Abstract
Here the role of molecular cytogenetics in the context of yet available all other cytogenomic approaches is discussed. A short introduction how cytogenetics and molecular cytogenetics were established is followed by technical aspects of fluorescence in situ hybridization (FISH). The latter contains the methodology itself, the types of probe- and target-DNA, as well as probe sets. The main part deals with examples of modern FISH-applications, highlighting unique possibilities of the approach, like the possibility to study individual cells and even individual chromosomes. Different variants of FISH can be used to retrieve information on genomes from (almost) base pair to whole genomic level, as besides only second and third generation sequencing approaches can do. Here especially highlighted variations of FISH are molecular combing, chromosome orientation-FISH (CO-FISH), telomere-FISH, parental origin determination FISH (POD-FISH), FISH to resolve the nuclear architecture, multicolor-FISH (mFISH) approaches, among other applied in chromoanagenesis studies, Comet-FISH, and CRISPR-mediated FISH-applications. Overall, molecular cytogenetics is far from being outdated and actively involved in up-to-date diagnostics and research.
Highlights
This review is about “molecular cytogenetics” including 1) the historical perspective of its development from cytogenetics, 2) technical aspects, 3) available probe sets, and 4) variants and applications of the basic fluorescence in situ hybridization (FISH) approach
A definition for this word coined already in 1999 (Bernheim, 1999) is hard to find in the literature; in 2019, it was referred to as “a general term that encompasses conventional, as well as molecular cytogenetics (FISH, FISH in Cytogenomic Era microarrays) and molecular-based techniques” (Siva et al, 2019)
It is here suggested that the word “cytogenomics” should rather be used with the goal to paraphrase a new field of research in genomics and diagnostics in human genetics, with an integrative and comprehensive view
Summary
Edited by: Mehdi Pirooznia, National Heart, Lung, and Blood Institute (NHLBI), United States. Reviewed by: Vijaya Kumar Pidugu, National Cancer Institute (NIH), United States Usha Dutta, Centre for DNA Fingerprinting and Diagnostics (CDFD), India. A short introduction how cytogenetics and molecular cytogenetics were established is followed by technical aspects of fluorescence in situ hybridization (FISH). The latter contains the methodology itself, the types of probe- and target-DNA, as well as probe sets. Especially highlighted variations of FISH are molecular combing, chromosome orientation-FISH (COFISH), telomere-FISH, parental origin determination FISH (POD-FISH), FISH to resolve the nuclear architecture, multicolor-FISH (mFISH) approaches, among other applied in chromoanagenesis studies, Comet-FISH, and CRISPR-mediated FISH-applications.
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