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991.
Löfblom J Kronqvist N Uhlén M Ståhl S Wernérus H 《Journal of applied microbiology》2007,102(3):736-747
AIMS: The study was conducted with an aim to optimize the transformation efficiency of the Gram-positive bacterium Staphylococcus carnosus to a level that would enable the creation of cell surface displayed combinatorial protein libraries. METHODS AND RESULTS: We have thoroughly investigated a number of different parameters for: (i) the preparation of electrocompetent cells; (ii) the treatment of cells before electroporation; (iii) the electroporation step itself; and (iv) improved recovery of transformed cells. Furthermore, a method for heat-induced inactivation of the host cell restriction system was devised to allow efficient transformation of the staphylococci with DNA prepared from other species, such as Escherichia coli. Previously described protocols for S. carnosus, giving transformation frequencies of approximately 10(2) transformants per transformation could be improved to reproducible procedures giving around 10(6) transformants for a single electroporation event, using plasmid DNA prepared from either S. carnosus or E. coli. The transformed staphylococcal cells were analysed using flow cytometry to verify that the entire cell population retained the introduced plasmid DNA and expressed the recombinant protein in a functional form on the cell surface at the same level as the positive control population. CONCLUSIONS: The results demonstrate that the transformation frequency for S. carnosus could be dramatically increased through optimization of the entire electroporation process, and that the restriction barrier for interspecies DNA transfer, could be inactivated by heat treatment of the cells prior to electroporation. SIGNIFICANCE AND IMPACT OF THE STUDY: The generation of large combinatorial protein libraries, displayed on the surface of S. carnosus can be envisioned in the near future, thus dramatically improving the selection compared with the traditional biopanning procedure used in phage display. 相似文献
992.
993.
With the completion of the human genome project (HUGO) during recent years, gene function, protein abundance and expression patterns in tissues and cell types have emerged as central areas for the scientific community. A mapped human proteome will extend the value of the genome sequence and large-scale efforts aiming at elucidating protein localization, abundance and function are invaluable for biomarker and drug discovery. This research area, termed proteomics, is more demanding than any genome sequencing effort and to perform this on a wide scale is a highly diverse task. Therefore, the proteomics field employs a range of methods to examine different aspects of proteomics including protein localization, protein-protein interactions, posttranslational modifications and alteration of protein composition (e.g. differential expression) in tissues and body fluids. Here, some of the most commonly used methods, including chromatographic separations together with mass spectrometry and a number of affinity proteomics concepts are discussed and exemplified. 相似文献
994.
Isocitrate dehydrogenase [IDH; EC 1.1.1.42] from the thermoacidophilic archaeon Thermoplasma acidophilum (TaIDH) showed high thermal stability with an apparent melting temperature, T
m, of 82.2 and 84.5°C at pH 7.5 and 5.8, respectively. Based on structural alignment of TaIDH with IDH from Aeropyrum pernix (ApIDH) and Archaeoglobus
fulgidus (AfIDH) residues forming an aromatic cluster in the clasp-domain thought to strengthen the dimer interface in ApIDH and AfIDH were identified in the former enzyme. Moreover, TaIDH had a shortened N-terminus that may protect the enzyme from thermal denaturation. The enzyme activity of TaIDH was highest at 70°C. The pH-activity profile was bell-shaped with an optimum shifted to a lower pH compared to AfIDH. The activity of TaIDH was influenced by changes in pH with a three-fold reduction in activity when the pH was shifted from the pH-optimum at
7.5 to pH 5.8. However, the specific activity at pH 5.8 was still high when compared with AfIDH. The reduction in activity at pH 5.8 was not due to instability of the enzyme as the T
m of TaIDH was higher at pH 5.8 than at 7.5 and the enzyme retained 91% of its activity after incubation at 1 h at pH 5 and 60°C.
The difference in the pH-profile of TaIDH in comparison with AfIDH may thus be related to the pK
as of their catalytic residues involved in the initial proton abstraction and the final proton donation during the catalysis
of oxidative decarboxylation of isocitrate to 2-oxoglutarate and reduced coenzyme. 相似文献
995.
Stokke R Karlström M Yang N Leiros I Ladenstein R Birkeland NK Steen IH 《Extremophiles : life under extreme conditions》2007,11(3):481-493
Isocitrate dehydrogenase from Archaeoglobus fulgidus (AfIDH) has an apparent melting temperature (T(m)) of 98.5 degrees C. To identify the structural features involved in thermal stabilization of AfIDH, the structure was solved to 2.5 A resolution. AfIDH was strikingly similar to mesophilic IDH from Escherichia coli (EcIDH) and displayed almost the same number of ion pairs and ionic networks. However, two unique inter-domain networks were present in AfIDH; one three-membered ionic network between the large and the small domain and one four-membered ionic network between the clasp and the small domain. The latter ionic network was presumably reduced in size when the clasp domain of AfIDH was swapped with that of EcIDH and the T (m) decreased by 18 degrees C. Contrarily, EcIDH was only stabilized by 4 degrees C by the clasp domain of AfIDH, a result probably due to the introduction of a unique inter-subunit aromatic cluster in AfIDH that may strengthen the dimeric interface in this enzyme. A unique aromatic cluster was identified close to the N-terminus of AfIDH that could provide additional stabilization of this region. Common and unique heat adaptive traits of AfIDH with those recently observed for hyperthermophilic IDH from Aeropyrum pernix (ApIDH) and Thermotoga maritima (TmIDH) are discussed herein. 相似文献
996.
Induced Shift in Ecosystem Productivity? Extensive Scale Effects of Abundant Large Herbivores 总被引:3,自引:0,他引:3
Kari Anne Bråthen Rolf A. Ims Nigel G. Yoccoz Per Fauchald Torkild Tveraa Vera H. Hausner 《Ecosystems》2007,10(5):773-789
Abundant large herbivores can strongly alter vegetation composition, shifting the ecosystem into a lasting state of changed
productivity. Previous studies of the effects of abundant reindeer on alpine and arctic vegetation have yielded equivocal
results, probably due to differing environmental contexts. To overcome context dependency we devised a large-scale survey
in the region of Finnmark, northern Norway, possessing some of the most densely stocked reindeer herds in the world. The effects
of reindeer abundance on summer pasture vegetation were assessed by employing a quasi-experimental design, including site
fertility as a potential modifier of the reindeer–vegetation interaction. The study design comprised ten pairs of neighboring
management districts (encompassing 18,003 km2), where over the two last decades a high-density district on average had reindeer densities more than twice as high and calf
weights consistently lower than the low-density district. The abundance of different plant functional groups, ranging from
those having facilitating to retarding effects on ecosystem productivity, were quantified by the point intercept method on
plots selected according to a hierarchical, stratified random sampling design. Species with strong retarding effects on ecosystem
productivity (for example, ericoids) were by far the most abundant. However, we found no consistent effects of reindeer density
on their abundance. The most consistent differences between high- and low-density districts were found in plant functional
groups with facilitating to neutral effects on ecosystem productivity. In particular, the abundance of N-facilitators, large
dicotyledons and grasses were substantially reduced in the high-density districts. However, this reduction was restricted
to fertile sites. Thus, reindeer when present at high densities have homogenized the biomass of palatable plants across environmental
productivity gradients according to predictions from exploitation ecosystem models. Such reduction of plants with facilitating
to neutral effects on ecosystem productivity indicates a reduced state of ecosystem productivity in high-density districts.
Electronic supplementary material: The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
997.
The holy grail of infection biology is to study a pathogen within its natural infectious environment, the living host. Advances in in vivo imaging techniques have begun to introduce the possibility to visualize, in real time, infection progression within a living model. In this review we detail the current advancements and knowledge in multiphoton microscopy and how it can be related to the field of microbial infections. This technology is a new and very valuable tool for in vivo imaging, and using this technique it is possible to begin to study various microbes within their natural infectious environment - the living host. 相似文献
998.
Månsson LE Melican K Boekel J Sandoval RM Hautefort I Tanner GA Molitoris BA Richter-Dahlfors A 《Cellular microbiology》2007,9(2):413-424
By combining intravital multiphoton microscopy and bacterial genetics we have developed a technique enabling real-time imaging of bacterial proliferation and tissue responses in a live animal. Spatial and temporal control of the infection process was achieved by microinjecting GFP(+)-expressing uropathogenic Escherichia coli (UPEC) into tubules of exteriorized kidneys in live rats. GFP(+) was introduced in the clinical UPEC strain CFT073 as a single-copy chromosomal gene fusion. Within hours, bacterial colonization was accompanied by marked ischaemic effects, perivascular leakage, loss of tubular integrity and localized recruitment of immune cells. The pathophysiology was altered in response to an isogenic bacterial strain lacking the exotoxin haemolysin, revealing the subtle and temporal roles of bacterial virulence factors in vivo. Microdissection and RNA extraction of the injected nephron allowed molecular analysis of prokaryotic and eukaryotic gene expression. The techniques described here can be applied to study the integrated cell communication evoked by a variety of bacterial pathogens, assisting in the design of strategies to combat bacterial infections. 相似文献
999.
Jeppe Emmersen Anna M Heidenblut Annabeth Laursen Høgh Stephan A Hahn Karen G Welinder Kåre L Nielsen 《BMC bioinformatics》2007,8(1):92
Background
During gene expression analysis by Serial Analysis of Gene Expression (SAGE), duplicate ditags are routinely removed from the data analysis, because they are suspected to stem from artifacts during SAGE library construction. As a consequence, naturally occurring duplicate ditags are also removed from the analysis leading to an error of measurement. 相似文献1000.