977 resultados para cryptolocker malware threat virus ransomeware
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In order to present and understand the nature of modern terrorism it is important to realize its key properties as well the mechanisms that shape terrorism. Selected properties and mechanisms shaping modern terrorism which can be exemplified by the following: evolutionary nature of terrorism, asymmetry of terrorism, interferentiality of terrorism, multitude of components of terrorism, diffusion of terrorism, duality of terrorism, positive dimension of terrorism, terrorist as the system, diversity of terrorist activity goals, changeability of terrorist threat, the broad and narrow dimension of terrorism, counter-anti-terrorism, the confrontational and cooperational character of relations, calculation and operational strategy, disintegrational nature of terrorism, multidisciplinarity of terrorism, horizontal and vertical dimension of terrorism and a the few other traits or mechanisms.
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A cyberwar exists between malware writers and antimalware researchers. At this war's heart rages a weapons race that originated in the 80s with the first computer virus. Obfuscation is one of the latest strategies to camouflage the telltale signs of malware, undermine antimalware software, and thwart malware analysis. Malware writers use packers, polymorphic techniques, and metamorphic techniques to evade intrusion detection systems. The need exists for new antimalware approaches that focus on what malware is doing rather than how it's doing it.
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In this paper, we report a coupling of fluorophore-DNA barcode and bead-based
immunoassay for the detection of Avian Influenza Virus (AIV), a potential pandemic threat for human health and enormous economic losses. The detection strategy is based on the use of sandwich immunoassay and fluorophore-tagged oligonucleotides as representatively fluorescent barcodes. Despite its simplicity the assay has sensitivity comparable to RT-PCR amplification, and possesses a great potential as a rapid and sensitive on-chip detection format.
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Mobile malware has been growing in scale and complexity spurred by the unabated uptake of smartphones worldwide. Android is fast becoming the most popular mobile platform resulting in sharp increase in malware targeting the platform. Additionally, Android malware is evolving rapidly to evade detection by traditional signature-based scanning. Despite current detection measures in place, timely discovery of new malware is still a critical issue. This calls for novel approaches to mitigate the growing threat of zero-day Android malware. Hence, the authors develop and analyse proactive machine-learning approaches based on Bayesian classification aimed at uncovering unknown Android malware via static analysis. The study, which is based on a large malware sample set of majority of the existing families, demonstrates detection capabilities with high accuracy. Empirical results and comparative analysis are presented offering useful insight towards development of effective static-analytic Bayesian classification-based solutions for detecting unknown Android malware.
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In this paper we identify requirements for choosing a threat modelling formalisation for modelling sophisticated malware such as Duqu 2.0. We discuss the gaps in current formalisations and propose the use of Attack Trees with Sequential Conjunction when it comes to analysing complex attacks. The paper models Duqu 2.0 based on the latest information sourced from formal and informal sources. This paper provides a well structured model which can be used for future analysis of Duqu 2.0 and related attacks.
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Tese de doutoramento, Ciências Biomédicas (Bioquímica Médica), Universidade de Lisboa, Faculdade de Medicina, 2016
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New pandemics are a serious threat to the health of the entire world. They are essentially of viral origin and spread at large speed. A meeting on this topic was held in Lyon, France, within the XIXth Jacques Cartier Symposia, a series of France-Québec meetings held every year. New findings on HIV and AIDS, on HCV and chronic hepatitis, and an update on influenza virus and flu were covered during this meeting on December 4 and 5, 2006. Aspects of viral structure, virus-host interactions, antiviral defenses, drugs and vaccinations, and epidemiological aspects were discussed for HIV and HCV. Old and recent data on the flu epidemics ended this meeting.
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White spot syndrome virus (WSSV) is the deadliest virus among crustaceans ever discovered having several unique and novel features. Recent developments in genomics and proteomics could elucidate the molecular process involved in the WSSV infection and the host pathogen interaction to some extent. Until now no fool proof treatment or prophylactic measure has been made available to control WSSV out breaks in culture system. Even though there are technologies like application of immunostimulants, vaccines, RNAi and several antiviral natural products none of them has been taken to the level of clinical trials. However, there are several management options such as application of bioremediation technologies to maintain the required environmental quality, maintenance of zero water exchange systems coupled with application of probiotics and vaccines which on adoption shall pave way for successful crops amidst the rapid spread of the virus. In this context the present work was undertaken to develop a drug from mangrove plants for protecting shrimp from WSSV.Mangroves belong to those ecosystems that are presently under the threat of destruction, diversion and blatant attack in the name of so called ‘developmental activities’. Mangrove plants have unique ecological features as it serves as an ecotone between marine and terrestrial ecosystem and hence possess diversity of metabolites with diverse activities. This prompted them being used as remedial measures for several ailments for ages. Among the mangrove plants Ceriops tagal, belonging to the family Rhizophororaceae was in attention for many years for isolating new metabolites such as triterpenes, phenolic compounds, etc. Even though there were attempts to study various plant extracts to develop anti-viral preparations their activity against WSSV was not investigated as yet.
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Background: Although H5N1 avian influenza viruses pose the most obvious imminent pandemic threat, there have been several recent zoonotic incidents involving transmission of H7 viruses to humans. Vaccines are the primary public health defense against pandemics, but reliance on embryonated chickens eggs to propagate vaccine and logistic problems posed by the use of new technology may slow our ability to respond rapidly in a pandemic situation. Objectives: We sought to generate an H7 candidate vaccine virus suitable for administration to humans whose generation and amplification avoided the use of eggs. Methods: We generated a suitable H7 vaccine virus by reverse genetics. This virus, known as RD3, comprises the internal genes of A/Puerto Rico/8/34 with surface antigens of the highly pathogenic avian strain A/Chicken/Italy/13474/99 (H7N1). The multi-basic amino acid site in the HA gene, associated with high pathogenicity in chickens, was removed. Results: The HA modification did not alter the antigenicity of the virus and the resultant single basic motif was stably retained following several passages in Vero and PER. C6 cells. RD3 was attenuated for growth in embryonated eggs, chickens, and ferrets. RD3 induced an antibody response in infected animals reactive against both the homologous virus and other H7 influenza viruses associated with recent infection by H7 viruses in humans. Conclusions: This is the first report of a candidate H7 vaccine virus for use in humans generated by reverse genetics and propagated entirely in mammalian tissue culture. The vaccine has potential use against a wide range of H7 strains.
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Lettuce mosaic virus (LMV) causes an economically important seedborne and aphid-transmitted disease of lettuce and ornamental crops worldwide. The genetic diversity among 73 LMV isolates was examined based on a 216-nucleotide sequence at the variable region encoding the NIb-coat protein junction, Three clusters of LMV isolates were distinguished: LMV-Yar, LMV-Greck, and LMV-RoW. In the latter cluster, two subgroups of isolates, LMV-Common and LMV-Most, accounted for a large proportion of the LMV isolates analyzed. These two subgroups included the seedborne isolates, consistent with this property contributing a selective advantage and resulting in widespread distribution. In addition to being seedborne, LMV-Most isolates overcome the two resistance genes commonly used in lettuce, mol(1) and mol(2), and thus represent a potential threat to lettuce cultivation. The complete sequence of an LMV-Most isolate (LMV-AF199) was determined, allowing a better definition of the genetic relationships among LMV-Most, LMV-Common, and an additional isolate of the LMV-RoW cluster.
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Doenças infecciosas em animais selvagens têm aumentado devido às alterações em seu habitat e ao maior contato com animais domésticos. A cinomose já foi descrita em diversas espécies de carnívoros selvagens, representando uma ameaça à conservação da vida selvagem. Nesse estudo é descrito o primeiro caso de infecção pelo vírus da cinomose em um furão (Galictis cuja). Um indivíduo de vida livre, sem sinais clínicos aparentes, apresentou morte súbita após um dia em cativeiro. Foi realizado o diagnóstico molecular para detecção do vírus da cinomose canina, sendo o resultado positivo. A filogenia do vírus indicou que cães domésticos foram a provável fonte de infecção.
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Malware has become a major threat in the last years due to the ease of spread through the Internet. Malware detection has become difficult with the use of compression, polymorphic methods and techniques to detect and disable security software. Those and other obfuscation techniques pose a problem for detection and classification schemes that analyze malware behavior. In this paper we propose a distributed architecture to improve malware collection using different honeypot technologies to increase the variety of malware collected. We also present a daemon tool developed to grab malware distributed through spam and a pre-classification technique that uses antivirus technology to separate malware in generic classes. © 2009 SPIE.
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Sacbrood disease, an affliction of honey bees (Apis mellifera) characterized by brood that fails to pupate and subsequently dies, is an important threat to honey bee health. The disease is caused by the sacbrood virus (SBV), a positive-, single-stranded RNA virus in the order Picornavirales. Because of the economic importance of honey bees for both pollination and honey production, it is vital to understand and monitor the spread of viruses such as SBV. This virus has been found in many places across the globe, including recently in some South American countries, and it is likely that it will continue to spread. We performed a preliminary study to search for SBV in two apiaries of Africanized honey bees in the State of Sao Paulo, Brazil, using RT-PCR and Sanger sequencing and found the first evidence of SBV in honey bee colonies in Brazil. The virus was detected in larvae, foraging and nurse bees from two colonies, one of which had symptoms of sacbrood disease, at the beginning of the winter season in June 2011. No SBV was found in samples from nine other nearby colonies.
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The Dengue has become a global public health threat, with over 100 million infections annually; to date there is no specific vaccine or any antiviral drug. The structures of the envelope (E) proteins of the four known serotype of the dengue virus (DENV) are already known, but there are insufficient molecular details of their structural behavior in solution in the distinct environmental conditions in which the DENVs are submitted, from the digestive tract of the mosquito up to its replication inside the host cell. Such detailed knowledge becomes important because of the multifunctional character of the E protein: it mediates the early events in cell entry, via receptor endocytosis and, as a class II protein, participates determinately in the process of membrane fusion. The proposed infection mechanism asserts that once in the endosome, at low pH, the E homodimers dissociate and insert into the endosomal lipid membrane, after an extensive conformational change, mainly on the relative arrangement of its three domains. In this work we employ all-atom explicit solvent Molecular Dynamics simulations to specify the thermodynamic conditions in that the E proteins are induced to experience extensive structural changes, such as during the process of reducing pH. We study the structural behavior of the E protein monomer at acid pH solution of distinct ionic strength. Extensive simulations are carried out with all the histidine residues in its full protonated form at four distinct ionic strengths. The results are analyzed in detail from structural and energetic perspectives, and the virtual protein movements are described by means of the principal component analyses. As the main result, we found that at acid pH and physiological ionic strength, the E protein suffers a major structural change; for lower or higher ionic strengths, the crystal structure is essentially maintained along of all extensive simulations. On the other hand, at basic pH, when all histidine residues are in the unprotonated form, the protein structure is very stable for ionic strengths ranging from 0 to 225 mM. Therefore, our findings support the hypothesis that the histidines constitute the hot points that induce configurational changes of E protein in acid pH, and give extra motivation to the development of new ideas for antivirus compound design.
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Dengue-Fieber ist eine durch Stechmücken der Gattungen Aedes aegypti und Aedes albopticus übertragene, virale Infektionskrankheit des Menschen, welche eine zunehmende Bedrohung für die Weltbevölkerung darstellt; das Infektionsrisiko betrifft vorwiegend Menschen, die in tropischen und subtropischen Gebieten der Erde (Asien, Afrika, Amerika) leben. Bei dem Erreger handelt es sich um ein Flavivirus, bestehend aus einer positiv polarisierten Einzelstrang-RNA, welches in vier verschiedenen Serotypen existiert. Eine Infektion mit Dengue-Viren zeigt sich durch drei mögliche Krankheitsbilder: Klassisches Dengue-Fieber (DF), hämorrhagisches Dengue-Fieber (DHF) oder Dengue-Schock-Syndrom (DSS). Das Dengue-Virus-Genom codiert eine Serin-Protease mit einer klassischen katalytischen Triade, bestehend aus den Aminosäuren His51, Asp75 und Ser135. Die Funktion der Dengue-Virus-Protease besteht in der post-translationalen, proteolytischen Prozessierung des viralen Polyprotein-Vorläufers, womit sie essentiell für die Virus-Replikation ist und damit einen wichtigen therapeutischen Ansatz für die Entwicklung neuer Wirkstoffe gegen Dengue-Fieber darstellt. Die Ziele der vorliegenden Arbeit bestanden darin, neue potentielle Inhibitoren der Dengue-Virus Typ 2 NS2B-NS3 Protease (DEN-2 NS2B-NS3pro) zu synthetisieren, deren Hemmwirkung sowie den Inhibitionstyp mithilfe fluorimetrischer Enzym-Assays zu bestimmen, Struktur-Wirkungs-Beziehungen (u.a. mithilfe von Molecular Docking-Rechnungen) zu analysieren und die erhaltenen Leitstrukturen zu optimieren. In der vorliegenden Arbeit wurden zwei Substanzklassen und damit zwei Teilprojekte behandelt: Phenylacrylsäureamide im ersten Teilprojekt, Benzothiazole und Diarylthioether zusammen im zweiten Teilprojekt. Im ersten Teilprojekt zeigten einige Phenylacrylsäureamide eine schwache Hemmung der DEN-2 NS2B-NS3pro zwischen ca. 50 und 61 % bei einer Inhibitorkonzentration von 50 µM sowie eine nicht-kompetitive Hemmung, welche jedoch durch vielfältige Derivatisierung kaum verändert oder verbessert werden konnte. Darüber hinaus wurden die endogenen Serin-Proteasen alpha-Chymotrypsin und Trypsin durch einige Phenylacrylsäureamide erheblich stärker gehemmt als die DEN-2 NS2B-NS3pro. Das zweite Teilprojekt befasste sich mit der Synthese und Testung von Diarylthioethern mit hydroxy-substituierten Benzothiazol-Bausteinen sowie der Testung einiger methoxy-substituierter Synthese-Vorstufen der Endverbindungen, um die Relevanz und den Einfluss der einzelnen Bausteine auf die Hemmung der DEN-2 NS2B-NS3pro zu untersuchen. Der in der vorliegenden Arbeit synthetisierte, potenteste Inhibitor der DEN-2 NS2B-NS3pro (Hemmung: 90 % [50 µM]; IC50 = 3.6 +/- 0.11 µM) und der DEN-3 NS2B-NS3pro (Hemmung: >99 % [100 µM]; IC50 = 9.1 +/- 1.02 µM), SH65, ein Diarylthioether-Benzothiazol-Derivat, entstand aufgrund der Vorhersage zweier möglicher Bindungsmodi (kompetitiv und nicht-kompetitiv) mithilfe von Molecular Docking-Experimenten an der Röntgen-Kristall-struktur der DEN-3 NS2B-NS3pro (PDB-Code: 3U1I). Nach experimenteller Bestimmung der IC50-Werte bei unterschiedlichen Substratkonzentrationen erwies sich SH65 jedoch als nicht-kompetitiver Inhibitor der DEN-2 NS2B-NS3pro. Trypsin wurde von SH65 vergleichbar stark gehemmt (96% [50 µM]; IC50 = 6.27 +/- 0.68 µM) wie die beiden getesteten Dengue-Virus-Proteasen, nicht jedoch alpha-Chymotrypsin (nur 21% Hemmung bei 50 µM), wodurch diesem Inhibitor zumindest eine relative Selektivität gegenüber Serin-Proteasen zugeschrieben werden kann. SH65 zeigte lediglich Protease-Hemmung in den Enzym-Assays, jedoch keine antivirale Aktivität bei der Testung an Dengue-Virus-infizierten Zellen, was aber wiederum bei der synthetisierten Vorstufe von SH65, welche anstelle der beiden Hydroxy-Gruppen über Methoxy-Gruppen verfügt, der Fall war. Diarylthioether mit mehrfach hydroxy-substituiertem Benzothiazol-Baustein stellen hiermit eine neue, vielversprechende Wirkstoffgruppe zur Hemmung sowohl der Dengue-Virus Typ 2- als auch der Dengue-Virus Typ 3 NS2B-NS3 Protease dar.
