863 research outputs found
Optimal Lower Bounds for Universal and Differentially Private Steiner Tree and TSP
Given a metric space on n points, an {\alpha}-approximate universal algorithm
for the Steiner tree problem outputs a distribution over rooted spanning trees
such that for any subset X of vertices containing the root, the expected cost
of the induced subtree is within an {\alpha} factor of the optimal Steiner tree
cost for X. An {\alpha}-approximate differentially private algorithm for the
Steiner tree problem takes as input a subset X of vertices, and outputs a tree
distribution that induces a solution within an {\alpha} factor of the optimal
as before, and satisfies the additional property that for any set X' that
differs in a single vertex from X, the tree distributions for X and X' are
"close" to each other. Universal and differentially private algorithms for TSP
are defined similarly. An {\alpha}-approximate universal algorithm for the
Steiner tree problem or TSP is also an {\alpha}-approximate differentially
private algorithm. It is known that both problems admit O(logn)-approximate
universal algorithms, and hence O(log n)-approximate differentially private
algorithms as well. We prove an {\Omega}(logn) lower bound on the approximation
ratio achievable for the universal Steiner tree problem and the universal TSP,
matching the known upper bounds. Our lower bound for the Steiner tree problem
holds even when the algorithm is allowed to output a more general solution of a
distribution on paths to the root.Comment: 14 page
ROLE OF MITOCHONDRIA DURING BOVINE ADENOVIRUS 3 INFECTION
Bovine adenovirus (BAdV) -3 is a non-enveloped, icosahedral virus with a double-stranded DNA genome, and is being developed as a vector for vaccination of animals and humans. Mitochondria are multifunctional organelles, which are involved in various functions of the cell including but not limited to energy production, aging, regulation of cell cycle, anti viral responses. Thus, this makes them strategic targets for many pathogens. Although a number of viruses affect the structure and function of mitochondria, the effect of BAdV-3 infection on these organelles has not been well characterized. The aim of the present study was to ascertain the pathological effects of BAdV-3 infection on host mitochondria and the role of BAdV-3 encoded proteins in modulating mitochondrial functions.
Electron microscopy analysis revealed extensive damage to the inner mitochondrial membrane characterized by dissolution of cristae and amorphous appearance of mitochondrial matrix with little or no damage to the outer mitochondrial membrane. There were fewer cristae with altered morphology. Patches of protein synthesis machinary around mitochondria were observed at 12 hrs post infection. At 24 hrs post-infection, extensive damage to mitochondria was evident throughout the infected cell. ATP production, mitochondrial Ca2+ and mitochondrial membrane potential (MMP) peaked at 18 hrs post-infection but decreased significantly at 24 hrs post-infection. This decrease coincided with increased production of superoxide (SO) and reactive oxygen species (ROS), at 24 hrs post-infection indicating acute oxidative stress in the cells and suggesting a complete failure of the cellular homeostatic machinary.
Sequence analysis of BAdV-3 proteins revealed the presence of potential mitochodria localization signals (MLS) in 52K, VII, 33/22K and IVa2. Western blot analysis of isolated mitochondrial fractions suggested that all these proteins are localized in the mitochondria. However, a more stringent proteinase K assay confirmed the presence of 52K and pVII in the mitochondria suggesting that the other observed proteins were loosely attached to the surface of the mitochondria or may simple co-purify with the mitochondrial fraction. The presence of potential MLS in 52K and pVII was confirmed by localization of EYFP (Enhanced Yellow Fluorescent Protein; a predominantly cytoplasmic protein), when fused to MLS of pVII or 52K, to mitochondria of transfected cells.
Expression of pVII in transfected cells showed an increase in MMP and ATP production, and increased sequestration / retention of mitochondrial Ca2+ in the cells. However, there was no increase in reactive oxygen species (ROS) / superoxide (SO) production in pVII transfected cells indicating that pVII acts as an antiapototic protein. In contrast, expression of 52K in transfected cells significantly increased ROS/SO production with no significant change in ATP production, mitochondrial Ca2+ or MMP indicating that 52K alone causes an oxidative stress in cells following infection and causes apoptosis.
In conclusion, these results reveal an intricate relationship between Ca2+ homeostasis, the ATP generation ability of cells, SO and ROS production and regulation of MMP following infection by BAdV-3 or transfection of the cells with plasmid DNAs expressing pVII & 52K. While pVII appears to contribute to the survival of the cells during virus replication, 52K is involved in the death of the infected cells and thus may help in release of progeny virus
Canadian Graduate Legal Education: Past, Present and Future
Canadian graduate legal education has seldom been the subject of scholarly inquiry This article seeks to fill the vacuum by describing and evaluating various features associated with master s and doctoral programs offered by the nation s /ao schools. A number of criteria are used in this analysis, some of which have been garnered from the broader literature on higher education The article concludes with a series of specific programmatic and policy reform proposals aimed at strengthening the state of graduate legal education in this countr
Development and Control of Biofilms: Novel Strategies Using Natural Antimicrobials
Separation membranes have a wide application in the food industry, for instance, in the clarification/fractionation of milk, the concentration/separation of selected components, and wastewater treatment. They provide a large area for bacteria to attach and colonize. When a product comes into contact with a membrane, it initiates bacterial attachment/colonization and eventually forms biofilms. Several cleaning and sanitation protocols are currently utilized in the industry; however, the heavy fouling of the membrane over a prolonged duration affects the overall cleaning efficiency. In view of this, alternative approaches are being developed. Therefore, the objective of this review is to describe the novel strategies for controlling membrane biofilms such as enzyme-based cleaner, naturally produced antimicrobials of microbial origin, and preventing biofilm development using quorum interruption. Additionally, it aims to report the constitutive microflora of the membrane and the development of the predominance of resistant strains over prolonged usage. The emergence of predominance could be associated with several factors, of which, the release of antimicrobial peptides by selective strains is a prominent factor. Therefore, naturally produced antimicrobials of microbial origin could thus provide a promising approach to control biofilms. Such an intervention strategy could be implemented by developing a bio-sanitizer exhibiting antimicrobial activity against resistant biofilms
Incorporation of Probiotics and Other Functional Ingredients in Dairy Fat-Rich Products: Benefits, Challenges, and Opportunities
This review focuses on the potential opportunities to incorporate functional ingredients like probiotics in the dairy fat-rich matrix to develop functional foods. Many dietary guidelines and the relevant literature have in general indicated many benefits of consuming milk-fat-rich products for the human body. Milk fat contains essential nutrients, including fat-soluble vitamins; short-, medium-, and long-chain with odd and branched chain fatty acids; essential amino acids; and calcium, which are all known for their bioactive properties. In addition, the incorporation of probiotics, which are known for their bioactive properties, could further enhance the products’ attributes. However, direct probiotic addition is known to encounter viability challenges during manufacturing and storage. There is thus an opportunity to introduce a value-added range of dairy fat-rich products imparting bioactive and functional benefits. The current review is an attempt to consolidate information in this area and explore further avenues for the value addition of dairy fat-rich products
Ultrasound-Assisted Cavitation Effect on the Biofilm-Forming Ability of Common Dairy Sporeformers
Thermoduric sporeformers survive heat treatment and can form biofilm on contact food surfaces that is difficult to clean and may cause cross contamination to milk products. It was hypothesized that cavitation would influence sporeformers’ ability to attach to contact surfaces and form biofilm. Common dairy sporeformers of Geobacillus stearothermophilus, Bacillus licheniformis, and Bacillus sporothermodurans were individually inoculated in sterile skim milk at the levels of 6.0 log CFU/mL. Inoculated samples were treated by cavitation at 80% amplitudes for 10 min each. Pre and post samples were used to develop biofilms on stainless steel coupons under static conditions. Scanning electron micrograph was used to observe the developed biofilms. All the experiments were conducted in triplicate and were statistically analyzed using a t test. The average counts of spiked milk samples were 7.2, 8.0, and 7.7 logs CFU/mL, respectively, for the three sporeformers. Post-cavitation counts were reduced significantly to 3.4, 4.2, and 3.7 logs CFU/mL, respectively. Pre-cavitation biofilm counts of the three sporeformers were 5.35, 6.42, and 6.5 logs CFU/ cm2, respectively in 72 h. The three sporeformers’ biofilm showed significantly (p \u3c 0.05) lower counts after cavitation of 4.39, 5.44, and lower counts of 4.39 logs CFU/cm2, respectively, for the three organisms. The result showed that G. stearothermophilus formed the least biofilms among others after cavitation. Although the ultrasonication treatment reduced the number of sporeformer bacteria, the survivors still retained the ability to attach to the stainless-steel food contact surfaces
Incorporation of Probiotics and Other Functional Ingredients in Dairy Fat-Rich Products: Benefits, Challenges, and Opportunities
This review focuses on the potential opportunities to incorporate functional ingredients like probiotics in the dairy fat-rich matrix to develop functional foods. Many dietary guidelines and the relevant literature have in general indicated many benefits of consuming milk-fat-rich products for the human body. Milk fat contains essential nutrients, including fat-soluble vitamins; short-, medium-, and long-chain with odd and branched chain fatty acids; essential amino acids; and calcium, which are all known for their bioactive properties. In addition, the incorporation of probiotics, which are known for their bioactive properties, could further enhance the products’ attributes. However, direct probiotic addition is known to encounter viability challenges during manufacturing and storage. There is thus an opportunity to introduce a value-added range of dairy fat-rich products imparting bioactive and functional benefits. The current review is an attempt to consolidate information in this area and explore further avenues for the value addition of dairy fat-rich products
Efficacy of a Typical Clean-in-place Protocol Against In vitro Membrane Biofilms
This study evaluates the effectiveness of a typical clean-in-place (CIP) protocol against in vitro biofilms on whey reverse osmosis (RO) membranes developed under static condition. Bacterial isolates obtained from RO membrane biofilms were used to develop single and multispecies biofilms under laboratory conditions. A typical commercial CIP protocol was tested against the 24-h-old biofilms, and included 6 sequential treatment steps based on alkali, surfactant, acid, enzyme, a second surfactant, and a sanitizer treatment step. Experiments were conducted in 4 replicates and the data were statistically analyzed. The results revealed a variation in the resistance of mixed-species biofilms against the individual steps in the sequential CIP protocol. The overall 6 steps protocol, although resulted in a greater reduction, also resulted in the detection of survivors even after the final sanitizer step, reflect the ineffectiveness of the CIP protocol for complete removal of biofilms. Posttreatment counts of 0.71 log after the sequential CIP of mixed-species biofilm revealed the resistance of biofilm constitutive microbiota. Mixed-species biofilms, constituting different genera including Bacillus, Staphylococcus, and Streptococcus, were observed to be more resistant than most of the single-species biofilms. However, among the single-species biofilms, significantly different resistance pattern was observed for Bacillus isolates compared with the other bacterial isolates. All 5 isolates of Bacillus were found resistant with survivor counts of more than 1.0 log against the sequential CIP protocol tested. Thus, it can be concluded that the tested CIP protocol had a limited effectiveness to clean membrane biofilms formed on the whey RO membranes
Extended hierarchical search (EHS) algorithm for detection of gravitational waves from inspiraling compact binaries
Pattern matching techniques like matched filtering will be used for online
extraction of gravitational wave signals buried inside detector noise. This
involves cross correlating the detector output with hundreds of thousands of
templates spanning a multi-dimensional parameter space, which is very expensive
computationally. A faster implementation algorithm was devised by Mohanty and
Dhurandhar [1996] using a hierarchy of templates over the mass parameters,
which speeded up the procedure by about 25 to 30 times. We show that a further
reduction in computational cost is possible if we extend the hierarchy paradigm
to an extra parameter, namely, the time of arrival of the signal. In the first
stage, the chirp waveform is cut-off at a relatively low frequency allowing the
data to be coarsely sampled leading to cost saving in performing the FFTs. This
is possible because most of the signal power is at low frequencies, and
therefore the advantage due to hierarchy over masses is not compromised.
Results are obtained for spin-less templates up to the second post-Newtonian
(2PN) order for a single detector with LIGO I noise power spectral density. We
estimate that the gain in computational cost over a flat search is about 100.Comment: 6 pages, 6 EPS figures, uses CQG style iopart.cl
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