© 2009 nhs national genetics education and development centregenetics and genomics for healthcare ...
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© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcarewww.geneticseducation.nhs.uk
Karyotype images
This PowerPoint file contains a number of images of karyotypes that may be useful for teaching of genetics concepts.
You may use these slides and their contents for non-commercial educational purposes.
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcarewww.geneticseducation.nhs.uk
total number of chromosomes, sex chromosome constitution,
anomalies/variants.
46,XY47,XX,+2147,XXX69,XXY45,XX,der(13;14)(q10;q10)46,XY,t(2;4)(p12;q12)46,XX,del(5)(p25)46,XX,dup(2)(p13p22)46,XY,inv(11)(p15q14)46,XY,fra(X)(q27.3)46,XY/47,XXY
The Karyotype: an international description
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcarewww.geneticseducation.nhs.uk
total number of chromosomes, sex chromosome constitution,
anomalies/variants.
46,XY47,XX,+21 Trisomy 21 (Down syndrome)47,XXX Triple X syndrome69,XXY Triploidy
45,XX,der(13;14)(p11;q11) Robertsonian translocation
46,XY,t(2;4)(p12;q12) Reciprocal translocation
46,XX,del(5)(p25) Deletion tip of chromosome 546,XX,dup(2)(p13p22) Duplication of part of
short arm Chr 246,XY,inv(11)(p15q14) Pericentric inversion
chromosome 1146,XY,fra(X)(q27.3) Fragile X syndrome46,XY/47,XXY Mosaicism normal/Klinefelter
syndrome
The Karyotype: an international description
© 2009 NHS National Genetics Education and Development Centre
Genetics and Genomics for Healthcarewww.geneticseducation.nhs.uk
Fig. 2.5 ©Scion Publishing LtdRedrawn from ISCN 2005 with permission from S. Karger AG, Basel.
Nomenclature of cytogenetic bands.
The ideograms show ideal G-banding patterns at 550 band resolution. Major bands are labelled 1,2,3, etc., going from centromere to telomere.
Major band 11q1 (11q means the long arm of chromosome 11, 11p the short arm) is divided into sub-bands 11q11 – 11q14, and at the highest resolution 11q14 splits into 11q14.1 – 11q14.3.
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Fig. 2.9 ©Scion Publishing Ltd
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Fig. 2.11 ©Scion Publishing Ltd
Karyotype showing trisomy 21 (47,XX,+21)
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Fig. 2.13 ©Scion Publishing Ltd
Karyotype of Isabel Ingram. Although Isabel will never be able to have children normally, treatment with estrogens can allow her to develop normal secondary sex characteristics and greatly assist her personal and social life. Modern reproductive technology has allowed some Turner syndrome patients to bear children using donor eggs. Treatment with growth hormone can result in improved growth and final height.
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Fig. 2.14 ©Scion Publishing Ltd
G-banded karyotypes of Ellen’s chromosomes. There is a balanced translocation. Chromosomes 1 and 22 have exchanged segments (arrows). The translocation is described as 46,XX,t(1:22)(q25;q13)
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Fig. 2.15 ©Scion Publishing Ltd
G-banded karyotype of baby Elizabeth. She has inherited Ellen’s normal chromosome 1 but her translocated chromosome 22 (arrow). She is trisomic for the portion of chromosome 1 distal to 1q25, the translocation breakpoint, and monosomic for chromosome 22 distal to 22q13.
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Fig. 2.16 ©Scion Publishing Ltd
How the 1;22 translocation in Ellen Elliot originated. Chromosome 1 and 22 broke at the positions indicated by the arrows, and the cell’s DNA repair machinery rejoined the ends to form the two derivative chromosomes as shown. The derivative chromosomes are labelled der(1) and der(22).
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Fig. 2.20 ©Scion Publishing Ltd
A Robertsonian translocation. The inset shows how this common type of chromosome abnormality arises. The short arms of all the acrocentric chromosomes (13, 14, 15, 21, 22) contain similar DNA. Inappropriate recombination between two non-homologous chromosomes produces the fusion chromosome, which functions as a normal single chromosome in mitosis. The small acentric fragment comprising the two distal short arms is lost.
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Fig. 4.14 ©Scion Publishing Ltd
22q11 metaphase FISH. The green spots are a control probe, used to identify the two copies of chromosome 22 and confirm that hybridization has taken place. The red spots are the TUPLE1 probe. Only one of the two copies of chromosome 22 contains the sequence that hybridizes to this probe.
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Fig. 4.15 ©Scion Publishing Ltd
Interphase FISH test for trisomy 21. The chromosome 21 probe is labelled with a red fluorochrome and a control probe (for chromosome 18) is labelled in green. The two green dots show that the hybridization has worked for this cell, and the three red dots show that there are three copies of chromosome 21. The clinical report is based on examining a large number of cells. For prenatal diagnosis a mix of differently coloured probes from chromosomes 13, 18, 21, X and Y is often used.
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Fig. 4.16 ©Scion Publishing Ltd
Array-CGH result on the patient shown in Figure 4.3. The whole genome was surveyed, but only results for the probes from chromosome 12 are shown. There is a duplication involving 39 contiguous clones from 12q24.1.
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47,XX,+21
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47,XX,+13
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47,XX,+18
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45,X
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47,XXY
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47,XYY
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45,XX,der(14;21)(q10;q10)
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46,XX,t(4;15)(q2?1.3;q13)
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46,XX,t(9;22)(q34;q11)
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ish der(9)(ABL-),der(22)(BCRsp+conABLsp+,ABLsp+,BCRsp+)
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46,Y,fra(X)(q27.3)
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Fragile X Chromosome
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47,XX,+?mar
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46,X,r(X)
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ins(22;9)(q11;q13q34)
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46,XY.ish del(15)(q11.2q11.2)(SNRPN-)
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46,XY.ish del(15)(q11.2q11.2)(SNRPN-)
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46,XX.ish del(22)(q11.2q11.2)(TUPLE1-)
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46,XX.ish del(22)(q11.2q11.2)(TUPLE1-)
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46,X,del(X)(p21.1)
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46,XX,del(4)(p15.2p16.?2)
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ish del(7)(q11.23q11.23)(ELN-)
Williams syndrome
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Trisomy 21: 47,XX,+21three separate copies of chromosome 21
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Three copies of all the chromosomes: triploidy
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Different chromosome banding resolutions can resolve bands, sub-bands and sub-sub-bands
Chromosome 1
Human chromosome banding patterns seen on light microscopy
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FISH - fluorescence in situ hybridisation
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Example of FISH
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Trisomy 21 amniocyte
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Chromosomes seen through a microscope