Influence of arm position on measurement of blood pressure.

A series of measurements of blood pressure in normotensive and hypertensive subjects showed that measurements made with a sphygmomanometer with the arm dependent by the side were consistently higher than those made with the arm horizontal at heart level. The mean difference in a group of 90 hypertensive outpatients was 11/12 mm Hg. Failure to appreciate the importance of arm position may lead to erroneous measurements of blood pressure. This has important implications for clinical practice and research.     

Interactions between Kar2p and Its Nucleotide Exchange Factors Sil1p and Lhs1p Are Mechanistically Distinct

Kar2p, an essential Hsp70 chaperone in the endoplasmic reticulum of Saccharomyces cerevisiae, facilitates the transport and folding of nascent polypeptides within the endoplasmic reticulum lumen. The chaperone activity of Kar2p is regulated by its intrinsic ATPase activity that can be stimulated by two different nucleotide exchange factors, namely Sil1p and Lhs1p. Here, we demonstrate that the binding requirements for Lhs1p are complex, requiring both the nucleotide binding domain plus the linker domain of Kar2p. In contrast, the IIB domain of Kar2p is sufficient for binding of Sil1p, and point mutations within IIB specifically blocked Sil1p-dependent activation while remaining competent for activation by Lhs1p. Taken together, these results demonstrate that the interactions between Kar2p and its two nucleotide exchange factors can be functionally resolved and are thus mechanistically distinct.     

Domain 4 of the anthrax protective antigen maintains structure and binding to the host receptor CMG2 at low pH

Domain 4 of the anthrax protective antigen (PA) plays a key role in cellular receptor recognition as well as in pH-dependent pore formation. We present here the 1.95 Å crystal structure of domain 4, which adopts a fold that is identical to that observed in the full-length protein. We have also investigated the structural properties of the isolated domain 4 as a function of pH, as well as the pH-dependence on binding to the von Willebrand factor A domain of capillary morphogenesis protein 2 (CMG2). Our results provide evidence that the isolated domain 4 maintains structure and interactions with CMG2 at pH 5, a pH that is known to cause release of the receptor on conversion of the heptameric prepore (PA₆₃)₇ to a membrane-spanning pore. Our results suggest that receptor release is not driven solely by a pH-induced unfolding of domain 4.     

Density functional and electrostatics study of oxidized and reduced ribonucleotide reductase; comparisons with methane monooxygenase

A combined broken symmetry density functional and electrostatics approach has been used to examine the active sites of the resting (RNR(ox)) and reduced (RNR(red)) forms of class I type ribonucleotide reductase in the protein and solvent environment. Active site cluster geometries and Heisenberg J values are discussed in the context of the available protein data. The total electrostatic interaction energy in the protein comprises a large reaction field component and a much smaller protein field term, the former suggesting strong dielectric polarization between the cluster and protein-solvent dielectrics; the latter is indicative of a very weak link to the protein environment. Decomposition of the protein field term elucidates the major electrostatic interactions between amino acid residues in the RNR R2 local environment and the active site cluster, enabling an energetic comparison of structurally equivalent residues with a related diiron protein, methane monooxygenase.