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Identification and Characterization of Antimicrobial Peptides with Therapeutic Potential

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ISBN: 9783038424628 9783038424635 Year: Pages: X, 280 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Therapeutics
Added to DOAB on : 2017-12-27 08:54:14
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Antimicrobial peptides are key defense molecules adopted by all life forms to prevent infection. They also have other beneficial effects such as boosting immune response, anticancer, and wound healing. The antiviral effects of antimicrobial peptides have laid the foundations for developing new agents to combat seasonal Flu, HIV-1, RSV, Zika, and Ebola. This eBook is constructed to systematically deal with antimicrobial peptides from a variety of natural sources, including fungi, plants, and animals (insects, fish, amphibians, birds, and reptiles). It covers peptide discovery, antimicrobial activity, 3D structure, mechanisms of action and potential applications. Naturally Occurring Antimicrobial Peptides, an eBook published by the journal Pharmaceuticals, provides a helpful introduction to newcomers and refreshes the minds of veterans.

Natural Killer Cells in Human Diseases: Friends or Foes?

Authors: --- ---
Book Series: Frontiers Research Topics ISSN: 16648714 ISBN: 9782889454044 Year: Pages: 122 DOI: 10.3389/978-2-88945-404-4 Language: English
Publisher: Frontiers Media SA
Subject: Medicine (General) --- Allergy and Immunology
Added to DOAB on : 2018-11-16 17:17:57
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NK cells are lymphocytes of the innate immune system that share some features with adaptive immune cells like T cells. They are well known for their importance to control viral infections and tumor development, but also intracellular bacterial and parasitic infections. A balance between negative and positive signals transmitted via germ line-encoded inhibitory and activating receptors controls the function of NK cells. Activated NK cells respond by killing the infected or tumor cells without prior sensitization, and by producing cytokines and chemokines. It has been shown that NK cells cross-talk with other immune cells, such as dendritic cells and macrophages, can shape T cell and B cell immune responses through direct interactions as well as by virtue of their cytokine/chemokine production. NK cells can also regulate immune responses by killing other immune cells, including activated T cells, or by producing anti-inflammatory cytokines upon excessive inflammation. However, NK cells are not friends in all situations. Indeed, it has been shown in LCMV-infected murine models that, depending on the viral inoculation load, NK cells may either help fight infection or can promote chronic infection. Moreover in cancer models, it has been shown that NK cells can kill anti-tumoral T cells. Recent studies of NK cells in patients with cancer support the notion of detrimental roles of NK cells. Furthermore, studies implicate NK cells in contributing to both graft rejection and tolerance to an allograft. In some autoimmune diseases, like rheumatoid arthritis, NK cells may promote disease pathogenesis. The scope of this Research Topic is to present and discuss knowledge on the role of NK cells in various diseases settings: viral infections as well as other infections, cancer, transplantation, and autoimmunity. The aim is to discuss how NK cells respond during disease and specifically when, why and how NK cells can be harmful and if they exert different functions (production of specific cytokines, inhibition of other immune cells through other mechanisms beside cytotoxicity) in these situations. Which are the NK cell subsets that play beneficial or deleterious roles in these diseases? Are there different phenotypes associated with protective NK cells (e.g. antiviral, antitumoral) and NK cells involved in disease pathogenesis? How are these diverse NK cells activated and do they function primarily through direct cytotoxicity, ADCC or cytokine and chemokine production? What are the signals or interactions that can change and shape the NK cell response shifting them from protective to harmful? We thank the authors that submitted reviews and original research manuscripts that help to better understand these questions, with the aim that this will help the scientific community to determine what could be the main future research directions to better understand the role of NK cells in disease protection or development.

Recent CMV Research

ISBN: 9783906980539 9783906980546 Year: Pages: 528 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Added to DOAB on : 2015-01-12 11:33:22
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I am very pleased with this Viruses Special Issue. Of particular interest to families and caregivers affected by CMV diseases are several papers: addressing prevention of CMV infection of trophoblast cells (Zydek et al., 2014), CMV latency (Sinclair and Reeves, 2013), as well as of CMV lung infections in non-HIV infected children (Restrepo-Gualteros et al., 2014). Our ability to enhance immune responses for controlling CMV infection (Hanley and Bollard, 2014) and new strategies for CMV vaccine development guided by non-human primate studies (Deere and Barry, 2014) are discussed in two excellent reviews. Several articles address the CMV manipulation of the immune system, both innate and adaptive immune responses (Stevenson et al., 2014, Fink et al, 2013, 2014, Raghavan et al., 2014) and of DNA damage responses (E and Kowalik, 2014; Kulkarni and Fortunato, 2014). [...]

Recent Progress in Bunyavirus Research

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ISBN: 9783038423935 9783038423928 Year: Pages: VIII, 224 Language: English
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Biology
Added to DOAB on : 2017-06-14 11:52:43
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The Bunyaviridae is the largest family of RNA viruses, with over 350 isolates worldwide distributed into five genera (i.e., Hantavirus, Orthobunyavirus, Nairovirus, Tospovirus, and Phlebovirus). Many of these viruses are significant human or agricultural pathogens. The increasing number of reports on new emerging bunyaviruses and infection episodes makes it essential that we obtain a comprehensive understanding of bunyaviruses and their infection mechanisms. Although all bunyaviruses possesses a tripartite, negative-sense (or ambi-sense) RNA genome, they exhibit substantial differences in their structure, genome organization and replication strategies, which make functional interpolation across genus boundaries difficult.Fortunately, the bunyavirus field has witnessed many exciting new findings and breakthroughs in recent years. These discoveries span a wide spectrum of research areas, including structural characterization of viruses and viral proteins, the identification of new viruses, investigations into host switch and vectors of transmission, genome-based analysis of virus evolution and phylogenetic lineages, the development of new research tools, such as replicons and reverse genetics, molecular characterization of the virus life cycle at the cell level (i.e., cell entry, replication, transcription, translation, genome packaging, reassortment, and virus assembly, etc.), studies of virus–host interactions and host antiviral defense, the development of vaccines/drugs and the use of bunyaviruses for novel applications.This book includes both research and review papers that together provide a glimpse into the latest research on bunyaviruses and, at the same time, highlight some of the important research achievements made in recent years. Study topics of both a fundamental and applied nature are collated. An informed perspective for future research directions is provided and can stimulate research in some of the understudied areas.

New Advances on Zika Virus Research

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ISBN: 9783038977643 Year: Pages: 552 DOI: 10.3390/books978-3-03897-765-0 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Internal medicine --- Medicine (General)
Added to DOAB on : 2019-04-05 10:34:31
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Zika virus (ZIKV) is a mosquito-borne member of the Flaviviridae family that historically has been associated with mild febrile illness. However, the recent outbreaks in Brazil in 2015 and its rapid spread throughout South and Central America and the Caribbean, together with its association with severe neurological disorders—including fetal microcephaly and Guillain-Barré syndrome in adults—have changed the historic perspective of ZIKV. Currently, ZIKV is considered an important public health concern that has the potential to affect millions of people worldwide. The significance of ZIKV in human health and the lack of approved vaccines and/or antiviral drugs to combat ZIKV infection have triggered a global effort to develop effective countermeasures to prevent and/or treat ZIKV infection. In this Special Issue of Viruses, we have assembled a collection of 32 research and review articles that cover the more recent advances on ZIKV molecular biology, replication and transmission, virus–host interactions, pathogenesis, epidemiology, vaccine development, antivirals, and viral diagnosis.

Keywords

Ziks virus --- silvestrol --- antiviral --- eIF4A --- hepatocytes --- flavivirus --- arbovirus --- Zika --- sexual transmission --- testis --- prostate --- Zika virus --- ZIKV --- rhesus macaques --- Non-human primates --- NHP --- infection --- natural history --- Asian-lineage --- African-lineage --- zika virus --- ZIKV–host interactions --- viral pathogenesis --- cell surface receptors --- antiviral responses --- viral counteraction --- cytopathic effects --- microcephaly --- ZIKV-associated neurologic disorders --- Zika virus --- serology --- flavivirus --- microsphere immunoassay --- validated --- optimised --- dengue virus --- ZIKV --- reporter virus --- cryptic promoter silencing --- full-length molecular clone --- subgenomic replicon --- plasmid toxicity --- Zika virus --- dengue viruses --- flavivirus --- ELISA --- indirect immunofluorescence --- plaque reduction neutralization test --- polymerase chain reaction --- cross-reactions --- Zika virus --- flavivirus --- infectious cDNA --- replication --- gene expression --- neuropathogenesis --- viral genetic variation --- host genetic variation --- flavivirus --- Zika virus --- therapy --- host-directed antivirals --- Aedes aegypti --- RNA-seq --- insecticide resistance --- Zika virus --- detoxification and immune system responses --- Zika virus --- mosquito-borne flavivirus --- emerging arbovirus --- outbreak control --- molecular diagnostics --- laboratory preparedness --- assay standardization --- external quality assessment --- EQA --- QCMD --- flavivirus --- eye --- zika virus --- blood-retinal barrier --- ocular --- innate response --- Zika virus --- pregnancy --- fetal infection --- congenital Zika syndrome --- Asian lineage --- Zika virus --- Full-length cDNA infectious clones --- Bacterial artificial chromosome --- NS2A protein --- Zika virus --- neural progenitor cells --- neurons --- Zika virus --- antivirals --- therapeutics --- research models and tools --- flavivirus --- Zika virus (ZIKV) --- reverse genetics --- infectious clone --- full-length molecular clone --- bacterial artificial chromosome --- replicon --- infectious RNA --- Zika virus --- flavivirus --- arbovirus --- sexual transmission --- host genetic variation --- immune response --- Zika virus --- flaviviruses --- vaccines --- virus like particles --- clinical trials --- ZIKV --- NS1 protein --- Zika virus --- diagnosis --- monoclonal antibodies --- ELISA --- zika virus --- placenta cells --- microglia cells --- siRNA --- TLR7/8 --- Zika --- viral evolution --- genetic variability --- Bayesian analyses --- Zika virus --- reverse genetics --- infectious cDNA --- Tet-inducible --- MR766 --- FSS13025 --- flavivirus --- ZIKV --- NS5 --- type I IFN antagonist --- point-of-care diagnostics --- isothermal nucleic acid amplification --- nucleic acid computation --- nucleic acid strand exchange --- zika virus --- mosquito --- mosquito surveillance --- multiplex nucleic acid detection --- boolean logic-processing nucleic acid probes --- Zika virus --- flavivirus --- astrocytomas --- dsRNA --- viral fitness --- antiviral --- heme-oxygenase 1 --- Zika virus --- viral replication --- Zika virus --- antiviral compounds --- neural cells --- viral replication --- flavivirus --- Zika virus --- viral persistence --- testicular cells --- testes --- Zika virus --- prM-E proteins --- viral pathogenicity --- virus attachment --- viral replication --- viral permissiveness --- viral survival --- apoptosis --- cytopathic effects --- mutagenesis --- chimeric viruses --- human brain glial cells --- Zika virus --- flavivirus --- microRNAs --- neurons --- neuroinflammation --- anti-viral immunity --- Zika virus --- dengue virus --- secondary infections --- cross-reactions --- IgA --- IgG avidity tests

Biological Efficacy of Natural and Chemically Modified Products against Oral Inflammatory Lesions

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ISBN: 9783038979920 / 9783038979937 Year: Pages: 212 DOI: 10.3390/books978-3-03897-993-7 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Medicine (General) --- Therapeutics
Added to DOAB on : 2019-06-26 08:44:06
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Oral health is general health. If the oral cavity is kept healthy, the whole body is always healthy. Bacteria in the oral cavity do not stay in the oral cavity, but rather they travel throughout the body and can induce various diseases. Periodontal pathogens are involved in tooth loss. The number of remaining teeth decreases with age. People with more residual teeth can bite food well and live longer with lower incidence of dementia. There are many viruses in the oral cavity that also cause various diseases. Bacteria and viruses induce and aggravate inflammation, and therefore should be removed from the oral cavity. In the natural world, there are are many as yet undiscovered antiviral, antibacterial and anti-inflammatory substances. These natural substances, as well as chemically modified derivatives, help our oral health and lead us to more fulfilling, high quality lives. This Special Issue, entitled “Biological Efficacy of Natural and Chemically Modified Products against Oral Inflammatory Lesions”, was written by specialists from a diverse variety of fields. It serves to provide readers with up-to-date information on incidence rates in each age group, etiology and treatment of stomatitis, and to investigate the application of such treatments as oral care and cosmetic materials.

Keywords

metabolomics --- oral cell --- benzaldehyde --- eugenol --- inflammation --- cytotoxicity --- stomatitis --- recurrent aphthous stomatitis --- oral lichen planus --- CCN2 --- glucocorticoids --- alkaloids --- anti-human immunodeficiency virus (HIV) --- antiviral --- natural product --- human virus --- inflammatory disease --- stomatitis --- periodontitis --- anti-osteoclast activity --- cepharanthin --- herbal medicine --- natural product --- arachidonic acid cascade --- allergic rhinitis --- mice --- quercetin --- thioredoxin --- nasal epithelial cell --- production --- increase --- in vitro --- in vivo --- nutritionally variant streptococci --- antimicrobial susceptibilities --- oral microbiota --- infective endocarditis --- kampo formula --- traditional Japanese herbal medicine --- stomatitis --- mucositis --- Hangeshashinto --- polyphenol --- chromone --- lignin-carbohydrate complex --- alkaline extract --- Kampo medicine --- glucosyltransferase --- angiotensin II blocker --- QSAR analysis --- oral diseases --- dental application --- Chinese herbal remedies --- stomatitis --- periodontitis --- Kampo --- traditional medicine --- Jixueteng --- Juzentaihoto --- technical terms --- gargle --- tongue diagnosis --- mastic --- pathogenic factors --- quantitative structure-activity relationship --- machine learning --- random forest --- natural products --- tumour-specificity --- Kampo medicine --- constituent plant extract --- stomatitis --- oral inflammation --- quantitative structure-activity relationship (QSAR) analysis --- metabolomics

Mycoviruses

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ISBN: 9783038979968 / 9783038979975 Year: Pages: 350 DOI: 10.3390/books978-3-03897-997-5 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Added to DOAB on : 2019-06-26 08:44:06
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A virus (from the Latin word ‘v?rus’ meaning ‘venom’ or ‘poison’) is a microorganism invisible to the naked eye. Viruses can multiply exclusively by entering a cell and using the cell’s resources to create copies of themselves. As the origin of their name suggests, viruses are generally considered dangerous, harmful and often deadly. Some of the most well-studied and widely known viruses, such as HIV and influenza, infect humans. However, viruses can also infect animals, plants and microorganisms, including fungi. Many fungi are medically, ecologically and economically significant, for example, causing diseases to humans, plants and insects or being used in industry to produce bread, cheese, beer and wine. Viruses that infect fungi are called mycoviruses (from the Greek work ‘myco’, meaning ‘fungus’). Mycoviruses do not cause harm to or kill the infected fungus; in contrast, they are ‘friendly’ viruses and we can utilize them to control the growth, pathogenicity and toxin production of fungi. This book describes a range of different mycoviruses and their geographical distribution, transmission and evolution, together with their effects on the fungal hosts and how these are brought about.

Keywords

RNA silencing --- gemycircularvirus --- mycovirus --- antiviral --- dicer --- dsRNA mycoviruses --- multiplex PCR --- Aspergillus fumigatus chrysovirus --- Aspergillus fumigatus partitivirus-1 --- Aspergillus fumigatus tetramycovirus-1. --- Botrytis cinerea --- hypovirus --- fusarivirus --- hypovirulence --- infection cushion --- Botrytis cinerea --- Botrytis cinerea mymonavirus 1 --- Mymonaviridae --- dsRNA virus --- mycovirus --- capsid protein --- capsid structure --- virus evolution --- viral lineage --- ScV-L-A --- PcV --- PsV-F --- RnQV1 --- chrysovirus --- mycovirus --- Aspergillus --- A. fumigatus --- A. nidulans --- A. niger --- A. thermomutatus --- biocontrol --- Saccharomyces paradoxus --- Totiviridae --- dsRNA virus --- killer system --- Trichoderma atroviride --- Mycovirus --- Partitivirus --- Fusarium head blight --- mycovirus --- RNA genome --- mitovirus --- Tymovirales --- Ethiopia --- Sclerotinia minor --- endornavirus --- hypovirulence --- transmissibility --- biological control --- Chalara fraxinea --- Hymenoscyphus pseudoalbidus --- ash dieback --- Narnaviridae --- evolution --- invasive species --- horizontal virus transmission --- Brunchorstia pinea --- conifers --- mycovirus --- dsRNA --- ssRNA --- phylogeny --- evolution --- mycovirus --- Beauveria bassiana --- partitivirus --- victorivirus --- polymycovirus --- selection pressure --- recombination --- transmission --- mycovirus --- populations study --- Cryphonectria parasitica --- chestnut blight --- Castanea sativa --- biological control --- Mycovirus --- rice blast fungus --- Magnaporthe oryzae. chrysovirus 1 --- double-stranded RNA virus --- hypovirulence --- Rhizoctonia solani AG-1 IA --- mycovirus --- dsRNA --- Alphapartitivirus --- genomic structure analysis --- mycorrhizal fungi --- mycovirus --- mitovirus --- Rhizophagus --- hypovirus --- small RNA --- tRFs --- mycovirus --- fungal viruses --- dsRNA mycoviruses --- hypervirulence --- Leptosphaeria biglobosa quadrivirus --- Botrytis cinerea --- hypovirulence --- partitivirus --- conidiogenesis --- sclerogenesis --- mycovirus --- dsRNA --- sequencing --- killer toxin --- totivirus --- brown rot --- stone fruit --- Prunus --- mycovirus --- hypervirulence --- hypovirulence --- isogenic --- database mining --- Entomophthora --- Entomophthoromycotina --- fungal virus --- mitochondrion --- mycovirus --- virus discovery --- Mitovirus --- Narnaviridae --- n/a

Family Iridoviridae Molecular and Ecological Studies of a Family Infecting Invertebrates and Ectothermic Vertebrates

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ISBN: 9783039215164 / 9783039215171 Year: Pages: 234 DOI: 10.3390/books978-3-03921-517-1 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology
Added to DOAB on : 2019-12-09 11:49:15
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Ranaviruses and other viruses within the family Iridoviridae, infect a wide range of ecologically and commercially important ectothermic vertebrates, i.e., bony fish, amphibians, and reptiles, and invertebrates, including agricultural and medical pests and cultured shrimp and crayfish, and are responsible for considerable morbidity and mortality. Understanding the impact of these various agents on diverse host species requires the combined efforts of ecologists, veterinarians, pathologists, comparative immunologists and molecular virologists. Unfortunately, investigators involved in these studies often work in discipline-specific silos that preclude interaction with others whose insights and approaches are required to comprehensively address problems related to ranavirus/iridovirus disease. Our intent here is to breakdown these silos and provide a forum where diverse researchers with a common interest in ranavirus/iridovirus biology can profitably interact. As a colleague once quipped, “Three people make a genius.” We are hoping to do something along those lines by presenting a collection of research articles dealing with issues of anti-viral immunity, identification of a potentially novel viral genus exemplified by erythrocytic necrosis virus, viral inhibition of innate immunity, identification of novel hosts for lymphocystivirus and invertebrate iridoviruses, and modelling studies of ranavirus transmission. Collectively these and others will exemplify the breadth of ongoing studies focused on this virus family.

Keywords

amphibians --- histopathology --- immunohistochemistry --- Mexico --- outbreak --- ranavirus --- risk assessment --- Iridoviridae --- frog virus 3 --- FV3 --- ranavirus --- immunofluorescence --- intracellular localization --- iridovirus --- ranavirus --- epidemiology --- antibody --- ELISA --- virus isolation --- prevalence --- native-fish conservation --- biosecurity --- endemic disease --- Unconventional T cell --- nonclassical MHC --- antiviral immunity --- interferon --- DIV1 --- SHIV --- CQIV --- Macrobrachium rosenbergii --- Macrobrachium nipponense --- Procambarus clarkii --- white head --- susceptible species --- viral load --- erythrocytic necrosis virus (ENV) --- viral erythrocytic necrosis (VEN) --- Pacific salmon --- Pacific herring --- British Columbia --- SHIV --- DIV1 --- Decapodiridovirus --- Exopalaemon carinicauda --- susceptibility --- host --- ISDL --- amphibian --- Ranavirus --- frog virus 3 --- mathematical models --- Bayesian inference --- viral immune evasion --- immunomodulators --- NF-?B --- Imd --- DNA virus --- host-pathogen interactions --- IIV-6 --- Rana grylio virus (RGV) --- iridovirus core proteins --- protein interaction --- aquatic animals --- cross-species transmission --- yeast two-hybrid (Y2H) --- co-immunoprecipitation (Co-IP) --- megalocytivirus --- iridovirus --- European chub --- Lymphocystis disease virus --- Artemia spp. --- viral infection --- Sparus aurata --- viral transmission --- eDNA --- Ranavirus --- Common frog --- Rana temporaria --- early detection --- virus surveillance --- n/a --- transmission modelling --- susceptible-infected (SI) models --- emerging infection --- ranavirosis --- Iridoviridae --- disease dynamics --- ranavirus --- virus binding --- heparan sulfate --- Andrias davidianus ranavirus --- Rana grylio virus --- envelope protein --- lizard --- bearded dragon --- Pogona vitticeps --- cricket --- Gryllus bimaculatus

Venom and Toxin as Targeted Therapy

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ISBN: 9783039211890 / 9783039211906 Year: Pages: 180 DOI: 10.3390/books978-3-03921-190-6 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology
Added to DOAB on : 2019-12-09 11:49:15
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Targeted therapy has developed significantly in the last one and half decades, prescribing specific medications for treatment of particular diseases, such as cancer, diabetes, and heart disease. One of the most exciting recent developments in targeted therapies was the isolation of disease-specific molecules from natural resources, such as animal venoms and plant metabolites/toxins, for use as templates for new drug motif designs. In addition, the study of venom proteins/peptides and toxins naturally targeted mammalian receptors and demonstrated high specificity and selectivity towards defined ion channels of cell membranes. Research has also focsed intensely on receptors. The focus of this Special Issue of Toxins addressed the most recent advances using animal venoms, such as frog secretions, bee/ant venoms and plant/fungi toxins, as medicinal therapy. Recent advances in venom/toxin/immunotoxins for targeted cancer therapy and immunotherapy, along with using novel disease-specific venom-based protein/peptide/toxin and currently available FDA-approved drugs for combinationtreatments will be discussed. Finally, we included an overview of select promising toad/snake venom-based peptides/toxins potentially able to address the forthcoming challenges in this field. Both research and review articles proposing novelties or overviews, respectively, were published in this Special Issue after rigorous evaluation and revision by expert peer reviewers.

Keywords

disintegrin --- blood vessel formation --- VEGF --- antioxidant enzymes --- oxidative stress biomarkers --- bicarinalin --- antimicrobial peptide --- Helicobacter pylori --- gastric cells --- bacterial adhesion --- SEM --- atopic dermatitis (AD) --- house dust mite extract (DFE) --- 2,4-dinitrochlorobenzene (DNCB) --- bee venom phospholipase A2 (bvPLA2) --- skin inflammation --- CD206 --- mannose receptor --- immunotoxin --- Moxetumomab pasudotox --- targeted therapy --- CD22 --- B cell non-Hodgkin lymphoma --- acute lymphoblastic leukemia --- mantle cell lymphoma --- ribosome-inactivating protein --- BLF1 --- eIF4A --- MYCN --- cancer --- neuroblastoma --- apoptosis --- antimicrobial peptide (AMP) --- dermaseptin --- anuran skin secretion --- drug design --- antimicrobial activity --- anticancer activity --- antiviral activity --- Bougainvillea --- bouganin --- cancer therapy --- immunotherapy --- immunotoxins --- ribosome-inactivating proteins --- rRNA N-glycosylase activity --- VB6-845 --- orellanine --- clearance --- fungal toxin --- half-life --- toad toxins --- Chansu --- Huachansu --- cane toad --- bufadienolides --- indolealkylamines --- inflammation --- cancer --- obsessive–compulsive disorder (OCD) --- snake venom --- cancer --- target therapy --- snake venom --- Malaysian cobras --- N. kaouthia --- N. sumatrana --- O. hannah --- anticancer --- Apis mellifera syriaca --- bee venom --- melittin --- LC-ESI-MS --- solid phase extraction --- in vitro effects --- frog --- mass spectrometry --- molecular cloning --- bombesin-related peptide --- smooth muscle --- Bee venom --- complement system --- decay accelerating factor --- atopic dermatitis --- complement dependent cytotoxicity --- membrane attack complex --- n/a

Amide Bond Activation

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ISBN: 9783039212033 / 9783039212040 Year: Pages: 466 DOI: 10.3390/books978-3-03921-204-0 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Chemistry (General)
Added to DOAB on : 2019-08-28 11:21:27
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The amide bond represents a privileged motif in chemistry. The recent years have witnessed an explosion of interest in the development of new chemical transformations of amides. These developments cover an impressive range of catalytic N–C bond activation in electrophilic, Lewis acid, radical, and nucleophilic reaction pathways, among other transformations. Equally relevant are structural and theoretical studies that provide the basis for chemoselective manipulation of amidic resonance. This monograph on amide bonds offers a broad survey of recent advances in activation of amides and addresses various approaches in the field.

Keywords

fumardiamide --- primaquine --- succindiamide --- Michael acceptor --- biofilm eradication --- antibacterial screening --- antiviral activity --- cytostatic activity --- N,N-dimethylformamide --- DMF --- N,N-dimethylacetamide --- DMAc --- amination --- amidation --- thioamidation --- formylation --- carbonylation --- cyanation --- insertion --- cyclization --- amide --- arynes --- insertion --- activation --- heterocycles --- organic synthesis --- multi-component coupling reaction --- aryl thioamides --- thiourea --- C-H/C-N activation --- C-S formation --- transition-metal-free --- rotational barrier energy --- amide bond --- nuclear magnetic resonance --- kinetic --- density functional theory --- non planar amide --- base-catalyed hydrolysis --- water solvation --- entropy --- transamidation --- amide --- amine --- catalyst --- catalysis --- acylative cross-coupling --- trialkylborane --- amide activation --- palladium --- N-heterocyclic carbene --- ruthenium (Ru) --- N-heterocyclic carbenes (NHCs) --- homogeneous catalysis --- in situ --- amide bonds --- synthesis --- density functional theory --- cis/trans isomerization --- secondary amides --- dipeptides --- steric effects --- tert-butyl --- additivity principle --- amino acid transporters --- amide bond --- gemcitabine prodrug --- metabolic stability --- pancreatic cancer cells --- pharmacokinetics --- peptide bond cleavage --- amide bond resonance --- twisted amides --- enzymes --- metal complexes --- catalysts --- amide C–N bond activation --- nickel catalysis --- amidation --- DFT study --- reaction thermodynamics --- amide resonance --- anomeric effect --- HERON reaction --- pyramidal amides --- physical organic chemistry --- reaction mechanism --- amide --- activation --- amidicity --- carbonylicity --- transamidation --- acyl transfer --- excited state --- Suzuki-Miyaura --- cross-coupling --- aryl esters --- C–O activation --- Pd-catalysis --- amides --- carbanions --- C–H acidity --- nitro-aci tautomerism --- molecular dynamics --- density-functional theory --- alkynes --- C–H bond cleavage --- C–N bond cleavage --- cyclopentadienyl complexes --- N-(1-naphthyl)acetamide --- rhodium --- [2+2+2] annulation --- amide bond --- sulfonamide bond --- alkynes --- addition reaction --- aminoacylation --- aminosulfonylation --- pre-catalysts --- palladium catalysis --- amide bond activation --- ester bond activation --- cross-coupling --- amide bond --- bridged lactams --- twisted amides --- amides --- Winkler-Dunitz parameters --- N–C activation --- hypersensitivity --- nitrogen heterocycles --- distortion --- bridged sultams --- amides --- C-N ? bond cleavage --- sodium --- crown ether --- amide hydrolysis --- model compound --- intramolecular catalysis --- twisted amide --- protease --- intein --- C-H functionalization --- directing groups --- amides --- transition metals --- catalysis

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