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Infectious Particles (infectious + particle)

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Life Sciences80%

Selected Abstracts

Turnip yellow mosaic virus: transfer RNA mimicry, chloroplasts and a C-rich genome

MOLECULAR PLANT PATHOLOGY, Issue 5 2004
THEO W. DREHER
SUMMARY Taxonomy:,Turnip yellow mosaic virus (TYMV) is the type species of the genus Tymovirus, family Tymoviridae. TYMV is a positive strand RNA virus of the alphavirus-like supergroup. Physical properties:, Virions are non-enveloped 28-nm T = 3 icosahedrons composed of a single 20-kDa coat protein that is clustered in 20 hexameric and 12 pentameric subunits. Infectious particles and empty capsids coexist in infected tissue. The genomic RNA is 6.3 kb long, with a 5,m7GpppG cap and a 3, untranslated region ending in a tRNA-like structure to which valine can be covalently added. The genome has a distinctive skewed C-rich, G-poor composition (39% C, 17% G). Viral proteins:, Two proteins, whose open reading frames extensively overlap, are translated from the genomic RNA. p206, which contains sequences indicative of RNA capping, NTPase/helicase and polymerase activities, is the only viral protein that is necessary for genome replication in single cells. It is produced as a polyprotein and self-cleaved to yield 141- and 66-kDa proteins. p69 is required for virus movement within the plant and is also a suppressor of gene silencing. The coat protein is expressed from the single subgenomic RNA. Hosts and symptoms:, TYMV has a narrow host range almost completely restricted to the Cruciferae. Experimental host species are Brassica pekinensis (Chinese cabbage) or B. rapa (turnip), in which diffuse chlorotic local lesions and systemic yellow mosaic symptoms appear. Arabidopsis thaliana can also be used. Clumping of chloroplasts and the accumulation of vesicular invaginations of the chloroplast outer membranes are distinctive cytopathological symptoms. High yields of virus are produced in all leaf tissues, and the virus is readily transmissible by mechanical inoculation. Localized transmission by flea beetles may occur in the field. [source]

N -Acetylcysteine Improves Group B Streptococcus Clearance in a Rat Model of Chronic Ethanol Ingestion

ALCOHOLISM, Issue 7 2009
Sonja M. Tang
Background:, Sepsis is the most common risk factor associated with acute respiratory distress syndrome (ARDS) and results in a 40,60% mortality rate due to respiratory failure. Furthermore, recent epidemiological studies have demonstrated that a history of alcohol abuse increases the risk of ARDS by 3.6-fold. More recently, group B streptococcus (GBS) infections in nonpregnant adults have been increasing, particularly in alcoholics where there is an increased risk of lobular invasion and mortality. We have shown in an established rat model that chronic ethanol ingestion impaired macrophage internalization of inactivated infectious particles in vitro and enhanced bidirectional protein flux across the alveolar epithelial-endothelial barriers, both of which were attenuated when glutathione precursors were added to the diet. We hypothesized that chronic ethanol ingestion would increase the risk of infection even though GBS is less pathogenic but that dietary N -acetylcysteine (NAC), a glutathione precursor, would improve in vivo clearance of infectious particles and reduce systemic infection. Methods:, After 6 weeks of ethanol feeding, rats were given GBS intratracheally and sacrificed 24 hours later. GBS colony-forming units were counted in the lung, liver, spleen, and bronchoalveolar lavage fluid. Acute lung injury in response to GBS was also assessed. Results:, Chronic ethanol exposure decreased GBS clearance from the lung indicating an active lung infection. In addition, increased colonies formed within the liver and spleen indicated that ethanol increased the risk of systemic infection. Ethanol also exacerbated the acute lung injury induced by GBS. NAC supplementation normalized GBS clearance by the lung, prevented the appearance of GBS systemically, and attenuated acute lung injury. Conclusions:, These data suggested that chronic alcohol ingestion increased the susceptibility of the lung to bacterial infections from GBS as well as systemic infections. Furthermore, dietary NAC improved in vivo clearance of GBS particles, attenuated acute lung injury, and disseminated infection. [source]

Scaleable purification process for gene therapy retroviral vectors

THE JOURNAL OF GENE MEDICINE, Issue 4 2007
Teresa Rodrigues
Abstract Background Retroviral vectors (RVs) constitute one of the preferred gene therapy tools against inherited and acquired diseases. Development of scaleable downstream processes allowing purification under mild conditions and yielding viral preparations with high titer, potency and purity is critical for the success of clinical trials and subsequent clinical use of this technology. Methods A purification process for murine leukaemia virus (MLV)-derived vector supernatants was developed based on membrane separation and anion-exchange chromatography (AEXc). Initial clarification of the vector stocks was performed using 0.45 µm membranes followed by concentration with 500 kDa molecular weight cut-off (MWCO) membranes; further purification was performed by AEXc using a tentacle matrix bearing DEAE functional ligands. Finally, concentration/diafiltration was performed by 500 kDa MWCO membranes. To validate final product quality the process was scaled up 16-fold. Results Optimization of microfiltration membrane pore size and ultrafiltration transmembrane pressure allowed the recovery of nearly 100% infectious particles. Further purification of the RVs by AEXc resulted in high removal of protein contaminants while maintaining high recoveries of infectious vectors (77 ± 11%). Up-scaling of the process resulted in high titer vector preparations, 3.2 × 108 infectious particles (IP)/ml (85-fold concentration), with an overall recovery reaching 26%. The process yielded vectors with transduction efficiencies higher than the starting material and more than 99% pure, relative to protein contamination. Conclusions The combination of membrane separation and AEXc processes results in a feasible and scaleable purification strategy for MLV-derived vectors, allowing the removal of inhibitory contaminants thus yielding pure vectors with increased transduction efficiencies. Copyright © 2007 John Wiley & Sons, Ltd. [source]

Scalable production of adeno-associated virus type 2 vectors via suspension transfection,

BIOTECHNOLOGY & BIOENGINEERING, Issue 3 2006
Joon Young Park
Abstract Vectors derived from adeno-associated virus type 2 (AAV2) are promising gene delivery vehicles, but it is still challenging to get the large number of recombinant adeno-associated virus (rAAV) particles required for large animal and clinical studies. Current transfection technology requires adherent cultures of HEK 293 cells that can only be expanded by preparing multiple culture plates. A single large-scale suspension culture could replace these multiple culture preparations, but there is currently no effective co-transfection scheme for generating rAAV from cells in suspension culture. Here, we weaned HEK 293 cells to suspension culture using hydrogel-coated six-well culture plates and established an efficient transfection strategy suitable for these cells. Then the cultures were gradually scaled up. We used linear polyethylenimine (PEI) to mediate transfection and obtained high transfection efficiencies ranging from 54% to 99%, thereby allowing efficient generation of rAAV vectors. Up to 1013 rAAV particles and, more importantly, up to 1011 infectious particles were generated from a 2-L bioreactor culture. The suspension-transfection strategy of this study facilitates the homogeneous preparation of rAAV at a large scale, and holds further potential as the basis for establishing a manufacturing process in a larger bioreactor. © 2006 Wiley Periodicals, Inc. [source]