Applications of fluorescence in situ hybridization in biological dosimetry and detection of disease-specific chromosome aberrations.

J. W. Gray; J. Lucas; O. Kallioniemi; A. Kallioniemi; W. L. Kuo; T. Straume; D. Tkachuk; T. Tenjin; H. U. Weier; D. Pinkel

Applications of fluorescence in situ hybridization in biological dosimetry and detection of disease-specific chromosome aberrations.

J. W. Gray, J. Lucas, O. Kallioniemi, A. Kallioniemi, W. L. Kuo, T. Straume, D. Tkachuk, T. Tenjin, H. U. Weier, D. Pinkel

Research output: Contribution to journal › Review article › peer-review

19 Scopus citations

Abstract

Dual color FISH with whole chromosome and pan-centromere probes facilitates rapid detection of stable structural aberrations such as translocations. This approach should allow analysis of translocations for assessment of genetic damage at long times after exposure or as a result of chronic exposure during a long period of time. Multi-color FISH with locus specific probes allows assessment of the frequency of cells carrying specific aberrations known to be associated with tumorigenesis, analysis of the series of genetic changes that occur during tumor evolution and correlation between genotype and phenotype. The power of FISH for analysis of random and tumor related events will increase steadily as informative probes are developed during the course of the International Human Genome Project.

Original language	English (US)
Pages (from-to)	399-411
Number of pages	13
Journal	Progress in clinical and biological research
Volume	372
State	Published - 1991
Externally published	Yes

ASJC Scopus subject areas

General Medicine

Cite this

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title = "Applications of fluorescence in situ hybridization in biological dosimetry and detection of disease-specific chromosome aberrations.",

abstract = "Dual color FISH with whole chromosome and pan-centromere probes facilitates rapid detection of stable structural aberrations such as translocations. This approach should allow analysis of translocations for assessment of genetic damage at long times after exposure or as a result of chronic exposure during a long period of time. Multi-color FISH with locus specific probes allows assessment of the frequency of cells carrying specific aberrations known to be associated with tumorigenesis, analysis of the series of genetic changes that occur during tumor evolution and correlation between genotype and phenotype. The power of FISH for analysis of random and tumor related events will increase steadily as informative probes are developed during the course of the International Human Genome Project.",

author = "Gray, {J. W.} and J. Lucas and O. Kallioniemi and A. Kallioniemi and Kuo, {W. L.} and T. Straume and D. Tkachuk and T. Tenjin and Weier, {H. U.} and D. Pinkel",

year = "1991",

language = "English (US)",

volume = "372",

pages = "399--411",

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T1 - Applications of fluorescence in situ hybridization in biological dosimetry and detection of disease-specific chromosome aberrations.

AU - Gray, J. W.

AU - Lucas, J.

AU - Kallioniemi, O.

AU - Kallioniemi, A.

AU - Kuo, W. L.

AU - Straume, T.

AU - Tkachuk, D.

AU - Tenjin, T.

AU - Weier, H. U.

AU - Pinkel, D.

PY - 1991

Y1 - 1991

N2 - Dual color FISH with whole chromosome and pan-centromere probes facilitates rapid detection of stable structural aberrations such as translocations. This approach should allow analysis of translocations for assessment of genetic damage at long times after exposure or as a result of chronic exposure during a long period of time. Multi-color FISH with locus specific probes allows assessment of the frequency of cells carrying specific aberrations known to be associated with tumorigenesis, analysis of the series of genetic changes that occur during tumor evolution and correlation between genotype and phenotype. The power of FISH for analysis of random and tumor related events will increase steadily as informative probes are developed during the course of the International Human Genome Project.

AB - Dual color FISH with whole chromosome and pan-centromere probes facilitates rapid detection of stable structural aberrations such as translocations. This approach should allow analysis of translocations for assessment of genetic damage at long times after exposure or as a result of chronic exposure during a long period of time. Multi-color FISH with locus specific probes allows assessment of the frequency of cells carrying specific aberrations known to be associated with tumorigenesis, analysis of the series of genetic changes that occur during tumor evolution and correlation between genotype and phenotype. The power of FISH for analysis of random and tumor related events will increase steadily as informative probes are developed during the course of the International Human Genome Project.

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M3 - Review article

C2 - 1956934

AN - SCOPUS:0026264692

SN - 0361-7742

VL - 372

SP - 399

EP - 411

JO - Progress in clinical and biological research

JF - Progress in clinical and biological research

ER -

Applications of fluorescence in situ hybridization in biological dosimetry and detection of disease-specific chromosome aberrations.

Abstract

ASJC Scopus subject areas

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