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971.
Brüser T 《Applied microbiology and biotechnology》2007,76(1):35-45
The biotechnological production of recombinant proteins is challenged by processes that decrease the yield, such as protease
action, aggregation, or misfolding. Today, the variation of strains and vector systems or the modulation of inducible promoter
activities is commonly used to optimize expression systems. Alternatively, aggregation to inclusion bodies may be a desired
starting point for protein isolation and refolding. The discovery of the twin-arginine translocation (Tat) system for folded
proteins now opens new perspectives because in most cases, the Tat machinery does not allow the passage of unfolded proteins.
This feature of the Tat system can be exploited for biotechnological purposes, as expression systems may be developed that
ensure a virtually complete folding of a recombinant protein before purification. This review focuses on the characteristics
that make recombinant Tat systems attractive for biotechnology and discusses problems and possible solutions for an efficient
translocation of folded proteins. 相似文献
972.
Cedar M. Chittenden Kevin G. Butterworth K. Fiona Cubitt Melinda C. Jacobs Adrian Ladouceur David W. Welch R. Scott McKinley 《Environmental Biology of Fishes》2009,84(1):129-140
Many coho salmon stocks (Oncorhynchus kisutch) have been in decline during the past three decades. Canada’s most endangered salmon stock, the Thompson River coho salmon,
is being studied extensively as managers attempt to reverse these population declines. Investigators are using acoustic telemetry
to track the migratory behaviour and survival of the Thompson River (and other) coho salmon stocks. Coho salmon pre-smolts
are relatively small compared with salmonid species that are typically studied using acoustic telemetry; therefore the identification
of the appropriate sizes of fish and tags to use is critical. This study tested the effects of surgically implanting the three
smallest sizes of acoustic tags currently available on the growth, survival, tag retention, swimming performance and physical
condition of coho salmon pre-smolts for 300 days post-surgery. Maximum tag size to body size ratios ranged from 15–17% by
fork length and 7–8% by mass for the three tag sizes (11 cm fork length for a 6 × 19 mm tag, 12.5 cm for a 7 × 19 mm tag,
and 14 cm for a 9 × 21 mm tag). Based on our results, it is unlikely that coho salmon pre-smolts implanted with acoustic transmitters
following these size guidelines would have poor survival in studies of freshwater migratory behaviour as a result of the surgery
or the tag. 相似文献
973.
A complete 2 x 3 two factorial design was applied to investigate the effects of Fusarium-infected wheat (2.5 mg DON/kg, 0, 25 and 50% of the diets), feed processing (mash and pellets) and the interactions thereof on fattening pigs (96, n= 16/group). Feed-to-gain ratio was significantly increased by contaminated wheat (2.65; 2.62 and 2.73 kg/kg for diets containing 0, 25 and 50% Fusarium-infected wheat, respectively) while digestibility of nutrients and metabolizable energy were not affected by the wheat batch. The feed processing also resulted in significant differences in feed-to-gain ratio but was accompanied by significant effects on the digestibility of organic matter and crude fat and on the metabolizable energy. Clinical chemical parameters were not significantly altered by the inclusion of the infected wheat. The lymphocyte proliferation capacity was not significantly affected by any of the experimental factors. A contribution of the feed processing to the variation of the deoxynivalenol (DON) effect may not be deduced from the present results. 相似文献
974.
Synaptic destabilization by neuronal Nogo-A 总被引:1,自引:0,他引:1
Aloy EM Weinmann O Pot C Kasper H Dodd DA Rülicke T Rossi F Schwab ME 《Brain Cell Biology》2006,35(2-3):137-157
Formation and maintenance of a neuronal network is based on a balance between plasticity and stability of synaptic connections.
Several molecules have been found to regulate the maintenance of excitatory synapses but nothing is known about the molecular
mechanisms involved in synaptic stabilization versus disassembly at inhibitory synapses. Here, we demonstrate that Nogo-A,
which is well known to be present in myelin and inhibit growth in the adult CNS, is present in inhibitory presynaptic terminals
in cerebellar Purkinje cells at the time of Purkinje cell-Deep Cerebellar Nuclei (DCN) inhibitory synapse formation and is
then downregulated during synapse maturation. We addressed the role of neuronal Nogo-A in synapse maturation by generating
several mouse lines overexpressing Nogo-A, starting at postnatal ages and throughout adult life, specifically in cerebellar
Purkinje cells and their terminals. The overexpression of Nogo-A induced a progressive disassembly, retraction and loss of
the inhibitory Purkinje cell terminals. This led to deficits in motor learning and coordination in the transgenic mice. Prior
to synapse disassembly, the overexpression of neuronal Nogo-A led to the downregulation of the synaptic scaffold proteins
spectrin, spectrin-E and β-catenin in the postsynaptic neurons. Our data suggest that neuronal Nogo-A might play a role in
the maintenance of inhibitory synapses by modulating the expression of synaptic anchoring molecules.
Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. 相似文献
975.
Identification of suitable endogenous control genes for microRNA gene expression analysis in human breast cancer 总被引:2,自引:0,他引:2
Pamela A Davoren Roisin E McNeill Aoife J Lowery Michael J Kerin Nicola Miller 《BMC molecular biology》2008,9(1):76
The discovery of microRNAs (miRNAs) added an extra level of intricacy to the already complex system regulating gene expression.
These single-stranded RNA molecules, 18–25 nucleotides in length, negatively regulate gene expression through translational
inhibition or mRNA cleavage. The discovery that aberrant expression of specific miRNAs contributes to human disease has fueled
much interest in profiling the expression of these molecules. Real-time quantitative PCR (RQ-PCR) is a sensitive and reproducible
gene expression quantitation technique which is now being used to profile miRNA expression in cells and tissues. To correct
for systematic variables such as amount of starting template, RNA quality and enzymatic efficiencies, RQ-PCR data is commonly
normalised to an endogenous control (EC) gene, which ideally, is stably-expressed across the test sample set. A universal
endogenous control suitable for every tissue type, treatment and disease stage has not been identified and is unlikely to
exist, so, to avoid introducing further error in the quantification of expression data it is necessary that candidate ECs
be validated in the samples of interest. While ECs have been validated for quantification of mRNA expression in various experimental
settings, to date there is no report of the validation of miRNA ECs for expression profiling in breast tissue. In this study,
the expression of five miRNA genes (let-7a, miR-10b, miR-16, miR-21 and miR-26b) and three small nucleolar RNA genes (RNU19, RNU48 and Z30) was examined across malignant, benign and normal breast tissues to determine the most appropriate normalisation strategy.
This is the first study to identify reliable ECs for analysis of miRNA by RQ-PCR in human breast tissue. 相似文献
976.
Linda H Münger Mar Garcia-Aloy Rosa Vázquez-Fresno Doreen Gille Albert Remus R Rosana Anna Passerini María-Trinidad Soria-Florido Grégory Pimentel Tanvir Sajed David S Wishart Cristina Andres Lacueva Guy Vergères Giulia Praticò 《Genes & nutrition》2018,13(1):26
Dairy and egg products constitute an important part of Western diets as they represent an excellent source of high-quality proteins, vitamins, minerals and fats. Dairy and egg products are highly diverse and their associations with a range of nutritional and health outcomes are therefore heterogeneous. Such associations are also often weak or debated due to the difficulty in establishing correct assessments of dietary intake. Therefore, in order to better characterize associations between the consumption of these foods and health outcomes, it is important to identify reliable biomarkers of their intake. Biomarkers of food intake (BFIs) provide an accurate measure of intake, which is independent of the memory and sincerity of the subjects as well as of their knowledge about the consumed foods. We have, therefore, conducted a systematic search of the scientific literature to evaluate the current status of potential BFIs for dairy products and BFIs for egg products commonly consumed in Europe. Strikingly, only a limited number of compounds have been reported as markers for the intake of these products and none of them have been sufficiently validated. A series of challenges hinders the identification and validation of BFI for dairy and egg products, in particular, the heterogeneous composition of these foods and the lack of specificity of the markers identified so far. Further studies are, therefore, necessary to validate these compounds and to discover new candidate BFIs. Untargeted metabolomic strategies may allow the identification of novel biomarkers, which, when taken separately or in combination, could be used to assess the intake of dairy and egg products. 相似文献
977.
The reserves of fossil-based fuels, which currently seem sufficient to meet the global demands, is inevitably on the verge of exhaustion. Contemporary raw material for alternate fuel like biodiesel is usually edible plant commodity oils, whose increasing public consumption rate raises the need of finding a non-edible and fungible alternate oil source. In this quest, single cell oils (SCO) from oleaginous yeasts and fungi can provide a sustainable alternate of not only functional but also valuable (polyunsaturated fatty acids (PUFA)-rich) lipids. Researches are been increasingly driven towards increasing the SCO yield in order to realize its commercial importance. However, bulk requirement of expensive synthetic carbon substrate, which inflates the overall SCO production cost, is the major limitation towards complete acceptance of this technology. Even though substrate cost minimization could make the SCO production profitable is uncertain, it is still essential to identify suitable cheap and abundant substrates in an attempt to potentially reduce the overall process economy. One of the most sought-after in-expensive carbon reservoirs, agro-industrial wastes, can be an attractive replacement to expensive synthetic carbon substrates in this regard. The present review assess these possibilities referring to the current experimental investigations on oleaginous yeasts, and fungi reported for conversion of agro-industrial feedstocks into triacylglycerols (TAGs) and PUFA-rich lipids. Multiple associated factors regulating lipid accumulation utilizing such substrates and impeding challenges has been analyzed. The review infers that production of bulk oil in combination to high-value fatty acids, co-production strategies for SCO and different microbial metabolites, and reutilization and value addition to spent wastes could possibly leverage the high operating costs and help in commencing a successful biorefinery. Rigorous research is nevertheless required whether it is PUFA-rich oil production (for competing with algal omega oils) or neutral bulk oil production (for overcoming yield limitations and managing process economy) to establish this potential source as future resource. 相似文献
978.
Loc Van Nguyen Ryoji Takahashi Stephen Mwangi Githiri Tito O. Rodriguez Nobuko Tsutsumi Sayuri Kajihara Takasi Sayama Masao Ishimoto Kyuya Harada Keisuke Suematsu Tomomi Abiko Toshihiro Mochizuki 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2017,130(4):743-755
Key message
Greatest potential, QTLs for hypoxia and waterlogging tolerance in soybean roots were detected using a new phenotypic evaluation method.Abstract
Waterlogging is a major environmental stress limiting soybean yield in wet parts of the world. Root development is an important indicator of hypoxia tolerance in soybean. However, little is known about the genetic control of root development under hypoxia. This study was conducted to identify quantitative trait loci (QTLs) responsible for root development under hypoxia. Recombinant inbred lines (RILs) developed from a cross between a hypoxia-sensitive cultivar, Tachinagaha, and a tolerant landrace, Iyodaizu, were used. Seedlings were subjected to hypoxia, and root development was evaluated with the value change in root traits between after and before treatments. We found 230 polymorphic markers spanning 2519.2 cM distributed on all 20 chromosomes (Chrs.). Using these, we found 11 QTLs for root length (RL), root length development (RLD), root surface area (RSA), root surface area development (RSAD), root diameter (RD), and change in average root diameter (CARD) on Chrs. 11, 12, 13 and 14, and 7 QTLs for hypoxia tolerance of these root traits. These included QTLs for RLD and RSAD between markers Satt052 and Satt302 on Chr. 12, which are important markers of hypoxia tolerance in soybean; those QTLs were stable between 2 years. To validate the QTLs, we developed a near-isogenic line with the QTL region derived from Iyodaizu. The line performed well under both hypoxia and waterlogging, suggesting that the region contains one or more genes with large effects on root development. These findings may be useful for fine mapping and positional cloning of gene responsible for root development under hypoxia.979.
Sindermann JR Babij P Klink JC Köbbert C Plenz G Ebbing J Fan L March KL 《American journal of physiology. Heart and circulatory physiology》2002,283(6):H2714-H2724
To study the effects of enhanced smooth muscle cell (SMC) proliferation on arterial vessel geometry in the absence of vessel trauma, we developed a transgenic mouse model expressing SV40 large T antigen under control of the 2.3-kb smooth muscle-myosin heavy chain promoter. Transgenic mice studied at ages from 3 to 13 wk showed a 3.2-fold increase in arterial wall SMC density, with 28% of SMC exhibiting proliferative cell nuclear antigen staining, confirming enhanced SMC proliferation, which was accompanied by two- to threefold increases in arterial wall areas (P < 0.05). Remarkably, despite increased vessel wall mass, the lumen area was not compromised, but rather was increased. A tightly conserved linear relationship was found between arterial circumference and wall thickness with slopes of 0.036 for both transgenics (r = 0.93, P < 0.01) and controls (r = 0.77, P < 0.01), suggesting the hypothesis that the conservation of wall stress functions as a primary determinant of adaptive arterial remodeling. This establishes a new model of adaptive vessel remodeling occurring in response to a proliferative input in the absence of mechanical injury or primary flow perturbation. 相似文献
980.
A viable option for increasing nitrogen (N) use efficiency and mitigation of negative impacts of N on the environment is to capitalize on multi-element interactions through implementation of nutrient management programs that provide balanced nutrition. Numerous studies have demonstrated the immediate efficacy of this approach in the developing regions like China and India as well as developed countries in North America. Based on 241 site-years of experiments in these countries, the first-year N recovery efficiency (RE) for the conventional or check treatments averaged 21% while the balanced treatments averaged 54% RE, for an average increase of 33% in RE due to balanced nutrition. Effective policies to promote adoption are most likely those that enable site-specific approaches to nutrient management decisions rather than sweeping, nation-wide incentives supporting one nutrient over another. Local farmers, advisers and officials need to be empowered with tools and information to help them define necessary changes in practices to create more balanced nutrient management. 相似文献