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Technical Advances (technical + advance)

Distribution by Scientific Domains
Medical Sciences45%
Life Sciences33%
Chemistry8%
3 Other Domains14%

Kinds of Technical Advances

  • recent technical advance
    		•

    Selected Abstracts

    TECHNICAL ADVANCES: A maximum-likelihood relatedness estimator allowing for negative relatedness values

    MOLECULAR ECOLOGY RESOURCES, Issue 2 2008
    DMITRY A. KONOVALOV
    Abstract Previously reported maximum-likelihood pairwise relatedness (r) estimator of Thompson and Milligan (M) was extended to allow for negative r estimates under the regression interpretation of r. This was achieved by establishing the equivalency of the likelihoods used in the kinship program and the likelihoods of Thompson. The new maximum-likelihood (ML) estimator was evaluated by Monte Carlo simulations. It was found that the new ML estimator became unbiased significantly faster compared to the original M estimator when the amount of genotype information was increased. The effects of allele frequency estimation errors on the new and existing relatedness estimators were also considered. [source]

    Technical advance in fungal biotechnology: development of a miniaturized culture method and an automated high-throughput screening

    LETTERS IN APPLIED MICROBIOLOGY, Issue 2 2009
    F. Alberto
    Abstract Aims:, The goal of the study was to develop a reliable, reproducible and rapid method of culture in order to screen a large number of fungal transformants. Methods and Results:, The method is based upon miniaturized cell cultures and automated expression screening in microwell plates. For the method development, 50 recombinant Aspergillus vadensis clones producing feruloyl esterase B (FaeB) from Aspergillus niger were screened in 6 days. Then a panel of clones showing various behaviours was checked in flasks in order to demonstrate the reproducibility of the method. Using this method, a transformant of A. vadensis producing 1·2 g l,1 of FaeB was selected (12-fold more than the A. niger overproducing strain). Conclusions:, This miniaturized culture method allows to obtain reliable and reproducible results. The procedure has the advantages of being efficient, time-saving and more efficient than conventional in-flask culture screening as it can screen 800 clones per day after a culture of 3 days. Significance and Impact of the Study:, This method could be applied to any other fungal strain culture, enzyme activity or biodiversity screening. [source]

    High-resolution MRI Enhances Identification of Lesions Amenable to Surgical Therapy in Children with Intractable Epilepsy

    EPILEPSIA, Issue 8 2004
    Monisha Goyal
    Summary:,Purpose: Many children with refractory epilepsy can achieve better seizure control with surgical therapy. An abnormality on magnetic resonance imaging (MRI), along with corroborating localization by other modalities, markedly increases chances of successful surgical outcome. We studied the impact of high-resolution MRI on the surgical outcome of intractable epilepsy. Methods: High-resolution MRI using four-coil phased surface array was obtained as part of the comprehensive presurgical protocol for children with focal onset intractable seizures evaluated by our epilepsy center during the first half of 2002. Results: Thirteen consecutive children, ages 5 to 18 years, entered this prospective study. For four patients with a lesion on a recent MRI examination with a standard head coil, management did not change with high-resolution MRI. Standard MRI in the other nine patients did not identify a lesion. However, high-resolution MRI with the phased-array surface coil found previously undiagnosed focal abnormalities in five of nine patients. These abnormalities included hippocampal dysplasia, hippocampal atrophy, and dual pathology with frontal cortical dysplasia. In four of nine patients, no identifiable lesion was identified on the high-resolution MRI. All patients underwent invasive monitoring. In three of five patients, newly diagnosed lesions correlated with EEG abnormalities, and resection was performed. Conclusions: In our center, high-resolution MRI identified lesions not detected by standard MRI in more than half the children (56%). Technical advances such as four-coil phased surface array MRI can help identify and better delineate lesions, improving the diagnosis of patients who are candidates for surgical treatment of refractory epilepsy. [source]

    Liver transplantation in neonates

    LIVER TRANSPLANTATION, Issue 8 2003
    Shikha S. Sundaram
    Orthotopic liver transplantation (OLT) has evolved over the past two decades to become the standard of care for end-stage liver disease in infants and children. Technical advances, particularly the use of technical variant allografts, have permitted extension of OLT into a much younger and smaller population than previously possible. Major centers around the world now routinely perform OLT in infants with survival success equivalent to that in older children and adults. We are beginning to see a small population of school-aged children who were infant OLT recipients. The further extension of OLT into neonates is more recent, with only a few pediatric centers reporting survival success. Very little is known about this frontier of transplantation. Our intent is to provide an overview of neonatal OLT using all available data and our experience in the field [source]

    Technical advances in the sectioning of dental tissue and of on-section cross-linked collagen detection in mineralized teeth

    MICROSCOPY RESEARCH AND TECHNIQUE, Issue 8 2010
    Sim K. Singhrao
    Abstract Immunohistochemical detection of cross-linked fibrillar collagens in mineralized tissues is much desired for exploring the mechanisms of biomineralization in health and disease. Mineralized teeth are impossible to section when embedded in conventional media, thus limiting on-section characterization of matrix proteins by immunohistochemistry. We hypothesized that by using an especially formulated acrylic resin suitable for mineralized dental tissues, not only sectioning of teeth would be possible, but also our recently developed immunofluorescence labeling technique would be amenable to fully calcified tissues for characterization of dentinal fibrillar collagens, which remains elusive. The hypothesis was tested on fixed rodent teeth embedded in Technovit 9100 New®. It was possible to cut thin (1 ,m) sections of mineralized teeth, and immunofluorescence characterization of cross-linked type I fibrillar collagen was selected due to its abundance in dentine. Decalcified samples of teeth embedded in paraffin wax were also used to compare immunolabeling from either method using the same immunoreagents in equivalent concentrations. In the decalcified tissue sections, type I collagen labeling in the dentine along the tubules was "patchy" and the signal in the predentine was very weak. However, enhanced signal in mineralized samples with type I collagen was detected not only in the predentine but also at the limit between intertubular dentine, within the elements of the enamel organ and subgingival stroma. This report offers advances in sectioning mineralized dental tissues and allows the application of immunofluorescence not only for on-section protein detection but importantly for detecting cross-linked fibrous collagens in both soft and mineralized tissue sections. Microsc. Res. Tech. 73:741,745, 2010. © 2009 Wiley-Liss, Inc. [source]

    Seeing Through the Fog,Attaining ,Full Spectrum Dominance' with the System-of-Systems Through Operational Engineering

    NAVAL ENGINEERS JOURNAL, Issue 4 2000
    R. E. Bryant
    ABSTRACT Many discussions and articles address the business and military changes supporting implementation of Joint Vision 2010 and its system-of-systems approach. The dynamics of international military operations and commitments, coupled with accelerating information technologies, can lead to confusion and uncertainty. Customary rules recommend caution, even stopping, when confusion and uncertainty are present, yet the needed changes counsel toward accelerated efforts. Currently, systems engineering does not completely address delivering "operational war fighting capabilities," or foster commanders' confidence to fully exploit those capabilities upon delivery. Acquisition reform supports accelerating delivery of systems. Likewise, accelerated delivery of "war fighting capabilities" within any opponents' fielding and deployment cycle is imperative. Technical advances in modeling and simulation, utilization concepts, and innovative evaluation methods create an opportunity to facilitate redevelopment of doctrine, operations, and training prior to producing hardware systems. On-line simulation and evaluation tools can overcome the need for physical systems. Specifically, this paper lays out the opportunity to evolve systems engineering to another level, operational engineering, which leverages from the modeling and simulation environment, prior to hardware production. That modeling and simulation paired with coevolution of procedures and on-line analysis will produce a trained customer base, fully prepared for deliveries of "operational war fighting capabilities". [source]

    Non-invasive diagnosis of fetal sex; utilisation of free fetal DNA in maternal plasma and ultrasound

    PRENATAL DIAGNOSIS, Issue 7 2006
    Neil D. Avent
    Abstract Non-invasive prenatal diagnosis is now a clinical reality, using both early ultrasound and molecular DNA methods. Technical advances in the sensitivity of the polymerase chain reaction (PCR), coupled with the finding that significant levels of fetal DNA (ffDNA) are found in maternal plasma and serum, has enabled the ready detection of paternally inherited genes or polymorphisms. Routine maternal plasma-based genotyping is now available for the determination of fetal sex and RHD blood group status (Van der Schoot et al., 2003). This review touches briefly on the ultrasound diagnoses and then focuses on the application of free ffDNA for fetal sex determination, indicating the Y-chromosome targets exploited in this strategy and the merits of their utilisation. Copyright © 2006 John Wiley & Sons, Ltd. [source]

    The spliceosome: the most complex macromolecular machine in the cell?

    BIOESSAYS, Issue 12 2003
    Timothy W. Nilsen
    The primary transcripts, pre-mRNAs, of almost all protein-coding genes in higher eukaryotes contain multiple non-coding intervening sequences, introns, which must be precisely removed to yield translatable mRNAs. The process of intron excision, splicing, takes place in a massive ribonucleoprotein complex known as the spliceosome. Extensive studies, both genetic and biochemical, in a variety of systems have revealed that essential components of the spliceosome include five small RNAs,U1, U2, U4, U5 and U6, each of which functions as a RNA, protein complex called an snRNP (small nuclear ribonucleoprotein). In addition to snRNPs, splicing requires many non-snRNP protein factors, the exact nature and number of which has been unclear. Technical advances, including new affinity purification methods and improved mass spectrometry techniques, coupled with the completion of many genome sequences, have now permitted a number of proteomic analyses of purified spliceosomes. These studies, recently reviewed by Jurica and Moore,1 reveal that the spliceosome is composed of as many as 300 distinct proteins and five RNAs, making it among the most complex macromolecular machines known. BioEssays 25:1147,1149, 2003. © 2003 Wiley Periodicals, Inc. [source]

    HAYEKIAN ECONOMIC INFRASTRUCTURE AS A FOUNDATION FOR SUSTAINED PROSPERITY

    CONTEMPORARY ECONOMIC POLICY, Issue 1 2001
    JL Jordan
    Rather than debate whether technical advances have created a ,new economy', economists should focus on the more interesting and useful question: How do we create the sort of environment in which innovation and the productive use of new technology thrive, thereby creating economic prosperity? Such an environment is the product of government laying the appropriate infrastructure, manifested in the culture of the institutions it supports. This article discusses the features governments must incorporate into their institutions in order to build an economic infrastructure that promotes prosperity. [source]

    Genetic manipulation, whole-cell recordings and functional imaging of the sensorimotor cortex of behaving mice

    ACTA PHYSIOLOGICA, Issue 1 2009
    C. C. H. Petersen
    Abstract Sensory processing, sensorimotor integration and motor control are amongst the most basic functions of the brain and yet our understanding of how the underlying neuronal networks operate and contribute to behaviour is very limited. The relative simplicity of the mouse whisker sensorimotor system is helpful for detailed quantitative analyses of motor control and perception during active sensory processing. Recent technical advances now allow the measurement of membrane potential in awake-behaving mice, using whole-cell recordings and voltage-sensitive dye imaging. With these recording techniques, it is possible to directly correlate neuronal activity with behaviour. However, in order to obtain causal evidence for the specific contributions of different neuronal networks to behaviour, it is critical to manipulate the system in a highly controlled manner. Advances in molecular neurobiology, gene delivery and mouse genetics provide techniques capable of layer, column and cell-type specific control of gene expression in the mouse neocortex. Over the next years, we anticipate considerable advances in our understanding of brain function through measuring and manipulating neuronal activity with unprecedented precision to probe the molecular and synaptic mechanisms underlying simple forms of active sensory perception and associative learning. [source]

    Guest Lecture 9.00,9.45 Wednesday 17 September 2003

    CYTOPATHOLOGY, Issue 2003
    Peter A. Hall MD PhD FRCPath
    The past decades have seen an explosion in our knowledge of the molecular events underpinning the pathogenesis of many disease processes. Furthermore, there have been enormous technical advances with the ability to identify, clone and sequence genes and to characterize their protein products now being common place in research settings. However, despite many claims as to the utility of molecular and biochemical methods in pathology only very few laboratories employ such methods in a clinical setting. Indeed the impact of molecular medicine has been more talked about than real. Why is this? The goal of this presentation is to address this question and present some perspectives on the future of Molecular Pathology. I shall overview, for the BSCC, the current state of the technology available for gene analysis and to explore the developments needed before the mirage of molecular pathology becomes a clinical reality. [source]

    Pro-Poor Modes of Technical Integration into the Global Econom

    DEVELOPMENT AND CHANGE, Issue 4 2000
    Jeffrey James
    Recent evidence indicates that globalization based on technical advances in information technology is creating a dualistic situation in the world economy, whereby the benefits tend to accrue to a narrow group of relatively affluent countries, while the majority lag behind. The purpose of this article is to suggest a framework within which to assess an alternative, pro-poor form of technical integration into the global economy , in other words, a form of globalization that benefits the poor as well as the rich. The article focuses particularly on the role that can be played by NGOs, aid donors and national governments in this endeavour. [source]

    Natural killer cells in viral hepatitis: facts and controversies

    EUROPEAN JOURNAL OF CLINICAL INVESTIGATION, Issue 9 2010
    Mario U. Mondelli
    Eur J Clin Invest 2010; 40 (9): 851,863 Abstract Background, Hepatitis B virus (HBV) and hepatitis C virus (HCV) are major human hepatotropic pathogens responsible for a large number of chronic infections worldwide. Their persistence is thought to result from inefficiencies of innate and adaptive immune responses; however, very little information is available on the former. Natural killer (NK) cells are a major component of innate immunity and their activity is tightly regulated by several inhibitory and activating receptors. Design, In this review, we examine controversial findings regarding the role of NK cells in the pathogenesis of acute and chronic liver disease caused by HCV and HBV. Results, Recent studies built up on technical advances to identify NK receptors and their functional correlates in this setting. While NK cells seem to behave correctly during acute hepatitis, it would appear that the NK cytotoxic potential is generally conserved in chronic hepatitis, if not increased in the case of HCV. In contrast, their ability to secrete antiviral cytokines such as interferon ex vivo or after cytokine stimulation is severely impaired. Conclusions, Current evidence suggests the existence of an NK cell functional dichotomy, which may contribute to virus persistence, while maintaining low-level chronic liver inflammation. The study of liver-infiltrating NK cells is still at the very beginning, but it is likely that it will shed more light on the role of this simple and at the same time complex innate immune cell in liver disease. [source]

    Exploiting human anatomical variability as a link between genome and cognome

    GENES, BRAIN AND BEHAVIOR, Issue S1 2006
    C. M. Leonard
    Although talents and disabilities appear to run in families, direct links between genes and cognitive ability are difficult to establish. Investigators are currently searching for intermediate phenotypes with plausible links to both genome and cognome (the cognitive phenotype). Cortical anatomy could provide one such intermediate phenotype. Variation in cortical size, asymmetry and sulcal pattern is influenced by genetic variation in neurotrophic factors and can predict variation in verbal and mathematical talent. Anecdotal evidence suggests that individuals with a rare morphological variant of Sylvian fissure sometimes have superior visualization ability combined with verbal deficits. Documentation of such ,cognitive cortical syndromes' might prove as genetically informative as the identification of dysmorphic syndromes associated with mental retardation. A necessary prerequisite for the establishment of such syndromes is a reliable technique for the identification of cortical patterns. Recent technical advances in software for automatically labeling and measuring cortical sulci now provide the possibility of establishing standard measures for their shape, size and location. Such measures are a prerequisite for genetic studies of cortical patterns that could illuminate the neurodevelopmental pathways by which genes affect cognitive ability. [source]

    Tissue elasticity imaging for diagnosis of prostate cancer: A preliminary report

    INTERNATIONAL JOURNAL OF UROLOGY, Issue 12 2006
    NAOTO MIYANAGA
    Background: Elastography is a diagnostic imaging technique that evaluates the hardness of a lesion. It is expected to become a new diagnostic modality for prostate cancer. The aim of this study was to examine the usefulness of elastography in the diagnosis of prostate cancer. Methods: A total of 29 patients with untreated, histologically proven prostate cancer were examined using an elastographic imaging technique. The patient was scanned in the dorsosacral position and the prostate was manually compressed with a transrectal ultrasonic probe. The echo signals from inside the tissue were measured before and after the tissue compression and an elastogram was generated by spatially differentiation of the displacement distribution. Results: Elastography depicted the cancer lesion as a harder tissue than the surrounding normal prostatic tissue. Elastography successfully detected 93% (27 patients) of the untreated prostate cancer lesions. Detection of cancer lesions using elastography was significantly higher than by digital rectal examination (59%; 17 patients) and transrectal ultrasonography (55%; 16 patients). Conclusion: Elastography has great potential as a useful modality for diagnosis of prostate cancer. Differentiation between cancerous and normal tissues can be expected to become more accurate as a result of technical advances in the quantification of tissue hardness. [source]

    Telemedicine and teledermatology: Past, present and future

    JOURNAL DER DEUTSCHEN DERMATOLOGISCHEN GESELLSCHAFT, Issue 2 2008
    Elisabeth M.T. Wurm
    Summary Telemedicine is an emerging field within medicine with potential to revolutionize the delivery of health care. It is defined as the use of telecommunication technologies to transfer medical information.Teledermatology is a category of telemedicine. Early experiments were already made at the beginning of the 20th century, the breakthrough happened in the nineties because of the rapid progress of telecommunication technology. The latest advance is mobile telemedicine which is characterized by the use of mobile devices such as mobile phone and PDA (personal digital assistant).Advantages of telemedicine are the possibility of remote patient-care as well as the easy and fast access to expert opinions and education. This can either happen through exchange of previously stored data/images (store-and-forward method) or in real time. Since our society is increasingly becoming interconnected via technical advances, it is essential that medicine also has an objective understanding of the topic. [source]

    Magnetic resonance imaging near metal implants

    JOURNAL OF MAGNETIC RESONANCE IMAGING, Issue 4 2010
    K.M. Koch PhD
    Abstract The desire to apply magnetic resonance imaging (MRI) techniques in the vicinity of embedded metallic hardware is increasing. The soft-tissue contrast available with MR techniques is advantageous in diagnosing complications near an increasing variety of MR-safe metallic hardware. Near such hardware, the spatial encoding mechanisms utilized in conventional MRI methods are often severely compromised. Mitigating these encoding difficulties has been the focus of numerous research investigations over the past two decades. Such approaches include view-angle tilting, short echo-time projection reconstruction acquisitions, single-point imaging, prepolarized MRI, and postprocessing image correction. Various technical advances have also enabled the recent development of two alternative approaches that have shown promising clinical potential. Here, the physical principals and proposed solutions to the problem of MRI near embedded metal are discussed. J. Magn. Reson. Imaging 2010;32:773,787. © 2010 Wiley-Liss, Inc. [source]

    Use of Spinal Cord Stimulation in the Treatment of Phantom Limb Pain: Case Series and Review of the Literature

    PAIN PRACTICE, Issue 5 2010
    Ashwin Viswanathan MD
    Abstract Introduction: Despite technical advances in spinal cord stimulation (SCS), there is a paucity of recent literature regarding SCS for phantom limb pain. Methods: Between January 2003 and May 2008, four patients at M.D. Anderson Cancer Center underwent SCS for intractable phantom limb pain. A retrospective chart review was performed to assess outcomes and complications. A PubMed search was performed to review previously published series regarding the efficacy of SCS for phantom limb pain. Results: Postoperatively, all patients subjectively reported excellent pain relief (>80%). Patients were all followed with the Brief Pain Inventory. Patients 1 to 3 each reported a two-point decrease in their usual amount of pain using the numerical rating scale. Patient 4's numerical pain scale was unchanged. When using an 11-point scale to assess other symptomology along 10 dimensions, patients 1 to 3 demonstrated a decrease in their total symptom score by 13, 14, and 4 points, respectively. Patient 4 reported an increase by 5 points in his total symptom score. With regard to complications, patient 2 developed an allergic dermatitis to the generator requiring revision with a polyfluoroethylene (GorTex) pouch. Patient 3 developed a surgical site infection after an implantable pulse generator change. Patients 2 to 4 were very satisfied with their stimulator and would choose to undergo implantation again, with patient 1 having an equivocal response. Conclusions: For selected patients who have not obtained adequate relief with medical management, SCS for phantom limb pain can prove an effective intervention.,, [source]

    Excited-state structure by time-resolved X-ray diffraction

    ACTA CRYSTALLOGRAPHICA SECTION A, Issue 2 2002
    Christopher D. Kim
    X-ray crystallography has traditionally been limited to the study of the ground-state structure of molecules and solids. Recent technical advances are removing this limitation as demonstrated here by a time-resolved stroboscopic study of the photo-induced 50,µs lifetime excited triplet state of the [Pt2(pop)4]4, ion [pop = pyrophosphate, (H2P2O5)2,], performed at helium temperatures with synchrotron radiation. The shortening of the Pt,Pt bond by 0.28,(9),Å upon excitation is compatible with the proposed mechanism involving promotion of a Pt,Pt antibonding d,* electron to a weakly bonding p orbital. The contraction is accompanied by a 3° molecular rotation. The time-resolved diffraction technique described here is applicable to reversible light-driven processes in the crystalline solid state. [source]

    Rice straw management: the big waste

    BIOFUELS, BIOPRODUCTS AND BIOREFINING, Issue 2 2010
    Laura Domínguez-Escribá
    Abstract Rice is one of the major foods, with consumption per capita of 65 kg per year, accounting for 20% of global ingested calories. Rice production is expected to increase significantly in the near future in order to feed the rising human population. Today, paddy rice culture produces 660 million tons of rice, along with 800 million dry tons of agricultural residues, mainly straw. This biomass is managed predominantly through rice straw burning (RSB) and soil incorporation strategies. RSB leads to significant air pollution and has been banned in some regions, whereas stubble and straw incorporation into wet soil during land preparation is associated with enhanced methane emissions. Therefore, both strategies have important deleterious environmental effects and fail to take advantage of the huge energy potential of rice straw. Using rice straw as lignocellulosic biomass to produce bioethanol would appear to be a promising and ambitious goal to both manage this agricultural waste and to produce environmentally friendly biofuel. Technical difficulties, however, associated with the conversion of lignocellulose into simple, fermentable sugars, have hampered the massive development of rice-straw-derived bioethanol. Recent technical advances in straw pre-treatment, hydrolysis and fermentation may, however, overcome these limitations and facilitate a dramatic turnover in biofuels production in the near future. Copyright © 2009 Society of Chemical Industry and John Wiley & Sons, Ltd [source]

    Fluorescence In Situ Hybridization (FISH) in Diagnostic and Investigative Neuropathology

    BRAIN PATHOLOGY, Issue 1 2002
    Christine E. Fuller MD;
    Over the last decade, fluorescence in situ hybridization (FISH) has emerged as a powerful clinical and research tool for the assessment of target DNA dosages within interphase nuclei. Detectable alterations include aneusomies, deletions, gene amplifications, and translocations, with primary advantages to the pathologist including its basis in morphology, its applicability to archival, formalin-fixed paraffin-embedded (FFPE) material, and its similarities to immunohistochemistry. Recent technical advances such as improved hybridization protocols, markedly expanded probe availability resulting from the human genome sequencing initiative, and the advent of high-throughput assays such as gene chip and tissue microarrays have greatly enhanced the applicability of FISH. In our lab, we currently utilize only a limited battery of DNA probes for routine diagnostic purposes, with determination of chromosome 1p and 19q dosage in oligodendroglial neoplasms representing the most common application. However, research applications are numerous and will likely translate into a growing list of clinically useful markers in the near future. In this review, we highlight the advantages and disadvantages of FISH and familiarize the reader with current applications in diagnostic and investigative neuropathology. [source]

    Defining the length of stay following percutaneous coronary intervention,

    CATHETERIZATION AND CARDIOVASCULAR INTERVENTIONS, Issue 7 2009
    An expert consensus document from the society for cardiovascular angiography, interventions endorsed by the American college of cardiology foundation
    Abstract Percutaneous coronary intervention (PCI) is the most common method of coronary revascularization. Over time, as operator skills and technical advances have improved procedural outcomes, the length of stay (LOS) has decreased. However, standardization in the definition of LOS following PCI has been challenging due to significant physician, procedural, and patient variables. Given the increased focus on both patient safety as well as the cost of medical care, system process issues are a concern and provide a driving force for standardization while simultaneously maintaining the quality of patient care. This document: (1) provides a summary of the existing published data on same-day patient discharge following PCI, (2) reviews studies that developed methods to predict risk following PCI, and (3) provides clarification of the terms used to define care settings following PCI. In addition, a decision matrix is proposed for the care of patients following PCI. It is intended to provide both the interventional cardiologist as well as the facilities, in which they are associated, a guide to allow for the appropriate LOS for the appropriate patient who could be considered for early discharge or outpatient intervention. © 2009 Wiley-Liss, Inc. [source]

    Proteomics meets microbiology: technical advances in the global mapping of protein expression and function

    CELLULAR MICROBIOLOGY, Issue 8 2005
    Carolyn I. Phillips
    Summary The availability of complete genome sequences for a large number of pathogenic organisms has opened the door for large-scale proteomic studies to dissect both protein expression/regulation and function. This review highlights key proteomic methods including two-dimensional gel electrophoresis, reference mapping, protein expression profiling and recent advances in gel-free separation techniques that have made a significant impact on the resolution of complex proteomes. In addition, we highlight recent developments in the field of chemical proteomics, a branch of proteomics aimed at functionally profiling a proteome. These techniques include the development of activity-based probes and activity-based protein profiling methods as well as the use of synthetic small molecule libraries to screen for pharmacological tools to perturb basic biological processes. This review will focus on the applications of these technologies to the field of microbiology. [source]

    Development of cortical GABAergic circuits and its implications for neurodevelopmental disorders

    CLINICAL GENETICS, Issue 1 2007
    G Di Cristo
    GABAergic interneurons powerfully control the function of cortical networks. In addition, they strongly regulate cortical development by modulating several cellular processes such as neuronal proliferation, migration, differentiation and connectivity. Not surprisingly, aberrant development of GABAergic circuits has been implicated in many neurodevelopmental disorders including schizophrenia, autism and Tourette's syndrome. Unfortunately, efforts directed towards the comprehension of the mechanisms regulating GABAergic circuits formation and function have been impaired by the strikingly heterogeneity, both at the morphological and functional level, of GABAergic interneurons. Recent technical advances, including the improvement of interneurons-specific labelling techniques, have started to reveal the basic principles underlying this process. This review summarizes recent findings on the mechanisms underlying the construction of GABAergic circuits in the cortex, with a particular focus on potential implications for brain diseases with neurodevelopmental origin. [source]