Publications by authors named "Robert A Mendelson"

The kinesin-14, Ncd, is a cellular motor involved in microtubule spindle assembly and contraction during mitosis and meiosis. Like other members of the kinesin superfamily, Ncd consists of two motor heads connected by a linker and a long cargo-carrying stalk. The motor heads hydrolyze ATP to ADP to provide the power stroke that moves them and the cargo along the microtubule.

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In this article we discuss the medical diagnoses underlying the most common lawsuits involving pediatricians in the United States. Where applicable, specific and general risk-management techniques are noted as a means of increasing patient safety and reducing the risk of medical malpractice exposure.

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With the recent advances in structure determination of the troponin complex, it becomes even more important to understand the dynamics of its components and how they are affected by the presence or absence of Ca(2+). We used NMR techniques to study the backbone dynamics of skeletal troponin C (TnC) in the complex. Transverse relaxation-optimized spectroscopy pulse sequences and deuteration of TnC were essential to assign most of the TnC residues in the complex.

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Troponin senses Ca2+ to regulate contraction in striated muscle. Structures of skeletal muscle troponin composed of TnC (the sensor), TnI (the regulator), and TnT (the link to the muscle thin filament) have been determined. The structure of troponin in the Ca(2+)-activated state features a nearly twofold symmetrical assembly of TnI and TnT subunits penetrated asymmetrically by the dumbbell-shaped TnC subunit.

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Troponin is a Ca2+-sensitive switch that regulates the contraction of vertebrate striated muscle by participating in a series of conformational events within the actin-based thin filament. Troponin is a heterotrimeric complex consisting of a Ca2+-binding subunit (TnC), an inhibitory subunit (TnI), and a tropomyosin-binding subunit (TnT). Ternary troponin complexes have been produced by assembling recombinant chicken skeletal muscle TnC, TnI and the C-terminal portion of TnT known as TnT2.

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Three different methods to quantitate tryptophan (Trp) analogue incorporation into recombinant proteins are described: first, spectroscopic analysis based on a linear combination of the absorption spectra of the aromatic residues in the denatured Trp-containing or analogue-substituted protein; second, chromatographic separation of analogue-substituted and Trp-containing proteins by HPLC; and third, mass spectrum analysis of the mixture of analogue-substituted and Trp-containing proteins. An accurate estimate of analogue incorporation in single-Trp proteins can be obtained directly by either analysis of the absorption spectrum or HPLC chromatography. While analysis of the absorption spectrum or HPLC chromatogram can provide an assessment of the average level of analogue incorporation for proteins that contain two or more Trp residues, mass spectroscopy analysis of peptides generated by protease digestion and separated by HPLC provides a general method for a complete quantitative description of the distribution of analogue incorporation.

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