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200 00$aBiofuels $efrom microbes to molecules /$fEdited by Xuefeng Lu
210  1$aNorfolk, England :$cCaister Academic Press,$d[2014]
210  4$d©2014
215   $a1 online resource (259 p.)
300   $aIncludes index.
311   $a1-908230-45-2 
320   $aIncludes bibliographical references and index.
327   $aContents; Current Books of Interest; Contributors; Preface; 1: Metabolic Engineering: Key for Improving Biological Hydrogen Production; 1.1 Introduction; 1.2 Metabolic engineering of bacterial systems for hydrogen production by dark fermentation; 1.3 Metabolic engineering of green algae, cyanobacteria, and bacteria for improving hydrogen production; 1.4 Future directions; 2: Biogas-producing Microbes and Biomolecules; 2.1 Introduction; 2.2 Biogas microbiology; 2.3 Biomethane; 2.4 Molecular methods for the study and control of biogas production; 2.5 Biogas from unconventional substrates
327   $a2.6 Future trends: algae2.7 Conclusions; 3: Engineering Recombinant Organisms for Next-generation Ethanol Production; 3.1 Introduction; 3.2 Overview of all microbial technologies for first- (1G) and second-generation (2G) ethanol production; 3.3 Xylose fermentation by Saccharomyces cerevisiae; 3.4 Hardening of S. cerevisiae against inhibitors formed during lignocellulose pretreatment; 3.5 CBP application to soluble and insoluble (raw, uncooked) starch fermentation; 3.6 Conversion of cellulose to ethanol by S. cerevisiae in a CBP configuration
327   $a3.7 Mining microbial diversity for novel enzymes for CBP application to starch and lignocellulose, including genomic and metagenomic and/or transcriptomic libraries as sources of novel enzymes/activities3.8 Process configurations for integration of 1G and 2G processes; 3.9 Discussion and conclusions; 4: Production of Biobutanol, from ABE to Syngas Fermentation; 4.1 Butanol - commodity chemical and advanced biofuel; 4.2 Classic acetone-butanol-ethanol (ABE) fermentation with solventogenic clostridia; 4.3 Engineering of non-natural butanol producers and synthetic pathways
327   $a4.4 Future trends - butanol production from greenhouse gases CO2 and/or CO5: Higher Chain Alcohols from Non-fermentative Pathways; 5.1 Introduction; 5.2 Steps to production; 5.3 Fermentative alcohol production; 5.4 2-Keto acid-based alcohols; 5.5 Conclusion; 6: Isoprene-derived Biofuels from Engineered Microbes; 6.1 Classes of isoprenoid compounds; 6.2 Metabolic pathway and host engineering to optimize isoprenoid-precursors biosynthetic pathways; 6.3 Conversions of isoprenoid precursors to fuel compounds; 6.4 Future trends in isoprene-derived biofuels
327   $a7: Engineering Microbial Fatty Acid Biosynthetic Pathways to Make Advanced Biofuels7.1 Introduction; 7.2 Current status of biodiesel production; 7.3 Motivation for engineering fatty acid metabolism; 7.4 Brief review of fatty acid metabolism; 7.5 Regulation of fatty acid synthesis and degradation; 7.6 Genetic engineering of bacteria to improve free fatty acid production; 7.7 Genetic engineering to improve fatty alcohol production; 7.8 Genetic engineering to improve fatty acid methyl/ethyl ester production; 7.9 Genetic engineering to improve fatty alkane/alkene production
327   $a7.10 Future perspectives
330   $aThe increasing worldwide demand for energy, combined with diminishing fossil fuel reserves and concerns about climate change, have stimulated intense research into the development of renewable energy sources, in particular, microbial biofuels. For a biofuel to be commercially viable, the production processes, yield, and titer have to be optimized, which can be achieved through the use of microbial cell factories. Using multidisciplinary research approaches, and through the application of diverse biotechnologies (such as enzyme engineering, metabolic engineering, systems biology, and synthetic 
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200 00$aAdult critical care medicine $ea clinical casebook /$fJennifer A. LaRosa, editor
205   $a1st ed. 2019.
210  1$aCham, Switzerland :$cSpringer,$d[2019]
210  4$d?2019
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320   $aIncludes bibliographical references and index.
327   $aManagement of Intracranial Hypertension and Status Epilepticus -- Overcoming Conflicts in ICU Care of Surgical Patients -- Perioperative Management of the Patient with a Mechanical Circulatory Support Device or Heart Transplant -- Damage Control in the Trauma ICU -- Liver Failure in the ICU -- Harm and Quality in the ICU -- Surveillance and Prevention of Hospital Acquired Infections -- Sepsis and Septic Shock -- Advanced Practice Providers in the ICU: Models for a Successful Multiprofessional Team -- Critical Care Billing, Coding, and Documentation -- Shock and Vasopressors ? State of the Art Update -- Brain Death -- Nutrition Support Therapy during Critical Illness -- Advanced and Difficult Airway Management in the ICU -- Hemodynamic Monitoring ? What?s Out There? What?s Best For You? -- Bleeding and Thrombosis in the ICU -- Diagnosis and Management of Pulmonary Embolism in Pregnancy -- Challenges in Oxygenation and Ventilation -- Poisoning and Toxicity - The New Age.
330   $aThis clinical casebook provides a comprehensive yet concise state-of-the-art review of adult critical care medicine. Presented in a case-based format, each case focuses on a scenario commonly encountered with an adult patient in the ICU. Case scenarios include management of seizures and acute intracranial hypertension, sepsis, liver failure, brain death, bleeding and thrombosis, and treating hospital acquired infections in the ICU. Written by experts in the field, Adult Critical Care Medicine: A Clinical Casebook is a valuable resource for critical care specialists and practitioners who treat adult patients in critical care settings.
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