Robert G. Kuimelis scite author profile

We constructed a library of >10(12) unique, covalently coupled mRNA-protein molecules by randomizing three exposed loops of an immunoglobulin-like protein, the tenth fibronectin type III domain (10Fn3). The antibody mimics that bound TNF-alpha were isolated from the library using mRNA display. Ten rounds of selection produced 10Fn3 variants that bound TNF-alpha with dissociation constants (K(d)) between 1 and 24 nM. After affinity maturation, the lowest K(d) measured was 20 pM. Selected antibody mimics were shown to capture TNF-alpha when immobilized in a protein microarray. 10Fn3-based scaffold libraries and mRNA-display allow the isolation of high-affinity, specific antigen binding proteins; potential applications of such binding proteins include diagnostic protein microarrays and protein therapeutics.

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Hammerhead Ribozyme-Mediated Cleavage of a Substrate Analog Containing an Internucleotidic Bridging 5'-Phosphorothioate: Implications for the Cleavage Mechanism and the Catalytic Role of the Metal Cofactor

Kuimelis¹,

McLaughlin²

1995

J. Am. Chem. Soc.

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Ribozyme-Mediated Cleavage of a Substrate Analogue Containing an Internucleotide-Bridging 5‘-Phosphorothioate: Evidence for the Single-Metal Model

Kuimelis

McLaughlin

1996

Biochemistry

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An oligonucleotide substrate containing a 5'-bridging phosphorothioate linkage adjacent to a ribonucleotide has been used to investigate the cleavage mechanisms of the hammerhead ribozyme and to probe the catalytic role of the metal cofactor(s). Specifically, we tested the hypothesis that a second metal interacts with the 5'-leaving group to facilitate the cleavage event. To this end, we have examined the ribozyme-mediated cleavage activity of the phosphorothioate substrate at pH 7.5 with a series of divalent metal in both the presence and absence of the polycation spermine. The cleavage products are found to be the same as for the native sequence under a variety of reaction conditions. The influence of divalent metal ion concentration, temperature, and pH on the cleavage rate also has been examined for both the oxo linkage and the thio analogue. Spermine (but not spermidine or NaCl) is shown to support efficient cleavage of the thio analogue in the absence [5 mM ethylenediaminetetraacetic acid (EDTA)] of a divalent metal cofactor. The cleavage of the oxo linkage exhibits a solvent deuterium isotope effect of 3.6, but a similar effect is not observed with the thio analogue. The pseudo-first-order rate constants for cleavage of the thio analogue in the presence of 10 mM Mg2+ or Mn2+ at pH 7.5 are 65 and 82 x 10(-3) min-1, respectively. The native oxo linkage is cleaved at essentially the same rate as the thio analogue (35 and 97 x 10(-3) min-1 for Mg2+ and Mn2+, respectively). The absence of an appreciable thio effect and the lack of a preference for either Mg2+ or Mn2+ provides compelling evidence that the metal cofactor does not interact with the 5'-thioanion (or oxyanion) leaving group in the transition state. These rate comparisons additionally reveal the the departure of the 5'-leaving group is not the rate-limiting step of the cleavage reaction catalyzed by the hammerhead ribozyme.

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Mechanisms of Ribozyme-Mediated RNA Cleavage

Kuimelis

McLaughlin

1998

Chem. Rev.

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Multiplexed identification, quantification and genotyping of infectious agents using a semiconductor biochip

et al. 2018

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The emergence of pathogens resistant to existing antimicrobial drugs is a growing worldwide health crisis that threatens a return to the pre-antibiotic era. To decrease the overuse of antibiotics, molecular diagnostics systems are needed that can rapidly identify pathogens in a clinical sample and determine the presence of mutations that confer drug resistance at the point of care. We developed a fully integrated, miniaturized semiconductor biochip and closed-tube detection chemistry that performs multiplex nucleic acid amplification and sequence analysis. The approach had a high dynamic range of quantification of microbial load and was able to perform comprehensive mutation analysis on up to 1,000 sequences or strands simultaneously in <2 h. We detected and quantified multiple DNA and RNA respiratory viruses in clinical samples with complete concordance to a commercially available test. We also identified 54 drug-resistance-associated mutations that were present in six genes of Mycobacterium tuberculosis, all of which were confirmed by next-generation sequencing.

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