TY - BOOK ID - 61123087 TI - Biotechnological Applications of Phage and Phage-Derived Proteins AU - Santos, Sílvio. AU - Azeredo, Joana. PY - 2019 SN - 303921442X 3039214411 PB - MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - toxicity KW - encapsulation KW - n/a KW - cancerous tumors KW - bacteriophage-derived lytic enzyme KW - native gel electrophoresis KW - bacteriophages KW - Cpl-1 KW - O-antigen KW - ESKAPE KW - Clostridium perfringens KW - X-ray crystallography KW - macromolecular interactions KW - safety KW - biofilm KW - major coat protein KW - Streptococcus agalactiae KW - Staphylococcus aureus KW - tail sheath protein KW - magnetic separation KW - serotyping KW - pathogenic viruses KW - liposomes KW - tuberculosis KW - Listeria monocytogenes KW - nanotubular structures KW - alpha-sheet KW - biosensors KW - sarcoidosis KW - tailspike proteins KW - M13 bacteriophage KW - Streptococcus pneumoniae KW - gene expression regulation KW - bacteriophage recombination KW - self-assembly KW - phage therapy KW - R-type pyocin KW - contractile injection systems KW - bacteriophage vB_EcoM_FV3 KW - microtiter plate assay KW - Enterococcus faecalis KW - culture enrichment KW - drug delivery vehicles KW - neurodegenerative disease KW - landscape phage KW - niosomes KW - bacteriophage KW - Myoviridae KW - bacteriophage evolution KW - porous structure KW - phage-host interaction KW - phage display KW - immune response KW - antibiotic resistance KW - Pseudomonas aeruginosa KW - phage KW - bacteriocin KW - Appelmans KW - fluorescence sensor KW - molecular probe KW - nanomedicine KW - Shigella flexneri KW - reporter phage KW - filters KW - in vitro activity KW - capsid dynamics KW - immunoscreening KW - diagnostics KW - microarray KW - receptor-binding protein KW - endolysin KW - enzybiotics KW - transfersomes KW - T7phage library KW - Pal UR - https://www.unicat.be/uniCat?func=search&query=sysid:61123087 AB - Phages have shown a high biotechnological potential with numerous applications. The advent of high-resolution microscopy techniques aligned with omic and molecular tools have revealed innovative phage features and enabled new processes that can be further exploited for biotechnological applications in a wide variety of fields. The high-quality original articles and reviews presented in this Special Issue demonstrate the incredible potential of phages and their derived proteins in a wide range of biotechnological applications for human benefit. Considering the emergence of amazing new available bioengineering tools and the high abundance of phages and the multitude of phage proteins yet to be discovered and studied, we believe that the upcoming years will present us with many more fascinating and new previously unimagined phage-based biotechnological applications. ER -