TY - CHAP
T1 - Detection and characterization of molecular amplification products
T2 - Agarose gel electrophoresis, southern blot hybridization, restriction enzyme digest analysis, and enzyme-linked immunoassay
AU - Podzorski, Raymond P.
AU - Loeffelholz, Mike
AU - Hayden, Randall T.
PY - 2006
Y1 - 2006
N2 - The need for accurate detection and characterization of nucleic acid targets has prompted the development of a range of methodologies. Highly complex and often expensive techniques, such as oligonucleotide arrays, are being used increasingly. Such methods can be extremely valuable, but issues such as cost, the need for specialized equipment, and a high level of expertise for both the technical and analytical aspects of implementation may limit their use in a clinical setting (Chee et al., 1996; Cheung et al., 1999). Although such systems are certainly effective for gathering large amounts of information and can be extremely useful in the research arena (Khan et al., 1999), their use may be unnecessary if only single PCR target detection is required. The use of real-time molecular product detection methods, largely relying on the principle of fluorescent resonance energy transfer (Chen et al., 1997) (FRET), has also become quite commonplace. These methods are useful for high-throughput diagnostic assays and are amenable to automation.
AB - The need for accurate detection and characterization of nucleic acid targets has prompted the development of a range of methodologies. Highly complex and often expensive techniques, such as oligonucleotide arrays, are being used increasingly. Such methods can be extremely valuable, but issues such as cost, the need for specialized equipment, and a high level of expertise for both the technical and analytical aspects of implementation may limit their use in a clinical setting (Chee et al., 1996; Cheung et al., 1999). Although such systems are certainly effective for gathering large amounts of information and can be extremely useful in the research arena (Khan et al., 1999), their use may be unnecessary if only single PCR target detection is required. The use of real-time molecular product detection methods, largely relying on the principle of fluorescent resonance energy transfer (Chen et al., 1997) (FRET), has also become quite commonplace. These methods are useful for high-throughput diagnostic assays and are amenable to automation.
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U2 - 10.1007/0-387-32892-0_15
DO - 10.1007/0-387-32892-0_15
M3 - Chapter
AN - SCOPUS:84900761575
SN - 0387297413
SN - 9780387297415
SP - 243
EP - 263
BT - Advanced Techniques in Diagnostic Microbiology
PB - Springer US
ER -