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Books on the topic 'Host - microbial interaction'

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Author: Grafiati
Published: 6 September 2023

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1

Nestlé Nutrition Workshop (64th 2009 Sydney, N.S.W.). Microbial host-interaction: Tolerance versus allergy. Edited by Brandtzaeg Per, Isolauri Erika, Prescott Susan L, and Nestlé Nutrition Institute. Vevey, Switzerland: Nestec, 2009.

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2

Nestlé Nutrition Workshop (64th 2009 Sydney, N.S.W.). Microbial host-interaction: Tolerance versus allergy. Edited by Brandtzaeg Per, Isolauri Erika, Prescott Susan L, and Nestlé Nutrition Institute. Vevey, Switzerland: Nestec, 2009.

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3

Per, Brandtzaeg, Isolauri Erika, Prescott Susan L, and Nestlé Nutrition Institute, eds. Microbial host-interaction: Tolerance versus allergy. Vevey, Switzerland: Nestec, 2009.

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4

Ismail, Nahed. The role of HLA-B27 in host-microbial interaction. Ottawa: National Library of Canada, 1995.

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5

Bjerketorp, Joakim. Novel adhesive proteins of pathogenic Staphylococci and their interaction with host proteins. Uppsala: Swedish University of Agricultural Sciences, 2004.

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6

Thompson, Winston M. O. The Whitefly, Bemisia tabaci (Homoptera: Aleyrodidae) Interaction with Geminivirus-Infected Host Plants: Bemisia tabaci, Host Plants and Geminiviruses. Dordrecht: Springer Science+Business Media B.V., 2011.

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7

D, O'Connor C., Smith D. G. E, and Society for General Microbiology, eds. Microbial subversion of host cells. Cambridge, U.K: Cambridge University Press, 2003.

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8

Hubert, Laude, Vautherot Jean-François, and International Symposium on Coronaviruses (5th : 1992 : Chantilly, France), eds. Coronaviruses: Molecular biology and virus-host interactions. New York: Plenum Press, 1993.

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9

Lee-Ann, Jaykus, Wang Hua H. 1965-, Schlesinger Larry S, and American Society for Microbiology, eds. Food-borne microbes: Shaping the host ecosystem. Washington, DC: ASM Press, 2009.

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10

Who are we?: Microbes, the puppet masters! Hackensack, N.J: World Scientific, 2008.

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11

1936-, May Robert M., ed. Infectious diseases of humans: Dynamics and control. Oxford: Oxford University Press, 1991.

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12

Institute of Medicine (U.S.). Forum on Microbial Threats., ed. Ending the war metaphor: The changing agenda for unraveling the host-microbe relationship : workshop summary. Washington, DC: National Academies Press, 2006.

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13

Verma, D. P.S. 1944- and Brisson Normand 1955-, eds. Molecular genetics of plant-microbe interactions: Proceedings of the Third International Symposium on the Molecular Genetics of Plant-Microbe Associations, Montréal, Québec, Canada, July 27-31, 1986. Dordrecht: M. Nijhoff, 1987.

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14

Brandtzaeg, P., E. Isolauri, and S. L. Prescott, eds. Microbial Host-Interaction: Tolerance versus Allergy. S. Karger AG, 2009. http://dx.doi.org/10.1159/isbn.978-3-8055-9168-3.

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15

Selzer, Paul M., Gottfried Unden, Anja Schuffler, and Eckhard Thines. Host - Pathogen Interaction: Microbial Metabolism, Pathogenicity and Antiinfectives. Wiley & Sons, Incorporated, John, 2016.

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16

Selzer, Paul M., Gottfried Unden, Anja Schuffler, and Eckhard Thines. Host - Pathogen Interaction: Microbial Metabolism, Pathogenicity and Antiinfectives. Wiley & Sons, Limited, John, 2016.

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17

Selzer, Paul M., Gottfried Unden, Anja Schuffler, and Eckhard Thines. Host - Pathogen Interaction: Microbial Metabolism, Pathogenicity and Antiinfectives. Wiley & Sons, Incorporated, John, 2016.

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18

Selzer, Paul M., Gottfried Unden, Anja Schuffler, and Eckhard Thines. Host - Pathogen Interaction: Microbial Metabolism, Pathogenicity and Antiinfectives. Wiley & Sons, Limited, John, 2016.

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19

Selzer, Paul M., Gottfried Unden, Anja Schuffler, and Eckhard Thines. Host - Pathogen Interaction: Microbial Metabolism, Pathogenicity and Antiinfectives. Wiley & Sons, Incorporated, John, 2016.

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20

Oliveira, Ana, Carlos São-José, Diana Priscila Penso Pires, Hugo Alexandre Mendes Oliveira, Ivone M. Martins, Joana Azeredo, Krystyna Dabrowska, et al., eds. Viruses of Microbes: the latest conquests. CEB UMinho, 2022. http://dx.doi.org/10.21814/1822.79403.

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This book covers abstracts from the most recent advances in ecology and evolution of microbial viruses, virus structures and function, virus-host interaction, agro-food, veterinary and environmental biotechnology applications and phage therapy.
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21

Kishore, Uday. Microbial Pathogenesis: Infection and Immunity. Springer International Publishing AG, 2021.

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22

Kishore, Uday, and Annapurna Nayak. Microbial Pathogenesis: Infection and Immunity. Springer, 2013.

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23

Kishore, Uday, and Annapurna Nayak. Microbial Pathogenesis: Infection and Immunity. Springer, 2016.

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24

Microbial Symbionts: Functions and Molecular Interactions on Host. Elsevier Science & Technology, 2022.

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25

D, Dhanasekaran. Microbial Symbionts: Functions and Molecular Interactions on Host. Elsevier Science & Technology Books, 2022.

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26

Geri, Guillaume, and Jean-Paul Mira. Host–pathogen interactions in the critically ill. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199600830.003.0306.

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Infection by a pathogenic micro-organism triggers a coordinated activation of both innate and adaptive immune responses. The innate immune response quickly triggers an antimicrobial response that will initiate development of a pathogen-specific, long-lasting adaptive immune response. Accurate recognition of microbial-associated molecular patterns by pattern-recognition receptors (PRRs) is the cornerstone of this immediate response. Most studied PRRs are Toll-like receptors (TLRs) and their kinase signalling cascades that activate nuclear transcription factors, and induce gene expression and cytokine production. Deficiencies or genetic variability in these different signalling pathways may lead to recurrent pyogenic infections and severe invasive diseases. After initial contact between the host and pathogen, numerous factors mediate the inflammatory response, as pro-inflammatory cytokines and chemokines. Apart from host genetic variability, pathogen diversity also influences the phenotypic features of various infectious diseases. Genomic analysis may assist in the development of targeted therapies or new therapeutic strategies based on both patient and microorganism genotype.
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27

Laude, Hubert, and Jean-Francois Vautherot. Coronaviruses: Molecular Biology and Virus-Host Interactions. Springer London, Limited, 2012.

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28

Coronaviruses: Molecular Biology and Virus-Host Interactions. Springer, 2011.

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29

Laude, Hubert. Coronaviruses: Molecular Biology And Virus-Host Interactions. Springer, 2013.

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30

Gordon, S. Phagocytosis: Microbial Invasion. Elsevier Science & Technology Books, 2000.

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31

Kapasi, Kubra. Studies on the influence of HLA-B27 on host-microbial interactions. 1993.

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32

Wiersinga, W. Joost, and Tom van der Poll. The host response to infection in the critically ill. Oxford University Press, 2016. http://dx.doi.org/10.1093/med/9780199600830.003.0303.

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Infection continues to be a leading cause of intensive care unit death. The host response to infection can be seen as a pattern recognition receptor (PRR)-mediated dysregulation of the immune system following pathogen invasion in which a careful balance between inflammatory and anti-inflammatory responses is vital. A measured and rapid response to microbial invasion is essential to health. The same immunological and coagulation systems that protect against localized infection can act to our disadvantage when these systems are activated systemically during generalized microbial infection. Toll-like receptors (TLR), the inflammasomes and other PRRs initiate the host response after recognition of pathogen-associated-molecular-patterns (PAMPs) or endogenous danger-associated-molecular-patterns (DAMPs). The systemic host response to infection will result in activation of coagulation, downregulation of physiological anticoagulant mechanisms, and inhibition of fibrinolysis. Further dissection of the role of host–pathogen interactions, the cytokine response, the coagulation cascade and their multidirectional interactions in sepsis should lead towards the development of new therapeutic approaches in the critically ill who are faced with infection.
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33

Microbial Ecology in States of Health and Disease: Workshop Summary. National Academies Press, 2014.

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34

Medicine, Institute of, Board on Global Health, Forum on Microbial Threats, LeighAnne Olsen, and Alison Mack. Microbial Ecology in States of Health and Disease: Workshop Summary. National Academies Press, 2014.

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35

Health, Board on Global, LeighAnne Olsen, Eileen R. Choffnes, Forum on Microbial Health, and Alison Mack. Microbial Ecology in States of Health and Disease: Workshop Summary. National Academies Press, 2014.

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36

Medicine, Institute of, Board on Global Health, Forum on Microbial Threats, LeighAnne Olsen, and Alison Mack. Microbial Ecology in States of Health and Disease: Workshop Summary. National Academies Press, 2014.

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37

Wang, Hua H., Lee-Ann Jaykus, and Larry S. Schlesinger. Food-Borne Microbes: Shaping the Host Ecosystem. Wiley & Sons, Limited, John, 2014.

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38

(Editor), Hubert Laude, and Jean-Francois Vautherot (Editor), eds. Coronaviruses: Molecular Biology and Virus-Host Interactions (Advances in Experimental Medicine and Biology). Springer, 1994.

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39

Gordon, S. Phagocytosis: Microbial Invasion (Advances in Cellular and Molecular Biology of Membranes and Organelles). Elsevier Science, 1999.

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40

D.P.S Verma (Editor) and N. Brisson (Editor), eds. Molecular Genetics of Plant-Microbe Interactions (Current Plant Science and Biotechnology in Agriculture). Springer, 1986.

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41

Ending the War Metaphor: The Changing Agenda for Unraveling the Host-Microbe Relationship - Workshop Summary. National Academies Press, 2006.

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42

Kirchman, David L. Symbioses and microbes. Oxford University Press, 2018. http://dx.doi.org/10.1093/oso/9780198789406.003.0014.

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The book ends with a chapter devoted to discussing interactions between microbes and higher plants and animals. Symbiosis is sometimes used to describe all interactions, even negative ones, between organisms in persistent, close contact. This chapter focuses on interactions that benefit both partners (mutualism), or one partner while being neutral to the other (commensalism). Microbes are essential to the health and ecology of vertebrates, including Homo sapiens. Microbial cells outnumber human cells on our bodies, aiding in digestion and warding off pathogens. In consortia similar to the anaerobic food chain of anoxic sediments, microbes are essential in the digestion of plant material by deer, cattle, and sheep. Different types of microbes form symbiotic relationships with insects and help to explain their huge success in the biosphere. Protozoa are crucial for wood-boring insects, symbiotic bacteria in the genus Buchnera provide sugars to host aphids while obtaining essential amino acids in exchange, and fungi thrive in subterranean gardens before being harvested for food by ants. Symbiotic dinoflagellates directly provide organic material to support coral growth in exchange for ammonium and other nutrients. Corals are now threatened worldwide by rising oceanic temperatures, decreasing pH, and other human-caused environmental changes. At hydrothermal vents in some deep oceans, sulfur-oxidizing bacteria fuel an entire ecosystem and endosymbiotic bacteria support the growth of giant tube worms. Higher plants also have many symbiotic relationships with bacteria and fungi. Symbiotic nitrogen-fixing bacteria in legumes and other plants fix more nitrogen than free-living bacteria. Fungi associated with plant roots (“mycorrhizal”) are even more common and potentially provide plants with phosphorus as well as nitrogen. Symbiotic microbes can provide other services to their hosts, such as producing bioluminescence, needed for camouflage against predators. In the case of the bobtail squid, bioluminescence is only turned on when populations of the symbiotic bacteria reach critical levels, determined by a quorum sensing mechanism.
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