Andreas Rosenberg scite author profile

Asthma is an inflammatory airways disease associated with intermittent respiratory symptoms, bronchial hyper-responsiveness (BHR) and reversible airflow obstruction and is phenotypically heterogeneous. Patterns of clustering and segregation analyses in asthma families have suggested a genetic component to asthma. Previous studies reported linkage of BHR and atopy to chromosomes 5q (refs 7-9), 6p (refs 10-12), 11q (refs 13-15), 14q (ref. 16), and 12q (ref. 17) using candidate gene approaches. However, the relative roles of these genes in the pathogenesis of asthma or atopy are difficult to assess outside of the context of a genome-wide search. One genome-wide search in atopic sib pairs has been reported, however, only 12% of their subjects had asthma. We conducted a genome-wide search in 140 families with > or = 2 asthmatic sibs, from three racial groups and report evidence for linkage to six novel regions: 5p15 (P = 0.0008) and 17p11.1-q11.2 (P = 0.0015) in African Americans; 11p15 (P = 0.0089) and 19q13 (P = 0.0013) in Caucasians; 2q33 (P = 0.0005) and 21q21 (P = 0.0040) in Hispanics. Evidence for linkage was also detected in five regions previously reported to be linked to asthma-associated phenotypes: 5q23-31 (P = 0.0187), 6p21.3-23 (P = 0.0129), 12q14-24.2 (P = 0.0042), 13q21.3-qter (P = 0.0014), and 14q11.2-13 (P = 0.0062) in Caucasians and 12q14-24.2 (P = 0.0260) in Hispanics.

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Fluctuations of protein structure as expressed in the distribution of hydrogen exchange rate constants

Knox

Rosenberg

1980

Biopolymers

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SynopsisHydrogen exchange kinetics of proteins provide information about the dynamics of their structure. T h e interpretation of experiments has been limited by dilf'iculty in identifying individual rate constants. In order to invert the kinetic data, and to gain inlormation about. the individual reacting sites, we introduce a Laplace inversion technique and obtain the distribution function of rate constants hy which the intricate reaction proceeds. A series of carefully overlapped experiments were performed on lysozyme a t %"C, an exchange profile obtained, and a distribution function extracted. This function was composed of a product of two terms, indicating two parallel pathways. T h e first, a power-law term, was attrihuted t o exchange from the native state. This part o f t h e distribution function thus describes the scope of the conformational fluctuations in proteins a t constant temperature and pressure. T h e second, a n exponential, was seen to be associated with the pathway involving thermal unfolding and subsequent free exchange with the solvent. The intluence of trichloroethanol and glycerol on the total distribution function was measured. Trichloroethanol selectively increased the contribution from the thermal unfolding pathway, whereas glycerol, hesides decreasing this type of Contribution, increased the width of the distribution function attributed to structural fluctuations.

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[21]Protein conformational dynamics measured by hydrogen isotope exchange techniques

Gregory¹,

Rosenberg²

1986

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Water catalysis of peptide hydrogen isotope exchange

Gregory¹,

Crabo²,

Percy³

et al. 1983

Biochemistry

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The temperature dependence of the hydrogen-tritium and deuterium-hydrogen exchange reactions in poly(DL-alanine) has been reexamined. The results indicate a significant contribution to the observed exchange rates from the water-catalyzed reaction at pD values near pDmin. The activation enthalpy for water-catalyzed deuterium-hydrogen exchange in poly(DL-alanine) is found to be 21 kcal mol-1. As a result, the contribution to the observed exchange rate from the water-catalyzed reaction increases with increasing temperature which in turn leads to broad, shallow pD minima and the appearance of apparent reaction orders with respect to [D+] and [OD-] that are substantially less than first order over an extended range of pD values. The importance of water catalysis in protein hydrogen exchange is demonstrated by a reanalysis of data for the exchange of single protons in bovine pancreatic trypsin inhibitor [Hilton, B.D., & Woodward, C. K. (1979) Biochemistry 18, 5834; Richarz, R., Sehr, P., Wagner, G., & Wüthrich, K. (1979) J. Mol. Biol. 130, 19]. The pD dependence of these protons can be explained in terms of an increased contribution from water catalysis.

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Changes in cardiovascular risk profile during the cessation of smoking

Terres

Becker

Rosenberg

1994

The American Journal of Medicine

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