Probe amplification technologies

Fei Ye; Miao Cui; Tao Feng; Ivy Lee; Josephine Wu; Bingjiao Yin; David Zhang

doi:10.1007/978-1-4614-3970-7_17

Probe amplification technologies

Fei Ye
, Miao Cui
, Tao Feng
, Ivy Lee
, Josephine Wu
, Bingjiao Yin
, David Zhang

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Oligonucleotide probes provide a useful tool for the detection of target nucleic acids by the formation of a double-helical structure between complementary sequences. The stringent requirements of Watson-Crick base pairing make hybridization extremely specific. However, the detection of target sequence by hybridization is often insensitive due to the limited number of signal molecules that can be labeled on the probe. In general, the analytical sensitivity of probe hybridization is in the order of 10⁶ molecules. Therefore, it cannot meet the needs of most clinical diagnostic applications. Many technologies have been developed to improve the detection sensitivity by amplifying the probe sequence bound to the target. All probe amplification technologies are developed based on the recent advancement in molecular biology and the understanding of in vivo nucleic acid synthesis, i.e., ligation, polymerization, transcription, digestion/cleavage, etc.

Original language	English
Title of host publication	Advanced Techniques in Diagnostic Microbiology
Publisher	Springer US
Pages	307-325
Number of pages	19
Volume	9781461439707
ISBN (Electronic)	9781461439707
ISBN (Print)	1461439698, 9781461439691
DOIs	https://doi.org/10.1007/978-1-4614-3970-7_17
State	Published - 1 Jan 2013
Externally published	Yes

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title = "Probe amplification technologies",

abstract = "Oligonucleotide probes provide a useful tool for the detection of target nucleic acids by the formation of a double-helical structure between complementary sequences. The stringent requirements of Watson-Crick base pairing make hybridization extremely specific. However, the detection of target sequence by hybridization is often insensitive due to the limited number of signal molecules that can be labeled on the probe. In general, the analytical sensitivity of probe hybridization is in the order of 106 molecules. Therefore, it cannot meet the needs of most clinical diagnostic applications. Many technologies have been developed to improve the detection sensitivity by amplifying the probe sequence bound to the target. All probe amplification technologies are developed based on the recent advancement in molecular biology and the understanding of in vivo nucleic acid synthesis, i.e., ligation, polymerization, transcription, digestion/cleavage, etc.",

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TY - CHAP

T1 - Probe amplification technologies

AU - Ye, Fei

AU - Cui, Miao

AU - Feng, Tao

AU - Lee, Ivy

AU - Wu, Josephine

AU - Yin, Bingjiao

AU - Zhang, David

PY - 2013/1/1

Y1 - 2013/1/1

N2 - Oligonucleotide probes provide a useful tool for the detection of target nucleic acids by the formation of a double-helical structure between complementary sequences. The stringent requirements of Watson-Crick base pairing make hybridization extremely specific. However, the detection of target sequence by hybridization is often insensitive due to the limited number of signal molecules that can be labeled on the probe. In general, the analytical sensitivity of probe hybridization is in the order of 106 molecules. Therefore, it cannot meet the needs of most clinical diagnostic applications. Many technologies have been developed to improve the detection sensitivity by amplifying the probe sequence bound to the target. All probe amplification technologies are developed based on the recent advancement in molecular biology and the understanding of in vivo nucleic acid synthesis, i.e., ligation, polymerization, transcription, digestion/cleavage, etc.

AB - Oligonucleotide probes provide a useful tool for the detection of target nucleic acids by the formation of a double-helical structure between complementary sequences. The stringent requirements of Watson-Crick base pairing make hybridization extremely specific. However, the detection of target sequence by hybridization is often insensitive due to the limited number of signal molecules that can be labeled on the probe. In general, the analytical sensitivity of probe hybridization is in the order of 106 molecules. Therefore, it cannot meet the needs of most clinical diagnostic applications. Many technologies have been developed to improve the detection sensitivity by amplifying the probe sequence bound to the target. All probe amplification technologies are developed based on the recent advancement in molecular biology and the understanding of in vivo nucleic acid synthesis, i.e., ligation, polymerization, transcription, digestion/cleavage, etc.

UR - https://www.scopus.com/pages/publications/84949176417

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DO - 10.1007/978-1-4614-3970-7_17

M3 - Chapter

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SN - 9781461439691

VL - 9781461439707

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BT - Advanced Techniques in Diagnostic Microbiology

PB - Springer US

ER -

Probe amplification technologies

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