Rachel K. Carver-Brown scite author profile

Rachel K. Carver-Brown

3Publications

68Citation Statements Received

82Citation Statements Given

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Brandeis University

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Fluorescent signatures for variable DNA sequences

Rice

Reis

Rice

et al. 2012

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Life abounds with genetic variations writ in sequences that are often only a few hundred nucleotides long. Rapid detection of these variations for identification of genetic diseases, pathogens and organisms has become the mainstay of molecular science and medicine. This report describes a new, highly informative closed-tube polymerase chain reaction (PCR) strategy for analysis of both known and unknown sequence variations. It combines efficient quantitative amplification of single-stranded DNA targets through LATE-PCR with sets of Lights-On/Lights-Off probes that hybridize to their target sequences over a broad temperature range. Contiguous pairs of Lights-On/Lights-Off probes of the same fluorescent color are used to scan hundreds of nucleotides for the presence of mutations. Sets of probes in different colors can be combined in the same tube to analyze even longer single-stranded targets. Each set of hybridized Lights-On/Lights-Off probes generates a composite fluorescent contour, which is mathematically converted to a sequence-specific fluorescent signature. The versatility and broad utility of this new technology is illustrated in this report by characterization of variant sequences in three different DNA targets: the rpoB gene of Mycobacterium tuberculosis, a sequence in the mitochondrial cytochrome C oxidase subunit 1 gene of nematodes and the V3 hypervariable region of the bacterial 16 s ribosomal RNA gene. We anticipate widespread use of these technologies for diagnostics, species identification and basic research.

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Design of a single-tube, endpoint, linear-after-the-exponential-PCR assay for 17 pathogens associated with sepsis

et al. 2012

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Aims: The goal of this study was to construct a single-tube multiplex molecular diagnostic assay using linear-after-the-exponential (LATE)-PCR for the detection of 17 microbial pathogens commonly associated with septicaemia. Methods and Results: The assay described here detects 17 pathogens associated with sepsis via amplification and analysis of gene-specific sequences. The pathogens and their targeted genes were: Klebsiella spp. (phoE); Acinetobacter baumannii (gyrB); Staphylococcus aureus (spa); Enterobacter spp. (thdF); Pseudomonas aeruginosa (toxA); coagulase-negative staphylococci (tuf), Enterococcus spp. (tuf); Candida spp. (P450). A sequence from an unidentified gene in Lactococcus lactis, served as a positive control for assay function. LATE-PCR was used to generate single-stranded amplicons that were analysed at endpoint over a wide range of temperatures in four fluorescent colours. Each target was detected by its pattern of hybridization to a sequence-specific low-temperature fluorescent probe derived from molecular beacons. Conclusions: All 17 microbial targets were detected in samples containing low numbers of pathogen genomes in the presence of high levels of human genomic DNA. Significance and Impact of the Study: This assay used new technology to achieve an advance in the field of molecular diagnostics: a single-tube assay for detection of pathogens commonly responsible for septicaemia.

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Design and Construction of a Single-Tube, LATE-PCR, Multiplex Endpoint Assay with Lights-On/Lights-Off Probes for the Detection of Pathogens Associated with Sepsis

Carver-Brown

Reis

Rice

et al. 2012

Journal of Pathogens

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Aims. The goal of this study was to construct a single tube molecular diagnostic multiplex assay for the detection of microbial pathogens commonly associated with septicemia, using LATE-PCR and Lights-On/Lights-Off probe technology. Methods and Results. The assay described here identified pathogens associated with sepsis by amplification and analysis of the 16S ribosomal DNA gene sequence for bacteria and specific gene sequences for fungi. A sequence from an unidentified gene in Lactococcus lactis subsp. cremoris served as a positive control for assay function. LATE-PCR was used to generate single-stranded amplicons that were then analyzed at endpoint over a wide temperature range in a specific fluorescent color. Each bacterial target was identified by its pattern of hybridization to Lights-On/Lights-Off probes derived from molecular beacons. Complex mixtures of targets were also detected. Conclusions. All microbial targets were identified in samples containing low starting copy numbers of pathogen genomic DNA, both as individual targets and in complex mixtures. Significance and Impact of the Study. This assay uses new technology to achieve an advance in the field of molecular diagnostics: a single-tube multiplex assay for identification of pathogens commonly associated with sepsis.

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