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W2113257564 abstract "Polymerase chain reaction (PCR) and in situ hybridization (ISH) have revolutionized the study of genes and gene expression, and many of these molecular biology advances will greatly impact research in toxicological pathology. PCR is one of the most powerful tools in molecular biology and involves primer-mediated enzymatic in vitro amplification of specific target DNA sequences. Recent innovative methods utilizing PCR technology have been developed to detect mutations in neoplastic and small subpopulations of cells, to study biomarkers of genetic susceptibility and genes involved with carcinogen metabolism, to estimate mutation frequencies, to find novel genes induced by chemical exposure, and to characterize gene expression. ISH provides data on individual cells rather than an average of total cellular populations and allows analysis for heterogeneity. When combined with PCR, the sensitivity of ISH is elevated, and single-copy DNA sequences, single-base mutations, or low copies of messenger RNA (mRNA) can potentially be detected within individual cells. Herein are reviewed ISH- and PCR-based techniques such as single-strand conformation polymorphism analysis to detect point mutations, allelotypic analysis for loss of heterozygosity, differential display of mRNA to characterize gene expression, quantitative reverse transcriptase polymerase chain reaction, and in situ polymerase chain reaction with emphasis on current or potential applications in toxicological pathology. These new and evolving techniques offer tremendous potential in providing new insights into the molecular basis of toxicity and carcinogenesis." @default.
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W2113257564 date "1996-01-01" @default.
W2113257564 modified "2023-10-12" @default.
W2113257564 title "Polymerase Chain Reaction and In Situ Hybridization: Applications in Toxicological Pathology" @default.
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W2113257564 cites W1517480469 @default.
W2113257564 cites W1968046362 @default.
W2113257564 cites W1969717268 @default.
W2113257564 cites W1972775867 @default.
W2113257564 cites W1975385133 @default.
W2113257564 cites W1978368163 @default.
W2113257564 cites W1978871519 @default.
W2113257564 cites W1981850975 @default.
W2113257564 cites W1985524501 @default.
W2113257564 cites W1991131571 @default.
W2113257564 cites W1993506831 @default.
W2113257564 cites W1995428510 @default.
W2113257564 cites W1995522877 @default.
W2113257564 cites W1996027687 @default.
W2113257564 cites W1997521650 @default.
W2113257564 cites W2007233936 @default.
W2113257564 cites W2009498214 @default.
W2113257564 cites W2012602645 @default.
W2113257564 cites W2013877783 @default.
W2113257564 cites W2015219362 @default.
W2113257564 cites W2016361058 @default.
W2113257564 cites W2018784845 @default.
W2113257564 cites W2024185594 @default.
W2113257564 cites W2032118018 @default.
W2113257564 cites W2036541245 @default.
W2113257564 cites W2039581034 @default.
W2113257564 cites W2045929553 @default.
W2113257564 cites W2046304248 @default.
W2113257564 cites W2047480444 @default.
W2113257564 cites W2048944293 @default.
W2113257564 cites W2049046722 @default.
W2113257564 cites W2049296953 @default.
W2113257564 cites W2050144573 @default.
W2113257564 cites W2055786651 @default.
W2113257564 cites W2064953140 @default.
W2113257564 cites W2072290486 @default.
W2113257564 cites W2073521426 @default.
W2113257564 cites W2077808648 @default.
W2113257564 cites W2079340097 @default.
W2113257564 cites W2081781149 @default.
W2113257564 cites W2081958531 @default.
W2113257564 cites W2082009845 @default.
W2113257564 cites W2083625623 @default.
W2113257564 cites W2084441946 @default.
W2113257564 cites W2086046308 @default.
W2113257564 cites W2086504061 @default.
W2113257564 cites W2090908073 @default.
W2113257564 cites W2092660153 @default.
W2113257564 cites W2093626911 @default.
W2113257564 cites W2095126923 @default.
W2113257564 cites W2096715388 @default.
W2113257564 cites W2100404884 @default.
W2113257564 cites W2112704054 @default.
W2113257564 cites W2118066113 @default.
W2113257564 cites W2120232400 @default.
W2113257564 cites W2126848032 @default.
W2113257564 cites W2145189405 @default.
W2113257564 cites W2164611646 @default.
W2113257564 cites W2257468856 @default.
W2113257564 cites W2323003408 @default.
W2113257564 cites W2490669093 @default.
W2113257564 cites W2582935941 @default.
W2113257564 cites W3023062907 @default.
W2113257564 cites W4239438943 @default.
W2113257564 cites W4239460767 @default.
W2113257564 cites W87254141 @default.
W2113257564 doi "https://doi.org/10.1177/019262339602400104" @default.
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