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Quality Control Mechanism (quality + control_mechanism)
Selected AbstractsProcedural skills quality assurance among Australasian College for Emergency Medicine fellows and traineesEMERGENCY MEDICINE AUSTRALASIA, Issue 3 2006David McD Taylor Abstract Objective: Presently, no objective quality control mechanism exists for monitoring procedural skills among Australasian College for Emergency Medicine trainees. The present study examined trainee and fellow procedural experience and perceived competency, participation in accredited training courses and support for a procedural logbook. Methods: A cross-sectional mail survey of Australasian College for Emergency Medicine advanced trainees and fellows was performed. Experience and perceived competency in 23 common and important ED procedures were examined. Results: In total, 202 fellows and 264 trainees responded (overall response rate 39.0%). Overall, fellow procedural experience and perceived competency were reasonable. However, some fellows had never performed a number of procedures including some common procedures (e.g. nasal packing, fracture reduction) and there were reports of ,very poor' competency for 17 (73.9%) procedures. Trainee experience and perceived competency were less than the fellows but showed similar patterns. Perceived numbers of each procedure required to achieve competency varied considerably between the procedures and among the respondents. However, there were no significant differences in the perceived numbers reported by the trainees and the fellows (P > 0.05). Variable proportions of trainees and fellows had undertaken courses that incorporated procedural skills training. More fellows (75.7%, 95% confidence interval 69.1,81.4) than trainees (59.9%, 95% confidence interval 53.6,65.8) supported the use of a procedural logbook (P = 0.003). Conclusions: Lack of experience in some procedures among some fellows, especially commonly performed procedures, might represent a deficiency in existing quality assurance mechanisms for procedural skills training. Greater participation in skills courses, to improve experience in difficult and uncommonly encountered procedures, is recommended. Improved quality assurance mechanisms, including a procedural logbook, should be considered. [source] Mutation in hotfoot-4J mice results in retention of ,2 glutamate receptors in EREUROPEAN JOURNAL OF NEUROSCIENCE, Issue 8 2002Shinji Matsuda Abstract The orphan glutamate receptor ,2 is selectively expressed in Purkinje cells and plays a critical role in cerebellar function. Recently, the ataxia of hotfoot-4J (ho-4J) mice was shown to be caused by a 170,amino acid deletion in the N-terminal region of ,2 receptors. To understand ,2 receptor function, we characterized these mutant receptors (,2ho) in Purkinje cells. Immunohistochemical staining showed that ,2ho receptors of the ho-4J homozygotes were abundantly expressed but localized to the Purkinje cell soma; in wild-type mice, ,2 receptors were predominantly present at distal dendrites of Purkinje cells. In addition, ,2ho receptors of the ho-4J mice were sensitive to endoglycosidase H, a finding suggesting that ,2ho receptors were not transported beyond the endoplasmic reticulum (ER) or cis -Golgi apparatus. To gain further insights into the mechanisms of this phenomenon, we characterized ,2ho receptors in transfected HEK293 cells. ,2ho receptors expressed in HEK293 cells were also sensitive to endoglycosidase H. Immunohistochemical staining showed that ,2ho receptors colocalized with proteins retained in the ER. Furthermore, ,2ho receptors were not labelled by membrane-impermeable biotinylation reagents. Coimmunoprecipitation assays showed that the intermolecular interaction of ,2ho receptors was significantly weaker than those of wild-type ,2 receptors, a finding suggesting that the ho-4J region is involved in oligomerization of ,2 receptors. Thus, ,2ho receptors were retained in the ER, probably by the quality control mechanism that detects unstable oligomers. We conclude that the absence of ,2 receptors on the cell surface by failed transport from the ER of Purkinje cells causes ataxia. [source] Increase of calnexin gene dosage boosts the secretion of heterologous proteins by Hansenula polymorphaFEMS YEAST RESEARCH, Issue 7 2007Jens Klabunde Abstract The type I membrane protein calnexin is a conserved key component of the quality control mechanism in the endoplasmic reticulum. It functions as a molecular chaperone that monitors the folding state of nascent polypeptides entering the endoplasmic reticulum. Calnexin also behaves as a lectin, as its chaperoning activity involves binding of oligosaccharide moieties present on newly imported glycoproteins. We isolated the calnexin gene (HpCNE1) from the methylotrophic yeast Hansenula polymorpha, and used HpCNE1 expression plasmids for supertransformation of H. polymorpha strains secreting target proteins of biotechnological interest. The elevated dosage of HpCNE1 enhanced secretion of the four proteins tested: three glycoproteins and one unglycosylated product. Secretion of bacterial alginate epimerase AlgE1 was increased threefold on average, and secretion of both human interferon-, and fungal consensus phytase twofold. With phytase and AlgE1 this improvement was all the more remarkable, as the secretion level was already high in the original strains (g L,1 range). The same approach improved secretion of human serum albumin, which lacks N-linked glycans, about twofold. Glycosylation of the pro-MF,1 leader may account for the effect of calnexin in this case. Our results argue that cooverexpression of calnexin can serve as a generally applicable tool for enhancing the secretion of all types of heterologous protein by H. polymorpha. [source] Quality control in scholarly publishing: A new proposalJOURNAL OF THE AMERICAN SOCIETY FOR INFORMATION SCIENCE AND TECHNOLOGY, Issue 11 2003Stefano Mizzaro The Internet has fostered a faster, more interactive and effective model of scholarly publishing. However, as the quantity of information available is constantly increasing, its quality is threatened, since the traditional quality control mechanism of peer review is often not used (e.g., in online repositories of preprints, and by people publishing whatever they want on their Web pages). This paper describes a new kind of electronic scholarly journal, in which the standard submission-review-publication process is replaced by a more sophisticated approach, based on judgments expressed by the readers: in this way, each reader is, potentially, a peer reviewer. New ingredients, not found in similar approaches, are that each reader's judgment is weighted on the basis of the reader's skills as a reviewer, and that readers are encouraged to express correct judgments by a feedback mechanism that estimates their own quality. The new electronic scholarly journal is described in both intuitive and formal ways. Its effectiveness is tested by several laboratory experiments that simulate what might happen if the system were deployed and used. [source] Bacterial pathogens and the autophagic responseCELLULAR MICROBIOLOGY, Issue 1 2010Marķa C. Lerena Summary The host cell recognition and removal of invading pathogens are crucial for the control of microbial infections. However, several microorganisms have developed mechanisms that allow them to survive and replicate intracellularly. Autophagy is an ubiquitous physiological pathway in eukaryotic cells, which maintains the cellular homeostasis and acts as a cell quality control mechanism to eliminate aged organelles and unnecessary structures. In addition, autophagy has an important role as a housekeeper since cells that have to get rid of invading pathogens use this pathway to assist this eradication. In this review we will summarize some strategies employed by bacterial pathogens to modulate autophagy to their own benefit and, on the other hand, the role of autophagy as a protective process of the host cell. In addition, we will discuss here recent studies that show the association of LC3 to a pathogen-containing compartment without a classical autophagic sequestering process (i.e. formation of a double membrane structure). [source] Preserving organelle vitality: peroxisomal quality control mechanisms in yeastFEMS YEAST RESEARCH, Issue 6 2009Eda Bener Aksam Abstract Cellular proteins and organelles such as peroxisomes are under continuous quality control. Upon synthesis in the cytosol, peroxisomal proteins are kept in an import-competent state by chaperones or specific proteins with an analogous function to prevent degradation by the ubiquitin,proteasome system. During protein translocation into the organelle, the peroxisomal targeting signal receptors (Pex5, Pex20) are also continuously undergoing quality control to enable efficient functioning of the translocon (RADAR pathway). Even upon maturation of peroxisomes, matrix enzymes and peroxisomal membranes remain subjected to quality control. As a result of their oxidative metabolism, peroxisomes are producers of reactive oxygen species (ROS), which may damage proteins and lipids. To counteract ROS-induced damage, yeast peroxisomes contain two important antioxidant enzymes: catalase and an organelle-specific peroxiredoxin. Additionally, a Lon-type protease has recently been identified in the peroxisomal matrix, which is capable of degrading nonfunctional proteins. Finally, cellular housekeeping processes keep track of the functioning of peroxisomes so that dysfunctional organelles can be quickly removed via selective autophagy (pexophagy). This review provides an overview of the major processes involved in quality control of yeast peroxisomes. [source] | ||||||||||