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Newcastle disease virus. --- Newcastle disease. --- Newcastle Disease Virus. --- Newcastle Disease.
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Newcastle disease virus --- Newcastle disease --- Newcastle disease virus
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Avian influenza --- Newcastle disease virus --- Avian influenza. --- Newcastle disease virus. --- Asia. --- Paramyxoviruses --- Avian flu --- Bird flu --- Fowl pest --- Fowl plague --- Influenza in birds --- Birds --- Influenza --- Poultry --- Virus diseases --- Asian and Pacific Council countries --- Eastern Hemisphere --- Eurasia
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Dear Readers, Oncolytic Viruses (OV) are self-propagating agents that can selectively induce the lysis of cancer cells while sparing normal tissues. OV-mediated cancer cell death is often immunogenic and triggers robust anticancer immune responses and immunoconversion of tumor microenvironments. This makes oncolytic virotherapy a promising new form of immunotherapy and OVs ideal candidates for combination therapy with other anticancer agents, including other immunotherapeutics. There are more than 40 OVs from nine different families in clinical development and many more at the preclinical stage. Each OV has its own unique characteristics, its pros and cons. Although herpes simplex virus is currently the lead clinical agent, a real champion among the OVs has not yet emerged, justifying the continuous development and optimization of these agents. This book, “Oncolytic Virus Immunotherapy”, summarizes the state-of-the-art and gives a comprehensive overview of the OV arena with a particular focus on new trends, directions, challenges, and opportunities.
Medicine --- Clinical & internal medicine --- oncolytic viruses --- melanoma --- immunotherapy --- checkpoint inhibitors --- combinatory therapy --- reovirus --- oncolytic virus --- adenovirus --- oncolytic --- virotherapy --- targeting --- immunogenic cell death --- αvβ6 integrin --- oncolytic adenovirus --- cancer immunotherapy --- multi-stage --- immunostimulatory --- arming --- HSV-1 --- clinical trials --- newcastle disease virus --- NDV --- cancer --- immune checkpoint inhibitor --- PD-1 --- PD-L1 --- CTLA-4 --- type I interferon --- herpes simplex virus --- retargeted virus --- tropism retargeting --- tumor --- checkpoint inhibitor --- vaccination --- antigen-agnostic vaccination --- HER2 --- parvovirus --- tumor microenvironment --- combination therapy --- glioblastoma --- pancreatic cancer --- colorectal cancer --- measles virus --- vector engineering --- immune checkpoint blockade --- antitumor immune response --- delivery --- genetic modification --- biomarkers --- personalized oncolyticvirotherapy --- class I HLA --- immunosurveillance --- immunoediting --- oncogenic signaling --- RAS --- DNA methyltransferase inhibitor (DNMTi) --- viral mimicry --- epigenetic silencing --- adoptive T cell therapy --- CAR T cell --- pancreatic ductal adenocarcinoma --- vesicular stomatitis virus --- small molecule --- cancer immune therapy --- cancer therapy --- oncolytic viruses --- melanoma --- immunotherapy --- checkpoint inhibitors --- combinatory therapy --- reovirus --- oncolytic virus --- adenovirus --- oncolytic --- virotherapy --- targeting --- immunogenic cell death --- αvβ6 integrin --- oncolytic adenovirus --- cancer immunotherapy --- multi-stage --- immunostimulatory --- arming --- HSV-1 --- clinical trials --- newcastle disease virus --- NDV --- cancer --- immune checkpoint inhibitor --- PD-1 --- PD-L1 --- CTLA-4 --- type I interferon --- herpes simplex virus --- retargeted virus --- tropism retargeting --- tumor --- checkpoint inhibitor --- vaccination --- antigen-agnostic vaccination --- HER2 --- parvovirus --- tumor microenvironment --- combination therapy --- glioblastoma --- pancreatic cancer --- colorectal cancer --- measles virus --- vector engineering --- immune checkpoint blockade --- antitumor immune response --- delivery --- genetic modification --- biomarkers --- personalized oncolyticvirotherapy --- class I HLA --- immunosurveillance --- immunoediting --- oncogenic signaling --- RAS --- DNA methyltransferase inhibitor (DNMTi) --- viral mimicry --- epigenetic silencing --- adoptive T cell therapy --- CAR T cell --- pancreatic ductal adenocarcinoma --- vesicular stomatitis virus --- small molecule --- cancer immune therapy --- cancer therapy
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Dear Readers, Oncolytic Viruses (OV) are self-propagating agents that can selectively induce the lysis of cancer cells while sparing normal tissues. OV-mediated cancer cell death is often immunogenic and triggers robust anticancer immune responses and immunoconversion of tumor microenvironments. This makes oncolytic virotherapy a promising new form of immunotherapy and OVs ideal candidates for combination therapy with other anticancer agents, including other immunotherapeutics. There are more than 40 OVs from nine different families in clinical development and many more at the preclinical stage. Each OV has its own unique characteristics, its pros and cons. Although herpes simplex virus is currently the lead clinical agent, a real champion among the OVs has not yet emerged, justifying the continuous development and optimization of these agents. This book, “Oncolytic Virus Immunotherapy”, summarizes the state-of-the-art and gives a comprehensive overview of the OV arena with a particular focus on new trends, directions, challenges, and opportunities.
oncolytic viruses --- melanoma --- immunotherapy --- checkpoint inhibitors --- combinatory therapy --- reovirus --- oncolytic virus --- adenovirus --- oncolytic --- virotherapy --- targeting --- immunogenic cell death --- αvβ6 integrin --- oncolytic adenovirus --- cancer immunotherapy --- multi-stage --- immunostimulatory --- arming --- HSV-1 --- clinical trials --- newcastle disease virus --- NDV --- cancer --- immune checkpoint inhibitor --- PD-1 --- PD-L1 --- CTLA-4 --- type I interferon --- herpes simplex virus --- retargeted virus --- tropism retargeting --- tumor --- checkpoint inhibitor --- vaccination --- antigen-agnostic vaccination --- HER2 --- parvovirus --- tumor microenvironment --- combination therapy --- glioblastoma --- pancreatic cancer --- colorectal cancer --- measles virus --- vector engineering --- immune checkpoint blockade --- antitumor immune response --- delivery --- genetic modification --- biomarkers --- personalized oncolyticvirotherapy --- class I HLA --- immunosurveillance --- immunoediting --- oncogenic signaling --- RAS --- DNA methyltransferase inhibitor (DNMTi) --- viral mimicry --- epigenetic silencing --- adoptive T cell therapy --- CAR T cell --- pancreatic ductal adenocarcinoma --- vesicular stomatitis virus --- small molecule --- cancer immune therapy --- cancer therapy --- n/a
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Newcastle disease virus --- Newcastle disease --- Diagnostic reagents and test kits --- Diagnostic reagents and test kits. --- Newcastle disease virus. --- Diagnosis --- Imaging --- United States. --- Avian pneumoencephalitis --- Fowl pest --- Poultry --- Paramyxoviruses --- Diagnostic kits --- Kits, Diagnostic reagents and test --- Reagent kits, Diagnostic --- Biological reagents --- Chemical tests and reagents --- Diagnosis, Laboratory --- Patient monitoring --- Virus diseases --- Equipment and supplies --- ABŞ --- ABSh --- Ameerika Ühendriigid --- America (Republic) --- Amerika Birlăshmish Shtatlary --- Amerika Birlăşmi Ştatları --- Amerika Birlăşmiş Ştatları --- Amerika ka Kelenyalen Jamanaw --- Amerika Qūrama Shtattary --- Amerika Qŭshma Shtatlari --- Amerika Qushma Shtattary --- Amerika (Republic) --- Amerikai Egyesült Államok --- Amerikanʹ Veĭtʹsėndi͡avks Shtattnė --- Amerikări Pĕrleshu̇llĕ Shtatsem --- Amerikas Forenede Stater --- Amerikayi Miatsʻyal Nahangner --- Ameriketako Estatu Batuak --- Amirika Carékat --- AQSh --- Ar. ha-B. --- Arhab --- Artsot ha-Berit --- Artzois Ha'bris --- Bí-kok --- Ē.P.A. --- É.-U. --- EE.UU. --- Egyesült Államok --- ĒPA --- Estados Unidos --- Estados Unidos da América do Norte --- Estados Unidos de América --- Estaos Xuníos --- Estaos Xuníos d'América --- Estatos Unitos --- Estatos Unitos d'America --- Estats Units d'Amèrica --- Ètats-Unis d'Amèrica --- États-Unis d'Amérique --- ÉU --- Fareyniḳṭe Shṭaṭn --- Feriene Steaten --- Feriene Steaten fan Amearika --- Forente stater --- FS --- Hēnomenai Politeiai Amerikēs --- Hēnōmenes Politeies tēs Amerikēs --- Hiwsisayin Amerikayi Miatsʻeal Tērutʻiwnkʻ --- Istadus Unidus --- Jungtinės Amerikos valstybės --- Mei guo --- Mei-kuo --- Meiguo --- Mî-koet --- Miatsʻyal Nahangner --- Miguk --- Na Stàitean Aonaichte --- NSA --- S.U.A. --- SAD --- Saharat ʻAmērikā --- SASht --- Severo-Amerikanskie Shtaty --- Severo-Amerikanskie Soedinennye Shtaty --- Si͡evero-Amerikanskīe Soedinennye Shtaty --- Sjedinjene Američke Države --- Soedinennye Shtaty Ameriki --- Soedinennye Shtaty Severnoĭ Ameriki --- Soedinennye Shtaty Si͡evernoĭ Ameriki --- Spojené obce severoamerické --- Spojené staty americké --- SShA --- Stadoù-Unanet Amerika --- Stáit Aontaithe Mheiriceá --- Stany Zjednoczone --- Stati Uniti --- Stati Uniti d'America --- Stâts Unîts --- Stâts Unîts di Americhe --- Steatyn Unnaneysit --- Steatyn Unnaneysit America --- SUA --- Sŭedineni amerikanski shtati --- Sŭedinenite shtati --- Tetã peteĩ reko Amérikagua --- U.S. --- U.S.A. --- United States of America --- Unol Daleithiau --- Unol Daleithiau America --- Unuiĝintaj Ŝtatoj de Ameriko --- US --- USA --- Usono --- Vaeinigte Staatn --- Vaeinigte Staatn vo Amerika --- Vereinigte Staaten --- Vereinigte Staaten von Amerika --- Verenigde State van Amerika --- Verenigde Staten --- VS --- VSA --- Wááshindoon Bikéyah Ałhidadiidzooígíí --- Wilāyāt al-Muttaḥidah --- Wilāyāt al-Muttaḥidah al-Amirīkīyah --- Wilāyāt al-Muttaḥidah al-Amrīkīyah --- Yhdysvallat --- Yunaeted Stet --- Yunaeted Stet blong Amerika --- ZDA --- Združene države Amerike --- Zʹi͡ednani Derz͡havy Ameryky --- Zjadnośone staty Ameriki --- Zluchanyi͡a Shtaty Ameryki --- Zlucheni Derz͡havy --- ZSA
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Viruses are microscopic agents that exist worldwide and are present in humans, animals, plants, and other living organisms in which they can cause devastating diseases. However, the advances of biotechnology and next-generation sequencing technologies have accelerated novel virus discovery, identification, sequencing, and manipulation, showing that they present unique characteristics that place them as valuable tools for a wide variety of biotechnological applications. Many applications of viruses have been used for agricultural purposes, namely concerning plant breeding and plant protection. Nevertheless, it is interesting to mention that plants have also many advantages to be used in vaccine production, such as the low cost and low risks they entail, showing once more the versatility of the use of viruses in biotechnology. Although it will obviously never be ignored that viruses are responsible for devastating diseases, it is clear that the more they are studied, the more possibilities they offer to us. They are now on the front line of the most revolutionizing techniques in several fields, providing advances that would not be possible without their existence. In this book there are presented studies that demonstrate the work developed using viruses in biotechnology. These studies were brought by experts that focus on the development and applications of many viruses in several fields, such as agriculture, the pharmaceutical industry, and medicine.
Technology: general issues --- Bacteriophage --- Salmonella --- biocontrol --- comparative genomics --- phage diversity --- grapevine --- apple latent spherical virus vector --- virus-induced flowering --- reduced generation time --- breeding of grapevine --- virus elimination --- Newcastle disease virus --- reverse genetics --- vaccines --- infectious diseases --- cancer --- porcine epidemic diarrhea virus --- VLP --- chemokines --- pig --- vaccine --- SARS-CoV-2 --- COVID-19 --- phages --- CRISPR --- viruses --- prevention --- diagnosis --- treatment --- adeno-associated virus (AAV) vector --- jaagsiekte sheep retrovirus (JSRV) --- LTR --- enhancer --- transduction --- viral vaccines --- cancers --- COVID-19 vaccines --- self-replicating RNA vectors --- DNA-based vaccines --- RNA-based vaccines --- plant virus --- viroid --- viral vector --- virus-induced gene silencing (VIGS) --- CRISPR/Cas9 --- genome editing --- carotenoid biosynthesis --- circular RNA --- infectious bursal disease virus --- immunization --- recombinant Lactococcus lactis --- variant strain --- baculovirus --- insect cells --- bacmid --- Tn7 --- genome stability --- protein expression --- chikungunya virus --- VLPs --- bioreactor --- CRISPR/Cas systems --- viral vectors --- gene editing --- plant genome engineering --- viral resistance --- adeno-associated virus --- AAV --- cancer gene therapy --- prophage --- hydrothermal vent --- Hypnocyclicus thermotrophus --- lytic cassette --- Escherichia coli --- heterologous expression --- codon optimization --- codon harmonization --- expression vectors --- aspect ratio --- VNPs --- TMV --- PVX --- CPMV --- geminivirus --- theranostics --- CRISPR-cas9 --- clodronate --- macrophage --- gene therapy --- gene expression --- nanotechnology --- Bacteriophage --- Salmonella --- biocontrol --- comparative genomics --- phage diversity --- grapevine --- apple latent spherical virus vector --- virus-induced flowering --- reduced generation time --- breeding of grapevine --- virus elimination --- Newcastle disease virus --- reverse genetics --- vaccines --- infectious diseases --- cancer --- porcine epidemic diarrhea virus --- VLP --- chemokines --- pig --- vaccine --- SARS-CoV-2 --- COVID-19 --- phages --- CRISPR --- viruses --- prevention --- diagnosis --- treatment --- adeno-associated virus (AAV) vector --- jaagsiekte sheep retrovirus (JSRV) --- LTR --- enhancer --- transduction --- viral vaccines --- cancers --- COVID-19 vaccines --- self-replicating RNA vectors --- DNA-based vaccines --- RNA-based vaccines --- plant virus --- viroid --- viral vector --- virus-induced gene silencing (VIGS) --- CRISPR/Cas9 --- genome editing --- carotenoid biosynthesis --- circular RNA --- infectious bursal disease virus --- immunization --- recombinant Lactococcus lactis --- variant strain --- baculovirus --- insect cells --- bacmid --- Tn7 --- genome stability --- protein expression --- chikungunya virus --- VLPs --- bioreactor --- CRISPR/Cas systems --- viral vectors --- gene editing --- plant genome engineering --- viral resistance --- adeno-associated virus --- AAV --- cancer gene therapy --- prophage --- hydrothermal vent --- Hypnocyclicus thermotrophus --- lytic cassette --- Escherichia coli --- heterologous expression --- codon optimization --- codon harmonization --- expression vectors --- aspect ratio --- VNPs --- TMV --- PVX --- CPMV --- geminivirus --- theranostics --- CRISPR-cas9 --- clodronate --- macrophage --- gene therapy --- gene expression --- nanotechnology
Choose an application
Viruses are microscopic agents that exist worldwide and are present in humans, animals, plants, and other living organisms in which they can cause devastating diseases. However, the advances of biotechnology and next-generation sequencing technologies have accelerated novel virus discovery, identification, sequencing, and manipulation, showing that they present unique characteristics that place them as valuable tools for a wide variety of biotechnological applications. Many applications of viruses have been used for agricultural purposes, namely concerning plant breeding and plant protection. Nevertheless, it is interesting to mention that plants have also many advantages to be used in vaccine production, such as the low cost and low risks they entail, showing once more the versatility of the use of viruses in biotechnology. Although it will obviously never be ignored that viruses are responsible for devastating diseases, it is clear that the more they are studied, the more possibilities they offer to us. They are now on the front line of the most revolutionizing techniques in several fields, providing advances that would not be possible without their existence. In this book there are presented studies that demonstrate the work developed using viruses in biotechnology. These studies were brought by experts that focus on the development and applications of many viruses in several fields, such as agriculture, the pharmaceutical industry, and medicine.
Technology: general issues --- Bacteriophage --- Salmonella --- biocontrol --- comparative genomics --- phage diversity --- grapevine --- apple latent spherical virus vector --- virus-induced flowering --- reduced generation time --- breeding of grapevine --- virus elimination --- Newcastle disease virus --- reverse genetics --- vaccines --- infectious diseases --- cancer --- porcine epidemic diarrhea virus --- VLP --- chemokines --- pig --- vaccine --- SARS-CoV-2 --- COVID-19 --- phages --- CRISPR --- viruses --- prevention --- diagnosis --- treatment --- adeno-associated virus (AAV) vector --- jaagsiekte sheep retrovirus (JSRV) --- LTR --- enhancer --- transduction --- viral vaccines --- cancers --- COVID-19 vaccines --- self-replicating RNA vectors --- DNA-based vaccines --- RNA-based vaccines --- plant virus --- viroid --- viral vector --- virus-induced gene silencing (VIGS) --- CRISPR/Cas9 --- genome editing --- carotenoid biosynthesis --- circular RNA --- infectious bursal disease virus --- immunization --- recombinant Lactococcus lactis --- variant strain --- baculovirus --- insect cells --- bacmid --- Tn7 --- genome stability --- protein expression --- chikungunya virus --- VLPs --- bioreactor --- CRISPR/Cas systems --- viral vectors --- gene editing --- plant genome engineering --- viral resistance --- adeno-associated virus --- AAV --- cancer gene therapy --- prophage --- hydrothermal vent --- Hypnocyclicus thermotrophus --- lytic cassette --- Escherichia coli --- heterologous expression --- codon optimization --- codon harmonization --- expression vectors --- aspect ratio --- VNPs --- TMV --- PVX --- CPMV --- geminivirus --- theranostics --- CRISPR-cas9 --- clodronate --- macrophage --- gene therapy --- gene expression --- nanotechnology
Choose an application
Viruses are microscopic agents that exist worldwide and are present in humans, animals, plants, and other living organisms in which they can cause devastating diseases. However, the advances of biotechnology and next-generation sequencing technologies have accelerated novel virus discovery, identification, sequencing, and manipulation, showing that they present unique characteristics that place them as valuable tools for a wide variety of biotechnological applications. Many applications of viruses have been used for agricultural purposes, namely concerning plant breeding and plant protection. Nevertheless, it is interesting to mention that plants have also many advantages to be used in vaccine production, such as the low cost and low risks they entail, showing once more the versatility of the use of viruses in biotechnology. Although it will obviously never be ignored that viruses are responsible for devastating diseases, it is clear that the more they are studied, the more possibilities they offer to us. They are now on the front line of the most revolutionizing techniques in several fields, providing advances that would not be possible without their existence. In this book there are presented studies that demonstrate the work developed using viruses in biotechnology. These studies were brought by experts that focus on the development and applications of many viruses in several fields, such as agriculture, the pharmaceutical industry, and medicine.
Bacteriophage --- Salmonella --- biocontrol --- comparative genomics --- phage diversity --- grapevine --- apple latent spherical virus vector --- virus-induced flowering --- reduced generation time --- breeding of grapevine --- virus elimination --- Newcastle disease virus --- reverse genetics --- vaccines --- infectious diseases --- cancer --- porcine epidemic diarrhea virus --- VLP --- chemokines --- pig --- vaccine --- SARS-CoV-2 --- COVID-19 --- phages --- CRISPR --- viruses --- prevention --- diagnosis --- treatment --- adeno-associated virus (AAV) vector --- jaagsiekte sheep retrovirus (JSRV) --- LTR --- enhancer --- transduction --- viral vaccines --- cancers --- COVID-19 vaccines --- self-replicating RNA vectors --- DNA-based vaccines --- RNA-based vaccines --- plant virus --- viroid --- viral vector --- virus-induced gene silencing (VIGS) --- CRISPR/Cas9 --- genome editing --- carotenoid biosynthesis --- circular RNA --- infectious bursal disease virus --- immunization --- recombinant Lactococcus lactis --- variant strain --- baculovirus --- insect cells --- bacmid --- Tn7 --- genome stability --- protein expression --- chikungunya virus --- VLPs --- bioreactor --- CRISPR/Cas systems --- viral vectors --- gene editing --- plant genome engineering --- viral resistance --- adeno-associated virus --- AAV --- cancer gene therapy --- prophage --- hydrothermal vent --- Hypnocyclicus thermotrophus --- lytic cassette --- Escherichia coli --- heterologous expression --- codon optimization --- codon harmonization --- expression vectors --- aspect ratio --- VNPs --- TMV --- PVX --- CPMV --- geminivirus --- theranostics --- CRISPR-cas9 --- clodronate --- macrophage --- gene therapy --- gene expression --- nanotechnology
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