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991.
BONHOEFFER Tobias 《生命科学》2008,20(5):689-691
大脑最基本性质是快速适应周围环境改变的能力,这主要是通过改变各个神经细胞之间的连接来实现的。有多种不同机制可以调节突触的强度,包括突触效率的稳态调节、突触增强和减弱的形态学表现以及钙在其中的作用。当开始了解这些突触改变的细胞生物学机制的时候,也应该考虑这种突触可塑性在完整大脑中的功能意义。因此,应用最新的成像手段来研究经验如何影响皮层环路中突触的改变,尤其是在体双光子显微技术可以在新皮层的单个神经元水平上研究形态和功能可塑性。这些实验将逐渐填补传统的细胞水平和系统水平研究之间的空白,并将有助于更全面充分地理解突触可塑性这种现象及其在皮层功能乃至动物行为中所起的作用。 相似文献
992.
D. R. Alves A. Gaudion J. E. Bean P. Perez Esteban T. C. Arnot D. R. Harper W. Kot L. H. Hansen M. C. Enright A. Tobias A. Jenkins 《Applied and environmental microbiology》2014,80(21):6694-6703
Biofilms are major causes of impairment of wound healing and patient morbidity. One of the most common and aggressive wound pathogens is Staphylococcus aureus, displaying a large repertoire of virulence factors and commonly reduced susceptibility to antibiotics, such as the spread of methicillin-resistant S. aureus (MRSA). Bacteriophages are obligate parasites of bacteria. They multiply intracellularly and lyse their bacterial host, releasing their progeny. We isolated a novel phage, DRA88, which has a broad host range among S. aureus bacteria. Morphologically, the phage belongs to the Myoviridae family and comprises a large double-stranded DNA (dsDNA) genome of 141,907 bp. DRA88 was mixed with phage K to produce a high-titer mixture that showed strong lytic activity against a wide range of S. aureus isolates, including representatives of the major international MRSA clones and coagulase-negative Staphylococcus. Its efficacy was assessed both in planktonic cultures and when treating established biofilms produced by three different biofilm-producing S. aureus isolates. A significant reduction of biofilm biomass over 48 h of treatment was recorded in all cases. The phage mixture may form the basis of an effective treatment for infections caused by S. aureus biofilms. 相似文献
993.
Coding sequence evolution was once thought to be the result of selection on optimal protein function alone. Selection can, however, also act at the RNA level, for example, to facilitate rapid translation or ensure correct splicing. Here, we ask whether the way DNA works also imposes constraints on coding sequence evolution. We identify nucleosome positioning as a likely candidate to set up such a DNA-level selective regime and use high-resolution microarray data in yeast to compare the evolution of coding sequence bound to or free from nucleosomes. Controlling for gene expression and intra-gene location, we find a nucleosome-free "linker" sequence to evolve on average 5-6% slower at synonymous sites. A reduced rate of evolution in linker is especially evident at the 5' end of genes, where the effect extends to non-synonymous substitution rates. This is consistent with regular nucleosome architecture in this region being important in the context of gene expression control. As predicted, codons likely to generate a sequence unfavourable to nucleosome formation are enriched in linker sequence. Amino acid content is likewise skewed as a function of nucleosome occupancy. We conclude that selection operating on DNA to maintain correct positioning of nucleosomes impacts codon choice, amino acid choice, and synonymous and non-synonymous rates of evolution in coding sequence. The results support the exclusion model for nucleosome positioning and provide an alternative interpretation for runs of rare codons. As the intimate association of histones and DNA is a universal characteristic of genic sequence in eukaryotes, selection on coding sequence composition imposed by nucleosome positioning should be phylogenetically widespread. 相似文献
994.
Ayla Schilly Peter Risser Erhard Ebmeyer Lorenz Hartl Jochen C. Reif Tobias Würschum Thomas Miedaner 《Journal of Phytopathology》2011,159(6):411-416
Septoria tritici blotch (STB) is one of the most important leaf diseases in wheat worldwide. Objectives of this study were (i) to compare inoculation and natural infection; (ii) to evaluate the level of adult‐plant resistance to STB using four isolates; and (iii) to analyse environmental stability of 24 winter wheat (Triticum aestivum L.) varieties in inoculated vs. non‐inoculated field trials across 3 years including nine environments (location × year combinations). Field trials were sown in split‐plot design inoculated with four aggressive isolates of S. tritici plus one non‐inoculated variant as main factor and 24 wheat varieties as subfactor. Septoria tritici blotch severity was visually scored as percentage flag leaves covered with lesions bearing pycnidia. Overall STB rating ranged from 8% (Solitär) to 63% (Rubens) flag leaf area affected, resulting in significant (P < 0.01) genotypic variance. Variance of genotype × environment interaction amounted to approximately 50% of the genotypic variance. Genotype × isolate interaction variance was significant too (P < 0.01) but of minor importance. Therefore, environmental stability of varieties should be a major breeding goal. The varieties Solitär, History and Florett were most resistant and stable as revealed by a regression approach, and the susceptible varieties were generally unstable. Hence, STB resistance and stability are correlated (P < 0.01), but there were some exceptions (Tuareg, Ambition). Promising candidates for an environmentally stable, effective adult‐plant resistance have been identified. 相似文献
995.
Würschum T Maurer HP Kraft T Janssen G Nilsson C Reif JC 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2011,123(7):1121-1131
Recent results indicate that association mapping in populations from applied plant breeding is a powerful tool to detect QTL
which are of direct relevance for breeding. The focus of this study was to unravel the genetic architecture of six agronomic
traits in sugar beet. To this end, we employed an association mapping approach, based on a very large population of 924 elite
sugar beet lines from applied plant breeding, fingerprinted with 677 single nucleotide polymorphism (SNP) markers covering
the entire genome. We show that in this population linkage disequilibrium decays within a short genetic distance and is sufficient
for the detection of QTL with a large effect size. To increase the QTL detection power and the mapping resolution a much higher
number of SNPs is required. We found that for QTL detection, the mixed model including only the kinship matrix performed best,
even in the presence of a considerable population structure. In genome-wide scans, main effect QTL and epistatic QTL were
detected for all six traits. Our full two-dimensional epistasis scan revealed that for complex traits there appear to be epistatic
master regulators, loci which are involved in a large number of epistatic interactions throughout the genome. 相似文献
996.
Wendholt D Spilker C Schmitt A Dolnik A Smalla KH Proepper C Bockmann J Sobue K Gundelfinger ED Kreutz MR Boeckers TM 《The Journal of biological chemistry》2006,281(19):13805-13816
ProSAPs/Shanks are a family of proteins that have a major scaffolding function for components of the postsynaptic density (PSD) of excitatory brain synapses. Members of the family harbor a variety of domains for protein-protein interactions, one of which is a unique PDZ domain that differs significantly from those of other proteins. We have identified a novel binding partner for this PDZ domain, termed ProSAPiP1, that is highly enriched in the PSD and shares significant sequence homology with the PSD protein PSD-Zip70. Both molecules code for a Fez1 domain that can be found in a total of four related proteins. ProSAPiP1 is widely expressed in rat brain and co-localizes with ProSAP2/Shank3 in excitatory spines and synapses. ProSAP2/Shank3 co-immunoprecipitates with ProSAPiP1 but not with PSD-Zip70. Both proteins, however, bind and recruit SPAR to synapses with a central coiled-coil region that harbors a leucine zipper motif. This region is also responsible for homo- and heteromultimerization of ProSAPiP1 and PSD-Zip70. Thus, ProSAPiP1 and PSD-Zip70 are founders of a novel family of scaffolding proteins, the "Fezzins," which adds further complexity to the organization of the PSD protein network. 相似文献
997.
Chemical synapses are asymmetric cell junctions that mediate communication between neurons. Multidomain scaffolding proteins of the Shank family act as major organizing elements of the "postsynaptic density"--that is, the cytoskeletal protein matrix associated with the postsynaptic membrane. A recent study has shown that the C-terminal sterile alpha-motif or "SAM domain" of Shank3 (also known as ProSAP2) can form two-dimensional sheets of helical fibers. Assembly and packaging of these fibers are markedly enhanced by the presence of Zn2+ ions. Zn2+ can be released together with glutamate from synaptic vesicles and can enter the postsynaptic cell through specific ionotropic receptors. Based on these observations, we propose a new model of synaptic plasticity in which Zn2+ influx directly and instantly modulates the structure and function of the postsynaptic density. 相似文献
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