Mechanisms of ER Protein Import
Protein import into the endoplasmic reticulum (ER) is the first step in the biogenesis of approximately 10,000 different soluble and membrane proteins of human cells, which amounts to about 30% of the proteome. Most of these proteins fulfill their functions either in the membrane or lumen of the ER plus the nuclear envelope, in one of the organelles of the pathways for endo- and exocytosis (ERGIC, Golgi apparatus, endosome, lysosome, and trafficking vesicles), or at the cell surface as plasma membrane or secreted proteins. An increasing number of membrane proteins destined to lipid droplets, peroxisomes or mitochondria are first targeted to and inserted into the ER membrane prior to their integration into budding lipid droplets or peroxisomes or prior to their delivery to mitochondria via the ER-SURF pathway. ER protein import involves two stages, ER targeting, which guarantees membrane specificity, and the insertion of nascent membrane proteins into or translocation of soluble precursor polypeptides across the ER membrane. In most cases, both processes depend on amino-terminal signal peptides or transmembrane helices, which serve as signal peptide equivalents. However, the targeting reaction can also involve the ER targeting of specific mRNAs or ribosome-nascent chain complexes. Both processes may occur co- or post-translationally and are facilitated by various sophisticated machineries, which reside in the cytosol and the ER membrane, respectively. Except for resident ER and mitochondrial membrane proteins, the mature proteins are delivered to their functional locations by vesicular transport.
Mass Spectrometry-Based Lipidomics
This detailed volume covers conventional MS-based "shotgun lipidomics" by which samples are introduced by infusion or loop injection, as well as LC-MS-based lipidomics, which are becoming increasingly important due to the ever-increasing demand for a complete and precise lipid analysis of the complex and diversified lipids in nature. The volume features protocols applying chemical reactions, the on-line photochemical reactions combined with various MS methods for comprehensive characterization of various lipid classes, and quantification of specific and rare lipids. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and practical, Mass Spectrometry-Based Lipidomics: Methods and Protocols serves asan invaluable guide for biochemists and mass spectroscopists who are interested in lipid studies.
Phospholipases
Phospholipases are a ubiquitous group of enzymes that hydrolyze ester bonds within membrane phospholipids. These enzymes serve multiple biological functions that go far beyond a mere membrane remodeling role in cellular homeostasis; they also play key functions in nutrient digestion and the regulated formation of bioactive lipids involved in cell signaling. It is to the latter function, critical to life, that this book is primarily concerned with. All the chapters are written by renowned experts in the area, and provide forefront information on the role phospholipases in a number of physiological and pathophysiological settings.
Structural Proteomics
This updated and expanded volume reflects the current state of the structural protein field with improved and refined protocols that have been applied to particularly challenging proteins. Beginning with a section on structural bioinformatics, the book continues with sections covering the challenge of producing high quality samples for structural studies, particularly mammalian membrane proteins and protein complexes, as well as protocols for structure determination, including the use of electrons in structural biology and more. Written for the highly successful Methods in Molecular Biology series, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and up-to-date, Structural Proteomics: High-Throughput Methods, Third Edition will aid researchers in expanding our knowledge of this vital and expansive area of protein science.Chapter 9 is available open access under a CC BY 4.0 license.
Quantitative Methods in Proteomics
This second edition provides new and updated methods on the principles underlying modern protein analysis, from statistical issues to gel-based and mass spectrometry-based applications. Chapters detail protein quantification as basis for realisation of quantitative studies, gel-based and mass spectrometry-based quantification techniques, TMT, IPTL, PRM, MALDI Imaging, SILAC, PTM analysis, DIA, cross-linking, and the up-to-date topics of software and data analysis. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Quantitative Methods in Proteomics, Second Edition aims to provide comprehensive and competent overview in the important and still growing field of quantitative proteomics.
Maintenance of plant genetic resources. Towards an understanding of seed deterioration
Conservation of biodiversity including plant genetic resources are fundamental for the future life on Earth. To safe-guard crop wild relatives, locally adapted landraces and varieties, ex situ genebanks were established at the beginning of the 20th century; primarily to store seeds. However, as any other material on Earth, seeds age and lose viability when stored for prolonged periods. The main factors determining deterioration processes are the genotype, the environmental conditions during seed development and the storage conditions including relative humidity, temperature, gas composition and pressure. To understand physiological, biochemical and genetic changes during seed deterioration in genetic resources of wheat, barley and oilseed rape, fundamental processes of germination, dormancy and seed viability loss are discussed in this book based on 13 scientific publications. Here, the loss of seed viability was investigated depending on seed moisture contents (MCs) between 5 % and >25, storage temperatures between 0簞C and 45簞C and a modified atmosphere with increased O2 concentration (75) or increased atmospheric pressure (18 MPa). Although, the response to the different conditions varied among species, overall, elevating seed MCs and storage temperatures led to a gradual change of biochemical mechanisms during seed deterioration. Under dry seed storage conditions, glutathione (GSH) and tocochromanols functioned as low-molecular-weight antioxidants and were degraded. Lipids were oxidised or hydrolysed, the pH decreased, whereas organic radicals accumulated over time and correlated negatively with seed viability. At high seed MCs (>13 %) and storage temperatures (>40 簞C), membrane damages, changes of pH or organic radicals were absent. Furthermore, GSH and GSSG depleted whereas tocochromanols remained stable or increased. Therefore, seeds stored under high MCs and temperatures were exposed to a different environment than seeds exposed to lower MCs and temperatures
The Failures of Mathematical Anti-Evolutionism
Anti-scientific misinformation has become a serious problem on many fronts, including vaccinations and climate change. One of these fronts is the persistence of anti-evolutionism, which has recently been given a superficially professional gloss in the form of the intelligent design movement. Far from solely being of interest to researchers in biology, anti-evolutionism must be recognized as part of a broader campaign with a conservative religious and political agenda. Much of the rhetorical effectiveness of anti-evolutionism comes from its reliance on seemingly precise mathematical arguments. This book, the first of its kind to be written by a mathematician, discusses and refutes these arguments. Along the way, it also clarifies common misconceptions about both biology and mathematics. Both lay audiences and professionals will find the book to be accessible and informative.
Existence, Origin and Weird Technology: Exploring Humanity's Ultimate Questions
Fifty Years of Peeling Away the Lead Paint Problem
Fifty Years of Peeling Away the Lead Paint Problem: Saving Our Children's Future with Healthy Housing documents the history of childhood lead poisoning from paint between 1970 and 2022. Tracing the failure of the medical model (treatment after exposure) that marked the 1970s and 1980s and its replacement with a prevention housing-focused effort, the book documents the changes in health, housing and environmental science and policy. It is the first book to examine how the lead poisoning law in the U.S. was passed in 1992 and later implemented, with implications for the future, in particular, the emergence of a healthy housing movement. The book describes the roles played by Congress, various administrations, agencies, local governments, the private sector, researchers, and a popular citizen's movement, especially parents. The role of the courts is discussed, including a controversial lead paint case on research ethics in Baltimore through an environmental justice lens. This book is the first to examine another recent case in California, where ten local jurisdictions established a precedent by successfully suing the lead paint industry to help pay for abatement.
The Failures of Mathematical Anti-Evolutionism
Anti-scientific misinformation has become a serious problem on many fronts, including vaccinations and climate change. One of these fronts is the persistence of anti-evolutionism, which has recently been given a superficially professional gloss in the form of the intelligent design movement. Far from solely being of interest to researchers in biology, anti-evolutionism must be recognized as part of a broader campaign with a conservative religious and political agenda. Much of the rhetorical effectiveness of anti-evolutionism comes from its reliance on seemingly precise mathematical arguments. This book, the first of its kind to be written by a mathematician, discusses and refutes these arguments. Along the way, it also clarifies common misconceptions about both biology and mathematics. Both lay audiences and professionals will find the book to be accessible and informative.
Palaeopathology and Evolutionary Medicine
Evolutionary medicine has been steadily gaining recognition, not only in modern clinical research and practice, but also in bioarchaeology (the study of archaeological human remains) and especially its sub-discipline, palaeopathology. To date, however, palaeopathology has note been necessarily recognised as particularly useful to the field and most key texts in evolutionary medicine have tended to overlook it. This novel text is the first to highlight the benefits of using palaeopathological research to answer questions about the evolution of disease and its application to current health problems, as well as the benefits of using evolutionary thinking in medicine to help interpret historical disease processes. It presents hypothesis-driven research by experts in biological anthropology (including palaeopathology), medicine, health sciences, and evolutionary medicine through a series of unique case studies that address specific research questions. Each chapter has been co-authored by two or more researchers with different disciplinary perspectives in order to provide original, insightful, and interdisciplinary contributions that will provide new insights for both palaeopathology and evolutionary medicine. Palaeopathology and Evolutionary Medicine is intended for graduate level students and professional researchers in a wide range of fields including the humanities (history), social sciences (anthropology, archaeology, palaeopathology, geography), and life sciences (medicine and biology). Relevant courses include evolutionary medicine, evolutionary anthropology, medical anthropology, and palaeopathology.
Genetic Ancestry
Genetic Ancestry focuses on the scientific nature and limitations of genetic ancestry testing. Co-authored by a genetic anthropologist and a cultural anthropologist, it examines the social, historical, and cultural dimensions of how people interpret genetic ancestry data.
Conversations About Biology
This compendium includes the following 5 complete books featuring renowned researchers Jay Gargus, Alcino Silva, Nick Lane, Stephen Scherer and Matthew Walker, providing fully accessible insights into cutting-edge academic research while revealing the inspirations and personal journeys behind their research. A detailed preface highlights the connections between the different books and all five books are broken into chapters with a detailed introduction and questions for discussion at the end of each chapter: I. Autism: A Genetic Perspective - A conversation with Jay Gargus, Director of the Center for Autism Research and Translation, UC Irvine. This conversation examines the recent explosion in our genetic understanding of autism and its implications for the future of medicine, together with the importance of understanding the underlying molecular mechanisms in order to successfully treat a wide range of genetic disorders. Gargus discusses his extensive research on autism, dispelling myths associated with the condition, advocating why a treatment should be actively pursued, and illustrating what we can learn from the recent breakthrough in cystic fibrosis research.II. Learning and Memory - A conversation with Alcino Silva, Distinguished Professor of Neurobiology, Psychiatry and Psychology, UCLA. Silva runs a learning and memory lab that is focused on a vast number of research areas, from schizophrenia and autism to learning and memory. Topics covered include how Silva and his colleagues focus on understanding the specific molecular mechanisms of neurobiology with the goal of being able to intervene and repair these mechanisms when they go awry.III. A Matter of Energy: Biology From First Principles - A conversation with Nick Lane, Professor of Evolutionary Biochemistry, UCL. After an inspiring story of Nick Lane's career path, this conversation explores in detail Lane's research in biochemistry and his bioenergetic view of early, evolutionary history, the origin of life and how all complex life is composed of a very particular cell type that we all share.IV. Our Human Variability - A conversation with Stephen Scherer, Research Chair in Genome Sciences at the Hospital for Sick Children. Scherer discusses his lifelong passion for science that culminated in his groundbreaking discovery of copy-number variation. Further topics include a detailed exploration of his work in autism research and how copy number variation brings us a deeper understanding of both human variability and disease.V. Sleep Insights - A conversation with Matthew Walker, Professor of Neuroscience and Psychology and Founder and Director of the Center for Human Sleep Science, UC Berkeley. This conversation provides a detailed exploration of Walker's research on the purposes and effects of sleep and gives a clear and compelling picture of our recent understanding of sleep's essential role in our daily lives, from reinforcing learning and memory to regulating emotion.Howard Burton is the host and editor of all Ideas Roadshow conversations and was the Founding Executive Director of Perimeter Institute for Theoretical Physics. He holds a PhD in theoretical physics and an MA in philosophy. Ideas Roadshow offers a series of 20 Collections, including Conversations About Neuroscience, Conversations About Psychology, Volumes 1 and 2, and Conversations About Social Psychology.
The Structural and Functional Study of Efflux Pumps Belonging to the RND Transporters Family from Gram-Negative Bacteria
Antimicrobial-resistant bacterial infections are a major and costly public health concern. Several pathogens are already pan-resistant, representing a major cause of mortality in patients suffering from nosocomial infections. Drug efflux pumps, which remove compounds from the bacterial cell, thereby lowering the antimicrobial concentration to sub-toxic levels, play a major role in multidrug resistance. In this Special Issue, we present up-to-date knowledge of the mechanism of RND efflux pumps, the identification and characterization of efflux pumps from emerging pathogens and their role in antimicrobial resistance, and progress made on the development of specific inhibitors. This collection of data could serve as a basis for antimicrobial drug discovery aimed at inhibiting drug efflux pumps to reverse resistance in some of the most resistant pathogens.
Antimicrobial Resistance and Virulence - 2nd Volume
The worldwide dissemination of antimicrobial-resistant bacteria, particularly those resistant to last-resource antibiotics, is a common problem to which no immediate solution is foreseen. In 2017, the World Health Organization (WHO) published a list of antimicrobial-resistant "priority pathogens", which include a group of microorganisms with high-level resistance to multiple drugs, named ESKAPE pathogens, comprising vancomycin-resistant Enterococcus faecium (VRE), methicillin- and vancomycin-resistant Staphylococcus aureus (MRSA and VRSA), extended spectrum β-lactamase (ESBL) or carbapenem-resistant Klebsiella pneumoniae, carbapenem-resistant Acinetobacter baumannii, carbapenem-resistant Pseudomonas aeruginosa and extended spectrum β-lactamase (ESBL) or carbapenem-resistant Enterobacter spp. These bacteria also have the ability to produce several virulence factors, which have a major influence on the outcomes of infectious diseases. Bacterial resistance and virulence are interrelated, since antibiotics pressure may influence bacterial virulence gene expression and, consequently, infection pathogenesis. Additionally, some virulence factors contribute to an increased resistance ability, as observed in biofilm-producing strains. The surveillance of important resistant and virulent clones and associated mobile genetic elements is essential to decision making in terms of mitigation measures to be applied for the prevention of such infections in both human and veterinary medicine, being also relevant to address the role of natural environments as important components of the dissemination cycle of these strains.
Multicellularity
Scholars consider the origins and consequences of the evolution of multicellularity, addressing a range of organisms, experimental protocols, theoretical concepts, and philosophical issues. The evolution of multicellularity raises questions regarding genomic and developmental commonalities and discordances, selective advantages and disadvantages, physical determinants of development, and the origins of morphological novelties. It also represents a change in the definition of individuality, because a new organism emerges from interactions among single cells. This volume considers these and other questions, with contributions that explore the origins and consequences of the evolution of multicellularity, addressing a range of topics, organisms, and experimental protocols.Each section focuses on selected topics or particular lineages that present a significant insight or challenge. The contributors consider the fossil record of the paleontological circumstances in which animal multicellularity evolved; cooptation, recurrent patterns, modularity, and plausible pathways for multicellular evolution in plants; theoretical approaches to the amoebozoa and fungi (cellular slime molds having long provided a robust model system for exploring the evolution of multicellularity), plants, and animals; genomic toolkits of metazoan multicellularity; and philosophical aspects of the meaning of individuality in light of multicellular evolution.ContributorsMaja Adamska, Argyris Arnellos, Juan A. Arias, Eugenio Azpeitia, Mariana Ben穩tez, Adriano Bonforti, John Tyler Bonner, Peter L. Conlin, A. Keith Dunker, Salva Duran-Nebreda, Ana E. Escalante, Valeria Hern獺ndez-Hern獺ndez, Kunihiko Kaneko, Andrew H. Knoll, Stephan G. K繹nig, Daniel J. G. Lahr, Ottoline Leyser, Alan C. Love, Raul Monta簽ez, Emilio Mora van Cauwelaert, Alvaro Moreno, Vidyanand Nanjundiah, Aurora M. Nedelcu, Stuart A. Newman, Karl J. Niklas, William C. Ratcliff, I簽aki Ruiz-Trillo, Ricard Sol矇
Insects and Their World
This work has been selected by scholars as being culturally important, and is part of the knowledge base of civilization as we know it. This work was reproduced from the original artifact, and remains as true to the original work as possible. Therefore, you will see the original copyright references, library stamps (as most of these works have been housed in our most important libraries around the world), and other notations in the work.This work is in the public domain in the United States of America, and possibly other nations. Within the United States, you may freely copy and distribute this work, as no entity (individual or corporate) has a copyright on the body of the work.As a reproduction of a historical artifact, this work may contain missing or blurred pages, poor pictures, errant marks, etc. Scholars believe, and we concur, that this work is important enough to be preserved, reproduced, and made generally available to the public. We appreciate your support of the preservation process, and thank you for being an important part of keeping this knowledge alive and relevant.
Anatomy and Physiology of the Nervous System
This work has been selected by scholars as being culturally important, and is part of the knowledge base of civilization as we know it. This work was reproduced from the original artifact, and remains as true to the original work as possible. Therefore, you will see the original copyright references, library stamps (as most of these works have been housed in our most important libraries around the world), and other notations in the work.This work is in the public domain in the United States of America, and possibly other nations. Within the United States, you may freely copy and distribute this work, as no entity (individual or corporate) has a copyright on the body of the work.As a reproduction of a historical artifact, this work may contain missing or blurred pages, poor pictures, errant marks, etc. Scholars believe, and we concur, that this work is important enough to be preserved, reproduced, and made generally available to the public. We appreciate your support of the preservation process, and thank you for being an important part of keeping this knowledge alive and relevant.
Palaeopathology and Evolutionary Medicine
Evolutionary medicine has been steadily gaining recognition, not only in modern clinical research and practice, but also in bioarchaeology (the study of archaeological human remains) and especially its sub-discipline, palaeopathology. To date, however, palaeopathology has not been necessarily recognised as particularly useful to the field and most key texts in evolutionary medicine have tended to overlook it. This novel text is the first to highlight the benefits of using palaeopathological research to answer questions about the evolution of disease and its application to current health problems, as well as the benefits of using evolutionary thinking in medicine to help interpret historical disease processes. It presents hypothesis-driven research by experts in biological anthropology (including palaeopathology), medicine, health sciences, and evolutionary medicine through a series of unique case studies that address specific research questions. Each chapter has been co-authored by two or more researchers with different disciplinary perspectives in order to provide original, insightful, and interdisciplinary contributions that will provide new insights for both palaeopathology and evolutionary medicine. Palaeopathology and Evolutionary Medicine is intended for graduate level students and professional researchers in a wide range of fields including the humanities (history), social sciences (anthropology, archaeology, palaeopathology, geography), and life sciences (medicine and biology). Relevant courses include evolutionary medicine, evolutionary anthropology, medical anthropology, and palaeopathology.
Principles in Microbiome Engineering
Principles in Microbiome Engineering Provides an overview of the techniques and applications insight into the complex composition and interactions of microbiomes Microbiomes, the communities of microorganisms that inhabit specific ecosystems or organisms, can be engineered to modify the structure of microbiota and reestablish ecological balance. In recent years, a better understanding of microbial composition and host-microbe interactions has led to the development of new applications for improving human health and increasing agricultural productivity and quality. Principles in Microbiome Engineering introduces readers to the tools and applications involved in manipulating the composition of a microbial community to improve the function of an eco-system. Covering a range of key topics, this up-to-date volume discusses current research in areas such as microbiome-based therapeutics for human diseases, crop plant breeding, animal husbandry, soil engineering, food and beverage applications, and more. Divided into three sections, the text first describes the critical roles of systems biology, synthetic biology, computer modelling, and machine learning in microbiome engineering. Next, the volume explores various state-of-the-art applications, including cancer immunotherapy and prevention of diseases associated with the human microbiome, followed by a concluding section offering perspectives on the future of microbiome engineering and potential applications. Introduces a variety of applications of microbiome engineering in the fields of medicine, agriculture, and food and beverage products Presents current research into the complex interactions and relationships between microbiomes and biotic and abiotic elements of their environments Examines the use of technologies such as Artificial Intelligence (AI), Machine Learning (ML), and Big Data analytics to advance understanding of microbiomes Discusses the engineering of microbiomes to address human health conditions such as neuro psychiatric disorders and autoimmune and inflammatory diseases Edited and authored by leading researchers in the rapidly evolving field, Principles in Microbiome Engineering is an essential resource for biotechnologists, biochemists, microbiologists, pharmacologists, and practitioners working in the biotechnology and pharmaceutical industries.
Heterogeneous Catalysis for Sustainable Energy
Heterogeneous Catalysis for Sustainable Energy Explore the state-of-the-art in heterogeneous catalysis In Heterogeneous Catalysis for Sustainable Energy, a team of distinguished researchers delivers a comprehensive and cutting-edge treatment of recent advancements in energy-related catalytic reactions and processes in the field of heterogeneous catalysis. The book includes extensive coverage of the hydrogen economy, methane activation, methanol-to-hydrocarbons, carbon dioxide conversion, and biomass conversion. The authors explore different aspects of the technology, like reaction mechanisms, catalyst synthesis, and the commercial status of the reactions. The book also includes: A thorough introduction to the hydrogen economy, including hydrogen production, the reforming of oxygen-containing chemicals, and advances in Fischer-Tropsch Synthesis Comprehensive explorations of methane activation, including steam and dry reforming of methane and methane activation over zeolite catalysts Practical discussions of alkane activation, including cracking of hydrocarbons to light olefins and catalytic dehydrogenation of light alkanes In-depth examinations of zeolite catalysis and carbon dioxide as C1 building block Perfect for catalytic, physical, and surface chemists, Heterogeneous Catalysis for Sustainable Energy also belongs in the libraries of materials scientists with an interest in energy-related reactions and processes in the field of heterogeneous catalysis.
ABC Transporters in Human Diseases
Mammalian ATP-binding cassette (ABC) transporters constitute a superfamily of proteins involved in many essential cellular processes. Most of these transporters are transmembrane proteins and allow the active transport of solutes, small molecules, and lipids across biological membranes. On the one hand, some of these transporters are involved in drug resistance (also referred to as MDR or multidrug resistance), a process known to be a major brake in most anticancer treatments, and the medical challenge is thus to specifically inhibit their function. On the other hand, molecular defects in some of these ABC transporters are correlated with several rare human diseases, the most well-documented of which being cystic fibrosis, which is caused by genetic variations in ABCC7/CFTR (cystic fibrosis transmembrane conductance regulator). In the latter case, the goal is to rescue the function of the deficient transporters using various means, such as targeted pharmacotherapies and cell or gene therapy. The aim of this Special Issue, "ABC Transporters in Human Diseases", is to present, through original articles and reviews, the state-of-the-art of our current knowledge about the role of ABC transporters in human diseases and the proposed therapeutic options based on studies ranging from cell and animal models to patients.
Future Superhuman
We're hurtling towards a superhuman future - or, if we blunder, extinction. The only way out of our existential crises, from global warming to the risks posed by nuclear weapons, novel and bioengineered pathogens and unaligned AI, is up. We'll need more technology to safeguard our future - and we're going to invent and perhaps even merge with some of that technology. What does that mean for our 20th century life-scripts? Are the robots coming for our jobs? How will human relationships change when AI knows us inside out? Will we still be having human babies by the century's end? Elise Bohan unflinchingly explores possibilities most of us are afraid to imagine: the impacts of automation on our jobs, livelihoods and dating and mating careers, the stretching out of 'the-circle-of-life', the rise of AI friends and lovers, the liberation of women from pregnancy, childbirth and breastfeeding, and the impending global baby-bust - and attendant proliferation of digital minds. Strap in for an exhilarating, and starkly honest, take on the promise and peril of life in the 21st century. 'There's much doom and gloom about humanity's future, understandably so at a time of climate change and large-scale environmental collapse. But there's another side to what's coming, and it won't all be bad. Elise Bohan is your travel guide to the future of human minds and bodies. Enjoy the trip - your guide is as sharp, savvy, lively and entertaining as you could ever want.' - Russell Blackford, author of At the Dawn of a Great Transition: The Question of Radical Enhancement'One of the most entertaining, fascinating, and thought-provoking books I've read in a long time! Future Superhuman provides a breathtakingly original, broad and optimistic view of a transhuman future. Elise Bohan's fresh and unique voice comes through on every page: bold, fearless, fun and relentless on the absurdities of the human condition. She could well be the next big non-fiction star, at home in the same constellation as Yuval Noah Harari, Carl Sagan or Elizabeth Kolbert.' - Rob Brooks, Scientia Professor of Evolution, UNSW, author of Artificial Intimacy'A brilliant, engaging and edgy introduction to transhumanism - the idea that in coming centuries we humans will take charge of our own evolution and transform ourselves into new, artificially enhanced beings.' - David Christian, Distinguished Professor of History at Macquarie University, author of Origin Story'A fun, frightening and fruitful look at our future. This is the book I want to give to friends who ask, "but what is transhumanism, really?" - Anders Sandberg, Senior Research Fellow, Future of Humanity Institute, University of Oxford
Athanatism
I find it quite remarkable that an evolutionary zoologist working in the latter part of the 19th century could be so prescient about the utility of studying consciousness from a purely physicalist perspective. While Ernst Haeckel (1834-1919) was readily aware that many of his colleagues held dualistic views on the nature of self-awareness (a soul apart from the body), he saw more clearly than most that such supernatural conjecturing was both unnecessary and non-progressive. By focusing our attention on the sensible world, and in particular the brain, we can develop a much deeper and richer understanding of how and why consciousness must have emerged in the first place. If, however, we adopt a purely spiritualist perspective, arguing that the "soul" is non-material, then we have basically put a halt to any scientific study of the very biochemistry that gives rise to varying degrees of consciousness. Haeckel points out that our own self-awareness is a natural phenomenon and not something part from the world we inhabit. As he so clearly states, "We shall see that consciousness is simply a natural phenomenon like any other psychic quality, and that it is subject to the law of substance like all other natural phenomena."
Cellular Dialogues in the Holobiont
This book examines protist-, animal- or plant-bacterial interactions and symbioses. These symbioses rely on continuous cell-to-cell communications. The goals of this book are to explore, explain and expose these dialogues across a broad spectrum of plant and animal eukaryotes to a broad field of biologists.
Embryological and Morphological Studies on the Mid-brain and Cerebellum of Vertebrates
This work has been selected by scholars as being culturally important, and is part of the knowledge base of civilization as we know it. This work was reproduced from the original artifact, and remains as true to the original work as possible. Therefore, you will see the original copyright references, library stamps (as most of these works have been housed in our most important libraries around the world), and other notations in the work.This work is in the public domain in the United States of America, and possibly other nations. Within the United States, you may freely copy and distribute this work, as no entity (individual or corporate) has a copyright on the body of the work.As a reproduction of a historical artifact, this work may contain missing or blurred pages, poor pictures, errant marks, etc. Scholars believe, and we concur, that this work is important enough to be preserved, reproduced, and made generally available to the public. We appreciate your support of the preservation process, and thank you for being an important part of keeping this knowledge alive and relevant.
Testicular Germ Cell Tumors
This volume presents the latest techniques used to study germ cell tumors (GCTs), including histopathology; in vitro and in vivo techniques for investigating GCT biology; novel methods for detecting minimal residual diseases; and sequencing considerations as they apply to GCTs. Chapters cover topics such as clinical applications of immunohistochemistry in GCTs in men; fluorescence in situ hybridization (FISH) detection of chromosomal 12p anomalies in testicular GCTs; evaluation of chemotherapeutic drugs for treatment of (cisplatin-resistant) germ cell cancer cell lines; targeted methylation analyses; and circulating microRNA panel for malignant GCT diagnosis and monitoring. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls.Cutting-edge and comprehensive, Testicular Germ Cell Tumors: Methods and Protocols provides valuable information that is useful for both novice and expert GCT researchers interested in learning more about this field.
Global Impact of Ergot Alkaloids
"The Global Impact of Ergot Alkaloids" addresses the very broad topic of ergot alkaloids and the influence that they have on many facets of life. The content in this Special Issue pertains to research studying fungi, plants, livestock, and humans. While the perspectives of each paper may differ, the common aspect is the interest and emphasis on ergot alkaloids. These compounds cross the spectrum from feared toxins to potential pharmaceutical discoveries. The research included spans the globe and has content that will attract the interest of readers from many different backgrounds.
Molecular Phylogenetics and Mitochondrial Evolution
The aim of the present Special Issue is to address the state-of-art of mitochondrial genomics and phylogenomics. Mitochondrial markers are widespread in phylogenetics; however, it is becoming increasingly clear that (i) many discordance issues arise with respect to nuclear markers and (ii) many features that are normally considered 'typical' for the mitochondrial genome are indeed highly unstable and unconserved.
New Insights into Food Fermentation
This reprint is dedicated to new insights into food fermentation. The goal of this reprint was to broaden the current knowledge on advanced approaches concerning food fermentation, gathering studies on conventional and unconventional food matrix fermentation, functional compounds obtained through fermentation, fermentations increasing quality and safety standards, as well as papers presenting innovative approaches shedding light on the microbial community that characterizes fermented foods.
Myxobacteria
Myxobacteria are fascinating and important prokaryotes. They have large genomes and exhibit a wide range of interesting behaviors, including multicellular fruiting body formation, social interaction, predation, and secondary metabolite production. Substantial progress is being made in understanding their ecological roles and the evolutionary forces that have shaped their phenotypes and behaviors. Novel species of myxobacteria are regularly described, often producing unusual metabolites and enzymes which can be of significant biotechnological interest. Molecular studies, ranging in subject from individual enzymes to entire 'omes, continue to provide rich insights into myxobacterial biology. This collected volume brings together five research articles and three reviews, to provide a snapshot of current myxobacterial research in all its diversity.
Antimicrobial Resistance and Virulence Mechanisms
The worldwide emergence of antimicrobial-resistant bacteria, specially those resistant to last-resource antibiotics, is now a common problem being defined as one of three priorities for the safeguarding of One Health by the Tripartite Alliance, which includes the World Health Organization (WHO), the Food and Agriculture Organization (FAO) and the Office International des Epizooties (OIE). Bacteria resistance profiles, together with the expression of specific virulence markers, have a major influence on the outcomes of infectious diseases. These bacterial traits are interconnected, since not only the presence of antibiotics may influence bacterial virulence gene expression and consequently infection pathogenesis, but some virulence factors may also contribute to an increased bacterial resistance ability, as observed in biofilm-producing strains. The surveillance of important resistant and virulent clones and associated mobile genetic elements is essential for decision making in terms of mitigation measures to be applied for the prevention of such infections in both human and veterinary medicine. However, the role of natural environments as important components of the dissemination cycle of these strains has not been consider until recently. This Special Issue aims to publish manuscripts that contribute to the understanding of the impact of bacterial antimicrobial resistance and virulence in the three areas of the One Health triad-i.e., animal, human and environmental health.
Training Load, Well-Being, and Readiness
The reprint represents the publication of the seven articles associated with the special issue "Training Load, Well-Being, and Readiness: Reducing Injury Risk and Improving Sports Performance". Within the reprint the readers can found evidence about training load monitoring in soccer, cyclists and regular gym exercises. We hope readers can find interesting the methodological approaches provided.
Brain Function and Health, Sports, and Exercise
This reprint represents the articles published in the Special Issue "Brain Function and Health, Sports, and Exercise". Fifteen articles were published, with topics covering the relationship between acute effects of exercise on cognitive function, as well as the influence of exercise on positive medium-term adaptations in populations as children, youth, adults and older. We think that the different approaches used in the different articles will help the readers to have a greater overview of the current research in brain and exercise.
Cancer Biomarker Research and Personalized Medicine
Biomarkers are measures of a biological state. The treatment of individual patients based on particular factors, such as biomarkers, distinguishes standard, generalized treatment plans from personalized medicine. Even though personalized medicine is applicable to most branches of medicine, the field of oncology is perhaps where it is most easily employed. Cancer is a heterogeneous disease; although patients may be diagnosed histologically with the same cancer type, their tumors can comprise varying tumor microenvironments and molecular characteristics that can impact treatment response and prognosis. There has been a major drive over the past decade to try and realize personalized cancer medicine through the discovery and use of disease-specific biomarkers. This book, entitled "Cancer Biomarker Research and Personalized Medicine", encompasses 22 publications from colleagues working on a diverse range of cancers, including prostate, breast, ovarian, head and neck, liver, gastric, bladder, colorectal, and kidney. The biomarkers assessed in these studies include genes, intracellular or secreted proteins, exosomes, DNA, RNA, miRNA, circulating tumor cells, circulating immune cells, in addition to radiomic features.
Diagnosis, Treatment and Prevention of Age-Related Macular Degeneration
In this reprint, we hope to review the basics and highlight the latest developments in AMD. This demonstrates the benefits of the international scientific community working on this disease, to limit its negative impacts, the most vital of which is the loss of visual function, leading to a loss of autonomy and a decrease in patients' quality of life.
Story of Our Lives, The: Homo Sapiens' Secrets of Success
We are a restless, world-changing species. We are the only organism that combines a multitude of abilities to harness the rules of nature, continuously manipulating our environment, its resources and even our own bodies to fit our ever-changing needs and desires. What is it that enables us to share some 99 percent of DNA as well as some basic behaviors with other organisms, yet at the same time be so different and powerful?Coalescing understandings driven from biology, psychology, anthropology, history and more, Ben David addresses the above question using a new paradigm: The Gordian knot between five human traits -- imagination, creative making, complex communication, change and intergenerational transfer -- evolutionary developed and co-amplified as the ultra-complex system called Homo sapiens. Weaving personal stories with professional experience, Ben David narrates innovative definitions of technology, education, science and their co-dependence; emphasizes their roles in the development of human societies; deliberates their implications on everyday life; discusses the crucial role of science education; and offers a fresh look at who we are as the leading species on this planet.Dr Liat Ben David is the CEO of the Davidson Institute of Science Education, the educational arm of Israel's acclaimed Weizmann Institute of Science. She holds a PhD in Molecular Biology and has more than 30 years of experience in the field of STEM education. Ben David teaches regularly in various spheres, including academia and TEDx; she is an accomplished author who has published numerous articles and books.This book is a 2023 Nautilus Book Awards winner.This book is an INDIES Award-Winning Finalist.
Story of Our Lives, The: Homo Sapiens' Secrets of Success
We are a restless, world-changing species. We are the only organism that combines a multitude of abilities to harness the rules of nature, continuously manipulating our environment, its resources and even our own bodies to fit our ever-changing needs and desires. What is it that enables us to share some 99 percent of DNA as well as some basic behaviors with other organisms, yet at the same time be so different and powerful?Coalescing understandings driven from biology, psychology, anthropology, history and more, Ben David addresses the above question using a new paradigm: The Gordian knot between five human traits -- imagination, creative making, complex communication, change and intergenerational transfer -- evolutionary developed and co-amplified as the ultra-complex system called Homo sapiens. Weaving personal stories with professional experience, Ben David narrates innovative definitions of technology, education, science and their co-dependence; emphasizes their roles in the development of human societies; deliberates their implications on everyday life; discusses the crucial role of science education; and offers a fresh look at who we are as the leading species on this planet.Dr Liat Ben David is the CEO of the Davidson Institute of Science Education, the educational arm of Israel's acclaimed Weizmann Institute of Science. She holds a PhD in Molecular Biology and has more than 30 years of experience in the field of STEM education. Ben David teaches regularly in various spheres, including academia and TEDx; she is an accomplished author who has published numerous articles and books.This book is a 2023 Nautilus Book Awards winner.This book is an INDIES Award-Winning Finalist.
Genomic and Precision Medicine
Genomic and Precision Medicine: Oncology, Third Edition focuses on the applications of genome discovery as research points to personalized cancer therapies. Each chapter is organized to cover the application of genomics and personalized medicine tools and technologies to a) Risk Assessment and Susceptibility, b) Diagnosis and Prognosis, c) Pharmacogenomics and Precision Therapeutics, and d) Emerging and Future Opportunities in the field.
Structure and Function of Membrane Proteins
This book examines detailed experimental and computational approaches for the analysis of many aspects vital to the understanding of membrane protein structure and function. Readers will receive guidance on the selection and use of methods for over-expression and purification, tools to characterize membrane proteins within different phospholipid bilayers, direction on functional studies, and approaches to determine the structures of membrane proteins. Detailed experimental steps for specific membrane proteins with critical notes allow the protocols to be modified to different systems. Written for the highly successful Methods in Molecular Biology series, chapters include the kind of practical information and implementation advice that leads to excellent, reproducible results. Authoritative and up-to-date, Structure and Function Studies of Membrane Proteins serves as an ideal guide for biologists, biochemists, and biophysicists striving to furtherunderstand these essential proteins and their many biological roles.
Xenopus
Xenopus has emerged as a powerful system to study fundamental disease mechanisms and test treatment possibilities - applying fundamental knowledge to pathological processes, for deciphering function of human disease genes, for understanding genome evolution.
Advances in Applied Microbiology
Advances in Applied Microbiology, Volume 118 continues the comprehensive reach of this widely read and authoritative review source in microbiology. Users will find invaluable references and information on a variety of areas relating to the topics of microbiology.
Introduction to Computational Metagenomics
Breakthroughs in high-throughput genome sequencing and high-performance computing technologies have empowered scientists to decode many genomes including our own. Now they have a bigger ambition: to fully understand the vast diversity of microbial communities within us and around us, and to exploit their potential for the improvement of our health and environment. In this new field called metagenomics, microbial genomes are sequenced directly from the habitats without lab cultivation. Computational metagenomics, however, faces both a data challenge that deals with tens of tera-bases of sequences and an algorithmic one that deals with the complexity of thousands of species and their interactions.This interdisciplinary book is essential reading for those who are interested in beginning their own journey in computational metagenomics. It is a prism to look through various intricate computational metagenomics problems and unravel their three distinctive aspects: metagenomics, data engineering, and algorithms. Graduate students and advanced undergraduates from genomics science or computer science fields will find that the concepts explained in this book can serve as stepping stones for more advanced topics, while metagenomics practitioners and researchers from similar disciplines may use it to broaden their knowledge or identify new research targets.
The Miracle of Man
For years, leading scientists and science popularizers have insisted humans are nothing special in the cosmic scheme of things. In this important and provocative new book, renowned biologist Michael Denton argues otherwise. According to Denton, the cosmos is stunningly fit not just for cellular life, not just for carbon-based animal life, and not even just for air-breathing animals, but especially for bipedal, land-roving, technology-pursuing creatures of our general physiological design. In short, the cosmos is specifically fit for creatures like us. Drawing on discoveries from a myriad of scientific fields, Denton masterfully documents how contemporary science has revived humanity's special place in nature. "The human person as revealed by modern science is no contingent assemblage of elements, an irrelevant afterthought of cosmic evolution," Denton writes. "Rather, our destiny was inscribed in the light of stars and the properties of atoms since the beginning. Now we know that all nature sings the song of man. Our seeming exile from nature is over. We now know what the medieval scholars only believed, that the underlying rationality of nature is indeed 'manifest in human flesh.' And with this revelation the... delusion of humankind's irrelevance on the cosmic stage has been revoked."
Single Stranded DNA Binding Proteins
This volume provides a comprehensive set of protocols that can be used by any research lab to investigate diverse functional and structural properties of Single Stranded DNA Binding Proteins (SSBs) from eubacterial, archaeal, eukaryotic, mitochondrial and viral systems. Written in the highly successful Methods in Molecular Biology series format, chapters include introductions to their respective topics, lists of the necessary materials and reagents, step-by-step, readily reproducible laboratory protocols, and tips on troubleshooting and avoiding known pitfalls. Authoritative and cutting-edge, Single Stranded DNA Binding Proteins aims to be a useful practical guide to researchers to help further their study in this field.
Bio-Electrochemical Systems
This book addresses electro-fermentation for biofuel production and to generate high-value chemicals and biofuels using organic wastes. It covers the use of microbial biofilm and algae-based bio-electrochemical systems for bioremediation and co-generation of valuable chemicals, including their practical applications.
Recent Developments on Protein-Ligand Interactions
Protein-ligand interactions play a fundamental role in most major biological functions. The number and diversity of small molecules that interact with proteins, whether naturally or not, can quickly become overwhelming. They are as essential as amino acids, nucleic acids or membrane lipids, enabling a large number of essential functions. One need only think of carbohydrates or even just ATP to be certain. They are also essential in drug discovery. With the increasing structural information of proteins and protein-ligand complexes, molecular modelling, molecular dynamics, and chemoinformatics approaches are often required for the efficient analysis of a large number of such complexes and to provide insights. Similarly, numerous computational approaches have been developed to characterize and use the knowledge of such interactions, which can lead to drug candidates. "Recent Developments on Protein-Ligand Interactions: From Structure, Function to Applications" was dedicated to the different aspect of protein-ligand analysis and/or prediction using computational approaches, as well as new developments dedicated to these tasks. It will interest both specialists and non-specialists, as the presented studies cover a very large spectra in terms of methodologies and applications. It underlined the variety of scientific area linked to these questions, i.e., chemistry, biology, physics, informatics, bioinformatics, structural bioinformatics and chemoinformatics.
Osteoarthritis
In this book, we have reported the most recent discoveries and updates regarding molecular pathways in osteoarthritis. In particular, the advances regarding therapeutical options, from a molecular point of view, are largely discussed.
