Konan Peck scite author profile

Gene-specific oligonucleotide probes are currently used in microarrays to avoid cross-hybridization of highly similar sequences. We developed an approach to determine the optimal number and length of gene-specific probes for accurate transcriptional profiling studies. The study surveyed probe lengths from 25 to 1000 nt. Long probes yield better signal intensity than short probes. The signal intensity of short probes can be improved by addition of spacers or using higher probe concentration for spotting. We also found that accurate gene expression measurement can be achieved with multiple probes per gene and fewer probes are needed if longer probes rather than shorter probes are used. Based on theoretical considerations that were confirmed experimentally, our results showed that 150mer is the optimal probe length for expression measurement. Gene-specific probes can be identified using a computational approach for 150mer probes and they can be treated like long cDNA probes in terms of the hybridization reaction for high sensitivity detection. Our experimental data also show that probes which do not generate good signal intensity give erroneous expression ratio measurement results. To use microarray probes without experimental validation, gene-specific probes approximately 150mer in length are necessary. However, shorter oligonucleotide probes also work well in gene expression analysis if the probes are validated by experimental selection or if multiple probes per gene are used for expression measurement.

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Collapsin Response Mediator Protein-1 and the Invasion and Metastasis of Cancer Cells

Shih¹,

Yang²,

Hong³

et al. 2001

JNCI Journal of the National Cancer Institute

145

139

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Profiling Expression Patterns and Isolating Differentially Expressed Genes by cDNA Microarray System with Colorimetry Detection

et al. 1998

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Acid-Induced Gene Expression in Helicobacter pylori : Study in Genomic Scale by Microarray

et al. 2001

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To understand the RNA expression in response to acid stress of Helicobacter pylori in genomic scale, a microarray membrane containing 1,534 open reading frames (ORFs) from strain 26695 was used. Total RNAs of H. pylori under growth conditions of pH 7.2 and 5.5 were extracted, reverse transcribed into cDNA, and labeled with biotin. Each microarray membrane was hybridized with cDNA probe from the same strain under two different pH conditions and developed by a catalyzed reporter deposition method. Gene expression of all ORFs was measured by densitometry. Among the 1,534 ORFs, 53 ORFs were highly expressed (м30% of rRNA control in densitometry ratios). There were 445 ORFs which were stably expressed (<30% of rRNA in densitometry) under both pH conditions without significant variation. A total of 80 ORFs had significantly increased expression levels at low pH, while expressions of 4 ORFs were suppressed under acidic condition. The remaining 952 ORFs were not detectable under either pH condition. These data were highly reproducible and comparable to those obtained by the RNA slot blot method. Our results suggest that microarray can be used in monitoring prokaryotic gene expression in genomic scale.Helicobacter pylori is the causative agent of chronic superficial gastritis in humans, and the presence of this organism increases risk of development of peptic ulcer disease and adenocarcinoma and mucosa-associated lymphoid tissue lymphoma of the distal stomach (2,3,10,19,21). The mechanism of pathogenesis remains largely unknown. The ability to survive under acidic stomach conditions might be one of the virulence mechanisms. Monitoring the response of H. pylori genes during acid stress may be helpful to understand the pathogenesis.Expression of many bacterial genes is induced in response to environmental stimuli (17). For technical reasons, only a limited subset of genes could be simultaneously analyzed until recently. Differential display of subsets of mRNA on a sequencing gel allows a broad search for expression differences (11, 15), but the method has been difficult to standardize. An rRNA subtraction approach has been used to identify differentially expressed genes in Mycobacterium avium (23); however, removal of rRNA by subtraction caused loss of mRNA. Chuang et al. (6) have analyzed differentially expressed genes in Escherichia coli by a method based on hybridization to spot overlapping clones. This method required subcloning and subsequent sequencing for the identification of relevant genes.Recently, a system for monitoring of a large number of gene expressions has been developed in eukaryotes using DNA microarray (5, 23, 24) or oligonucleotide microarray (16,22,29). Labeled cDNA, or in vitro-transcribed mRNA, was hybridized to the high-density probe microarray. Microarrays are able to analyze the expression of hundreds of genes in a single hybridization experiment. DNA array has also been recently adopted for monitoring gene expressions in bacteria. Unfortunately, since bacterial mRNA could not be separated from r...

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Sensitivity Issues in DNA Array-Based Expression Measurements and Performance of Nylon Microarrays for Small Samples

Bertucci

Bernard

Loriod

et al. 1999

Human Molecular Genetics

169

104

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DNA or oligonucleotide arrays are widely used for large-scale expression measurements, using various implementations: macroarrays in which DNA is spotted onto nylon membranes of relatively large dimensions (with radioactive detection) on the one hand; microarrays on glass slides and oligonucleotide chips, both used with fluorescent probes, on the other hand. Nylon micro-arrays with colourimetric detection have also been described recently. The small physical dimensions of miniaturized systems allow small hybridization volumes (2-100 microl) and provide high probe concentrations, in contrast to macroarrays. We show, however, that actual sensitivity (defined as the amount of sample necessary for detection of a given mRNA species) is in fact similar for all these systems and that this is mostly due to the very different amounts of target material present on the respective arrays. We then demonstrate that the combination of nylon microarrays with(33)P-labelled radioactive probes provides 100-fold better sensitivity, making it possible to perform expression profiling experiments using submicrogram amounts of unamplified total RNA from small biological samples. This has important implications in basic and clinical research and makes this alternative approach particularly suitable for groups operating in an academic context.

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Genomic analysis of smooth muscle cells in three‐dimensional collagen matrix

et al. 2002

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The proliferation, differentiation, and protein synthesis of vascular smooth muscle cells (SMCs) play important roles in vascular remodeling. Here, we compared the genetic programming and signaling of SMCs in collagen matrix as a three-dimensional (3-D) environment and on a two-dimensional (2-D) surface. By using DNA microarrays with 9600 genes, we showed that 77 genes were expressed more than twofold and 22 genes were less than one-half in 3-D matrix, when compared with the 2-D condition. The higher expression level of cyclin-dependent kinase inhibitor 1 (p21) in 3-D matrix suggests that p21 may be responsible for the lower proliferation rate in 3-D matrix. The expression level of collagen I was higher in 3-D matrix, suggesting that SMCs in 3-D matrix have increased matrix synthesis. In addition, SMCs in 3-D matrix had less stress fibers and focal adhesions, and a lower level of tyrosine phosphorylation of focal adhesion kinase (FAK). Overexpression of FAK attenuated the expression of p21 and collagen I in 3-D matrix, suggesting that FAK functions as a molecular switch for cell cycle regulation and matrix synthesis. The information generated in this study helps to elucidate the molecular basis of the modulation of SMC phenotypes by the extracellular matrix.

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Enhancement of Aptamer Microarray Sensitivity through Spacer Optimization and Avidity Effect

2009

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This work aims for ultrasensitive detection of target proteins in complex biological matrixes based on aptamer microarrays. Two extensively studied aptamers (HTQ and HTDQ) that bind distinct epitopes of thrombin are chosen for the microarray study. Although HTQ and HTDQ have nanomolar to subnanomolar affinities, it is found that either aptamer when applied directly has difficulty in detecting a few nanomoles per liter thrombin in the presence of a 10- or 100-fold (w/w) excess of serum total protein (STP). By investigating dodecyl (12-carbon) and oligodeoxythymidine (oligo(dT)) spacers, we observe both spacers enhance the microarray signal response, but oligo(dT) is strikingly better than dodecyl. Moreover, we discover that a microarray spot coprinted with the two distinct aptamers (HTQ and HTDQ) functions like a bivalent molecular construct and exhibits an avidity effect. With the synergy of oligo(dT) spacers and the avidity effect, detection of picomolar-range thrombin in the presence of either 10% unlabeled serum or a 10,000-fold excess of labeled serum total protein is achieved. It corresponds to a 100-1000-fold sensitivity enhancement as compared to using an individual aptamer without a spacer.

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Single-molecule fluorescence detection: autocorrelation criterion and experimental realization with phycoerythrin.

Peck

Stryer

Glazer

et al. 1989

Proc. Natl. Acad. Sci. U.S.A.

171

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A theory for single-molecule fluorescence detection is developed and then used to analyze data from subpicomolar solutions of B-phycoerythrin (PE). The distribution of detected counts is the convolution of a Poissonian continuous background with bursts arising from the passage of individual fluorophores through the focused laser beam. The autocorrelation function reveals single-molecule events and provides a criterion for optimizing experimental parameters. The transit time of fluorescent molecules through the 120-fl imaged volume was 800 ps. The optimal laser power (32 mW at 514.5 nm) gave an incident intensity of 1.8 x 1023photons-cm 2.S-, corresponding to a mean time of 1.1 ns between absorptions. The mean incremental count rate was 1.5 per 100 jts for PE monomers and 3.0 for PE dimers above a background count rate of 1.0. The distribution of counts and the autocorrelation function for 200 fM monomer and 100 fM dimer demonstrate that single-molecule detection was achieved. At this concentration, the mean occupancy was 0.014 monomer molecules in the probed volume. A hard-wired version of this detection system was used to measure the concentration of PE down to 1 fM. This single-molecule counter is 3 orders of magnitude more sensitive than conventional fluorescence detection systems.

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Konan Peck

Optimization of probe length and the number of probes per gene for optimal microarray analysis of gene expression

Collapsin Response Mediator Protein-1 and the Invasion and Metastasis of Cancer Cells

Profiling Expression Patterns and Isolating Differentially Expressed Genes by cDNA Microarray System with Colorimetry Detection

Acid-Induced Gene Expression in Helicobacter pylori : Study in Genomic Scale by Microarray

Sensitivity Issues in DNA Array-Based Expression Measurements and Performance of Nylon Microarrays for Small Samples

Genomic analysis of smooth muscle cells in three‐dimensional collagen matrix

Enhancement of Aptamer Microarray Sensitivity through Spacer Optimization and Avidity Effect

Single-molecule fluorescence detection: autocorrelation criterion and experimental realization with phycoerythrin.

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