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971.
Miller LA Romitti PA Cunniff C Druschel C Mathews KD Meaney FJ Matthews D Kantamneni J Feng ZF Zemblidge N Miller TM Andrews J Fox D Ciafaloni E Pandya S Montgomery A Kenneson A 《Birth defects research. Part A, Clinical and molecular teratology》2006,76(11):793-797
BACKGROUND: This report focuses on the common protocol developed by the Muscular Dystrophy Surveillance Tracking and Research Network (MD STARnet) for population-based surveillance of Duchenne and Becker muscular dystrophy (DBMD) among 4 states (Arizona, Colorado, Iowa, and New York). METHODS: The network sites have developed a case definition and surveillance protocol along with software applications for medical record abstraction, clinical review, and pooled data. Neuromuscular specialists at each site review the pooled data to determine if a case meets the case criteria. Sources of potential cases of DBMD include neuromuscular specialty clinics, service sites for children with special healthcare needs, and hospital discharge databases. Each site also adheres to a common information assurance protocol. RESULTS: A population-based surveillance system for DBMD was created and implemented in participating states. CONCLUSIONS: The development and implementation of the population-based system will allow for the collection of information that is intended to provide a greater understanding of DBMD prevalence and health outcomes. 相似文献
972.
973.
Lisa Borkner Andrew Kaiser Willeke van de Kasteele Reinhard Andreesen Andreas Mackensen John B. Haanen Ton N. Schumacher Christian Blank 《Cancer immunology, immunotherapy : CII》2010,59(8):1173-1183
Adoptive cell transfer (ACT), either using rapidly expanded tumor infiltrating lymphocytes or T-cell receptor transduced peripheral
blood lymphocytes, can be considered one of the most promising approaches in cancer immunotherapy. ACT results in the repopulation
of the host with high frequencies of tumor-specific T cells; however, optimal function of these cells within the tumor micro-environment
is required to reach long-term tumor clearance. We and others have shown that ongoing anti-tumor immune responses can be impaired
by the expression of ligands, such as PD-L1 (B7-H1) on tumor cells. Such inhibitory molecules can affect T cells at the effector
phase via their receptor PD-1. PD-L1/PD-1 interaction has indeed been shown crucial in inducing T-cell anergy and maintaining
peripheral tolerance. In order to maximize anti-tumor responses, antibodies that target the PD-1/PD-L1 axis are currently
in phase I/II trials. Alternatively, a more refined approach could be the selective targeting of PD-1 in tumor-specific T
cells to obtain long-term resistance against PD-1-mediated inhibition. We addressed whether this goal could be achieved by
means of retroviral siRNA delivery. Effective siRNA sequences resulting in the reduction of surface PD-1 expression led to
improved murine as well as human T-cell immune functions in response to PD-L1 expressing melanoma cells. These data suggest
that blockade of PD-1-mediated T-cell inhibition through siRNA forms a promising approach to achieve long-lasting enhancement
of tumor-specific T-cell function in adoptive T-cell therapy protocols. 相似文献
974.
Pseudomonas aeruginosa phosphorylcholine phosphatase (PchP) catalyzes the hydrolysis of phosphorylcholine, which is produced by the action of hemolytic
phospholipase C on phosphatidylcholine or sphyngomielin, to generate choline and inorganic phosphate. Among divalent cations,
its activity is dependent on Mg2+ or Zn2+. Mg2+ produced identical activation at pH 5.0 and 7.4, but Zn2+ was an activator at pH 5.0 and became an inhibitor at pH 7.4. At this higher pH, very low concentrations of Zn2+ inhibited enzymatic activity even in the presence of saturating Mg2+ concentrations. Considering experimental and theoretical physicochemical calculations performed by different authors, we
conclude that at pH 5.0, Mg2+ and Zn2+ are hexacoordinated in an octahedral arrangement in the PchP active site. At pH 7.4, Mg2+ conserves the octahedral coordination maintaining enzymatic activity. The inhibition produced by Zn2+ at 7.4 is interpreted as a change from octahedral to tetrahedral coordination geometry which is produced by hydrolysis of
the
[ \textZn 2+ \textL 2 - 1 \textL 20 ( \textH 2 \textO ) 2 ] \left[ {{\text{Zn}}^{ 2+ } {\text{L}}_{ 2}^{ - 1} {\text{L}}_{ 2}^{0} \left( {{\text{H}}_{ 2} {\text{O}}} \right)_{ 2} } \right] complex. 相似文献
975.
Chaowei Zhang John Ondeyka Lisa Dietrich Francis P. Gailliot Michelle Hesse Michael Lester Karen Dorso Mary Motyl Sookhee N. Ha Jun Wang Sheo B. Singh 《Bioorganic & medicinal chemistry》2010,18(7):2602-2610
Natural products serve as a great reservoir for chemical diversity and are the greatest source for antibacterial agents. Recent discoveries of platensimycin and platencin as inhibitors of bacterial fatty acid biosynthesis enzymes supplied new chemical scaffolds for potential antibacterial agents to overcome resistant pathogens. Discovery of natural congeners augment chemical modification in understanding of structure–activity relationship (SAR). Chemical and biological screening of the extracts led to isolation of three hydroxylated analogs of platencin. The C-12, C-14 and C-15 hydroxylated analogs showed attenuated activities which provided significant understanding of functional tolerance in the diterpenoid portion of the molecule. A truncated and oxidized C-13 natural congener was isolated which suggested direct intermediacy of ent-copalyl diphosphate for the biosynthesis of platensimycins and platencins. 相似文献
976.
Gatzeva-Topalova PZ Warner LR Pardi A Sousa MC 《Structure (London, England : 1993)》2010,18(11):1492-1501
Folding and insertion of β-barrel outer membrane proteins (OMPs) is essential for Gram-negative bacteria. This process is mediated by the multiprotein complex BAM, composed of the essential β-barrel OMP BamA and four lipoproteins (BamBCDE). The periplasmic domain of BamA is key for its function and contains five "polypeptide transport-associated" (POTRA) repeats. Here, we report the crystal structure of the POTRA4-5 tandem, containing the essential for BAM complex formation and cell viability POTRA5. The domain orientation observed in the crystal is validated by solution NMR and SAXS. Using previously determined structures of BamA POTRA1-4, we present a spliced model of the entire BamA periplasmic domain validated by SAXS. Solution scattering shows that conformational flexibility between POTRA2 and 3 gives rise to compact and extended conformations. The length of BamA in its extended conformation suggests that the protein may bridge the inner and outer membranes across the periplasmic space. 相似文献
977.
John C. Tan Asako Tan Lisa Checkley Caroline M. Honsa Michael T. Ferdig 《Journal of molecular evolution》2010,71(4):268-278
Genome variation studies in Plasmodium falciparum have focused on SNPs and, more recently, large-scale copy number polymorphisms and ectopic rearrangements. Here, we examine
another source of variation: variable number tandem repeats (VNTRs). Interspersed low complexity features, including the well-studied
P. falciparum microsatellite sequences, are commonly classified as VNTRs; however, this study is focused on longer coding VNTR polymorphisms,
a small class of copy number variations. Selection against frameshift mutation is a main constraint on tandem repeats (TRs)
in coding regions, while limited propagation of TRs longer than 975 nt total length is a minor restriction in coding regions.
Comparative analysis of three P. falciparum genomes reveals that more than 9% of all P. falciparum ORFs harbor VNTRs, much more than has been reported for any other species. Moreover, genotyping of VNTR loci in a drug-selected
line, progeny of a genetic cross, and 334 field isolates demonstrates broad variability in these sequences. Functional enrichment
analysis of ORFs harboring VNTRs identifies stress and DNA damage responses along with chromatin modification activities,
suggesting an influence on genome mutability and functional variation. Analysis of the repeat units and their flanking regions
in both P. falciparum and Plasmodium reichenowi sequences implicates a replication slippage mechanism in the generation of TRs from an initially unrepeated sequence. VNTRs
can contribute to rapid adaptation by localized sequence duplication. They also can confound SNP-typing microarrays or mapping
short-sequence reads and therefore must be accounted for in such analyses. 相似文献
978.
979.
Lisa Campbell Robert J. Olson Heidi M. Sosik Ann Abraham Darren W. Henrichs Cammie J. Hyatt Edward J. Buskey 《Journal of phycology》2010,46(1):66-75
Imaging FlowCytobot (IFCB) combines video and flow cytometric technology to capture images of nano‐ and microplankton (~10 to >100 μm) and to measure the chlorophyll fluorescence associated with each image. The images are of sufficient resolution to identify many organisms to genus or even species level. IFCB has provided >200 million images since its installation at the entrance to the Mission‐Aransas estuary (Port Aransas, TX, USA) in September 2007. In early February 2008, Dinophysis cells (1–5 · mL?1) were detected by manual inspection of images; by late February, abundance estimates exceeded 200 cells · mL?1. Manual microscopy of water samples from the site confirmed that D. cf. ovum F. Schütt was the dominant species, with cell concentrations similar to those calculated from IFCB data, and toxin analyses showed that okadaic acid was present, which led to closing of shellfish harvesting. Analysis of the time series using automated image classification (extraction of image features and supervised machine learning algorithms) revealed a dynamic phytoplankton community composition. Before the Dinophysis bloom, Myrionecta rubra (a prey item of Dinophysis) was observed, and another potentially toxic dinoflagellate, Prorocentrum, was observed after the bloom. Dinophysis cell‐division rates, as estimated from the frequency of dividing cells, were the highest at the beginning of the bloom. Considered on a daily basis, cell concentration increased roughly exponentially up to the bloom peak, but closer inspection revealed that the increases generally occurred when the direction of water flow was into the estuary, suggesting the source of the bloom was offshore. 相似文献
980.
Lisa C. Lindesmith Eric Donaldson Juan Leon Christine L. Moe Jeffrey A. Frelinger Robert E. Johnston David J. Weber Ralph S. Baric 《Journal of virology》2010,84(4):1800-1815
Norovirus immunity is poorly understood as the limited data available on protection after infection are often contradictory. In contrast to the more prominent GII noroviruses, GI norovirus infections are less frequent in outbreaks. The GI noroviruses display very complex patterns of heterotypic immune responses following infection, and many individuals are highly susceptible to reinfection. To study the immune responses and mechanisms of GI.1 persistence, we built structural models and recombinant virus-like particles (VLPs) of five GI strains: GI.1-1968, GI.1-2001, GI.2-1999, GI.3-1999, and GI.4-2000. Structural models of four GI genotype capsid P domain dimers suggested that intragenotype structural variation is limited, that the GI binding pocket is mostly preserved between genotypes, and that a conserved, surface-exposed epitope may allow for highly cross-reactive immune responses. GI VLPs bound to histo-blood group antigens (HBGAs) including fucose, Lewis, and A antigens. Volunteers infected with GI.1-1968 (n = 10) had significant increases between prechallenge and convalescent reactive IgG for all five GI VLPs measured by enzyme immunoassay. Potential cross-neutralization of GI VLPs was demonstrated by convalescent-phase serum cross-blockade of GI VLP-HBGA interaction. Although group responses were significant for all GI VLPs, each individual volunteer demonstrated a unique VLP blockade pattern. Further, peripheral blood mononuclear cells (PBMCs) were stimulated with each of the VLPs, and secretion of gamma interferon (IFN-γ) was measured. As seen with blockade responses, IFN-γ secretion responses differed by individual. Sixty percent responded to at least one GI VLP, with only two volunteers responding to GI.1 VLP. Importantly, four of five individuals with sufficient PBMCs for cross-reactivity studies responded more robustly to other GI VLPs. These data suggest that preexposure history and deceptive imprinting may complicate PBMC and B-cell immune responses in some GI.1-1968-challenged individuals and highlight a potential complication in the design of efficacious norovirus vaccines.Noroviruses are the second-most important cause of severe viral gastroenteritis in young children and cause approximately 20% of endemic familial diarrheal disease and traveler''s diarrhea in all ages (reviewed in references 45 and 70). Noroviruses are genetically grouped into five different genogroups (GI to GV). GI and GII genogroups are responsible for the majority of human infections and are subdivided into more than 25 different genotypes (for example, GI.1 is genogroup I genotype 1). Most norovirus outbreaks are caused by the GII.4 genotype (65). Although genogroup I strains are associated with fewer reported outbreaks, they are frequently identified in environmental samples and in children (7, 21, 33, 58, 74, 82). The severity of norovirus disease is usually moderate although infection can be especially virulent, even fatal, in the elderly (14, 24, 31, 38, 46, 67). An effective vaccine would be particularly advantageous to vulnerable older populations, food handlers, child and health care providers, and military personnel. One major obstacle to norovirus vaccine development is the lack of understanding of the extensive antigenic relationships between heterogenic norovirus family members and of how this antigenic heterogeneity affects host protective immunity. Norovirus heterogeneity can be examined through sequence, structural, ligand binding, and host immune studies.Structurally, noroviruses are ∼38-nm icosahedral viruses with an ∼7.5 kb single-stranded, positive-sense RNA genome that encodes three large open reading frames (ORFs). ORF1 encodes the replicase polyprotein, while ORFs 2 and 3 encode the major and minor capsid proteins, respectively. The ORF2 major capsid protein sequence can vary by up to 60% between genogroups and by ∼20 to 30% between the genotypes (91). Expression of the major capsid protein (ORF2) in baculovirus and Venezuelan equine encephalitis (VEE) results in formation of virus-like particles (VLPs) composed of 180 copies of the monomeric protein (72). The monomer is structurally divided into the shell domain (S) that forms the structural core of the particle and the protruding domain (P) that protrudes away from the core. The P domain is further subdivided into the P1 subdomain (residues 226 to 278 and 406 to 520) and the P2 subdomain (residues 279 to 405) (72). P2 represents the most exposed surface of the viral particle and determines interaction with both potential neutralizing antibody recognition sites and putative cellular receptors, the histo-blood group antigens (HBGAs) (13, 16, 54, 57).The P domain has been shown to independently form dimers and P particles comprised of 12 monomers (85). Dimers and P particles share structural and HBGA binding similarities with the VLP generated with the same monomers (9, 85, 87). Three norovirus-HBGA binding profiles have been identified: (i) those that bind A/B and/or H epitopes, (ii) those that bind Lewis and/or H epitopes, and (iii) those that do not bind any available HBGA (86). Elegant structural analyses of Norwalk virus VLPs in complex with synthetic HBGAs identified a highly conserved binding site within the G1 noroviruses and predicted that structural constraints within the GI strains would restrict HBGA binding patterns to either a terminal Gal-Fuc or GalNAc (18, 88).Norwalk virus (NV; GI.1-1968) is the prototypic GI strain and typically infects individuals who encode a functional FUT2 α-1,2-fucosyltransferase enzyme resulting in expression of HBGAs on mucosal surfaces (secretor-positive phenotype) (53). Individuals who do not encode a functional FUT2 enzyme have a secretor-negative phenotype, do not express ABH HBGAs on mucosal surfaces, and are resistant to NV infection. Outbreak investigations have confirmed the association between HBGA expression and norovirus infection for some GI and GII strains (37, 39, 43, 49, 89). It remains likely that enzymes other than FUT2 may function as norovirus susceptibility factors because secretor-negative individuals have low-level norovirus-reactive antibodies (49, 52, 53) and can become infected after challenge with a GII.2 strain (52); in addition, some norovirus strains bind to FUT2-independent HBGAs in vitro (35, 54, 79).Early challenge studies (reviewed in reference 50) suggested that short-term protective immunity may occur following NV challenge (96). Demonstration of long-term protective immunity has been more complex. One early rechallenge study found that 50% of NV-challenged volunteers experienced repeat infections after ∼3 years while the other 50% remained well initially and after repeated challenge (69). Whether these volunteers remained disease free because of acquired immunity or genetic resistance could not be ascertained (69). However, contemporary norovirus challenge studies suggest that an early mucosal IgA response is associated with protection from NV infection (53). Further, strong gamma interferon (IFN-γ) secretion from CD4+ T cells (52) was identified in some uninfected GII.2-1976-challenged volunteers.In the absence of additional rechallenge studies, the most compelling evidence for a long-term protective immune response comes from the growing number of reports from around the world indicating that periods of “high norovirus activity” correlated with the emergence of new GII.4 strains (1, 10, 42, 66, 75, 90). Subsequently, the years following the high activity were characterized by decreased numbers of outbreaks, indicating that herd immunity may be an important regulator of GII.4 noroviruses (54, 80, 81). Clearly, the molecular basis for differential protective immunity/susceptibility following repeat norovirus infection is complex and a major challenge for the field.In this report, we compare the VLP phenotypes of the prototypical norovirus strain NV to an extant GI.1 strain isolated 33 years after NV and to a panel of VLPs representing strains GI.2, GI.3, and GI.4. In the results, we evaluate sequence conservation, carbohydrate (CHO) binding patterns, and antigenic relatedness at the antibody and T-cell levels. In contrast to earlier predictions (19), these data suggest that the GI noroviruses can bind many different HBGAs and that individuals infected with norovirus usually mount robust B- and T-cell responses against homologous strains. Surprisingly, some individuals appear to preferentially mount immune responses against heterologous GI strains. 相似文献