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961.
Knols BG Hood-Nowotny RC Bossin H Franz G Robinson A Mukabana WR Kemboi SK 《Nature biotechnology》2006,24(9):1067-8; discussion 1068
962.
Essential to salmonellae pathogenesis is an export device called the type III secretion system (TTSS), which mediates the transfer of bacterial effector proteins from the bacterial cell into the host cell cytoplasm. Once inside the host cell, these effectors are then capable of altering a variety of host cellular functions in order to promote bacterial survival and colonization. SspH1 is a Salmonella enterica serovar Typhimurium TTSS effector that localizes to the mammalian nucleus and down-modulates production of proinflammatory cytokines by inhibiting nuclear factor (NF)-kappaB-dependent gene expression. To identify mammalian binding partners of SspH1 a yeast two-hybrid screen against a human spleen cDNA library was performed. It yielded a serine/threonine protein kinase called protein kinase N 1 (PKN1). The leucine-rich repeat domain of SspH1 was demonstrated to mediate this interaction and also inhibition of NF-kappaB-dependent gene expression. This suggested that PKN1 may play a role in modulation of the NF-kappaB signalling pathway. Indeed, we found that expression of constitutively active PKN1 in mammalian cells results in a decrease, while depletion of PKN1 by RNA interference causes an increase in NF-kappaB-dependent reporter gene expression. These data indicate that SspH1 may inhibit the host's inflammatory response by interacting with PKN1. 相似文献
963.
Martin Carr Samuel Cotton David W Rogers Andrew Pomiankowski Hazel Smith Kevin Fowler 《BMC developmental biology》2006,6(1):29-10
Background
In stalk-eyed flies (Diopsidae) the eyes and antennae are laterally displaced at the ends of elongated eyestalks. Eyespan and the degree of sexual dimorphism in eyespan vary considerably between species and several sexually dimorphic species show sexual selection through female mate preference for males with exaggerated eyespan. The genes on which selection acts to regulate eyespan remain to be identified. This could be achieved by comparing gene expression during eyestalk development in males and females if the sex of pre-adult flies could be reliably assigned. Here we describe two techniques, one morphological and one microsatellite-based, that identify the sex of stalk-eyed fly larvae and pupae. 相似文献964.
Febrile seizures, which occur in young children, have long been known to have a major inherited component. Mutations in some genes that encode sodium channel and GABA(A) receptor subunits have been found in a few families affected by febrile seizures. These mutations account only for a minority of cases, and much remains to be learnt about the molecular architecture of febrile seizures. A rare inherited cause--a mutation in the GABA(A) receptor subunit GABRG2 gene--has been recently shown to cause a temperature-dependent intracellular trafficking defect. This is an important step in unravelling the molecular pathogenesis of this common childhood disorder. 相似文献
965.
Brook L Nunn Scott A Shaffer Alexander Scherl Byron Gallis Manhong Wu Samuel I Miller David R Goodlett 《Briefings in Functional Genomics and Prot》2006,5(2):154-168
Shotgun proteomics is rapidly becoming one of the most efficient and popular tools to examine protein expression in cells. Numerous laboratories now have a wide array of low- and high-performance mass spectrometry instrumentation necessary to complete proteome-wide projects. Often these laboratories have time and financial constraints that prohibit all projects from being conducted on high-performance state-of-the-art mass spectrometers. Here, we compare shotgun proteomic results using a direct 'lyse, digest and analyse' approach on a high-performance mass spectrometer (i.e. the LTQ-FT) with the results from a much lower-performance instrument (i.e. the LCQ-DUO) where, for the latter, various traditional protein pre-fractionation steps and gas-phase fractionation were used to increase the proteome coverage. Our results demonstrate that shotgun proteomic analyses conducted on the lower-performance LCQ-DUO mass spectrometer could adequately characterize a PhoP constitutive strain of Salmonella typhimurium if proteome pre-fractionation steps and gas-phase fractionation were included. 相似文献
966.
Ghosh A Sinha S Dharmadhikari JA Roy S Dharmadhikari AK Samuel J Sharma S Mathur D 《Physical biology》2006,3(1):67-73
We investigate the physics of an optically driven micromotor of biological origin. When a single, live red blood cell (RBC) is placed in an optical trap, the normal biconcave disc shape of the cell is observed to fold into a rod-like shape. If the trapping laser beam is circularly polarized, the folded RBC rotates. A model based on geometric considerations, using the concept of buckling instabilities, captures the folding phenomenon; the rotation of the cell is rationalized using the Poincaré sphere. Our model predicts that (i) at a critical power of the trapping laser beam the RBC shape undergoes large fluctuations, and (ii) the torque that is generated is proportional to the power of the laser beam. These predictions are verified experimentally. We suggest a possible mechanism for the emergence of birefringent properties in the RBC in the folded state. 相似文献
967.
Branched peptide amphiphile (PA) molecules bearing biological epitopes were designed and synthesized using orthogonal protecting group chemistry on amine groups at lysine residues. These molecules self-assemble into high-aspect-ratio cylindrical nanofibers, and their branched architecture enhances accessibility of epitopes for protein binding and also allows the presentation of more than one epitope in a single molecule. The RGDS cell adhesion epitope was used as a model bioactive signal on PA molecules for potential biomedical applications. Aggregation of the branched PA molecules into nanofibers was demonstrated by TEM and through shifts in the protonation profiles of peripheral amines. These systems also formed self-supporting gels in the presence of physiological fluids and other biologically relevant macromolecules such as synovial fluid and DNA, an important property for their potential use in medicine. Fluorescence anisotropy measurements on the PAs with tryptophan residues were performed to examine the effect of branching on packing and mobility of the peptides in the self-assembled nanofibers. The mobility of tryptophan residues was observed to be restricted upon packing of PA molecules into nanofibers. However, relative to linear analogues, branched molecules retain more mobility in the supramolecular aggregates. 相似文献
968.
The role of gamma interferon in antimicrobial immunity 总被引:9,自引:0,他引:9
Gamma interferon (IFN-gamma) is an important cytokine in the host defense against infection by viral and microbial pathogens. IFN-gamma induces a variety of physiologically significant responses that contribute to immunity. Treatment of animal cells with IFN-gamma or infection with viral or microbial pathogens leads to changes in the level of expression of several target genes as revealed by DNA microarray analyses. The signaling pathways leading to the induction of IFN-gamma-regulated gene products and, in some cases, their biochemical functions have been defined in exquisite detail. Studies of transgenic mutant mice deficient in proteins of the IFN-gamma response pathway firmly establish the importance of IFN-gamma in immunity. 相似文献
969.
Bertucci F Loriod B Nasser V Granjeaud S Tagett R Braud AC Patrice V Houlgatte R Daniel B Nguyen C 《Comptes rendus biologies》2003,326(10-11):1031-1039
Clinically very heterogeneous, breast cancer prognosis and treatment response are difficult to predict with the current prognostic histoclinical parameters. Mammary oncogenesis remains poorly understood. DNA array technology allows the simultaneous analysis of the mRNA expression levels of thousands of genes in biological samples. Applied to breast tumours, expression profiles will boost our knowledge of oncogenesis, will offer new potential therapeutic targets and new prognostic and predictive markers. Today, the most accessible approach for academic research teams is that of Nylon DNA arrays with radioactive detection, which in addition allows profiling of small clinical samples. 相似文献
970.
Forster S 《Immunology and cell biology》2012,90(5):520-527
The interferon (IFN) family and the type-I IFNs specifically have an important and well-characterized role in antiviral defence, immune modulation and cell-cycle control and are regularly applied in the clinical context. Advances in high-content technologies have facilitated an enhanced understanding of the global IFN response capable of being induced. Recent application of these technologies is improving our understanding of the specificity and subtleties associated with this response. This review considers our current understanding of the temporal gene profile induced through IFN stimulation across a diversity of disease conditions including autoimmune diseases, bacterial and viral infections. Understanding these signatures, the disease-specific differences and the biological effects induced has the potential to facilitate IFN-driven therapeutic development. 相似文献