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This book describes research in two different areas of state-of-the-art hadron collider physics, both of which are of central importance in the field of particle physics. The first part of the book focuses on the search for supersymmetric particles called gluinos. The book subsequently presents a set of precision measurements of “multi-jet” collision events, which involve large numbers of newly created particles, and are among the dominant processes at the Large Hadron Collider (LHC). Now that a Higgs boson has been discovered at the LHC, the existence (or non-existence) of supersymmetric particles is of the utmost interest and significance, both theoretically and experimentally. In addition, multi-jet collision events are an important background process for a wide range of analyses, including searches for supersymmetry.

Physics. --- Quantum field theory. --- String theory. --- Elementary particles (Physics). --- Elementary Particles, Quantum Field Theory. --- Quantum Field Theories, String Theory. --- Particles (Nuclear physics) --- Multiplicity. --- Charged particle multiplicity --- Multiple particle production --- Multiplicity (Nuclear physics) --- Collisions (Nuclear physics) --- Nuclear reactions --- Quantum theory. --- Quantum dynamics --- Quantum mechanics --- Quantum physics --- Physics --- Mechanics --- Thermodynamics --- Models, String --- String theory --- Relativistic quantum field theory --- Field theory (Physics) --- Quantum theory --- Relativity (Physics) --- Elementary particles (Physics) --- High energy physics --- Nuclear particles --- Nucleons --- Nuclear physics

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Viruses exhibit an elegant simplicity as they are so basic, but so frightening. Although only a few are life threatening, they have substantial implications for human health and the economy, as exemplified by the ongoing coronavirus pandemic. Viruses are rather small infectious agents found in all types of life forms, from animals and plants to prokaryotes and archaebacteria. They are obligate intracellular parasites, and as such, subvert many molecular and cellular processes of the host cell to ensure their own replication, amplification, and subsequent spread. This Special Issue addresses the cell biology of viral infections based on a collection of original research articles, communications, opinions, and reviews on various aspects of virus–host cell interactions. Together, these articles not only provide a glance into the latest research on the cell biology of viral infections but also include novel technological developments.

Research & information: general --- Biology, life sciences --- ectoderm --- mesoderm --- human development --- embryogenesis --- interferon response --- interferon-induced genes --- self-organizing map (SOM) data portrayal --- epigenetic signature --- embryoid body --- TGF-β and Wnt/β-catenin pathway --- interferon --- tumor necrosis factor --- STAT --- interferon regulatory factor --- antiviral --- autoimmunity --- inflammation --- hepatitis C virus --- HCV --- erlin-1 --- erlin-2 --- host factor --- endoplasmic reticulum --- RNA replication --- protein production --- virus production --- lipid droplet --- TAP-GFP --- fluorescent TAP platform --- antigen presentation --- MHC I --- immune evasion --- BoHV-1 UL49.5 --- virus --- calcium channels --- calcium pumps --- virus–host interaction --- Ebola virus --- filovirus --- inclusion bodies --- NXF1 --- liquid organelles --- mRNA export --- cancer immunotherapy --- oncolytic virus --- herpes simplex virus --- immune checkpoint inhibitor --- angiogenesis inhibitor --- rabies --- uDISCO --- 3D imaging --- rabies pathogenicity --- astrocyte infection --- metabolism --- apoptosis --- autophagy --- HIV-1 spread --- cell-free infection --- cell–cell transmission --- 3D cultures --- mathematical modeling --- environmental restriction --- CAD --- pyrimidine synthesis --- HEV --- particle production --- viral replication --- virus entry --- hantavirus --- Tula virus --- replication --- factory --- RNA synthesis --- Golgi --- stress granules --- actin cytoskeleton --- nucleocapsid transport --- Arp2/3 complex --- ERAP2 --- ERAP2/Iso3 --- microbial infections --- alternative splicing --- SARS-CoV-2 --- host cell response --- coronavirus --- MERS-CoV --- SARS-CoV --- sialic acid --- Siglec --- antiviral peptide --- enveloped viruses --- membrane phosphatidylserine --- envelope disruption --- membrane damage --- antiviral autophagy --- galectin --- bacterial invasion --- adenovirus --- lysophagy --- ESCRT machinery --- cedar virus --- henipavirus --- fusion protein --- endocytosis --- biological activity --- feline coronavirus --- feline enteric coronavirus --- FECV --- feline infectious peritonitis virus --- FIPV --- feline intestinal organoids --- alphaviruses --- cell death --- mosquito --- tolerance --- ectoderm --- mesoderm --- human development --- embryogenesis --- interferon response --- interferon-induced genes --- self-organizing map (SOM) data portrayal --- epigenetic signature --- embryoid body --- TGF-β and Wnt/β-catenin pathway --- interferon --- tumor necrosis factor --- STAT --- interferon regulatory factor --- antiviral --- autoimmunity --- inflammation --- hepatitis C virus --- HCV --- erlin-1 --- erlin-2 --- host factor --- endoplasmic reticulum --- RNA replication --- protein production --- virus production --- lipid droplet --- TAP-GFP --- fluorescent TAP platform --- antigen presentation --- MHC I --- immune evasion --- BoHV-1 UL49.5 --- virus --- calcium channels --- calcium pumps --- virus–host interaction --- Ebola virus --- filovirus --- inclusion bodies --- NXF1 --- liquid organelles --- mRNA export --- cancer immunotherapy --- oncolytic virus --- herpes simplex virus --- immune checkpoint inhibitor --- angiogenesis inhibitor --- rabies --- uDISCO --- 3D imaging --- rabies pathogenicity --- astrocyte infection --- metabolism --- apoptosis --- autophagy --- HIV-1 spread --- cell-free infection --- cell–cell transmission --- 3D cultures --- mathematical modeling --- environmental restriction --- CAD --- pyrimidine synthesis --- HEV --- particle production --- viral replication --- virus entry --- hantavirus --- Tula virus --- replication --- factory --- RNA synthesis --- Golgi --- stress granules --- actin cytoskeleton --- nucleocapsid transport --- Arp2/3 complex --- ERAP2 --- ERAP2/Iso3 --- microbial infections --- alternative splicing --- SARS-CoV-2 --- host cell response --- coronavirus --- MERS-CoV --- SARS-CoV --- sialic acid --- Siglec --- antiviral peptide --- enveloped viruses --- membrane phosphatidylserine --- envelope disruption --- membrane damage --- antiviral autophagy --- galectin --- bacterial invasion --- adenovirus --- lysophagy --- ESCRT machinery --- cedar virus --- henipavirus --- fusion protein --- endocytosis --- biological activity --- feline coronavirus --- feline enteric coronavirus --- FECV --- feline infectious peritonitis virus --- FIPV --- feline intestinal organoids --- alphaviruses --- cell death --- mosquito --- tolerance

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• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Viruses exhibit an elegant simplicity as they are so basic, but so frightening. Although only a few are life threatening, they have substantial implications for human health and the economy, as exemplified by the ongoing coronavirus pandemic. Viruses are rather small infectious agents found in all types of life forms, from animals and plants to prokaryotes and archaebacteria. They are obligate intracellular parasites, and as such, subvert many molecular and cellular processes of the host cell to ensure their own replication, amplification, and subsequent spread. This Special Issue addresses the cell biology of viral infections based on a collection of original research articles, communications, opinions, and reviews on various aspects of virus–host cell interactions. Together, these articles not only provide a glance into the latest research on the cell biology of viral infections but also include novel technological developments.

Research & information: general --- Biology, life sciences --- ectoderm --- mesoderm --- human development --- embryogenesis --- interferon response --- interferon-induced genes --- self-organizing map (SOM) data portrayal --- epigenetic signature --- embryoid body --- TGF-β and Wnt/β-catenin pathway --- interferon --- tumor necrosis factor --- STAT --- interferon regulatory factor --- antiviral --- autoimmunity --- inflammation --- hepatitis C virus --- HCV --- erlin-1 --- erlin-2 --- host factor --- endoplasmic reticulum --- RNA replication --- protein production --- virus production --- lipid droplet --- TAP-GFP --- fluorescent TAP platform --- antigen presentation --- MHC I --- immune evasion --- BoHV-1 UL49.5 --- virus --- calcium channels --- calcium pumps --- virus–host interaction --- Ebola virus --- filovirus --- inclusion bodies --- NXF1 --- liquid organelles --- mRNA export --- cancer immunotherapy --- oncolytic virus --- herpes simplex virus --- immune checkpoint inhibitor --- angiogenesis inhibitor --- rabies --- uDISCO --- 3D imaging --- rabies pathogenicity --- astrocyte infection --- metabolism --- apoptosis --- autophagy --- HIV-1 spread --- cell-free infection --- cell–cell transmission --- 3D cultures --- mathematical modeling --- environmental restriction --- CAD --- pyrimidine synthesis --- HEV --- particle production --- viral replication --- virus entry --- hantavirus --- Tula virus --- replication --- factory --- RNA synthesis --- Golgi --- stress granules --- actin cytoskeleton --- nucleocapsid transport --- Arp2/3 complex --- ERAP2 --- ERAP2/Iso3 --- microbial infections --- alternative splicing --- SARS-CoV-2 --- host cell response --- coronavirus --- MERS-CoV --- SARS-CoV --- sialic acid --- Siglec --- antiviral peptide --- enveloped viruses --- membrane phosphatidylserine --- envelope disruption --- membrane damage --- antiviral autophagy --- galectin --- bacterial invasion --- adenovirus --- lysophagy --- ESCRT machinery --- cedar virus --- henipavirus --- fusion protein --- endocytosis --- biological activity --- feline coronavirus --- feline enteric coronavirus --- FECV --- feline infectious peritonitis virus --- FIPV --- feline intestinal organoids --- alphaviruses --- cell death --- mosquito --- tolerance

Choose an application

• Reference Manager
• EndNote
• RefWorks (Direct export to RefWorks)

Viruses exhibit an elegant simplicity as they are so basic, but so frightening. Although only a few are life threatening, they have substantial implications for human health and the economy, as exemplified by the ongoing coronavirus pandemic. Viruses are rather small infectious agents found in all types of life forms, from animals and plants to prokaryotes and archaebacteria. They are obligate intracellular parasites, and as such, subvert many molecular and cellular processes of the host cell to ensure their own replication, amplification, and subsequent spread. This Special Issue addresses the cell biology of viral infections based on a collection of original research articles, communications, opinions, and reviews on various aspects of virus–host cell interactions. Together, these articles not only provide a glance into the latest research on the cell biology of viral infections but also include novel technological developments.

ectoderm --- mesoderm --- human development --- embryogenesis --- interferon response --- interferon-induced genes --- self-organizing map (SOM) data portrayal --- epigenetic signature --- embryoid body --- TGF-β and Wnt/β-catenin pathway --- interferon --- tumor necrosis factor --- STAT --- interferon regulatory factor --- antiviral --- autoimmunity --- inflammation --- hepatitis C virus --- HCV --- erlin-1 --- erlin-2 --- host factor --- endoplasmic reticulum --- RNA replication --- protein production --- virus production --- lipid droplet --- TAP-GFP --- fluorescent TAP platform --- antigen presentation --- MHC I --- immune evasion --- BoHV-1 UL49.5 --- virus --- calcium channels --- calcium pumps --- virus–host interaction --- Ebola virus --- filovirus --- inclusion bodies --- NXF1 --- liquid organelles --- mRNA export --- cancer immunotherapy --- oncolytic virus --- herpes simplex virus --- immune checkpoint inhibitor --- angiogenesis inhibitor --- rabies --- uDISCO --- 3D imaging --- rabies pathogenicity --- astrocyte infection --- metabolism --- apoptosis --- autophagy --- HIV-1 spread --- cell-free infection --- cell–cell transmission --- 3D cultures --- mathematical modeling --- environmental restriction --- CAD --- pyrimidine synthesis --- HEV --- particle production --- viral replication --- virus entry --- hantavirus --- Tula virus --- replication --- factory --- RNA synthesis --- Golgi --- stress granules --- actin cytoskeleton --- nucleocapsid transport --- Arp2/3 complex --- ERAP2 --- ERAP2/Iso3 --- microbial infections --- alternative splicing --- SARS-CoV-2 --- host cell response --- coronavirus --- MERS-CoV --- SARS-CoV --- sialic acid --- Siglec --- antiviral peptide --- enveloped viruses --- membrane phosphatidylserine --- envelope disruption --- membrane damage --- antiviral autophagy --- galectin --- bacterial invasion --- adenovirus --- lysophagy --- ESCRT machinery --- cedar virus --- henipavirus --- fusion protein --- endocytosis --- biological activity --- feline coronavirus --- feline enteric coronavirus --- FECV --- feline infectious peritonitis virus --- FIPV --- feline intestinal organoids --- alphaviruses --- cell death --- mosquito --- tolerance