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Multiple endocrine neoplasia type 1 (MEN1) is an autosomal dominant disorder that predisposes affected individuals to neoplasms of the parathyroid glands, endocrine pancreas, anterior pituitary, and carcinoids. The MEN1 locus has been localized by family studies to 11q13, flanked by markers PGA and D11S97. Eight new polymorphisms located in three separate radiation-reduced somatic cell hybrid segregation groups were developed. The order of the new markers, within the context of previously described loci, was determined by linkage analysis on the Venezuelan reference pedigree. Four independent MEN1 families, consisting of 57 affected individuals, and 70 individuals at-risk for the disease were genotyped. Sixteen people inherited a chromosome that shows recombination between a linked marker and the disease. The nearest proximal and distal markers that show recombination with the disease are D11S822 and GSTP1, respectively, thereby narrowing the candidate region for MEN1 by 50% on the distal side. Using these loci in haplotype analysis, an accurate presymptomatic molecular diagnostic test has been developed. These new markers in 11q13 linked to MEN1 also facilitate the genetic and physical characterization of this very gene-rich region. 相似文献
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Sayantan Bose Carissa M. Heath Priya A. Shah Maher Alayyoubi Theodore S. Jardetzky Robert A. Lamb 《Journal of virology》2013,87(24):13520-13531
Paramyxovirus membrane glycoproteins F (fusion protein) and HN, H, or G (attachment protein) are critical for virus entry, which occurs through fusion of viral and cellular envelopes. The F protein folds into a homotrimeric, metastable prefusion form that can be triggered by the attachment protein to undergo a series of structural rearrangements, ultimately folding into a stable postfusion form. In paramyxovirus-infected cells, the F protein is activated in the Golgi apparatus by cleavage adjacent to a hydrophobic fusion peptide that inserts into the target membrane, eventually bringing the membranes together by F refolding. However, it is not clear how the attachment protein, known as HN in parainfluenza virus 5 (PIV5), interacts with F and triggers F to initiate fusion. To understand the roles of various F protein domains in fusion triggering and metastability, single point mutations were introduced into the PIV5 F protein. By extensive study of F protein cleavage activation, surface expression, and energetics of fusion triggering, we found a role for an immunoglobulin-like (Ig-like) domain, where multiple hydrophobic residues on the PIV5 F protein may mediate F-HN interactions. Additionally, destabilizing mutations of PIV5 F that resulted in HN trigger-independent mutant F proteins were identified in a region along the border of F trimer subunits. The positions of the potential HN-interacting region and the region important for F stability in the lower part of the PIV5 F prefusion structure provide clues to the receptor-binding initiated, HN-mediated F trigger. 相似文献
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Nataliya Di Donato Ying Y. Jean A. Murat Maga Briana D. Krewson Alison B. Shupp Maria I. Avrutsky Achira Roy Sarah Collins Carissa Olds Rebecca A. Willert Agnieszka M. Czaja Rachel Johnson Jessi A. Stover Steven Gottlieb Deborah Bartholdi Anita Rauch Amy Goldstein Victoria Boyd-Kyle Kimberly A. Aldinger Ghayda M. Mirzaa Anke Nissen Karlla W. Brigatti Erik G. Puffenberger Kathleen J. Millen Kevin A. Strauss William B. Dobyns Carol M. Troy Robert N. Jinks 《American journal of human genetics》2016,99(5):1117-1129
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Philip N Ainslie Alice Barach Kevin J Cummings Carissa Murrell Mike Hamlin John Hellemans 《Journal of applied physiology》2007,102(5):1953-1961
We tested the hypothesis that intermittent hypoxia (IH) and/or continuous hypoxia (CH) would enhance the ventilatory response to acute hypoxia (HVR), thereby altering blood pressure (BP) and cerebral perfusion. Seven healthy volunteers were randomly selected to complete 10-12 days of IH (5-min hypoxia to 5-min normoxia repeated for 90 min) before ascending to mild CH (1,560 m) for 12 days. Seven other volunteers did not receive any IH before ascending to CH for the same 12 days. Before the IH and CH, following 12 days of CH and 12-13 days post-CH exposure, all subjects underwent a 20-min acute exposure to poikilocapnic hypoxia (inspired fraction of O(2), 0.12) in which ventilation, end-tidal gases, arterial O(2) saturation, BP, and middle cerebral artery blood flow velocity (MCAV) were measured continuously. Following the IH and CH exposures, the peak HVR was elevated and was related to the increase in BP (r = 0.66 to r = 0.88, respectively; P < 0.05) and to a reciprocal decrease in MCAV (r = 0.73 to r = 0.80 vs. preexposures; P < 0.05) during the hypoxic test. Following both IH and CH exposures, HVR, BP, and MCAV sensitivity to hypoxia were elevated compared with preexposure, with no between-group differences following the IH and/or CH conditions, or persistent effects following 12 days of sea level exposure. Our findings indicate that IH and/or mild CH can equally enhance the HVR, which, by either direct or indirect mechanisms, facilitates alterations in BP and MCAV. 相似文献
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Fapy.dA is produced in DNA as a result of oxidative stress. Recently, this lesion and its C-nucleoside analogues were incorporated in chemically synthesized oligonucleotides at defined sites. The interaction of DNA containing Fapy.dA or nonhydrolyzable analogues with Fpg and MutY is described. Fpg efficiently excises Fapy.dA (K(m) = 1.2 nM, k(cat) = 0.12 min(-1)) opposite T. The lesion is removed as efficiently from duplexes containing Fapy.dA:dA or Fapy.dA:dG base pairs. Multiple turnovers are observed for the repair of Fapy.dA mispairs in a short period of time, indicating that the enzyme does not remain bound to the product duplex. MutY does not incise dA from a duplex containing this nucleotide opposite Fapy.dA, nor does it exhibit an increased level of binding compared to DNA composed solely of native base pairs. MutY also does not incise Fapy.dA when the lesion is opposite dG. These data suggest that Fapy.dA could be deleterious to the genome. Fpg strongly binds duplexes containing the beta-C-nucleoside analogue of Fapy.dA (beta-C-Fapy.dA) opposite all native nucleotides (K(D) < 27 nM), as well as the alpha-C-nucleoside (alpha-C-Fapy.dA) opposite dC (K(D) = 7.1 +/- 1.5 nM). A duplex containing a beta-C-Fapy.dA:T base pair is an effective inhibitor (K(I) = 3.5 +/- 0.3 nM) of repair of Fapy.dA by Fpg, suggesting the C-nucleoside may have useful therapeutic properties. 相似文献