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Experimental And Mathematical Analysis Of Regulatory Networks In T Helper Lymphocytes
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Book Synopsis Experimental and Mathematical Analysis of Regulatory Networks in T-helper Lymphocytes by : Edda G. Schulz
Download or read book Experimental and Mathematical Analysis of Regulatory Networks in T-helper Lymphocytes written by Edda G. Schulz and published by Logos Verlag Berlin GmbH. This book was released on 2010 with total page 173 pages. Available in PDF, EPUB and Kindle. Book excerpt: In this book, an interdisciplinary approach combining dynamic quantitative measurements with mathematical modelling is used to solve two different problems in molecular immunology. In the first part, structure and function of the gene-regulatory network that controls differentiation of type I T-helper (Th1) cells is investigated. By determining the network structure through an iterative process of modelling and experiments, the author shows that Th1 differentiation proceeds in two steps: In the early effector phase, the Th1 master transcription factor T-bet is controlled by an interferon-? dependent positive feedback loop, while in the later phase a second IL-12 dependent feedback maintains T-bet expression. The antigen signal acts as a switch between the two pathways. Moreover, it is shown that only T-bet expression in the late phase is predictive of the success of the differentiation process. Since T-bet expression in the late phase requires IL-12 stimulation, this work uncovers the molecular mechanisms behind the unique role of IL-12 in Th1 differentiation. In the second part, regulation of the transcription factor NFAT that mediates antigenic stimulation in T-cells is investigated. NFAT is activated by nuclear import upon dephosphorylation of multiple residues. Based on simultaneous measurements of NFAT subcellular localization and phosphorylation, a quantitative mathematical model of the NFAT regulatory network is developed and the underlying design principles are analyzed. In summary, the study exemplifies the necessity of a dynamic analysis at the systems level to understand complex biological processes.
Book Synopsis Mathematical, Computational and Experimental T Cell Immunology by : Carmen Molina-París
Download or read book Mathematical, Computational and Experimental T Cell Immunology written by Carmen Molina-París and published by Springer Nature. This book was released on 2021-01-04 with total page 300 pages. Available in PDF, EPUB and Kindle. Book excerpt: Mathematical, statistical, and computational methods enable multi-disciplinary approaches that catalyse discovery. Together with experimental methods, they identify key hypotheses, define measurable observables and reconcile disparate results. This volume collects a representative sample of studies in T cell immunology that illustrate the benefits of modelling-experimental collaborations and which have proven valuable or even ground-breaking. Studies include thymic selection, T cell repertoire diversity, T cell homeostasis in health and disease, T cell-mediated immune responses, T cell memory, T cell signalling and analysis of flow cytometry data sets. Contributing authors are leading scientists in the area of experimental, computational, and mathematical immunology. Each chapter includes state-of-the-art and pedagogical content, making this book accessible to readers with limited experience in T cell immunology and/or mathematical and computational modelling.
Book Synopsis Paradoxes In Immunology by : Geoffrey W. Hoffman
Download or read book Paradoxes In Immunology written by Geoffrey W. Hoffman and published by CRC Press. This book was released on 2019-08-15 with total page 357 pages. Available in PDF, EPUB and Kindle. Book excerpt: First published in 1986: Paradoxes play a key role in the advancement of science. They are associated with excitement, and with the knowledge that we must be looking at something the wrong way. This book discusses in detail Paradoxes in Immunology.
Book Synopsis Dynamics of the Il-2 Cytokine Network and T-cell Proliferation by : Dorothea Busse
Download or read book Dynamics of the Il-2 Cytokine Network and T-cell Proliferation written by Dorothea Busse and published by Logos Verlag Berlin GmbH. This book was released on 2010 with total page 114 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book adds to a intensively investigated question of immunological research. How do regulatory T cells mediate their function to ensure tolerance against self-antigen? The author analyzes the interaction via the cytokine interleukin 2 between T helper cells, which mediate immune responses, and regulatory T cells. Since both cell types depend on interleukin 2 to mediate their functions, competition for interleukin 2 is likely. A mathematical model is developed to describe the interaction. This model focuses on the interleukin 2 receptor dynamics on helper and regulatory T cells and the extracellular interleukin 2 diffusion. The interleukin 2 receptor dynamics is governed mainly by an autocrine positive feedback loop on both cell types. However, its differential regulation results in a switch-like up-regulation of the receptors on T helper cells and a gradual adaptation of the receptor levels to extracellular interleukin 2 supply on regulatory T cells. This difference enables regulatory T cells to efficiently compete for interleukin 2 and deprive T helper cells of their growth factor. Cell culture experiments verify these findings. It can be shown that the antigen stimulus and the intercellular distance are relevant control parameters for competition. Other mechanisms are described for suppression of T helper cell action by regulatory T cells; competition for interleukin 2 may act in concert with them.
Book Synopsis Immune system modeling and analysis by : Ramit Mehr
Download or read book Immune system modeling and analysis written by Ramit Mehr and published by Frontiers Media SA. This book was released on 2015-04-22 with total page 402 pages. Available in PDF, EPUB and Kindle. Book excerpt: The rapid development of new methods for immunological data collection – from multicolor flow cytometry, through single-cell imaging, to deep sequencing – presents us now, for the first time, with the ability to analyze and compare large amounts of immunological data in health, aging and disease. The exponential growth of these datasets, however, challenges the theoretical immunology community to develop methods for data organization and analysis. Furthermore, the need to test hypotheses regarding immune function, and generate predictions regarding the outcomes of medical interventions, necessitates the development of mathematical and computational models covering processes on multiple scales, from the genetic and molecular to the cellular and system scales. The last few decades have seen the development of methods for presentation and analysis of clonal repertoires (those of T and B lymphocytes) and phenotypic (surface-marker based) repertoires of all lymphocyte types, and for modeling the intricate network of molecular and cellular interactions within the immune systems. This e-Book, which has first appeared as a ‘Frontiers in Immunology’ research topic, provides a comprehensive, online, open access snapshot of the current state of the art on immune system modeling and analysis.
Book Synopsis Biomedical Index to PHS-supported Research: pt. A. Subject access A-H by :
Download or read book Biomedical Index to PHS-supported Research: pt. A. Subject access A-H written by and published by . This book was released on 1992 with total page 1064 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Tumor Microenvironment (TME) and Tumor Immune Microenvironment (TIME): New Perspectives for Prognosis and Therapy by : Ana Karina de Oliveira
Download or read book Tumor Microenvironment (TME) and Tumor Immune Microenvironment (TIME): New Perspectives for Prognosis and Therapy written by Ana Karina de Oliveira and published by Frontiers Media SA. This book was released on 2022-09-30 with total page 309 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book Energy Research Abstracts written by and published by . This book was released on 1989 with total page 780 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Book Synopsis Free Radical Medicine and Biology by :
Download or read book Free Radical Medicine and Biology written by and published by BoD – Books on Demand. This book was released on 2020-07-15 with total page 132 pages. Available in PDF, EPUB and Kindle. Book excerpt: Although free radicals perform some useful immune functions, they can also damage healthy cells through a process called oxidation. Antioxidants reduce the effect of free radicals by binding together with these harmful molecules, decreasing their destructive power. This book highlights various issues of free radical biology from the perspective of antioxidant defense mechanisms. It also provides useful information on gene modulation, radiation-generated reactive oxygen species-induced apoptosis in cancer, and environmental aspects associated with free radicals’ exposure on living systems.
Book Synopsis Theories of Immune Networks by : Henri Atlan
Download or read book Theories of Immune Networks written by Henri Atlan and published by Springer Science & Business Media. This book was released on 2012-12-06 with total page 123 pages. Available in PDF, EPUB and Kindle. Book excerpt: For a long time, immunology has been dominated by the idea of a simple linear cause-effect relationship between the exposure to an antigen and the production of specific antibodies against that antigen. Clonal selection was the name of the theory based on this idea and it has provided the main concepts to account for the known features of the immune response. More recently, immunologists have discovered a wealth of new facts, in the form of different regulatory cells (helpers, suppressors, antigen presenting cells), genetic determinations of immune responses such as those involved in graft re jections, different molecular structures responsible for intercellular interactions such as interleukins, cytokins, idiotype-antiidiotype recognition and others. While furthering our understanding of the local interactions (molecular and cellular) in volved in the immune response, these discoveries have led to a questioning of the simplicities of the classical clonal selection theory. It is clear today that every single immune response is a cooperative phenomenon involving several different molecular and cellular interactions taking place in a coupled manner. In addition, cross reactivity to different antigens has shown that responses of the whole im mune system to different antigens are not completely isolated from one another and that the history of encounters with different antigens plays a crucial role in the maturation of the whole system. Thus, problems of complexity, generation of di versity and self-organization have entered the field of immunology.
Book Synopsis Dynamics of Cell Fate Decision Mediated by the Interplay of Autophagy and Apoptosis in Cancer Cells by : Iman Tavassoly
Download or read book Dynamics of Cell Fate Decision Mediated by the Interplay of Autophagy and Apoptosis in Cancer Cells written by Iman Tavassoly and published by Springer. This book was released on 2015-02-16 with total page 99 pages. Available in PDF, EPUB and Kindle. Book excerpt: This interdisciplinary thesis introduces a systems biology approach to study the cell fate decision mediated by autophagy. A mathematical model of interaction between Autophagy and Apoptosis in mammalian cells is proposed. In this dynamic model autophagy acts as a gradual response to stress (Rheostat) that delays the initiation of bistable switch of apoptosis to give the cells an opportunity to survive. The author shows that his dynamical model is consistent with existing quantitative measurements of time courses of autophagic responses to cisplatin treatment. To understand the function of this response in cancer cells, he has provided a systems biology experimental framework to study quantitative and dynamical aspects of autophagy in single cancer cells using live-cell imaging and quantitative fluorescence microscopy. This framework can provide new insights on function of autophagic response in cancer cells.
Download or read book Systems Immunology written by Jayajit Das and published by CRC Press. This book was released on 2018-09-03 with total page 355 pages. Available in PDF, EPUB and Kindle. Book excerpt: "Taken together, the body of information contained in this book provides readers with a bird’s-eye view of different aspects of exciting work at the convergence of disciplines that will ultimately lead to a future where we understand how immunity is regulated, and how we can harness this knowledge toward practical ends that reduce human suffering. I commend the editors for putting this volume together." –Arup K. Chakraborty, Robert T. Haslam Professor of Chemical Engineering, and Professor of Physics, Chemistry, and Biological Engineering, Massachusetts Institute of Technology, Cambridge, USA New experimental techniques in immunology have produced large and complex data sets that require quantitative modeling for analysis. This book provides a complete overview of computational immunology, from basic concepts to mathematical modeling at the single molecule, cellular, organism, and population levels. It showcases modern mechanistic models and their use in making predictions, designing experiments, and elucidating underlying biochemical processes. It begins with an introduction to data analysis, approximations, and assumptions used in model building. Core chapters address models and methods for studying immune responses, with fundamental concepts clearly defined. Readers from immunology, quantitative biology, and applied physics will benefit from the following: Fundamental principles of computational immunology and modern quantitative methods for studying immune response at the single molecule, cellular, organism, and population levels. An overview of basic concepts in modeling and data analysis. Coverage of topics where mechanistic modeling has contributed substantially to current understanding. Discussion of genetic diversity of the immune system, cell signaling in the immune system, immune response at the cell population scale, and ecology of host-pathogen interactions.
Download or read book The Journal of Immunology written by and published by . This book was released on 2005 with total page 732 pages. Available in PDF, EPUB and Kindle. Book excerpt:
Download or read book Energy Research Abstracts written by and published by . This book was released on 1989 with total page 792 pages. Available in PDF, EPUB and Kindle. Book excerpt: Semiannual, with semiannual and annual indexes. References to all scientific and technical literature coming from DOE, its laboratories, energy centers, and contractors. Includes all works deriving from DOE, other related government-sponsored information, and foreign nonnuclear information. Arranged under 39 categories, e.g., Biomedical sciences, basic studies; Biomedical sciences, applied studies; Health and safety; and Fusion energy. Entry gives bibliographical information and abstract. Corporate, author, subject, report number indexes.
Book Synopsis High Confidence Network Predictions from Big Biological Data by : Rasmus Magnusson
Download or read book High Confidence Network Predictions from Big Biological Data written by Rasmus Magnusson and published by Linköping University Electronic Press. This book was released on 2020-05-04 with total page 86 pages. Available in PDF, EPUB and Kindle. Book excerpt: Biology functions in a most intriguing fashion, with human cells being regulated by multiplex networks of proteins and their dependent systems that control everything from proliferation to cell death. Notably, there are cases when these networks fail to function properly. In some diseases there are multiple small perturbations that push the otherwise healthy cells into a state of malfunction. These maladies are referred to as complex diseases, and include common disorders such as allergy, diabetes type II, and multiple sclerosis, and due to their complexity there is no universally defined approach to fully understand their pathogenesis or pathophysiology. While these perturbations can be measured using high-throughput technologies, the interplay of these perturbations is generally to complex to understand without any structured mathematical analysis. There is today numerous such methods that put the small perturbations of complex diseases into relation of interactions among each other. However, the methods have historically struggled with notable uncertainty in their predictions. This uncertainty can be addressed by at least two different approaches. First, mechanistically realistic mathematical modelling is an approach that has the capacity to accurately describe almost any biological system, but such models can to-date only describe small systems and networks. Secondly, large-scale mathematical modelling approaches exist, but the faithfulness of the models to the underlying biology has been compromised to achieve algorithms that are computationally effective. In this Ph.D. thesis, I suggest how high confidence predictions of network interactions can be extracted from big biological. First, I show how large-scale data can be used when building high-quality ODE models (Paper I). Secondly, by developing the software LASSIM, I show how ODE models can be expanded to the size of entire cell systems (Paper II). However, while LASSIM showed that powerful non-linear ODE-modelling can be applied to understand big biological data, it still remained a machine learning-based approach in contrast to hypothesis-driven model development. Instead, two more studies revolving around large-scale modelling approaches were initiated. The third study suggested that ambiguities in model selection and interaction identification greatly compromise the accuracy of available tools, and that the novel software of Paper III, LiPLike, can be used to remove such predictions. Intriguingly, while LiPLike was able to effectively discard false identifications, the accuracy of predictions remained relatively low. This low accuracy was thought to arise from model simplifications, and therefore the next study aimed at finding methods that come closer to the true biological system (Paper IV). In particular, the study aimed at predicting protein abundance -the true mediators of biological functionality- from the much more easily accessible mRNA levels, and found that such models could be used to get several new insights on protein mechanisms, which was exemplified by the identification of important biomarkers of autoimmune diseases. The analysis of big biological data and the underlying networks is a centrepiece of understanding both diseases and how cell functionality is orchestrated. The work that is presented in this Ph.D. thesis represents a journey between fields with different views on how these networks should be inferred. In particular, it aimed to combine the accuracy of small-scale mechanistic modelling with the system-spanning potential of large-scale linear system modelling, and this thesis thus provides a tool-bench of methods and insights on how knowledge can be extracted from big biological data, and in extension it is a small step towards a generation of new comprehensions of biological systems and complex diseases. Biologiska system är komplexa att förstå och det är först relativt nyligen man på ett strukturerat sätt börjat att analysera biologiska data genom matematisk analys. Ett av de tydligaste områden där en matematisk analys av biologiska system behövs är vid studier av komplexa sjukdomar. Sådana sjukdomar, till vilka åkommor som multipel skleros, diabetes typ II och allergi hör, uppstår genom en komplicerad kombination av arv och miljö som inte är helt förstådd. Studier av komplexa sjukdomar har dock kunnat identifiera många små potentiella störningar över hela det biologiska systemet, men ingen av dessa störningar är individuellt avgörande för att utveckla en komplex sjukdom. Denna svåröverskådlighet förhindrar traditionella analyser för att finna ursprunget till sjukdomen, och går det inte förstå en sjukdom försämras möjligheterna att till exempel hitta nya läkemedel eller att ställa diagnos. För att förstå hur systemen bakom komplexa sjukdomar fungerar, eller inte fungerar, tas olika prover vilka ofta resulterar i enorma mängder data. Dessa datamängder är oftast så stora att vi människor inte kan tolka dem genom att bara läsa talen, utan vi måste använda olika typer av matematiska modeller och datorprogram för att sådan data ska berätta något för oss. Inom två överlappande fält som kommit att kallas systembiologi och bioinformatik har metoder för att analysera biologiska data haft en snabb utveckling de senaste 50 åren. Dessa metoder har haft som mål att svara på flertalet frågor, och ett framträdande mål har varit att identifiera skillnader mellan hur friska och sjuka celler fungerar. En stor del av cellens funktioner regleras av olika nätverk av proteiner, och ett annat mål har varit att förstå hur dessa nätverk regleras. Ytterligare ett mål har varit att identifiera mätbara värden, så kallade biomarkörer, som kan användas för att identifiera sjukdom hos patienter. De metoder som används för att svara på dessa frågor kan grovt delas in i två grupper, mekanistisk modellering och storskalig modellering, med respektive styrkor och svagheter. Mekanistisk modellering har potentialen att ge mycket träffsäkra prediktioner, men kräver mycket manuellt arbete och har därför varit en alltför tidskrävande metod för att applicera på stora biologiska datamängder. Storskalig modellering klarar enkelt av stora datamängder, men har i stället haft en så låg tillförlitlighet att metoder vars förutsägelser är bättre än slumpen i många fall kunnat betraktats som bra. Denna doktorsavhandling kretsar kring utvecklingen och användandet av metoder för att analysera stora mängder av biologiska data, och har i fyra arbeten ämnat att förbättra metoder inom både småskalig mekanistisk modellering (artikel I och II) och storskalig modellering (artikel III och IV). Artikel I analyserade hur diabetes typ II påverkar fettcellers svar på insulin och hur denna insulinsignal kan beskrivas matematiskt. Detta första arbete var begränsat till just små modeller, och en naturlig utveckling var att undersöka om mekanistiska modeller kan skalas upp och beskriva system som täcker en större del av cellens funktionalitet. Detta möjliggjordes i artikel II genom LASSIM, en metod och programvara som kan expandera små mekanistiska modeller till mångdubbel storlek. Under skapandet av LASSIM stod det dock klart att storskalig modellering förblir en metod som är mycket tidskrävande. Därför syftade artikel III till att förbättra tillförlitligheten för prediktioner från befintliga metoder som kan hantera stora datamängder. Mer specifikt föreslog artikel III en ny algoritm, LiPLike, som kan användas för att ta bort prediktioner som saknar konfidens i data. Även om det gick att observera hur LiPLike kunde förbättra tillförlitligheten för etablerade metoder var flera av LiPLikes prediktioner fortfarande fel, vilket kunde antas bero på att den underliggande biologin skiljer sig från det matematiska modellantagande som låg till grund för studien. Därför inleddes den sista delen i denna avhandling, vilken syftade att utreda hur data kan beskrivas på mer biologiskt relevanta sätt. Även om det är proteiner som främst reglerar cellens system, baseras majoriteten av matematiska modeller på ett förstadium till proteiner som kallas mRNA. Anledningen till detta är att det både är svårt och kostsamt att mäta proteiner i ett prov, vilket gör att man istället förlitar sig på mRNA. I artikel IV användes matematisk modellering för att prediktera mängden protein i olika typer av immunceller. Dessa modeller visade sig vara användbara för att identifiera mätbara markörer för olika sjukdomar. Därmed går det använda mRNA-data på sätt som tar modeller närmare verkligheten, och som i förlängningen kan höja tillförlitligheten hos matematiska prediktioner. Forskningen är bara i början av ett långt arbete för att förstå hur celler fungerar, samt hur komplexa sjukdomar uppstår. En central del i detta arbete är att systematiskt beskriva de underliggande system som styr cellen, och detta går nästan enbart att uppnå genom en strukturerad matematisk analys. Denna avhandling kan sammanfattas som en serie arbeten som dels skalar upp storleken på modelleringsmetoder som tidigare varit begränsade till små modeller, och dels höjer tillförlitligheten på mer beräkningseffektiva modeller. Dessa bidrag kommer förhoppningsvis ligga till grund för en ökad förståelse för hur biologiska system bör analyseras och i förlängningen hur komplexa sjukdomar kan motverkas.
Book Synopsis Artificial Life and Evolutionary Computation by : Marcello Pelillo
Download or read book Artificial Life and Evolutionary Computation written by Marcello Pelillo and published by Springer. This book was released on 2018-04-02 with total page 323 pages. Available in PDF, EPUB and Kindle. Book excerpt: This book constitutes the revised selected papers of the 12th Italian Workshop on Advances in Artificial Life, Evolutionary Computation, WIVACE 2017, held in Venice, Italy, in September 2017.The 23 full papers presented were thoroughly reviewed and selected from 33 submissions. They cover the following topics: physical-chemical phenomena; biological systems; economy and society; complexity; optimization.
Download or read book Mathematical Reviews written by and published by . This book was released on 2008 with total page 932 pages. Available in PDF, EPUB and Kindle. Book excerpt:
