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Chromosome banding

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Karyotypes and chromosomes can be distinquished by classical cytogenetic methods, such as chromosome banding. These methods visualize certain aspects and regions of chromosomes. Each chromosome has a unique banding pattern, therefore bands on chromosomes project the structure of the genome and its organisation. Each band usually contains from 5-10Mb.

Nearly all banding methods rely on harvesting chromosomes in mitosis. This is usually acchieved by treating cells with tubulin inhibitors (i.e. colchicine, colcemid) who depolymerize the mitotic spindle.


Methods of whole chromosome bandingEdit

Q banding (Quinacridine Banding)Edit

Was the first banding technique discovered (Caspersson et al., 1969) and up to date it remains the simplest. Q banding uses fluorescent staining (i.e. by an DNA intercalating agent quinacridine) of metaphase chromosomes. Quinacrine banding is thought to reflect the distribution of relatively AT- and GC-rich classes of DNA throughout metaphase chromosomes. While AT-rich ase pairs increase fluorescence (bright bands), GC pairs supress it. Via this technique it is possible to detect either euchromatin or heterochromatin regions.



Q-binding

Q-banding http://www.mun.ca/biology/scarr/Fig17_05a.html







G banding (Giemsa Banding)Edit

Giemsa Banding is the most frequently used banding technique in cytogenetic laboratories. Chromosome G banding is usually performed either by the usage of trypsin (which removes chromosomal proteins) or by incubation  in hot salt solutions (60°C) and then staining with Giemsa. Each chromosome pair stains in a distinctive pattern of light and dark bands. The dark bands are called G bands, and roughly correlate to base-pair composition (GC or AT) and repetitive DNA sequences.

G-banding chromosome chart

G-banding http://www.monctonhigh.ca/mcGBiology/cellular_division.htm










R banding (Reverse Banding)Edit

Reversial towards the G and Q-banding patterns - i.e., a dark (positive) G-band is a light (negative) R-band and vice versa. R-banding can be used for chromosome identification, but G-banding is preferred. It is useful for visualization of telomeric ends. A basic protocol of R-banding inludes heating of slides at 88°C in a buffer, followed by Giemsa staining. R-bands represent euchromatin regions of chromosomes, which are GC rich.

R bands

R-bands http://onlinelibrary.wiley.com/doi/10.1002/0471142905.hg0402s00/pdf












Chromosome paintingEdit

Chromosome painting involves hybridization of each chromosome using a chromosome-specific with a unique combination of fluorescent dies. The provides a colorful array of chromosomes, each one painted a different color.

Chromosome painting

Chromosome painting http://carolguze.com/text/442-4-chromosome_analysis.shtml













Methods of selective bandingEdit

Centromere Heterochromatin Staining (C banding)Edit

This technique, also known as CBG-staining and  requires mild alkali treatment and Giemsa staining. It is used for banding of constitutive heterochromatin, therefore it is used i.e. for centromere identification. It is also useful for staining of chromosomal regions, which contain repetitive DNA sequences (satellite DNA). These repetitive DNA sequences are ofthe located adjacent to centromeres and on the distal portion of the Y chromosome. The most significant bands are found on chromosomes 1,9,16 and Y.

C-banding

C banding http://carolguze.com/text/442-4-chromosome_analysis.shtml












T bandingEdit

Is a modification of R banding. It is used for visualization of telomeres


Nucleolar-Organizer-Region Staining (NOR STAINING)Edit

This procedure requires a silver nitrate solution, consequently, it is sometimes reffered to as silver staining. It stains the active ribosomal DNA-containing nucleolar organizer regions in interphase nuclei. It is used for identification of human acrocentric chromosomes 13, 14, 15, 21, and 22, for identification of marker chromosome origins and detection of trancription proteins in the NOR region.

Nor banding

NOR banding http://www.els.net/WileyCDA/ElsArticle/refId-a0005783.html











Methods of functional bandingEdit

Replication banding (BrdU)Edit

Replication banding is based on the substitution of 5-bromo-2-deoxyuridine (BrdU) for thymidine during a defined portion of the S phase of the cell cycle. After substitution with BrdU, staining differentiates the DNA sequence with incorporated BrdU from the unsubstituted DNA. This technique is used for example for detection of reqions/sequences rich in AT pairs.

BrDu banding

BrdU banding http://www.indmedica.com/journals.php?journalid=13&issueid=138&articleid=1827&action=article











References:Edit

Bickmore W.A., Karyotype Analysis and Chromosome BandingEncyclopedia of Life Sciences

Chromosome banding techniques , Current Protocols in Human genetics, 1 (2001)

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