Diane Ilsley scite author profile

Microfabrication technology was used to develop a system consisting of disposable glass chips containing etched channels, reagents including polymer matrix and size standards, computer‐controlled instrumentation for performing electrophoretic separations and fluorescence detection of double‐stranded DNA, and software for automated data analysis. System performance was validated for separation and quantitation reproducibility using samples varying in amount and size of DNA fragments, buffer composition, and salt concentrations. Several applications of the microfluidic system for DNA analysis have been demonstrated, such as of polymerase chain reaction (PCR) products, sizing of plasmid digests, and detection of point mutations by restriction fragment length polymorphism (RFLP) mapping.

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Mechanism of DNA polymerase .alpha. inhibition by aphidicolin

Sheaff

Ilsley²,

Kuchta³

1991

Biochemistry

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Synthetic oligonucleotides of defined sequence were used to examine the mechanism of calf thymus DNA polymerase alpha inhibition by aphidicolin. Aphidicolin competes with each of the four dNTPs for binding to a pol alpha-DNA binary complex and thus should not be viewed as a dCTP analogue. Kinetic evidence shows that inhibition proceeds through the formation of a pol alpha.DNA.aphidicolin ternary complex, while DNase I protection experiments provide direct physical evidence. When deoxyguanosine is the next base to be replicated, Ki = 0.2 microM. In contrast, the Ki is 10-fold higher when the other dNMPs are at this position. Formation of a pol alpha.DNA.aphidicolin ternary complex did not inhibit the primase activity of the pol alpha.primase complex. Neither the rate of primer synthesis nor the size distribution of primers 2-10 nucleotides long was changed. Elongation of the primase-synthesized primers by pol alpha was inhibited both by ternary complex formation using exogenously added DNA and by aphidicolin alone.

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Acyclic Guanosine Analogs Inhibit DNA Polymerases .alpha., .delta., and .epsilon. with Very Different Potencies and Have Unique Mechanisms of Action

Ilsley¹,

Lee²,

Miller³

et al. 1995

Biochemistry

111

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Acyclovir triphosphate, ganciclovir triphosphate and penciclovir triphosphate inhibited DNA polymerases alpha, delta, and epsilon. Each triphosphate preferentially inhibited pol delta, although ganciclovir triphosphate was the most impressive of the three; the Ki for inhibition of pol delta was 2 microM (competitive with dGTP), while the Kis for inhibition of pol alpha and epsilon were 80 and 140 microM, respectively. Each of the compounds was polymerized by pol alpha, delta, and epsilon. Incorporation of acyclovir triphosphate resulted in immediate chain termination, whereas incorporation of ganciclovir triphosphate often allowed polymerization of additional dNTPs. Interestingly, chain termination most often occurred after polymerization of just one additional dNTP onto the ganciclovir monophosphate. All three compounds were very weak inhibitors of DNA primase. Acyclovir triphosphate, however, was a unique inhibitor of the pol alpha-catalyzed elongation of primase-synthesized primers. Immediately after DNA primase synthesized a primer, pol alpha frequently incorporated acyclovir triphosphate with consequent chain termination. If, however, pol alpha did not immediately polymerize acyclovir triphosphate onto the primase-synthesized primer, further dNTPs were readily added and acyclovir triphosphate was incorporated much less frequently.

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The Human Salivary RNA Transcriptome Revealed by Massively Parallel Sequencing

Spielmann¹,

Ilsley

Gu³

et al. 2012

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Inhibition of DNA primase and polymerase .alpha. by arabinofuranosylnucleoside triphosphates and related compounds

Kuchta¹,

Ilsley²,

Kravig³

et al. 1992

Biochemistry

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Inhibition of DNA primase and polymerase alpha from calf thymus was examined. DNA primase requires a 3'-hydroxyl on the incoming NTP in order to polymerize it, while the 2'-hydroxyl is advantageous, but not essential. Amazingly, primase prefers to polymerize araATP rather than ATP by 4-fold (kcat/KM). However, after incorporation of an araNMP into the growing primer, further synthesis is abolished. The 2'- and 3'-hydroxyls of the incoming nucleotide appear relatively unimportant for nucleotide binding to primase. Polymerization of nucleoside triphosphates by DNA polymerase alpha onto a DNA primer was similarly analyzed. Removing the 3'-hydroxyl of the incoming triphosphate decreases the polymerization rate greater than 1000-fold (kcat/KM), while a 2'-hydroxyl in the ribo configuration abolishes polymerization. If the 2'-hydroxyl is in the ara configuration, there is almost no effect on polymerization. An araCMP or ddCMP at the 3'-terminus of a DNA primer slightly decreased DNA binding as well as binding of the next correct 2'-dNTP. Changing the primer from DNA to RNA dramatically and unpredictably altered the interactions of pol alpha with araNTPs and ddNTPs. Compared to the identical DNA primer, pol alpha discriminated 4-fold better against araCTP polymerization when the primer was RNA, but 85-fold worse against ddCTP polymerization. Additionally, pol alpha elongated RNA primers containing 3'-terminal araNMPs more efficiently than the identical DNA substrate.

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Diane Ilsley

A microfluidic system for high-speed reproducible DNA sizing and quantitation

Mechanism of DNA polymerase .alpha. inhibition by aphidicolin

Acyclic Guanosine Analogs Inhibit DNA Polymerases .alpha., .delta., and .epsilon. with Very Different Potencies and Have Unique Mechanisms of Action

The Human Salivary RNA Transcriptome Revealed by Massively Parallel Sequencing

Inhibition of DNA primase and polymerase .alpha. by arabinofuranosylnucleoside triphosphates and related compounds

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