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111.
Deborah Low Jeffrey A. Ahlgren Diane Horne Donald J. McMahon Craig J. Oberg Jeffery R. Broadbent 《Applied and environmental microbiology》1998,64(6):2147-2151
Recent work by our group has shown that an exopolysaccharide (EPS)-producing starter pair, Streptococcus thermophilus MR-1C and Lactobacillus delbrueckii subsp. bulgaricus MR-1R, can significantly increase moisture retention in low-fat mozzarella (D. B. Perry, D. J. McMahon, and C. J. Oberg, J. Dairy Sci. 80:799–805, 1997). The objectives of this study were to determine whether MR-1C, MR-1R, or both of these strains are required for enhanced moisture retention and to establish the role of EPS in this phenomenon. Analysis of low-fat mozzarella made with different combinations of MR-1C, MR-1R, and the non-EPS-producing starter culture strains S. thermophilus TA061 and Lactobacillus helveticus LH100 showed that S. thermophilus MR-1C was responsible for the increased cheese moisture level. To investigate the role of the S. thermophilus MR-1C EPS in cheese moisture retention, the epsE gene in this bacterium was inactivated by gene replacement. Low-fat mozzarella made with L. helveticus LH100 plus the non-EPS-producing mutant S. thermophilus DM10 had a significantly lower moisture content than did cheese made with strains LH100 and MR-1C, which confirmed that the MR-1C capsular EPS was responsible for the water-binding properties of this bacterium in cheese. Chemical analysis of the S. thermophilus MR-1C EPS indicated that the polymer has a novel basic repeating unit composed of d-galactose, l-rhamnose, and l-fucose in a ratio of 5:2:1.Lactic acid bacteria (LAB) are a diverse group of industrially important, gram-positive, non-spore-forming microbes that produce lactic acid as a major product of carbohydrate fermentation. Many strains of LAB produce extracellular polysaccharides which may be tightly associated with the bacterial cell wall as capsules or liberated into the growth medium as a loose slime (5). The term exopolysaccharide (EPS) has been used to refer to either type of external polysaccharide. EPSs may be homopolysaccharides, composed of a single type of sugar monomer, or heteropolysaccharides, containing several types of sugar monomers (25). Extracellular homopolysaccharides are made by such LAB as Leuconostoc mesenteroides and Streptococcus mutans, while extracellular heteropolysaccharides are produced by several other species of LAB, including Streptococcus thermophilus and Lactobacillus delbrueckii subsp. bulgaricus (6).The ability to produce EPS is unstable in LAB and may be lost following numerous transfers, prolonged periods of storage, or incubation at temperatures above that optimal for growth (6, 24). This instability of EPS production in mesophilic LAB has been attributed to the fact that the genes involved in polymer production are plasmid encoded. In contrast, genes for EPS production in thermophilic LAB, such as S. thermophilus and L. delbrueckii subsp. bulgaricus, are believed to be chromosomally encoded (6). Consequently, the unstable nature of the EPS phenotype in thermophilic strains is not understood, but it may be related to mobile genetic elements or genomic instability (24).Because of the ability of EPSs to act as viscosifying, stabilizing, or water-binding agents in various foods, these polymers can act as effective natural alternatives to commercial stabilizers (6). For example, EPS-producing (EPS+) LAB are commonly used as starter cultures for yogurt manufacture because EPS improves the viscosity and texture of yogurt and decreases its susceptibility to syneresis (loss of whey from the curd) (14, 28).Analysis of cheese microstructure has shown that in full-fat or part-skim mozzarella, the fat and a large portion of the water are located within channels that are formed by fat globules when the cheese curd is heated and stretched (18, 20). In low-fat mozzarella, however, there are very few fat globules to break up the protein matrix, resulting in less space for water retention (20). As a consequence, the cheese has a tough and rubbery texture and requires more heat for melting (19). Merrill et al. showed that procedures which increased moisture levels in reduced- and low-fat mozzarella improved the body, texture, and functional properties of the cheese (19). In addition to enhanced functionality, the ability to increase cheese moisture level (even by as little as 1%) gives processors an important economic advantage in the highly competitive mozzarella industry (27).Since EPS has the capacity to bind significant amounts of water, it was the hypothesis of our group that EPS+ LAB may be useful for the production of reduced- and low-fat mozzarella. Work by Perry et al. (21) recently showed that an EPS+ starter pair, S. thermophilus MR-1C and L. delbrueckii subsp. bulgaricus MR-1R, could be used to significantly increase moisture levels in low-fat mozzarella. The objectives of this study were to determine whether MR-1C, MR-1R, or both of these strains are required for enhanced moisture retention and to establish the role of EPS in this phenomenon. The results showed that S. thermophilus MR-1C was responsible for the increased cheese moisture level and demonstrated that this effect required the bacterium’s capsular EPS.(Part of this research was presented at the 92nd Annual Meeting of the American Dairy Science Association, Guelph, Ontario, Canada, 22 to 25 June 1997.) 相似文献
112.
The superbugs: evolution, dissemination and fitness 总被引:1,自引:0,他引:1
Since the introduction of antibiotics, bacteria have not only evolved elegant resistance mechanisms to thwart their effect, but have also evolved ways in which to disseminate themselves or their resistance genes to other susceptible bacteria. During the past few years, research has revealed not only how such resistance mechanisms have been able to evolve and to rapidly disseminate, but also how bacteria have, in some cases, been able to adapt to this new burden of resistance with little or no cost to their fitness. Such adaptations make the control of these superbugs all the more difficult. 相似文献
113.
Partially Redundant Enhancers Cooperatively Maintain Mammalian Pomc Expression Above a Critical Functional Threshold 总被引:1,自引:0,他引:1
114.
Lori Newman Jane Rowley Stephen Vander Hoorn Nalinka Saman Wijesooriya Magnus Unemo Nicola Low Gretchen Stevens Sami Gottlieb James Kiarie Marleen Temmerman 《PloS one》2015,10(12)
Background
Quantifying sexually transmitted infection (STI) prevalence and incidence is important for planning interventions and advocating for resources. The World Health Organization (WHO) periodically estimates global and regional prevalence and incidence of four curable STIs: chlamydia, gonorrhoea, trichomoniasis and syphilis.Methods and Findings
WHO’s 2012 estimates were based upon literature reviews of prevalence data from 2005 through 2012 among general populations for genitourinary infection with chlamydia, gonorrhoea, and trichomoniasis, and nationally reported data on syphilis seroprevalence among antenatal care attendees. Data were standardized for laboratory test type, geography, age, and high risk subpopulations, and combined using a Bayesian meta-analytic approach. Regional incidence estimates were generated from prevalence estimates by adjusting for average duration of infection. In 2012, among women aged 15–49 years, the estimated global prevalence of chlamydia was 4.2% (95% uncertainty interval (UI): 3.7–4.7%), gonorrhoea 0.8% (0.6–1.0%), trichomoniasis 5.0% (4.0–6.4%), and syphilis 0.5% (0.4–0.6%); among men, estimated chlamydia prevalence was 2.7% (2.0–3.6%), gonorrhoea 0.6% (0.4–0.9%), trichomoniasis 0.6% (0.4–0.8%), and syphilis 0.48% (0.3–0.7%). These figures correspond to an estimated 131 million new cases of chlamydia (100–166 million), 78 million of gonorrhoea (53–110 million), 143 million of trichomoniasis (98–202 million), and 6 million of syphilis (4–8 million). Prevalence and incidence estimates varied by region and sex.Conclusions
Estimates of the global prevalence and incidence of chlamydia, gonorrhoea, trichomoniasis, and syphilis in adult women and men remain high, with nearly one million new infections with curable STI each day. The estimates highlight the urgent need for the public health community to ensure that well-recognized effective interventions for STI prevention, screening, diagnosis, and treatment are made more widely available. Improved estimation methods are needed to allow use of more varied data and generation of estimates at the national level. 相似文献115.
Derry C Roopenian Benjamin E Low Gregory J Christianson Gabriele Proetzel Thomas J Sproule Michael V Wiles 《MABS-AUSTIN》2015,7(2):344-351
Serum albumin is the major determinant of blood colloidal osmotic pressure acting as a depot and distributor of compounds including drugs. In humans, serum albumin exhibits an unusually long half-life mainly due to protection from catabolism by neonatal Fc receptor (FcRn)-mediated recycling. These properties make albumin an attractive courier of therapeutically-active compounds. However, pharmaceutical research and development of albumin-based therapeutics has been hampered by the lack of appropriate preclinical animal models. To overcome this, we developed and describe the first mouse with a genetic deficiency in albumin and its incorporation into an existing humanized FcRn mouse model, B6.Cg-Fcgrttm1Dcr Tg(FCGRT)32Dcr/DcrJ (Tg32). Albumin-deficient strains (Alb-/-) were created by TALEN-mediated disruption of the albumin (Alb) gene directly in fertilized oocytes derived from Tg32 mice and its non-transgenic background control, C57BL/6J (B6). The resulting Alb-/- strains are analbuminemic but healthy. Intravenous administration of human albumin to Tg32-Alb-/- mFcRn-/- hFcRnTg/Tg) mice results in a remarkably extended human albumin serum half-life of ∼24 days, comparable to that found in humans, and in contrast to half-lives of 2.6–5.8 d observed in B6, B6-Alb-/- and Tg32 strains. This striking increase can be explained by the absence of competing endogenous mouse albumin and the presence of an active human FcRn. These novel albumin-deficient models provide unique tools for investigating the biology and pathobiology of serum albumin and are a more appropriate rodent surrogates for evaluating human serum albumin pharmacokinetics and albumin-based compounds. 相似文献
116.
Boon Chuan Low Catherine Qiurong Pan G.V. Shivashankar Alexander Bershadsky Marius Sudol Michael Sheetz 《FEBS letters》2014
Organ size is controlled by the concerted action of biochemical and physical processes. Although mechanical forces are known to regulate cell and tissue behavior, as well as organogenesis, the precise molecular events that integrate mechanical and biochemical signals to control these processes are not fully known. The recently delineated Hippo-tumor suppressor network and its two nuclear effectors, YAP and TAZ, shed light on these mechanisms. YAP and TAZ are proto-oncogene proteins that respond to complex physical milieu represented by the rigidity of the extracellular matrix, cell geometry, cell density, cell polarity and the status of the actin cytoskeleton. Here, we review the current knowledge of how YAP and TAZ function as mechanosensors and mechanotransducers. We also suggest that by deciphering the mechanical and biochemical signals controlling YAP/TAZ function, we will gain insights into new strategies for cancer treatment and organ regeneration. 相似文献
117.
Adak AK Leonov AP Ding N Thundimadathil J Kularatne S Low PS Wei A 《Bioconjugate chemistry》2010,21(11):2065-2075
Bishydrazides are versatile linkers for attaching glycans to substrates for lectin binding and pathogen detection schemes. The α,ω-bishydrazides of carboxymethylated hexa(ethylene glycol) (4) can be conjugated at one end to unprotected oligosaccharides, then attached onto carrier proteins, tethered onto activated carboxyl-terminated surfaces, or functionalized with a photoactive cross-linking agent for lithographic patterning. Glycoconjugates of bishydrazide 4 can also be converted into dithiocarbamates (DTCs) by treatment with CS(2) under mild conditions, for attachment onto gold substrates. The immobilized glycans serve as recognition elements for cell-surface lectins and enable the detection and capture of bacterial pathogens such as Pseudomonas aeruginosa by their adsorption onto micropatterned substrates. A detection limit of 103 cfu/mL is demonstrated, using a recently introduced method based on optical pattern recognition. 相似文献
118.
Siew Leong Chan Takashi Mukasa Eugenio Santelli Lieh Yoon Low Jaime Pascual 《Protein science : a publication of the Protein Society》2010,19(1):155-161
Plants use a highly evolved immune system to exhibit defense response against microbial infections. The plant TIR domain, together with the nucleotide‐binding (NB) domain and/or a LRR region, forms a type of molecule, named resistance (R) proteins, that interact with microbial effector proteins and elicit hypersensitive responses against infection. Here, we report the first crystal structure of a plant TIR domain from Arabidopsis thaliana (AtTIR) solved at a resolution of 2.0 Å. The structure consists of five β‐strands forming a parallel β‐sheet at the core of the protein. The β‐strands are connected by a series of α‐helices and the overall fold mimics closely that of other mammalian and bacterial TIR domains. However, the region of the αD‐helix reveals significant differences when compared with other TIR structures, especially the αD3‐helix that corresponds to an insertion only present in plant TIR domains. Available mutagenesis data suggest that several conserved and exposed residues in this region are involved in the plant TIR signaling function. 相似文献
119.
Chen XB Sui Y Lee HP Bai HX Yu P Winoto SH Low HT 《Journal of biomechanical engineering》2010,132(6):061001
A two-dimensional flow model has been developed to simulate mass transport in a microchannel bioreactor with a porous wall. A two-domain approach, based on the finite volume method, was implemented. For the fluid part, the governing equation used was the Navier-Stokes equation; for the porous medium region, the generalized Darcy-Brinkman-Forchheimer extended model was used. For the porous-fluid interface, a stress jump condition was enforced with a continuity of normal stress, and the mass interfacial conditions were continuities of mass and mass flux. Two parameters were defined to characterize the mass transports in the fluid and porous regions. The porous Damkohler number is the ratio of consumption to diffusion of the substrates in the porous medium. The fluid Damkohler number is the ratio of the substrate consumption in the porous medium to the substrate convection in the fluid region. The concentration results were found to be well correlated by the use of a reaction-convection distance parameter, which incorporated the effects of axial distance, substrate consumption, and convection. The reactor efficiency reduced with reaction-convection distance parameter because of reduced reaction (or flux), and smaller local effectiveness factor due to the lower concentration in Michaelis-Menten type reactions. The reactor was more effective, and hence, more efficient with the smaller porous Damkohler number. The generalized results could find applications for the design of bioreactors with a porous wall. 相似文献
120.