Chromosomal Abnormalities: Difference between revisions

Revision as of 22:30, 11 August 2011

Chromosomal abnormalities - sometimes also called cytogenetic disorders - are very common at all. Although we don´t see many affected people. How it is possible? The fetus with some chromosomal abnormality is usually not able to survive. About 50% of first-trimester abortions is connected with some cytogenetic mistake. The incidence of chromosomal abnormalities is approximately 1 from 200 of newborns. ^[1].

We recognize two types of chromosomal abnormalities:

numeric
structural

We are able to find the disorders due to karyotype testing. The cytogeneticists get the samples (blood, amnion fluid), then stained the chromosomes and put then in the right order by their length. Then we can see some changes in pattern (banding). The most typical method is Giemsa stain, so it is usually called "G banging". This is important for structural abnormalities. Numeral abnormalities we could find even easier.

Otherwise classification of chromosomal abnormalities depends on fact which type of chromosome is affected - autosomes (Down syndrome, DiGeorge syndrome) or sex chromosomes (Klinefelter syndrome, Turner syndrome).

Types of Structural Abnormalities

Translocation

Deletion

Ring chromosome

Isochomosomes

Inversion

Translocation

During translocation some part of one chromosome is transfered to another one. It is very important if the translocation is balanced or unbalacted. Balanced means that two chromosomes just exchange their parts but the number of chromosomes stay the same (46 chromosomes). Fortunately - typical place of break is near to the centromere, we usually lost just a small parts of the acrocentric chromosomes. There are not so many important genes coded by these parts. So carrier can normally survive this cytogenetic change
Unfortunately the problem occur during the fertilization. Carrier start to produce unbalanced gametes. It is very important because that leads to abnormalities in offsprings. Because they can receive changed chromosome from the carrier and miss some important genes.
Types of translocation:

reciprocal - translocation between two chromosomes ("A segment" goes to "B chromosome" and "B segment" goes to "A chromosome")
robertsonian - translocation of two acrocentric chromosomes

Deletion

Deletion is characterized by the lost of some part of chromosome. Two breaks have to occur for deletion of the interstitial segment. For deletion of terminal segment (telomere) one break is enough. Segments which were deleted from the chromosome are not able to "live" on their own. It is the reason why we lost genes which were coded by these part of chromosome.
One special example of deletion exists. It is called "ring chromosome". It is a situation when chromosome lost both of its ends. The long and the small arms then connect together and chromosome became a ring shaped.

Isochromosomes

Isochromosomes are created by the incorrect divides of centromere. Normally centromere divides vertically. In this case they divide horizontally.
The result is usually the lost of one arm. It means that newly created chormosome has just two long arms or two short arms which are normally connected by centromere.
We could find it on X chromosome very often.
It is a huge problem during the fertilization. Because fetus then get a trisomy for one arm and a monosomy for the second arm.

Inversion

For inversion are typical two breakages in the different part of the chromosome. The newly created segments then replace each other.

How We Denote Parts of a Chromosome

Chromosomal marking

When we want to describe the location of some structural abnormality we used special marks. We have to count the regions always from the centromere - for both arms. Example: 1q13

the first number is a number of chromosome - chromosome 1
(p) and (q) are used for marking of arm - (p) for small arm and (q) for long arm - the long arm
the third number is for the region of chromosome - region 1
last number is for theband - band 3

So the change is located on the long arm of chromosome 1 (see Fig. Chromosomal marking).

Sources

KUMAR, ABBAS, FAUSTO, MITCHELL,, et al. Robbins Basic Pathology. 8th edition edition. 2007. ISBN 978-0-8089-2366-4.

References

KUMAR, ABBAS, FAUSTO, MITCHELL,, et al. Robbins Basic Pathology. 8th edition edition. 2007. ISBN 978-0-8089-2366-4.

↑ About 50% of first-trimester abortions is connected with some cytogenetic mistake. The incidence of chromosomal abnormalities is approximately 1 from 200 of newborns

[1] About 50% of first-trimester abortions is connected with some cytogenetic mistake. The incidence of chromosomal abnormalities is approximately 1 from 200 of newborns

[1]

@@ Line 10: / Line 10: @@
 == Types of Structural Abnormalities ==
-[[File:Translocation.jpg|thumb|left|200px|Translocation]]
+[[File:Translocation.jpg|thumb|left|300px|Translocation]]
 [[File:Deletion.jpg|thumb|left|150px||Deletion]]
 [[File:Ring chromosome2.jpg|thumb||150px|Ring chromosome]]
@@ Line 22: / Line 22: @@
 ::::# '''reciprocal''' - translocation between two chromosomes ("A segment" goes to "B chromosome" and "B segment" goes to "A chromosome")
 ::::# '''robertsonian''' - translocation of two acrocentric chromosomes
@@ Line 29: / Line 28: @@
 * Deletion is characterized by ''the lost of some part of chromosome''. Two breaks have to occur for deletion of the interstitial segment. For deletion of terminal segment ([[telomere]]) one break is enough. Segments which were deleted from the chromosome  are not able to "live" on their own. It is the reason why we lost [[gene|genes]] which were coded by these part of chromosome.
 * One special example of deletion exists. It is called "'''ring chromosome'''". It is a situation when chromosome lost both of its ends. The long and the small arms then connect together and chromosome became a ring shaped.
 === Isochromosomes ===
-* Isochromosomes are created by the ''incorrect divides of centromere''. Normally centromere divides vertically. In this case they divide '''horizontally'''. The result is usually the lost of one arm. It means that newly created chormosome has just two long arms or two short arms which are normally connected by centromere. We could find it on [[X chromosome]] very often. It is a huge problem during the fertilization. Because fetus then get a trisomy for one arm and  a monosomy for the second arm.
+* Isochromosomes are created by the ''incorrect divides of centromere''. Normally centromere divides vertically. In this case they divide '''horizontally'''.
+* The result is usually the lost of one arm. It means that newly created chormosome has just two long arms or two short arms which are normally connected by centromere.
+* We could find it on [[X chromosome]] very often.
+* It is a huge problem during the fertilization. Because fetus then get a trisomy for one arm and  a monosomy for the second arm.
@@ Line 60: / Line 54: @@
 == How We Denote Parts of a Chromosome ==
-[[File:Chromosomal marking.jpg|thumb|300px|Chromosomal marking]]
+[[File:Chromosomal marking.jpg|thumb|200px|Chromosomal marking]]
 When we want to describe the location of some structural abnormality we used special marks. We have to count the regions always from the centromere - for both arms.  Example: '''1q13'''
 * the first number is a number of '''chromosome''' - ''chromosome 1''
@@ Line 67: / Line 61: @@
 * last number is for the'''band''' - ''band 3''
 So the change is located on the long arm of chromosome 1 (see Fig. Chromosomal marking).

Chromosomal Abnormalities: Difference between revisions

Revision as of 22:30, 11 August 2011

Contents

Types of Structural Abnormalities

Translocation

Deletion

Isochromosomes

Inversion

How We Denote Parts of a Chromosome

Related articles

Sources

References