Advertisement
| biology terms with j: Molecular Biology of the Cell , 2002 |
| biology terms with j: The Dictionary of Cell and Molecular Biology John M. Lackie, 2012-12-31 The Dictionary of Cell and Molecular Biology, Fifth Edition, provides definitions for thousands of terms used in the study of cell and molecular biology. The headword count has been expanded to 12,000 from 10,000 in the Fourth Edition. Over 4,000 headwords have been rewritten. Some headwords have second, third, and even sixth definitions, while fewer than half are unchanged. Many of the additions were made to extend the scope in plant cell biology, microbiology, and bioinformatics. Several entries related to specific pharmaceutical compounds have been removed, while some generic entries (alpha blockers, NSAIDs, and tetracycline antibiotics, for example), and some that are frequently part of the experimentalist's toolkit and probably never used in the clinic, have been retained. The Appendix includes prefixes for SI units, the Greek alphabet, useful constants, and single-letter codes for amino acids. - Thoroughly revised and expanded by over 20% with over 12,000 entries in cellular and molecular biology - Includes expanded coverage of terms, including plant molecular biology, microbiology and biotechnology areas - Consistently provides the most complete short definitions of technical terminology for anyone working in life sciences today - Features extensive cross-references - Provides multiple definitions, notes on word origins, and other useful features |
| biology terms with j: Dictionary of Developmental Biology and Embryology Frank J. Dye, 2012-02-21 A newly revised edition of the standard reference for the field today—updated with new terms, major discoveries, significant scientists, and illustrations Developmental biology is the study of the mechanisms of development, differentiation, and growth in animals and plants at the molecular, cellular, and genetic levels. The discipline has gained prominence in part due to new interdisciplinary approaches and advances in technology, which have led to the rapid emergence of new concepts and words. The Dictionary of Developmental Biology and Embryology, Second Edition is the first comprehensive reference focused on the field's terms, research, history, and people. This authoritative A-to-Z resource covers classical morphological and cytological terms along with those from modern genetics and molecular biology. Extensively cross-referenced, the Dictionary includes definitions of terms, explanations of concepts, and biographies of historical figures. Comparative aspects are described in order to provide a sense of the evolution of structures, and topics range from fundamental terminology, germ layers, and induction to RNAi, evo-devo, stem cell differentiation, and more. Readers will find such features of embryology and developmental biology as: Vertebrates Invertebrates Plants Developmental genetics Evolutionary developmental biology Molecular developmental biology Medical embryology The author's premium on accessibility allows readers at all levels to enhance their vocabulary in their field and understand terminology beyond their specific focus. Researchers and students in developmental biology, cell biology, developmental genetics, and embryology will find the dictionary to be a vital resource. |
| biology terms with j: A Dictionary of Biology Elizabeth Martin, Robert Hine, 2015 Fully revised and updated for the seventh edition, this market-leading dictionary is the perfect guide for anyone studying biology, either at school or university. With more than 5,500 clear and concise entries, it provides comprehensive coverage of biology, biophysics, and biochemistry. Over 250 new entries include terms such as Broca's area, comparative genomic hybridization, mirror neuron, and Pandoravirus. Appendices include classifications of the animal and plant kingdoms, the geological time scale, major mass extinctions of species, model organisms and their genomes, Nobel prizewinners, and a new appendix on evolution. Entry-level web links to online resources can be accessed via a companion website. |
| biology terms with j: Molecular Biology David P. Clark, Nanette J. Pazdernik, 2012-03-20 Molecular Biology, Second Edition, examines the basic concepts of molecular biology while incorporating primary literature from today's leading researchers. This updated edition includes Focuses on Relevant Research sections that integrate primary literature from Cell Press and focus on helping the student learn how to read and understand research to prepare them for the scientific world.The new Academic Cell Study Guide features all the articles from the text with concurrent case studies to help students build foundations in the content while allowing them to make the appropriate connections to the text. Animations provided deal with topics such as protein purification, transcription, splicing reactions, cell division and DNA replication and SDS-PAGE. The text also includes updated chapters on Genomics and Systems Biology, Proteomics, Bacterial Genetics and Molecular Evolution and RNA. An updated ancillary package includes flashcards, online self quizzing, references with links to outside content and PowerPoint slides with images.This text is designed for undergraduate students taking a course in Molecular Biology and upper-level students studying Cell Biology, Microbiology, Genetics, Biology, Pharmacology, Biotechnology, Biochemistry, and Agriculture. - NEW: Focus On Relevant Research sections integrate primary literature from Cell Press and focus on helping the student learn how to read and understand research to prepare them for the scientific world - NEW: Academic Cell Study Guide features all articles from the text with concurrent case studies to help students build foundations in the content while allowing them to make the appropriate connections to the text - NEW: Animations provided include topics in protein purification, transcription, splicing reactions, cell division and DNA replication and SDS-PAGE - Updated chapters on Genomics and Systems Biology, Proteomics, Bacterial Genetics and Molecular Evolution and RNA - Updated ancillary package includes flashcards, online self quizzing, references with links to outside content and PowerPoint slides with images - Fully revised art program |
| biology terms with j: Molecular Biology Susan J. Karcher, 1995-11-28 This course manual instructs students in recombinant DNA techniques and other essential molecular biology techniques in the context of projects. The project approach inspires and captivates students; it involves them in the scientific experience, providing continuity to laboratory bench time and an understanding of the principles underlying the techniques presented. Molecular Biology is a must for any department, operating under budgetary constraints that offers or plans to offer a course in molecular cloning. - Includes a glossary of over 200 terms important for understanding molecular biology - Uses an inexpensive source of eukaryotic cells - great for schools on a budget - Includes Methods Locator that provides instant access to the latest methods - Contain clearly written, easy-to-follow, student-tested instructions: - Sterile techniques - Phage titration - Gel electrophoresis of DNA - Restriction enzyme digestion - Plasmid isolation - Transformation of E. Coli - Recombinant DNA cloning - Nick translation labeling - Nonradioactive primer labelling - Nonradioactive DNA detection - Southern blotting - Colony hybridization - Purification of plant DNA - RNA purification - Northern blotting - Purification of poly A+ RNA - Polymerase chain reaction (PCR) |
| biology terms with j: Molecular Biology of the Cell 6E - The Problems Book John Wilson, Tim Hunt, 2014-11-21 The Problems Book helps students appreciate the ways in which experiments and simple calculations can lead to an understanding of how cells work by introducing the experimental foundation of cell and molecular biology. Each chapter reviews key terms, tests for understanding basic concepts, and poses research-based problems. The Problems Book has be |
| biology terms with j: Principles and Techniques of Biochemistry and Molecular Biology Keith Wilson, John Walker, 2010-03-04 Uniquely integrates the theory and practice of key experimental techniques for bioscience undergraduates. Now includes drug discovery and clinical biochemistry. |
| biology terms with j: Dictionary of Plant Genetics and Molecular Biology Gurbachan Miglani, 1998-03-30 In the Dictionary of Plant Genetics and Molecular Biology, more than 3,500 technical terms from the fields of plant genetics and molecular biology are defined for students, teachers, and researchers in universities, institutes, and agricultural research stations. An excellent educational tool that will save you time and effort, this dictionary brings together into a single source the meaning and origin of terms from the fields of classical genetics, molecular genetics, mutagenesis, population genetics, statistics, plant biotechnology, evolutionary genetics, plant breeding, and plant biotechnology. Finding and understanding the precise meaning of many terms in genetics is crucial to understanding the foundation of the subject matter. For reasons of space, the glossaries provided at the end of most textbooks are highly inadequate. There is, then, dire need for a dictionary of terms in a single volume. You?ll appreciate the helpful approaches and features of Dictionary of Plant Genetics and Molecular Biology, including: no terms that are of limited use, very general, or self-explanatory cross references for effective access to the materials and economy of space alternate names of terms, denoted with “Also referred to as . . .” or “Also known as . . .” multiple definitions for terms defined by different authors or for terms with different meanings in different contexts authors who coined, described, or contributed toward further understanding of a term are listed and respective publications are included in the Bibliography At last, there is compiled in a single volume the technical terms you need to know in order to understand plant genetics and molecular biology. As your knowledge grows, you?ll uncover even more terms that you need to understand. You?ll find yourself turning to this handy guide time and time again for help on all levels. |
| biology terms with j: Gene Editing in Plants , 2017-07-14 Gene Editing in Plants, Volume 149 aims to provide the reader with an up-to-date survey of cutting-edge research with gene editing tools and an overview of the implications of this research on the nutritional quality of fruits, vegetables and grains. New chapters in the updated volume include topics relating to Genome Engineering and Agriculture: Opportunities and Challenges, the Use of CRISPR/Cas9 for Crop Improvement in Maize and Soybean, the Use of Zinc-Finger Nucleases for Crop Improvement, Gene Editing in Polyploid Crops: Wheat, Camelina, Canola, Potato, Cotton, Peanut, Sugar Cane, and Citrus, and Gene Editing With TALEN and CRISPR/Cas in Rice. This ongoing serial contain contributions from leading scientists and researchers in the field of gene editing in plants who describe the results of their own research in this rapidly expanding area of science. - Shows the importance of revolutionary gene editing technology on plant biology research and its application to agricultural production - Provides insight into what may lie ahead in this rapidly expanding area of plant research and development - Contains contributions from major leaders in the field of plant gene editing |
| biology terms with j: A Functional Biology of Sea Anemones J. Malcolm Shick, 2012-12-06 General Editor: Peter Calow, Department of Zoology, University of Sheffield, England The main aim of this series will be to illustrate and to explain the way organisms 'make a living' in nature. At the heart of this - their Junctional biology - is the way organisms acquire and then make use of resources in metabolism, movement, growth, reproduction, and so on. These processes will form the fundamental framework of all the books in the series. Each book will concentrate on a particular taxon (species, family, class or even phylum) and will bring together information on the form, physiology, ecology and evolutionary biology of the group. The aim will be not only to describe how organisms work, but also to consider why they have come to work in that way. By concentrating on taxa which are well known, it is hoped that the series will not only illustrate the success of selection, but also show the constraints imposed upon it by the physiological, morphological and developmental limitations of the groups. Another important feature of the series will be its organismic orientation. Each book will emphasize the importance of functional integration in the day-to-day lives and the evolution of organisms. This is crucial since, though it may be true that organisms can be considered as collections of gene determined traits, they nevertheless interact with their environment as integrated wholes and it is in this context that individual traits have been subjected to natural selection and have evolved. |
| biology terms with j: Biology , |
| biology terms with j: Molecular Biology of B Cells Tasuku Honjo, Michael Reth, Andreas Radbruch, Frederick Alt, 2014-12-22 Molecular Biology of B Cells, Second Edition is a comprehensive reference to how B cells are generated, selected, activated and engaged in antibody production. All of these developmental and stimulatory processes are described in molecular, immunological, and genetic terms to give a clear understanding of complex phenotypes. Molecular Biology of B Cells, Second Edition offers an integrated view of all aspects of B cells to produce a normal immune response as a constant, and the molecular basis of numerous diseases due to B cell abnormality. The new edition continues its success with updated research on microRNAs in B cell development and immunity, new developments in understanding lymphoma biology, and therapeutic targeting of B cells for clinical application. With updated research and continued comprehensive coverage of all aspects of B cell biology, Molecular Biology of B Cells, Second Edition is the definitive resource, vital for researchers across molecular biology, immunology and genetics. |
| biology terms with j: Essentials of Chemical Biology Andrew D. Miller, Julian A Tanner, 2024-01-24 Essentials of Chemical Biology Discover a detailed knowledge of concepts and techniques that shape this unique multi-discipline Chemical Biology is devoted to understanding the way that Biology works at the molecular level. This is a problem-driven multi-discipline, incorporating as it does Organic, Physical, Inorganic, and Analytical Chemistry alongside newer emerging molecular disciplines. In recent years, Chemical Biology has emerged as a vibrant and growing multi-discipline distinct from Biochemistry that is focused on the quantitative analyses of the structures and functions of biological macromolecules and macromolecular lipid assemblies, at first in isolation, then in vitro and in vivo. The second edition of the Essentials of Chemical Biology begins with a thorough introduction to the structure of biological macromolecules and macromolecular lipid assemblies, before moving on to the principles of chemical and biological synthesis, followed by descriptions of a comprehensive variety of research techniques and experimental methods. In addition, the second edition now includes new sections on the behaviour of biological macromolecules and macromolecular lipid assemblies in cells in vitro and in organisms in vivo. Given this, the second edition of the Essentials of Chemical Biology promises to cement itself as the leading introduction to Chemical Biology, incorporating descriptions of cutting-edge research wherever appropriate. Hence, readers of the second edition of the Essentials of Chemical Biology will find: a general expansion in understanding of basic molecular mechanisms in Biology moving towards cellular and organismal mechanisms entirely new chapters covering miniaturization and array technologies, Chemical Cell Biology, and the interface between Chemical Biology and Nanotechnology updates to chapters reflecting recent research developments an increased engagement with medical applications Essentials of Chemical Biology is ideal for advanced undergraduates or (post) graduate students in Chemical Biology and adjacent fields. |
| biology terms with j: Quantitative Biology Brian Munsky, William S. Hlavacek, Lev S. Tsimring, 2018-08-21 An introduction to the quantitative modeling of biological processes, presenting modeling approaches, methodology, practical algorithms, software tools, and examples of current research. The quantitative modeling of biological processes promises to expand biological research from a science of observation and discovery to one of rigorous prediction and quantitative analysis. The rapidly growing field of quantitative biology seeks to use biology's emerging technological and computational capabilities to model biological processes. This textbook offers an introduction to the theory, methods, and tools of quantitative biology. The book first introduces the foundations of biological modeling, focusing on some of the most widely used formalisms. It then presents essential methodology for model-guided analyses of biological data, covering such methods as network reconstruction, uncertainty quantification, and experimental design; practical algorithms and software packages for modeling biological systems; and specific examples of current quantitative biology research and related specialized methods. Most chapters offer problems, progressing from simple to complex, that test the reader's mastery of such key techniques as deterministic and stochastic simulations and data analysis. Many chapters include snippets of code that can be used to recreate analyses and generate figures related to the text. Examples are presented in the three popular computing languages: Matlab, R, and Python. A variety of online resources supplement the the text. The editors are long-time organizers of the Annual q-bio Summer School, which was founded in 2007. Through the school, the editors have helped to train more than 400 visiting students in Los Alamos, NM, Santa Fe, NM, San Diego, CA, Albuquerque, NM, and Fort Collins, CO. This book is inspired by the school's curricula, and most of the contributors have participated in the school as students, lecturers, or both. Contributors John H. Abel, Roberto Bertolusso, Daniela Besozzi, Michael L. Blinov, Clive G. Bowsher, Fiona A. Chandra, Paolo Cazzaniga, Bryan C. Daniels, Bernie J. Daigle, Jr., Maciej Dobrzynski, Jonathan P. Doye, Brian Drawert, Sean Fancer, Gareth W. Fearnley, Dirk Fey, Zachary Fox, Ramon Grima, Andreas Hellander, Stefan Hellander, David Hofmann, Damian Hernandez, William S. Hlavacek, Jianjun Huang, Tomasz Jetka, Dongya Jia, Mohit Kumar Jolly, Boris N. Kholodenko, Markek Kimmel, Michał Komorowski, Ganhui Lan, Heeseob Lee, Herbert Levine, Leslie M Loew, Jason G. Lomnitz, Ard A. Louis, Grant Lythe, Carmen Molina-París, Ion I. Moraru, Andrew Mugler, Brian Munsky, Joe Natale, Ilya Nemenman, Karol Nienałtowski, Marco S. Nobile, Maria Nowicka, Sarah Olson, Alan S. Perelson, Linda R. Petzold, Sreenivasan Ponnambalam, Arya Pourzanjani, Ruy M. Ribeiro, William Raymond, William Raymond, Herbert M. Sauro, Michael A. Savageau, Abhyudai Singh, James C. Schaff, Boris M. Slepchenko, Thomas R. Sokolowski, Petr Šulc, Andrea Tangherloni, Pieter Rein ten Wolde, Philipp Thomas, Karen Tkach Tuzman, Lev S. Tsimring, Dan Vasilescu, Margaritis Voliotis, Lisa Weber |
| biology terms with j: Concepts of Biology Samantha Fowler, Rebecca Roush, James Wise, 2023-05-12 Black & white print. Concepts of Biology is designed for the typical introductory biology course for nonmajors, covering standard scope and sequence requirements. The text includes interesting applications and conveys the major themes of biology, with content that is meaningful and easy to understand. The book is designed to demonstrate biology concepts and to promote scientific literacy. |
| biology terms with j: Research in Computational Molecular Biology Bonnie Berger, 2010-05-09 This volume contains the papers presented at RECOMB 2010: the 14th Annual International Conference on Research in Computational Molecular Biology held in Lisbon, Portugal, during April 25–28, 2010. The RECOMB conference series was started in 1997 by Sorin Istrail, Pavel Pevzner, and Michael Waterman. RECOMB 2010 was hosted by INESC-ID and Instituto Superior Tecnico, or- nized by a committee chaired by Arlindo Oliveira and took place at the Int- national Fair of Lisbon Meeting Centre. This year, 36 papers were accepted for presentation out of 176 submissions. The papers presented were selected by the Program Committee (PC) assisted by a number of external reviewers. Each paper was reviewed by three members of the PC, or by external reviewers, and there was an extensive Web-based discussion over a period of two weeks, leading to the ?nal decisions. RECOMB 2010 also introduced a Highlights Track, in which six additional presentations by senior authors were chosen from papers published in 2009. The RECOMB conferenceseriesiscloselyassociatedwiththeJournalofComputational Biology, which traditionally publishes special issues devoted to presenting full versions of selected conference papers. |
| biology terms with j: Handbook of Systems Biology Marian Walhout, Marc Vidal, Job Dekker, 2012-12-31 This book provides an entry point into Systems Biology for researchers in genetics, molecular biology, cell biology, microbiology and biomedical science to understand the key concepts to expanding their work. Chapters organized around broader themes of Organelles and Organisms, Systems Properties of Biological Processes, Cellular Networks, and Systems Biology and Disease discuss the development of concepts, the current applications, and the future prospects. Emphasis is placed on concepts and insights into the multi-disciplinary nature of the field as well as the importance of systems biology in human biological research. Technology, being an extremely important aspect of scientific progress overall, and in the creation of new fields in particular, is discussed in 'boxes' within each chapter to relate to appropriate topics. - 2013 Honorable Mention for Single Volume Reference in Science from the Association of American Publishers' PROSE Awards - Emphasizes the interdisciplinary nature of systems biology with contributions from leaders in a variety of disciplines - Includes the latest research developments in human and animal models to assist with translational research - Presents biological and computational aspects of the science side-by-side to facilitate collaboration between computational and biological researchers |
| biology terms with j: Scientific and Technical Information Resources Subramanyam, 1981-03-01 This book focuses on current practices in scientific and technical communication, historical aspects, and characteristics and biblio-graphic control of various forms of scientific and technical literature. It integrates the inventory approach for scientific and technical communication. |
| biology terms with j: Herpetology Laurie J. Vitt, George R. Zug, 2012-12-02 Herpetology has always been one of the most exciting disciplines of zoology. During the past few years the field has continued to grow, yet it has been plagued by scarcity of comprehensive, up-to-date textbooks containing the most important developments. This timely book fills that void. Through skillful synthesis, the author summarizes the diversity in the biology of living amphibians and reptiles and describes the breadth of current herpetological research. Topics covered include the evolution, classification, development, reproduction, population, and environmental issues surrounding the study of amphibians and reptiles. Designed as an advanced undergraduate textbook, Herpetology is a valuable resource for students, practitioners, and interested amateurs alike. - Provides an incisive survey and much needed update of the field - Emphasizes the biological diversity among amphibians and reptiles - Details the most recent research findings, citing ke |
| biology terms with j: Biological & Agricultural Index , 1997 |
| biology terms with j: Polyoxometalates in Catalysis, Biology, Energy and Materials Science Soumyajit Roy, Debbie C. Crans, Tatjana N. Parac-Vogt, 2019-12-05 |
| biology terms with j: Synthetic Biology for the Sustainable Production of Biochemicals in Engineered Microbes Shuobo Shi, Jingyu Wang, Hua Ling, 2022-09-23 |
| biology terms with j: Bioinformatics of Genome Regulation and Systems Biology Yuriy L. Orlov, Ancha Baranova, 2020-09-17 This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact. |
| biology terms with j: Omics Technologies Toward Systems Biology Fatemeh Maghuly, Gorji Marzban, Joanna Jankowicz-Cieslak, 2022-01-24 |
| biology terms with j: Advances in Microalgae Biology and Sustainable Applications Flavia Vischi Winck, Diego Mauricio Riaño-Pachón, Telma Teixeira Franco, 2016-11-15 It has become more evident that many microalgae respond very differently than land plants to diverse stimuli. Therefore, we cannot reduce microalgae biology to what we have learned from land plants biology. However, we are still at the beginning of a comprehensive understanding of microalgae biology. Microalgae have been posited several times as prime candidates for the development of sustainable energy platforms, making thus the in-depth understanding of their biological features an important objective. Thus, the knowledge related to the basics of microalgae biology must be acquired and shared rapidly, fostering the development of potential applications. Microalgae biology has been studied for more than forty years now and more intensely since the 1970’s, when genetics and molecular biology approaches were integrated into the research programs. Recently, studies on the molecular physiology of microalgae have provided evidences on the particularities of these organisms, mainly in model species, such as Chlamydomonas reinhardtii. Of note, cellular responses in microalgae produce very interesting phenotypes, such as high lipid content in nitrogen deprived cells, increased protein content in cells under high CO2 concentrations, the modification of flagella structure and motility in basal body mutant strains, the different ancient proteins that microalgae uses to dissipate the harmful excess of light energy, the hydrogen production in cells under sulfur deprivation, to mention just a few. Moreover, several research groups are using high-throughput and data-driven technologies, including “omics” approaches to investigate microalgae cellular responses at a system-wide level, revealing new features of microalgae biology, highlighting differences between microalgae and land plants. It has been amazing to observe the efforts towards the development and optimization of new technologies required for the proper study of microalgae, including methods that opened new paths to the investigation of important processes such as regulatory mechanisms, signaling crosstalk, chemotactic mechanisms, light responses, chloroplast controlled mechanisms, among others. This is an exciting moment in microalgae research when novel data are been produced and applied by research groups from different areas, such as bioprocesses and biotechnology. Moreover, there has been an increased amount of research groups focused in the study of microalgae as a sustainable source for bioremediation, synthesis of bioproducts and development of bioenergy. Innovative strategies are combining the knowledge of basic sciences on microalgae into their applied processes, resulting in the progression of many applications that hopefully, will achieve the necessary degree of optimization for economically feasible large-scale applications. Advances on the areas of basic microalgae biology and novelties on the essential cellular processes were revealed. Progress in the applied science showed the use of the basic science knowledge into fostering translational research, proposing novel strategies for a sustainable world scenario. In this present e-book, articles presented by research groups from different scientific areas showed, successfully, the increased development of the microalgae research. Herewith, you will find articles ranging from bioprospecting regional microalgae species, through advances in microalgae molecular physiology to the development of techniques for characterization of biomass and the use of biomass into agriculture and bioenergy production. This e-book is an excellent source of knowledge for those working with microalgae basic and applied sciences, and a great opportunity for researchers from both areas to have an overview of the amazing possibilities we have for building an environmentally sustainable future once the knowledge is translated into novel applications. |
| biology terms with j: Introduction to Computational Biology Michael S. Waterman, 2018-05-02 Biology is in the midst of a era yielding many significant discoveries and promising many more. Unique to this era is the exponential growth in the size of information-packed databases. Inspired by a pressing need to analyze that data, Introduction to Computational Biology explores a new area of expertise that emerged from this fertile field- the combination of biological and information sciences. This introduction describes the mathematical structure of biological data, especially from sequences and chromosomes. After a brief survey of molecular biology, it studies restriction maps of DNA, rough landmark maps of the underlying sequences, and clones and clone maps. It examines problems associated with reading DNA sequences and comparing sequences to finding common patterns. The author then considers that statistics of pattern counts in sequences, RNA secondary structure, and the inference of evolutionary history of related sequences. Introduction to Computational Biology exposes the reader to the fascinating structure of biological data and explains how to treat related combinatorial and statistical problems. Written to describe mathematical formulation and development, this book helps set the stage for even more, truly interdisciplinary work in biology. |
| biology terms with j: Biology and Management of Weeds and Invasive Plant Species under Changing Climatic and Management Regimes Ali Ahsan Bajwa, Mithila Jugulam, Maor Matzrafi, 2021-11-03 |
| biology terms with j: Advances in the Biology and Medicine of Pain Alexandra Latini, Michael Costigan, 2022-02-16 |
| biology terms with j: Foundations of Theoretical Approaches in Systems Biology Alberto Marin-Sanguino, Julio Vera, Rui Alves, 2019-01-11 If biology in the 20th century was characterized by an explosion of new technologies and experimental methods, that of the 21st has seen an equally exuberant proliferation of mathematical and computational methods that attempt to systematize and explain the abundance of available data. As we live through the consolidation of a new paradigm where experimental data goes hand in hand with computational analysis, we contemplate the challenge of fusing these two aspects of the new biology into a consistent theoretical framework. Whether systems biology will survive as a field or be washed away by the tides of future fads will ultimately depend on its success to achieve this type of synthesis. The famous quote attributed to Kurt Lewin comes to mind: there is nothing more practical than a good theory. This book presents a wide assortment of articles on systems biology in an attempt to capture the variety of current methods in systems biology and show how they can help to find answers to the challenges of modern biology. |
| biology terms with j: Advances and Challenges in Microphytobenthos Research: From Cell Biology to Coastal Ecosystem Function João Serôdio, David M. Paterson, Vona Meleder, Wim Vyverman, 2020-12-29 This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact. |
| biology terms with j: Advanced HPC-based Computational Modeling in Biomechanics and Systems Biology Mariano Vázquez, Peter V. Coveney, Hernan Edgardo Grecco, Alfons Hoekstra, Bastien Chopard, 2019-04-04 This eBook is a collection of articles from a Frontiers Research Topic. Frontiers Research Topics are very popular trademarks of the Frontiers Journals Series: they are collections of at least ten articles, all centered on a particular subject. With their unique mix of varied contributions from Original Research to Review Articles, Frontiers Research Topics unify the most influential researchers, the latest key findings and historical advances in a hot research area! Find out more on how to host your own Frontiers Research Topic or contribute to one as an author by contacting the Frontiers Editorial Office: frontiersin.org/about/contact. |
| biology terms with j: Integrative Structural Biology of Proteins and Macromolecular Assemblies: Bridging Experiments and Simulations Paulo Ricardo Batista, Mario Oliveira Neto, David Perahia, 2022-07-26 |
| biology terms with j: Weed Biology and Ecology in Agroecosystems Karla Leigh Gage, Lauren M. Lazaro, Bhagirath Singh Chauhan, 2021-11-03 |
| biology terms with j: The Application of Sequencing Technologies and Bioinformatics Methods in Cancer Biology Geng Chen, Lu Xie, D. P. Kreil, Fangqing Zhao, 2022-10-17 |
| biology terms with j: Everything Edamame: Biology, Production, Nutrition, Sensory and Economics Bo Zhang, Xujun Fu, William Jeremy Ross, Martin Williams, 2022-08-31 |
| biology terms with j: Synthetic Biology engineering complexity and refactoring cell capabilities Pablo Carbonell, Jean Marie François, 2015-10-26 One of the key features of biological systems is complexity, where the behavior of high level structures is more than the sum of the direct interactions between single components. Synthetic Biologists aim to use rational design to build new systems that do not already exist in nature and that exhibit useful biological functions with different levels of complexity. One such case is metabolic engineering, where, with the advent of genetic and protein engineering, by supplying cells with chemically synthesized non-natural amino acids and sugars as new building blocks, it is now becoming feasible to introduce novel physical and chemical functions and properties into biological entities. The rules of how complex behaviors arise, however, are not yet well understood. For instance, instead of considering cells as inert chassis in which synthetic devices could be easily operated to impart new functions, the presence of these systems may impact cell physiology with reported effects on transcription, translation, metabolic fitness and optimal resource allocation. The result of these changes in the chassis may be failure of the synthetic device, unexpected or reduced device behavior, or perhaps a more permissive environment in which the synthetic device is allowed to function. While new efforts have already been made to increase standardization and characterization of biological components in order to have well known parts as building blocks for the construction of more complex devices, also new strategies are emerging to better understand the biological dynamics underlying the phenomena we observe. For example, it has been shown that the features of single biological components [i.e. promoter strength, ribosome binding affinity, etc] change depending on the context where the sequences are allocated. Thus, new technical approaches have been adopted to preserve single components activity, as genomic insulation or the utilization of prediction algorithms able to take biological context into account. There have been noteworthy advances for synthetic biology in clinical technologies, biofuel production, and pharmaceuticals production; also, metabolic engineering combined with microbial selection/adaptation and fermentation processes allowed to make remarkable progress towards bio-products formation such as bioethanol, succinate, malate and, more interestingly, heterologous products or even non-natural metabolites. However, despite the many progresses, it is still clear that ad hoc trial and error predominates over purely bottom-up, rational design approaches in the synthetic biology community. In this scenario, modelling approaches are often used as a descriptive tool rather than for the prediction of complex behaviors. The initial confidence on a pure reductionist approach to the biological world has left space to a new and deeper investigation of the complexity of biological processes to gain new insights and broaden the categories of synthetic biology. In this Research Topic we host contributions that explore and address two areas of Synthetic Biology at the intersection between rational design and natural complexity: (1) the impact of synthetic devices on the host cell, or chassis and (2) the impact of context on the synthetic devices. Particular attention will be given to the application of these principles to the rewiring of cell metabolism in a bottom-up fashion to produce non-natural metabolites or chemicals that should eventually serve as a substitute for petrol-derived chemicals, and, on a long-term view, to provide economical, ecological and ethical solutions to today’s energetic and societal challenges. |
| biology terms with j: RACE & ETHIC’S SAPIENS Augustin Ostace, 2019-01-09 The title in itself is intended to be an encouragement of our Ethics’ Commission of the United States Congress, to which was addressed a petition about a year ago (January 2017) regarding the misusing and abusing of the concept of RACE in regarding Species Sapiens, Genus (Gattung) Homo in our American Constitution… It is in some way understandable that the human history, including the history of the American People, has had in its entirety many white links throughout its genesis phases, throughout its evolutionary and devolutionary periods and throughout its controversial becoming and fulfillments… But to persist in a such dramatic controversial field of different RACE within Species Sapiens, Genus Homo, Hominid Family, Order Primate, Class Mammalia, Phylum(Stamm) Vertebrata, Kingdom Animalia, despite of all anthropological, physiological and genetically advancements in the last 50 years, including Human Genom Project, is a dangerous disregarding of all scientific arguments, which are supporting beyond of any doubt, that the Species Sapiens is a Species without different Races within… Sapientologist |
| biology terms with j: CELLULAR BEING Augustin Ostace, 2018-11-19 It would be possible to challenge the Cell biology through a Cell Philosophy? By re-thinking the cell as a lively Being and subsequently to change the Cell itself into a Being? Into a lively Being? Called CELLULAR BEING? Our ambition, our enterprise, our philosophical and biological ambitions, is encouraged by the huge development of Cell and Molecular Biology in the last decades of the second Millennium and the first two decades of the third Millennium Through the philosophy of cell, through the philosophy of genetic code contained into the DNA, of its physiology and pathology, is enriched thus the self-reflection about the living planetary system into which the Cell itself, in its uni-cellularity or multi-cellularity, has been the oldest living Being, der älteste lebendigen Dasein, Cell is the Being itself, whatever in its uni-cellularity as prokaryote or eukaryote, as unicellular organism, or pluricellular ones, whatever in fungi, in plants or animals, in its physiological conditions or physiopathological ones, being then the basic substratum of all living system in the last of ca. about four billions years… …Then, once again, it is not important the words, into which the books are written, or into which the words are expressed through their morphology or dys-morphology, but the idea or ideas behind them, towards a re-thinking of a concept-o-logical biology, as a revalorization of life itself, Umwertung aller Lebendigewerte, within the uniqueness of our blue planet system… The science of astronomy, the science of cosmology, of geology, of biology, are addressing not only to the readers, whatever they are in the world, but primarily to the bipolarity of readers - thinkers, as the evolutionary development of the word of reader to the concept of thinker, both intertwined into a CONCEPTOLOGICAL FIELD OF CREATORS, through which myself is correlated into the triad reader - thinker - creator… Cellularologist |
| biology terms with j: Advances in the Molecular Biology of Trypanosomatid Pathogens Gustavo Benaim, Alberto Enrique Paniz Mondolfi, Juan David Ramírez, Emilia Mia Sordillo, 2021-12-01 |
How do I cram for the exam??? - Biology Forum
Oct 27, 2009 · I have been studying Biology by correspondence through Unilearn for the last couple of months. I have completed my required 10 modules so getting ready to sit the exam. How do I …
Definition of a solution - Biology Forum
Jan 28, 2007 · In my introductory biology class, we are learning about how water creates aqueous solutions. I am not sure about the definition of a solution, however. Does a solution mean that …
DNA 3' end & 5' end - Biology Forum
Jul 19, 2011 · I can't quite grasp the "ends" of DNA. When we say "3' end", does it mean that we can only add the nucleotides to the 5's, and not the 3's?
WHAT A BIOLOGY? - Biology Forum
Dec 3, 2006 · Biology is the study of living things… In this we study about the structure , function , interactions, of living organisms…It is a vast field divided into many branches. December 3, 2006 …
Evolution - Biology Forum
Dec 20, 2007 · Evolution does'nt makes sense to me. According to Darwin, humans have evolved from apes. I want to know why some apes evolved into humans, why not all evolved?
what is depolymerisation - Biology Forum
Jul 23, 2006 · I think depolymerisation is the removal of the monomers, in this case the removal of the monomers of microtubules.
Topics Archive - Biology Forum
360 Wiki Writers. General Discussion. 2; 2
Imperfect Design - Biology Forum
Aug 28, 2007 · Imperfect Design Darwin’s theory of Evolution explains how living things adapt to changing environments over time so as to survive and procreate the species.
Meniscus? - Biology Forum
Apr 21, 2006 · My biology teacher gave us instructions on how to set up a potometer. According to him the way to measure the rate of transpiration is to measure the distance moved by the …
What is the String Theory? - Biology Forum
Feb 15, 2006 · The string theory is a notion of cuantum physics that tries to explain how is it that our space and time can expand and contract influenced by the energy of everything…
How do I cram for the exam??? - Biology Forum
Oct 27, 2009 · I have been studying Biology by correspondence through Unilearn for the last couple of months. I have completed my required 10 modules so getting ready to sit the exam. …
Definition of a solution - Biology Forum
Jan 28, 2007 · In my introductory biology class, we are learning about how water creates aqueous solutions. I am not sure about the definition of a solution, however. Does a solution mean that …
DNA 3' end & 5' end - Biology Forum
Jul 19, 2011 · I can't quite grasp the "ends" of DNA. When we say "3' end", does it mean that we can only add the nucleotides to the 5's, and not the 3's?
WHAT A BIOLOGY? - Biology Forum
Dec 3, 2006 · Biology is the study of living things… In this we study about the structure , function , interactions, of living organisms…It is a vast field divided into many branches. December 3, …
Evolution - Biology Forum
Dec 20, 2007 · Evolution does'nt makes sense to me. According to Darwin, humans have evolved from apes. I want to know why some apes evolved into humans, why not all evolved?
what is depolymerisation - Biology Forum
Jul 23, 2006 · I think depolymerisation is the removal of the monomers, in this case the removal of the monomers of microtubules.
Topics Archive - Biology Forum
360 Wiki Writers. General Discussion. 2; 2
Imperfect Design - Biology Forum
Aug 28, 2007 · Imperfect Design Darwin’s theory of Evolution explains how living things adapt to changing environments over time so as to survive and procreate the species.
Meniscus? - Biology Forum
Apr 21, 2006 · My biology teacher gave us instructions on how to set up a potometer. According to him the way to measure the rate of transpiration is to measure the distance moved by the …
What is the String Theory? - Biology Forum
Feb 15, 2006 · The string theory is a notion of cuantum physics that tries to explain how is it that our space and time can expand and contract influenced by the energy of everything…
