hybridization (FISH)
Molecular techniques (QF-PCR, MLPA)
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HOW DO SCIENTISTS READ CHROMOSOMES?
• Size. This is the easiest way to tell two different chromosomes apart.
• Banding pattern. The size and location of Giemsa bands on chromosomes make each chromosome pair unique.
• Centromere position. Centromeres are regions in chromosomes that appear as a constriction. They have a special role in the separation of chromosomes into daughter cells during mitosis cell division (mitosis and meiosis).
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Metaphase Chromosomes• Length• Centromere location• Satellite
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Chromosome in general (size, shape and number)
Two sister chromatids per chromosome
DNA replication chromatids Two sister chromatids joined
together at centromeres chromosomes differ
in size and appearance with staining
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Basic cytogenetic examinations
Interphase cells Barr body (sex chromatin)
Metaphase cells – staining of chromosomes
Solid staining G-banding R-banding C-banding Q-banding Ag-NOR
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CentromereJoins sister chromatids
Essential for chromosome segregation at cell division
100s of kb of repetitive DNA: some non-specific, some chromosome specific
Dark (G) bands Replicate late
Contain condensed chromatin
AT rich
Short armp (petit)
Long arm
Light bands Replicate early in S phase
Less condensed chromatin
Transcriptionally active
Gene and GC rich
TelomereDNA and protein cap
Ensures replication to tip
Tether to nuclear membrane
provide terminal stability to the chromosome and ensure its survival
Telomere
Chromosomes as seen at metaphase during cell division
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Chromosomes BandingType Stain Area Stained Effect
Q-banding Quinacrine Chromosome arms; mostly repetitive AT-rich DNA
Under UV light, distinct fluorescent banded pattern for each chromosome.
G-banding Giemsa Chromosome arms; mostly repetitive AT-rich DNA
Distinct banded pattern for each chromosome; same as Q-banding pattern except single additional band near centromere of chromosomes 1 and 16
R-banding Variety of techniques
Chromosome arms; mostly unique GC-rich DNA
Reverse banding pattern of that observed with Q- or G-banding
C-banding Variety of techniques
Centromere region of each chromosome and distal portion of Y chromosome; highly repetitive, mostly AT-rich DNA
Largest bands usually on chromosomes 1, 9, 16, and Y; chromosomes 7, 10, and 15 have medium-sized bands; size of C-bands highly variable from person to person
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• Human chromosome 4 at varying resolutions due to exact mitotic stage, (or degrees of spreading - squashing - stretching)
• Each band corresponds to about 5000-10000 kb
400-500 bands per haploid set
550-600 bands per haploid set
800-580 bands per haploid set
High Resolution G banding
High Resolution
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718
Low/High Resolutions Karyotype
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Karyotyping
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Idiograme
• A 1-3• B 4-5 + X• C 6-12• D 13-15 • E 16-18• F 19-20• G 21-22 +Y
Autosomes are the first 22 homologous pairs of human chromosomes that do not influence the sex of an individual.
Sex Chromosomes are the 23rd pair of chromosomes that determine the sex of an individual.
A B
C
D E
F G
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International System for Human Cytogenetic Nomenclature
(ISCN)
•Regions, Bands & Sub-bands Each area of chromosome given
number Lowest number closest (proximal)
to centromere Highest number at tips (distal) to
centromere•1p31.1
Chromosome 1 Short arm Region 3 , band 1, sub-band 1
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p
q
Arm Region Band Subband
2
1
1
2
21
1
12
3
4
3212154321
12
312312, 34123
17q11.2
Chromosome 17
Defining Chromosomal Location
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ISCN
• del - deletion• dic - dicentric• fra - fragile site• i - isochromosome• inv - inversion• p - short arm• r - ring
• der - derivative• dup - duplication• h -
heterochromatin• ins - insertion• mat - maternal origin• Pat - paternal origin• q - long arm• t - translocation
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ISCN, 46,XX,del(5p)
Separates Chromosome numbersSex chromosomesChromosome abnormalities
;
46,XX,t(2;4)(q21;q21)
Separates altered chromosomesbreak points in structural rearrangements involving
more than 1 chromosome
Normal male 46,XY Normal female 46,XX
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Cytogenetics?
• The study of the genetic constitution of cells through the visualisation and analysis of chromosomes.
– G-banding(and other traditional techniques)
Fluorescence in situ hybridization (FISH)
– Molecular techniques(QF-PCR, MLPA)
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Molecular Cytogenetics Fluorescent Inistu Hypridization (FISH)
Different Fish Probes Centromeric Probe Chromosome specific unique sequence probe Whole chromosome point probe
Reverse paintingMulticolor spectral karyotyping
Comparative Genomic Hypridization (CGH) Flowcytometry
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AA GG GG CCTT
AATT
TT CC CC GGAA
TTAA COVALENT
BOND
FF
FF
Specimen DNA
FISH Probe DNA
DIRECT FLUORESCENT -LABELED PROBE
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FISH technique is based on the unique ability of a single stranded piece of DNA (probe) to anneal or hybridize with its complementary target sequence
on the chromosome
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Advantages of Interphase FISH
Interphase cells for FISH do not require culturing of the cells and stimulating division to get metaphase spreads
200–500 cells can be analyzed microscopically using FISH
Monitor recurrent or residual disease in BMT pt.
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Metaphase FISH Uses fluorescent probes that bind
to metaphase chromosomal regions or to whole chromosomes.
Whole chromosome paints: Probes that cover the entire chromosome, are valuable for detecting small rearrangements that are not apparent by regular chromosome banding.
Telomeric and centromeric probes are also applied to metaphase chromosomes to detect aneuploidy and structural abnormalities 34
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Spectral karyotyping (SKY) and multiple fluoeescent hybridization (M-
FISH) By mixing combinations of
five fluors and using special imaging software, can distinguish all 23 chromosomes by chromosome specific colors.
This type of analysis can be used to detect abnormalities that affect multiple chromosomes as is sometimes found in cancer cells or immortalized cell lines.
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SKYAdvantages:• Mapping of chromosomal breakpoints.• Detection of subtle translocations.• Identification of marker chromosomes, homogeneously
staining regions, and double minute chromosomes.• Characterization of complex rearrangements.Disadvantages:• Very expensive equipments.• The technique is labor intensive.• Dose not detect structural rearrangements within a single
chromosome. • Low resolution (up to 15 mb ).• Specific, not a screening method.
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Fluorescence InSitu HypridizationFISH
X (green), Y (red)
18 (aqua)
13 13 (green(green
) ) 21 21
(red)(red)
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Applications Gene Mapping Chromosome Identification Aneuploidy Detection Sexing for X-Linked diseases Marker chromosome Identification Total chromosome Analysis Translocation Analysis Unique Sequence DNA Detection Microdeletion Syndrome Analysis Gene Amplification Analysis
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Cytogenetics?
• The study of the genetic constitution of cells through the visualisation and analysis of chromosomes.
– G-banding(and other traditional techniques)
– Fluorescence in situ hybridization (FISH)
Molecular techniques (CGH, QF-PCR, MLPA, Microarray)
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Methods:
•Isolate Genomic DNA from samples•DNA digestion•Label patient and control samples•Hybridize to microarray•Post hybridization washing•Assay scanning and data analysis
Comparative Ggenomic Hypridization (CGH)
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Comparative Ggenomic Hypridization (CGH)
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Comparative Genomic Hybridisation (CGH)
Amplified gene = GreenReduction of gene = Red
Flourochrom ratio = o.5 – 1.5
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Reading a CGH-Microarray
The resulting “The resulting “colour”colour” of a spot will depend on the ratio of a spot will depend on the ratio of “Red” and “Green” labeled DNA which has Hybridized of “Red” and “Green” labeled DNA which has Hybridized
to the Spotto the Spot
EqualEqual Excess Patient DNAExcess Patient DNA(Duplication)(Duplication)
Loss of patient DNALoss of patient DNA(Deletion)(Deletion)
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Indications - Postnatal
• Multiple congenital anomalies• Developmental delay/ mental retardation
of unknown origin • Autism• Any individual suspected of a
chromosomal imbalance, even with normal karyotype
• High resolution mapping to identify specific genes
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Current Uses of Array CGH
• Define congenital genetic defects• Define acquired genetic changes (in
cancer) • Molecular fingerprints of specific tumors
and subtypes• Identification of novel chromosomal
regions for drug targets and new treatments
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CGHAdvantages
whole genome in 1 experiment
no need to culture tumor cells
sensitive detection of gene amplification
Disadvantages
limited resolution (~10 Mb del/dup)
laborious
only gains and losses / no balanced rearrangements
no information on the nature of the aberrations
retrospective analysis
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Sister chromatid exchanges
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CHROMOSOMAL ABNORMALITIES
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Types of chromosome abnormalities
• Numerical Aneuploidy (monosomy, trisomy, tetrasomy) Polyploidy (triploidy, tetraploidy)
• Structural Translocations Inversions Insertions Deletions Rings Duplication Isochromosomes
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Classification of chromosomal anomalies
• Numerical (usually due to de novo error in meiosis)Aneuploidy - monosomy
- trisomyPolyploidy - triploidy
• Structural (may be due to de novo error in meiosis or inherited) Translocations - reciprocal
- Robertsonian (centric fusion)DeletionsDuplicationsInversions
• Different cell lines (occurs post-zygotically) Mosaicism
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clinically recognized pregnancies
05
101520253035
-20 20-24 25-29 30-34 35-39 40+
maternal age
% t
riso
mic
Chromosome abnormalities and maternal age