Teresa M. Urlacher scite author profile

Teresa M. Urlacher

5Publications

52Citation Statements Received

153Citation Statements Given

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125

149

Affiliations

LI-COR Biosciences (United States)

Publications

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An artificial processivity clamp made with streptavidin facilitates oriented attachment of polymerase–DNA complexes to surfaces

Williams¹,

Steffens²,

Anderson³

et al. 2008

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Single molecule analysis of individual enzymes can require oriented immobilization of the subject molecules on a detection surface. As part of a technology development project for single molecule DNA sequencing, we faced the multiple challenges of immobilizing both a DNA polymerase and its DNA template together in an active, stable complex capable of highly processive DNA synthesis on a nonstick surface. Here, we report the genetic modification of the archaeal DNA polymerase 9°N in which two biotinylated peptide ‘legs’ are inserted at positions flanking the DNA-binding cleft. Streptavidin binding on either side of the cleft both traps the DNA template in the polymerase and orients the complex on a biotinylated surface. We present evidence that purified polymerase–DNA–streptavidin complexes are active both in solution and immobilized on a surface. Processivity is improved from <20 nt in the unmodified polymerase to several thousand nucleotides in the engineered complexes. High-molecular weight DNA synthesized by immobilized complexes is observed moving above the surface even as it remains tethered to the polymerase. Pre-formed polymerase–DNA–streptavidin complexes can be stored frozen and subsequently thawed without dissociation or loss of activity, making them convenient for use in single molecule analysis.

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Magnesium Acetate Induces a Conformational Change in Escherichia coli Primase

Urlacher¹,

Griep²

1995

Biochemistry

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Primase from Escherichia coli is a single-stranded DNA-dependent RNA polymerase. As such, it requires magnesium to carry out catalysis. Limited tryptic digestion was used to probe the conformations of primase as a function of magnesium acetate concentration. In the absence of magnesium, trypsin cleaved primase at three sites. Magnesium acetate induced a conformational change such that one of these sites became inaccessible to trypsin digestion and a new site became trypsin accessible. The conformational change was only induced by Mg(OAc)2 and not MnCl2, CaCl2, NaOAc or LiCl, indicating a clear magnesium acetate-dependent conformational change. The effect was slightly induced by MgSO4 and MgCl2. An allosteric binding model indicates that primase binds at least two magnesiums in a cooperative manner. The data were best fit to a two-state model in which one conformation had a high affinity for magnesium, KR = 83.4 M-1, and the other state had virtually no affinity.

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A Near-Infrared, Surface-Enhanced, Fluorophore-Linked Immunosorbent Assay

et al. 2013

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The enzyme-linked immunosorbent assay is commonly used for research and clinical applications but typically suffers from a limited linear range and is difficult to multiplex. The fluorophore-linked immunosorbent assay is a closely related technique with good linear range and the ability to detect multiple antigens simultaneously but is typically less sensitive. Here, we demonstrate a near-infrared, surface-enhanced fluorophore-linked immunosorbent assay with sensitivity comparable to its enzyme-linked counterpart. A 59-fold enhancement to sensitivity (slope of linear fit) and an 8-fold improvement in LOD are demonstrated on a direct assay with rabbit immunoglobulin-G as a model system. The technique is also tested on a clinically relevant assay to detect alpha-fetoprotein, in which a 42-fold enhancement to sensitivity is demonstrated along with a 16-fold improvement in LOD. The technique enables these accomplishments while maintaining the entire traditional assay protocol and simply adding two steps at the end. This technique may prove superior to current protocols for biomarker research and clinical diagnoses, which require high sensitivity along with quantitation over an extended range.

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A homogeneous fluorescence-based method to measure antibody internalization in tumor cells

Gong

Urlacher

2015

Analytical Biochemistry

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Quantitation of virus using laser-based scanning of near-infrared fluorophores replaces manual plate reading in a virus titration assay

Weldon

Mischnick

Urlacher

et al. 2010

Journal of Virological Methods

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