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Spiritual Skin: Magival Tattoos and Scarification
Spiritual Skin: MAGICAL TATTOOS AND SCARIFICATION. Wisdom. Healing. Shamanic Power. Protection is a photographic masterwork in two parts exploring the secret world of magical tattooing and scarification across the tribal world. zur Produkt-Seite
4284902 {"price-changing":0,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvYTMvM2UvZTUvMzM5NTA5NjUwMDAwMVpfNjAweDYwMC5qcGc=!aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvYTMvM2UvZTUvMzM5NTA5NjUwMDAwMVpfNjAweDYwMC5qcGc=","post_title":"Spiritual Skin: Magival Tattoos and Scarification","deeplink":"https:\/\/cct.connects.ch\/tc.php?t=116298C1969900829T&subid=9783943105117&deepurl=https%3A%2F%2Feuniverse.ch%2Fbuecher%2Fgeisteswissenschaften-kunst-musik%2Fkunst%2F411719%2Fspiritual-skin-magival-tattoos-and-scarification-wisdom.-healing.-shamanic-power.-protection.-dtsc%3FsPartner%3Dtoppreise","labels":[],"brand_id":1,"post_content":"Spiritual Skin: MAGICAL TATTOOS AND SCARIFICATION. Wisdom. Healing. Shamanic Power. Protection is a photographic masterwork in two parts exploring the secret world of magical tattooing and scarification across the tribal world.","merchants_number":1,"ean":9783943105117,"category_id":103,"size":null,"min_price":54.89999999999999857891452847979962825775146484375,"low_price_merchant_id":70255345,"ID":4284902,"merchants":["euniverse"],"brand":"undefined","slug":"spiritual-skin-magival-tattoos-and-scarification","url":"\/unterhaltung\/produkt\/spiritual-skin-magival-tattoos-and-scarification\/","low_price_merchant_name":"eUniverse"}
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The Contribution of Pigmentation towards UVB Radiation Protection
Ultraviolet B (UVB) radiation is the component of sunlight that damages DNA. Red-haired people are especially vulnerable to the damaging effects of UVB due to the low content of eumelanin in their skin. Accumulated damage from UVB can lead to skin cancer. A transgenic strain of mouse containing an inducible melanogenesis system was used to investigate the mechanism of protection of eu... zur Produkt-Seite
5407985 {"price-changing":null,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTI4MDE3OTY5X0x4ZTM1LXBuZw==!aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTI4MDE3OTY5X0x4ZTM1LXBuZw==","post_title":"The Contribution of Pigmentation towards UVB Radiation Protection","deeplink":"https:\/\/www.awin1.com\/pclick.php?p=24465331417&a=401125&m=11816&pref1=9783845417004","labels":[],"brand_id":1,"post_content":"Ultraviolet B (UVB) radiation is the component of sunlight that damages DNA. Red-haired people are especially vulnerable to the damaging effects of UVB due to the low content of eumelanin in their skin. Accumulated damage from UVB can lead to skin cancer. A transgenic strain of mouse containing an inducible melanogenesis system was used to investigate the mechanism of protection of eumelanin. Melanogenesis in this murine model can be induced by the application of the diterpene, forskolin to the epidermis. Forskolin increases eumelanin protection by inducing the expression of cAMP, which then upregulates the expression of melanogenic genes. To assess the protection afforded by eumelanin to the epidermis, transgenic mice were exposed to varying doses of UVB in the presence or absence of forskolin induced melanin. DNA damage was assessed by immunohistochemical staining for cyclobutane pyrimidine dimers. Vehicle treated mice and albino mice showed thymine dimer formation at 20 and 50 mJ\/cm^2 of UVB. Forskolin treated and black-skinned mice showed no thymine dimer formation at these doses. These results indicate direct UVB protection by eumelanin through a light filtering process.","merchants_number":1,"ean":9783845417004,"category_id":103,"size":null,"min_price":50.2999999999999971578290569595992565155029296875,"low_price_merchant_id":1087639,"ID":5407985,"merchants":["dodax"],"brand":"undefined","slug":"the-contribution-of-pigmentation-towards-uvb-radiation-protection","url":"\/unterhaltung\/produkt\/the-contribution-of-pigmentation-towards-uvb-radiation-protection\/","low_price_merchant_name":null}
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Tattoos
Tattoos, permanent images created by inserting colored materials beneath the skin's surface, have played a part in human culture for thousands of years. Used for protection therapy or as status symbols in societies around the world, tattooing was introduced in the West by the famous explorer James Cook in late 18th century, where it spread among men in dangerous professions. Today tat... zur Produkt-Seite
4311908 {"price-changing":null,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTI4MDAyMzg0X2JOZ0FQLXBuZw==!aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTI4MDAyMzg0X2JOZ0FQLXBuZw==","post_title":"Tattoos","deeplink":"https:\/\/www.awin1.com\/pclick.php?p=22939418201&a=401125&m=11816&pref1=9786130192389","labels":[],"brand_id":1,"post_content":"Tattoos, permanent images created by inserting colored materials beneath the skin's surface, have played a part in human culture for thousands of years. Used for protection therapy or as status symbols in societies around the world, tattooing was introduced in the West by the famous explorer James Cook in late 18th century, where it spread among men in dangerous professions. Today tattooing is seen as an art form and more and more people choose to leave permanent images and messages on their skin. Learn more about tattoos, their purpose and meaning in different cultures in this book.","merchants_number":1,"ean":9786130192389,"category_id":103,"size":null,"min_price":32.5499999999999971578290569595992565155029296875,"low_price_merchant_id":1087639,"ID":4311908,"merchants":["dodax"],"brand":"undefined","slug":"tattoos-3","url":"\/unterhaltung\/produkt\/tattoos-3\/","low_price_merchant_name":null}
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Oedipina Stuarti
High Quality Content by WIKIPEDIA articles! Oedipina stuarti is a species of salamander in the Plethodontidae family. It is endemic to Honduras. Its natural habitats are subtropical or tropical dry forests, subterranean habitats (other than caves), and man-made karsts. Salamander is a common name of approximately 500 species of amphibians. They are typically characterized by their sle... zur Produkt-Seite
5151968 {"price-changing":null,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTI4MjkyMzc2X2U2V3E0LXBuZw==!aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTI4MjkyMzc2X2U2V3E0LXBuZw==","post_title":"Oedipina Stuarti","deeplink":"https:\/\/www.awin1.com\/pclick.php?p=27383663853&a=401125&m=11816&pref1=9786131495717","labels":[],"brand_id":1,"post_content":"High Quality Content by WIKIPEDIA articles! Oedipina stuarti is a species of salamander in the Plethodontidae family. It is endemic to Honduras. Its natural habitats are subtropical or tropical dry forests, subterranean habitats (other than caves), and man-made karsts. Salamander is a common name of approximately 500 species of amphibians. They are typically characterized by their slender bodies, short noses, and long tails. All known fossils and extinct species fall under the order Caudata, while sometimes the extant species are grouped together as the Urodela. Most salamanders have four toes on their front legs and five on their rear legs. Their moist skin usually makes them reliant on habitats in or near water, or under some protection (e.g., moist ground), often in a wetland. Some salamander species are fully aquatic throughout life, some take to the water intermittently, and some are entirely terrestrial as adults. Uniquely among vertebrates, they are capable of regenerating lost limbs, as well as other body parts.","merchants_number":1,"ean":9786131495717,"category_id":103,"size":null,"min_price":28.800000000000000710542735760100185871124267578125,"low_price_merchant_id":1087639,"ID":5151968,"merchants":["dodax"],"brand":"undefined","slug":"oedipina-stuarti","url":"\/unterhaltung\/produkt\/oedipina-stuarti\/","low_price_merchant_name":null}
Produkt merken zur Merkliste CHF 81.10
Anti-infective and wound healing agents of plants sourced from Ghana
This monograph is a study involving the scientific investigation of the ethnopharmacological uses of five selected plants from Ghana used in the treatment of dermal infections and wounds. Screening of the plants for antibacterial, antifungal, antioxidant and wound healing properties was carried out using in vitro bioassays. In all cases, the light petroleum, chloroform, ethanol and wa... zur Produkt-Seite
5362184 {"price-changing":null,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTI4MTEzNTA3XzF3Qm5KLXBuZw==!aHR0cHM6Ly9jNC1zdGF0aWMuZG9kYXguY29tL3YyLzE4MC0xODAtMTI4MTEzNTA3XzF3Qm5KLXBuZw==","post_title":"Anti-infective and wound healing agents of plants sourced from Ghana","deeplink":"https:\/\/www.awin1.com\/pclick.php?p=27446269513&a=401125&m=11816&pref1=9783838393193","labels":[],"brand_id":1,"post_content":"This monograph is a study involving the scientific investigation of the ethnopharmacological uses of five selected plants from Ghana used in the treatment of dermal infections and wounds. Screening of the plants for antibacterial, antifungal, antioxidant and wound healing properties was carried out using in vitro bioassays. In all cases, the light petroleum, chloroform, ethanol and water extracts were tested. In all, nine compounds were isolated from C. benthamiana, including three novel and two known cassane-type furanoditerpenoids, three plant sterols and a long chain fatty acid. This is however the first time all the six known isolated compounds have been reported from this plant species. The three novel antibacterial compounds were designated benthaminin 1-3. Benthaminin 2 was the more active antioxidant compound and showed IC50 values of 43 M and 74 M for the DPPH and TBA assays, respectively. This compound also offered significant protection against hydrogen peroxide induced damage. These findings therefore give some support to the ethnopharmacological use of the plants in the treatment of various skin diseases and wounds.","merchants_number":1,"ean":9783838393193,"category_id":103,"size":null,"min_price":81.099999999999994315658113919198513031005859375,"low_price_merchant_id":1087639,"ID":5362184,"merchants":["dodax"],"brand":"undefined","slug":"anti-infective-and-wound-healing-agents-of-plants-sourced-from-ghana","url":"\/unterhaltung\/produkt\/anti-infective-and-wound-healing-agents-of-plants-sourced-from-ghana\/","low_price_merchant_name":null}
Produkt merken zur Merkliste CHF 239.00
Functional Surfaces in Biology, Little Structures with Big Effects. Vol.1
Introduction: Surface Properties and their Functions in Biological Systems.- Protection and Defence.- Biological Properties of Fruit and Seed Slime Envelope: How to Live, Fly, and Not Die.- Easily Damaged Integument of Some Sawflies (Hymenoptera) is Part of a Defence Strategy Against Predators.- Anti-wetting.- Water Repellence in Gecko Skin: How Do Geckos Keep Clean?.- Anti-Wetting Su... zur Produkt-Seite
4922660 {"price-changing":0,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvOGQvN2IvNzcvMzU5NjQzNTMwMDAwMUFfNjAweDYwMC5qcGc=!aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvOGQvN2IvNzcvMzU5NjQzNTMwMDAwMUFfNjAweDYwMC5qcGc=","post_title":"Functional Surfaces in Biology, Little Structures with Big Effects. Vol.1","deeplink":"https:\/\/cct.connects.ch\/tc.php?t=116298C1969900829T&subid=9781402066962&deepurl=https%3A%2F%2Feuniverse.ch%2Fbuecher%2Fmathematik-naturwissenschaft-technik%2Fbiologie%2F362792%2Ffunctional-surfaces-in-biology-little-structures-with-big-effects.-vol.1%3FsPartner%3Dtoppreise","labels":[],"brand_id":1,"post_content":"Introduction: Surface Properties and their Functions in Biological Systems.- Protection and Defence.- Biological Properties of Fruit and Seed Slime Envelope: How to Live, Fly, and Not Die.- Easily Damaged Integument of Some Sawflies (Hymenoptera) is Part of a Defence Strategy Against Predators.- Anti-wetting.- Water Repellence in Gecko Skin: How Do Geckos Keep Clean?.- Anti-Wetting Surfaces in Heteroptera (Insecta): Hairy Solutions to Any Problem.- Water Repellent Properties of Spiders: Topographical Variations and Functional Correlates.- Dry in the Water: The Superhydrophobic Water Fern Salvinia - a Model for Biomimetic Surfaces.- Brochosomal Coatings of the Integument of Leafhoppers (Hemiptera, Cicadellidae).- Transport.- Pull, Push and Evaporate: The Role of Surfaces in Plant Water Transport.- Aerodynamics.- Molding and Carving Cell Surfaces: The Joke of a Fold and the Origin and Evolution of Feathers.- Acoustics.- Surface Structure of Sound Emission Organs in Urania Moths.- Sensory Systems.- Functional Coupling of Cercal Filiform Hairs and Campaniform Sensilla in Crickets.- Optics.- Advanced Photonic Systems on the Wing-Scales of Lepidoptera.- Sub-micron Structures Causing Reflection and Antireflection in Animals.- Surface Colors of Insects: Wings and Eyes.- Butterfly Photonics: Form and Function.","merchants_number":1,"ean":9781402066962,"category_id":103,"size":null,"min_price":239,"low_price_merchant_id":70255345,"ID":4922660,"merchants":["euniverse"],"brand":"undefined","slug":"functional-surfaces-in-biology-little-structures-with-big-effects-vol1","url":"\/unterhaltung\/produkt\/functional-surfaces-in-biology-little-structures-with-big-effects-vol1\/","low_price_merchant_name":"eUniverse"}
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Peroxisomes
1. Isolation of Peroxisomes from Rat Liver and Cultured Hepatoma Cells by Density Gradient CentrifugationAndreas Manner and Markus Islinger 2. Isolation of Peroxisomes from Mouse Brain Using a Continuous Nycodenz Gradient: A Comparison to the Isolation of Liver and Kidney PeroxisomesMiriam J. Schönenberger and Werner J. Kovacs 3. Determining the Topology of Peroxisomal Proteins Using ... zur Produkt-Seite
5478893 {"price-changing":0,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvMmEvYTUvNDcvNjIwMTAzNTUwMDAwMUFfNjAweDYwMC5qcGc=!aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvMmEvYTUvNDcvNjIwMTAzNTUwMDAwMUFfNjAweDYwMC5qcGd8fnxodHRwczovL2kud2VsdGJpbGQuZGUvcC9wZXJveGlzb21lcy0yNzM1NDM5NzEuanBn","post_title":"Peroxisomes","deeplink":"https:\/\/cct.connects.ch\/tc.php?t=116298C1969900829T&subid=9781493969357&deepurl=https%3A%2F%2Feuniverse.ch%2Fbuecher%2Fmathematik-naturwissenschaft-technik%2Fbiologie%2F377928%2Fperoxisomes-methods-and-protocols%3FsPartner%3Dtoppreise","labels":[],"brand_id":1,"post_content":"1. Isolation of Peroxisomes from Rat Liver and Cultured Hepatoma Cells by Density Gradient CentrifugationAndreas Manner and Markus Islinger\u00a02. Isolation of Peroxisomes from Mouse Brain Using a Continuous Nycodenz Gradient: A Comparison to the Isolation of Liver and Kidney PeroxisomesMiriam J. Sch\u00f6nenberger and Werner J. Kovacs\u00a03. Determining the Topology of Peroxisomal Proteins Using Protease Protection AssaysT\u00e2nia Francisco, Ana F. Dias, Ana G. Pedrosa, Cl\u00e1udia P. Grou, Tony A. Rodrigues, and Jorge E. Azevedo\u00a04. Isolation of Native Soluble and Membrane-Bound Protein Complexes from Yeast Saccharomyces CerevisiaeTobias Hansen, Anna Chan, Thomas Schr\u00f6ter, Daniel Schwerter, Wolfgang Girzalsky, and Ralf Erdmann\u00a05. Method for Measurement of Peroxisomal Very Long-Chain Fatty Acid Beta-Oxidation and de novo C26:0 Synthesis Activity in Living Cells Using Stable-Isotope Labelled Docosanoic AcidMalu-Clair van de Beek, Inge M.E. Dijkstra, and Stephan Kemp\u00a06. Analysis of Plasmalogen Synthesis in Cultured CellsMasanori Honsho and Yukio Fujiki\u00a07. Transfection of Primary Human Skin Fibroblasts for Peroxisomal StudiesJanet Koster and Hans R. Waterham\u00a08. siRNA-Mediated Silencing of Peroxisomal Genes in Mammalian CellsTina A. Schrader and Michael Schrader\u00a09. Dual Reporter Systems for the Analysis of Translational Readthrough in MammalsJulia Hofhuis, Severin Dieterle, Rosemol George, Fabian Schueren, and Sven Thoms\u00a010. Cytochemical Detection of Peroxisomes in Light and Electron Microscopy with 3,3'-diaminobenzidineH. Dariush Fahimi\u00a011. Cryo-Immuno Electron Microscopy of Peroxisomal Marker ProteinsKarina Mildner and Dagmar Zeuschner\u00a012. Detection and Immunolabelling of Peroxisomal ProteinsTina Schrader, Markus Islinger, and Michael Schrader\u00a013. Labelling of Peroxisomes for Live Cell Imaging in the Filamentous Fungus Ustilago MaydisSofia C. Guimaraes, Sreedhar Kilaru, Michael Schrader, and Martin Schuster\u00a014. Quantitative Monitoring of Subcellular Redox Dynamics in Living Mammalian Cells Using RoGFP2-based ProbesCelien Lismont, Paul A. Walton, and Marc Fransen\u00a015. KillerRed as a Tool to Study the Cellular Responses to Peroxisome-Derived Oxidative StressMarc Fransen and Chantal Brees\u00a016. Determination of Peroxisomal pH in Living Mammalian Cells Using pHRedLuis F. Godinho, and Michael Schrader\u00a017. In Cellulo Approaches to Study Peroxisomal Protein Import - Yeast Immunofluorescence MicroscopyTobias Hansen, Wolfgang Girzalsky, and Ralf Erdmann\u00a018. Blue Native Page: Applications to Study Peroxisome BiogenesisKanji Okumoto, Shigehiko Tamura, and Yukio Fujiki\u00a019. In Vitro PMP Import Analysis Using Cell-Free Synthesized PMP and Isolated PeroxisomesYuqiong Liu, Masanori Honsho, and Yukio Fujiki\u00a020. Peroxisomal Membrane and Matrix Protein Import Using a Semi-Intact Mammalian Cell SystemKanji Okumoto, Masanori Honsho, Yuqiong Liu, and Yukio Fujiki\u00a021. The Use of Glycosylation Tags as Reporters for Protein Entry into the Endoplasmic Reticulum in Yeast and Mammalian CellsJudith Buentzel, and Sven Thoms\u00a022. Detection of Ubiquitinated Peroxisomal Proteins in YeastNatasha Danda and Chris Williams\u00a023. Assessing Pexophagy in Mammalian CellsShun-ichi Yamashita and Yukio Fujiki\u00a024. Experimental Systems to Study Yeast PexophagyShun-ichi Yamashita, Masahide Oku, Yasuyoshi Sakai, and Yukio Fujiki\u00a025. Flow Cytometric Analysis of the Expression Pattern of Peroxisomal Proteins, Abcd1, Abcd2, and Abcd3 in BV-2 Murine Microglial CellsThomas Nury, Imen Helali, El Mostafa Karym, Meryam Debbabi, Flore Geillon, Catherine Gondcaille, Doriane Trompier, Amina Najid, S\u00e9bastien Terreau, Maryem Bezine, Amira Zarrouk, Anne Vejux, Pierre Andreoletti, Mustapha Cherkaoui-Malki, St\u00e9phane Savary, and G\u00e9rard Lizard\u00a026. Study of Peroxisomal Protein Phosphorylation by Functional ProteomicsAndreas Schummer, Sven Fischer, Silke Oeljeklaus, and Bettina Warscheid\u00a027. Analysis of Peroxisomal beta-Oxidation during Storage Oil Mobilization in Arabidopsis Thaliana SeedlingsBj\u00f6rn Hielscher, Lennart Charton, Tabea Mettler-Altmann, and Nicole Linka\u00a028. Peroxisome Mini-Libraries - Systematic Approaches to Study Peroxisomes Made EasyNoa Dahan, Maya Schuldiner, and Einat Zalckvar\u00a029. Generation of Peroxisome-Deficient Somatic Animal Cell MutantsKanji Okumoto and Yukio Fujiki\u00a030. Clinical and Laboratory Diagnosis of Peroxisomal DisordersRonald J.A. Wanders, Femke C.C. Klouwer, Sacha Ferdinandusse, Hans R. Waterham, and Bwee Tien Poll-Th\u00e9","merchants_number":2,"ean":9781493969357,"category_id":103,"size":null,"min_price":157,"low_price_merchant_id":70255345,"ID":5478893,"merchants":["euniverse","weltbild"],"brand":"undefined","slug":"peroxisomes","url":"\/unterhaltung\/produkt\/peroxisomes\/","low_price_merchant_name":"eUniverse"}
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Vaccine Design
Part I Challenges in Veterinary Vaccine Development 1. Challenges in Veterinary Vaccine Development and Immunization Mark A. Chambers, Simon P. Graham, and Roberto M. La Ragione Part II Vaccines for Farm Animals 2. Development of Mycoplasma hyopneumoniae Recombinant Vaccines Silvana Beutinger Marchioro, Simone Simionatto, and Odir Dellagostin 3. Computational Pre... zur Produkt-Seite
4681667 {"price-changing":0,"image":"https:\/\/image.vergleiche.ch\/small\/aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvMTYvYTYvZjAvNTQwNzk3MzMwMDAwMUFfNjAweDYwMC5qcGc=!aHR0cHM6Ly9vczEubWVpbmVjbG91ZC5pby9iMTAxNTgvbWVkaWEvaW1hZ2UvMTYvYTYvZjAvNTQwNzk3MzMwMDAwMUFfNjAweDYwMC5qcGd8fnxodHRwczovL2kud2VsdGJpbGQuZGUvcC92YWNjaW5lLWRlc2lnbi0yNzM1Mzg0MzkuanBn","post_title":"Vaccine Design","deeplink":"https:\/\/cct.connects.ch\/tc.php?t=116298C1969900829T&subid=9781493933884&deepurl=https%3A%2F%2Feuniverse.ch%2Fbuecher%2Fmathematik-naturwissenschaft-technik%2Fmedizin-pharmazie%2F376410%2Fvaccine-design-methods-and-protocols-volume-2-vaccines-for-veterinary-diseases%3FsPartner%3Dtoppreise","labels":[],"brand_id":1,"post_content":"Part I Challenges in Veterinary Vaccine Development 1. Challenges in Veterinary Vaccine Development and Immunization Mark A. Chambers, Simon P. Graham, and Roberto M. La Ragione Part II Vaccines for Farm Animals 2. Development of Mycoplasma hyopneumoniae Recombinant Vaccines Silvana Beutinger Marchioro, Simone Simionatto, and Odir Dellagostin 3. Computational Prediction of Immunodominant Epitopes on Outer Membrane Protein (Omp) H of Pasteurella Multocida towards Designing of a Peptide Vaccine Bhaskar Ganguly 4. DNA Vaccines against Maedi-Visna Virus Ana M. Henriques, Miguel Fevereiro, and Gabriel A. Monteiro 5. Detection of Avian Antigen-Specific T cells Induced by Viral Vaccines Tina S\u00f8rensen Dalgaard, Liselotte Rothmann Norup, and Helle Risdahl Juul-Madsen 6. Generation of Newcastle Disease Virus (NDV) Recombinants Expressing the Infectious Laryngotracheitis Virus (ILTV) Glycoprotein gB or gD as Dual Vaccines Wei Zhao, Stephen Spatz, Laszlo Zsak, and Qingzhong Yu 7. A Reverse Genetics Approach for the Design of Methyltransferase-Defective Live Attenuated Avian Metapneumovirus Vaccines Yu Zhang, Jing Sun, Yongwei Wei, and Jianrong Li 8. Development of Fasciola Vaccine in an Animal Model Krai Meemon, and Prasert Sobhon 9. Development of Experimental Vaccines against Liver Flukes Huan Yong Yap and Peter M. Smooker 10. Towards a Preventive Strategy for Toxoplasmosis: Current Trends, Challenges, and Future Perspectives for Vaccine Development Ragab M. Fereig and Yoshifumi Nishikawa 11. DNA Vaccination in Chickens Shishir Kumar Gupta, Sohini Dey, and Madhan Mohan Chellappa PART III Vaccines for Fishes and Shellfish 12. Selection of Vaccine Candidates for Fish Pasteurellosis Using a Reverse Vaccinology and an In Vitro Screening Approach Francesca Andreoni, Giulia Amagliani, and Mauro Magnani 13. Development of Vaccines against Nocardia in Fishes Sukanta K. Nayak and Teruyuki Nakanishi 14. Design of an Immersion Vaccine against Aeromonad Septicaemia in Perch (Perca fluviatilis L.). Joachim Frey, Sarah E. Burr, and Thomas Wahli 15. Prokaryotic Production of Virus-Like Particle Vaccine of Betanodavirus Junfeng Xie, Runqing Huang, and Yuxiong Lai 16. Design and Construction of Shrimp Antiviral DNA Vaccines Expressing Long and Short Hairpins for Protection by RNA Interference Aparna Chaudhari, Gireesh Babu P, and A. Pavan Kumar PART IV Vaccines against Ticks 17. Developing Anti-Tick Vaccines Alina Rodr\u00edguez-Mallon 18. Host Immunization with Recombinant Proteins to Screen Antigens for Tick Control Remil Linggatong Galay, Takeshi Miyata, Rika Umemiya-Shirafuji, Masami Mochizuki, Kozo Fujisaki, and Tetsuya Tanaka 19. Vaccinomics Approach to Tick Vaccine Development Marinela Contreras, Margarita Villar, Pilar Alberdi, and Jos\u00e9 de la Fuente Part V Vaccine Adjuvants 20. Development of CpG ODN Based Vaccine Adjuvant Formulations Mayda Gursel and Ihsan Gursel Part VI Vaccine Vectors and Production Systems 21. Assembly and Assessment of DNA Scaffolded Vaccines Xiaowei Liu, Lili Wang, Hao Yan, and Yung Chang 22. Alphavirus-based Vaccines Kenneth Lundstrom 23. Vaccine Design: Replication-Defective Adenovirus Vectors Xiangyang Zhou, Zhiquan Xiang, and Hildegund C.J. Ertl 24. Generation of Lymphocytic Choriomeningitis Virus based Vaccine Vectors Sandra Ring and Lukas Flatz 25. Production of Japanese Encephalitis Virus-like Particles Using Insect Cell Expression Systems Hideki Yamaji and Eiji Konishi 26. Subunit Protein Vaccine Delivery System for Tuberculosis Based on Hepatitis B Virus Core VLP (HBc-VLP) Particles Dhananjayan Dhanasooraj, Ajay Kumar R, and Sathish Mundayoor 27. Formulation Studies during Preclinical Development of Influenza Hemagglutinin and Virus-like Particle Vaccine Candidates Newton Wahome, John M. Hickey, David B. Volkin, and C. Russell Middaugh 28. Strategies for Vaccine Design using Phage Display-Derived Peptides Luiz R. Goulart and Paula de S. Santos 29. Production of Well-Characterized Virus-Like Particles in an Escherichia coli based Expression Platform for Preclinical Vaccine Assessments Newton Wahome, Anne Cooper, Prem Thapa, Shyamal Choudhari, Fei P. Gao, David B. Volkin, and C. Russell Middaugh 30. Laboratory Scale Production of Recombinant Haa86 Tick Protein in Pichia pastoris and in Escherichia coli System Binod Kumar, Azhahianambi P, and Ghosh Srikant 31. Production and Purification of Recombinant Filamentous Bacteriophages Displaying Immunogenic Heterologous Epitopes Lei Deng, Florencia Linero, and Xavier Saelens 32. Oral Vaccine Development by Molecular Display Methods using Microbial Cells Seiji Shibasaki and Mitsuyoshi Ueda 33. Facile Method for the Production of Recombinant Cholera Toxin B Subunit in E. Coli Krystal Hamorsky and Nobuyuki Matoba 34. Immunoproteomic Approach for Screening Vaccine Candidates from Bacterial Outer Membrane Proteins Jianyi Pan, Chuchu Li, and Zhicang Ye 35. Construction and Immunogenicity Testing of Whole Recombinant Yeast-Based T cell Vaccines Thomas H. King, Zhimin Guo, Melanie Hermreck, Donald Bellgrau, and Timothy C. Rodell 36. Oral Rabies Vaccine Design For Expression in Plants Ankit Singh, Gauri Saxena, and Praveen C. Verma 37. Purification of Virus-like Particles (VLPs) from Plants Albertha R. van Zyl, and Inga I. Hitzeroth 38. Transient Expression of Viral Proteins in Plants using Agrobacterium tumefaciens Inga I. Hitzeroth, and Albertha R. van Zyl 39. A Plant-Based Transient Expression System for the Rapid Production of Malaria Vaccine Candidates Alexander Boes, Andreas Reimann, Richard M Twyman, Rainer Fischer, Stefan Schillberg, and Holger Spiegel 40. Recombinant Botulinum Toxoids: A Practical Guide for Production Gustavo Mar\u00e7al S.G. Moreira, Cl\u00f3vis Moreira Jr., Carlos Eduardo P. da Cunha, Marcelo Mendon\u00e7a, and Fabricio R. Concei\u00e7\u00e3o 41. Practical Approaches to Forced Degradation Studies of Vaccines Manvi Hasija, Sepideh Aboutorabian, Nausheen Rahman, and Salvador F Ausar PART VII Vaccine Delivery Systems 42. Preparation of Multifunctional Liposomes as a Stable Vaccine Delivery-Adjuvant System by Procedure of Emulsification-Lyophilization Ting Wang, and Ning Wang 43. Preparation of the Multifunctional Liposome-Containing Microneedle Arrays as an Oral Cavity Mucosal Vaccine Adjuvant-Delivery System Ting Wang, and Ning Wang 44. Preparation and Characterization of PLGA Encapsulated Protective Antigen Domain 4 Nanoformulation Manish Manish, Rakesh Bhatnagar, and Samer Singh 45. Attenuated Salmonella sp. as a DNA Delivery Dystem for T. cruzi Antigens Augusto E. Bivona, Natacha Cerny, Andr\u00e9s S\u00e1nchez Alberti, Silvia I. Cazorla, and Emilio L. Malchiodi 46. Poly-e-Caprolactone\/Chitosan and Chitosan Particles: Two Recombinant Antigen Delivery Systems for Intranasal Vaccination Sandra Jesus, Edna Soares, and Olga Borges 47. Micro-Fractional Epidermal Powder Delivery for Skin Vaccination Feng Jia, Shengwu Liu, Mei X. Wu, and Xinyuan Chen Part VIII Vaccine Bioinformatics 48. A Bioinformatics Method for the Design of Live Attenuated Virus Vaccine Utilizing Host microRNA Response Elements Duangdao Wichadakul 49. The Web-based DNA Vaccine Database DNAVaxDB and its Usage for Rational DNA Vaccine Design Rebecca Raczand Yongqun He 50. MetaMHCpan, a Meta Approach for Pan-Specific MHC Peptide Binding Prediction Yichang Xu, Cheng Luo, Hiroshi Mamitsuka, and Shanfeng Zhu 51. A Cohesive and Integrated Platform for Immunogenicity Prediction Ivan Dimitrov, Mariyana Atanasova, Atanas Patronov, Darren R. Flower, and Irini Doytchinova Part IX Vaccine Safety and Regulation 52. The Regulatory Evaluation of Vaccines for Human Use Norman W. Baylor PART X Vaccine Intellectual Property 53. Vaccines and IP Rights: A Multifaceted Relationship Karen Durell 54. From the Bench to the Pharmacy: Protecting Innovation during Vaccine Development and Commercialization Adam C. Krol, Muna Abu-Shaar, and Paul Brady 55. Intellectual Property in Vaccine Innovation: Impact of Recent Patent Developments Elizabeth Siew-Kuan Ng","merchants_number":2,"ean":9781493933884,"category_id":103,"size":null,"min_price":239,"low_price_merchant_id":70255345,"ID":4681667,"merchants":["euniverse","weltbild"],"brand":"undefined","slug":"vaccine-design-1","url":"\/unterhaltung\/produkt\/vaccine-design-1\/","low_price_merchant_name":"eUniverse"}
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