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Author: Krishna Shrinivas (Ph. D.)
Publisher:
ISBN:
Category :
Languages : en
Pages : 221
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Book Description
Human development and physiology depend on the coordinated function of thousands of cell types – for example, neurons, immune cells, and skin cells. Each cell-type contains an identical copy of the genetic material yet performs specialized and diverse functions, in large part, due to the selective expression of particular coding DNA-elements (genes) into RNA. Mutations or dysregulation in control of gene expression underlie many diseased states, including cancer and neurodegenerative disorders. Non-coding DNA elements called enhancers orchestrate the complex biochemical pathways that lead to precise activation of cell-type specific genes. Decades of advances in molecular biology have identified many of the key proteins and their interactions in these pathways. Yet, how dozens of proteins and their complex network of interactions are organized in space and time by enhancers to robustly relay regulatory information to their target genes remains one of the central puzzles of transcriptional control. In this thesis, I will leverage approaches from statistical physics, simulation, and informatics, in synergy with experimentalists, to gain mechanistic insights into gene control through the lens of biomolecular phase transitions. Proposal: I will introduce recent evidence that proteins and nucleic acids with certain features phase separate into two liquid phases, like oil from water, to compartmentalize cellular pathways. Employing a simple physical model, I will propose the phase separation of the transcriptional machinery explains established and recently observed puzzles underlying a class of enhancer elements called super-enhancers. Subsequently, I will describe studies performed in collaboration with the Young and Sharp labs that provide direct experimental evidence of transcriptional condensates model in vivo. Mechanism: I then will describe our efforts to identify the mechanisms contributing to the formation of transcriptional condensates. By combining molecular dynamics, informatics, and experimental assays, we identify specific features encoded in DNA that enable spatio-temporally localized formation of condensates. I will discuss implications on the origins of enhancer activity. Control: Here, we’ll combine non-equilibrium models of phase separation, coacervate chemistry, and imaging data in cells to explore the dynamic control of transcription through it eventual outcome i.e. ATP-dependent synthesis of RNA. We propose a dual-feedback mechanism in which low levels of RNA synthesis promote condensate formation and higher levels trigger dissolution. I will close by discussing the ramifications of our model on two enigmatic features of transcription – the pervasive synthesis and degradation of non-coding RNA and discrete and bursty dynamics of mRNA synthesis. I will conclude with a short summary and brief discussion on future work.
Author: Krishna Shrinivas (Ph. D.)
Publisher:
ISBN:
Category :
Languages : en
Pages : 221
Get Book Here
Book Description
Human development and physiology depend on the coordinated function of thousands of cell types – for example, neurons, immune cells, and skin cells. Each cell-type contains an identical copy of the genetic material yet performs specialized and diverse functions, in large part, due to the selective expression of particular coding DNA-elements (genes) into RNA. Mutations or dysregulation in control of gene expression underlie many diseased states, including cancer and neurodegenerative disorders. Non-coding DNA elements called enhancers orchestrate the complex biochemical pathways that lead to precise activation of cell-type specific genes. Decades of advances in molecular biology have identified many of the key proteins and their interactions in these pathways. Yet, how dozens of proteins and their complex network of interactions are organized in space and time by enhancers to robustly relay regulatory information to their target genes remains one of the central puzzles of transcriptional control. In this thesis, I will leverage approaches from statistical physics, simulation, and informatics, in synergy with experimentalists, to gain mechanistic insights into gene control through the lens of biomolecular phase transitions. Proposal: I will introduce recent evidence that proteins and nucleic acids with certain features phase separate into two liquid phases, like oil from water, to compartmentalize cellular pathways. Employing a simple physical model, I will propose the phase separation of the transcriptional machinery explains established and recently observed puzzles underlying a class of enhancer elements called super-enhancers. Subsequently, I will describe studies performed in collaboration with the Young and Sharp labs that provide direct experimental evidence of transcriptional condensates model in vivo. Mechanism: I then will describe our efforts to identify the mechanisms contributing to the formation of transcriptional condensates. By combining molecular dynamics, informatics, and experimental assays, we identify specific features encoded in DNA that enable spatio-temporally localized formation of condensates. I will discuss implications on the origins of enhancer activity. Control: Here, we’ll combine non-equilibrium models of phase separation, coacervate chemistry, and imaging data in cells to explore the dynamic control of transcription through it eventual outcome i.e. ATP-dependent synthesis of RNA. We propose a dual-feedback mechanism in which low levels of RNA synthesis promote condensate formation and higher levels trigger dissolution. I will close by discussing the ramifications of our model on two enigmatic features of transcription – the pervasive synthesis and degradation of non-coding RNA and discrete and bursty dynamics of mRNA synthesis. I will conclude with a short summary and brief discussion on future work.
Author: Melvin DePamphilis
Publisher: Garland Science
ISBN: 1136738231
Category : Science
Languages : en
Pages : 476
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Book Description
Genome Duplication provides a comprehensive and readable overview of the underlying principles that govern genome duplication in all forms of life, from the simplest cell to the most complex multicellular organism. Using examples from the three domains of life - bacteria, archaea, and eukarya - Genome Duplication shows how all living organisms store their genome as DNA and how they all use the same evolutionary-conserved mechanism to duplicate it: semi-conservative DNA replication by the replication fork. The text shows how the replication fork determines where organisms begin genome duplication, how they produce a complete copy of their genome each time a cell divides, and how they link genome duplication to cell division. Genome Duplication explains how mistakes in genome duplication are associated with genetic disorders and cancer, and how understanding genome duplication, its regulation, and how the mechanisms differ between different forms of life, is critical to the understanding and treatment of human disease.
Author: Lynn Helena Caporale
Publisher: Darwin in the Genome
ISBN: 0071378227
Category : Business & Economics
Languages : en
Pages : 259
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Book Description
Publisher Description
Author: Richard Gordon
Publisher: World Scientific
ISBN: 9789810222680
Category : Science
Languages : en
Pages : 936
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Book Description
Over the past few decades numerous scientists have called for a unification of the fields of embryo development, genetics, and evolution. Each field has glaring holes in its ability to explain the fundamental phenomena of life. In this book, the author shows how the phenomenon of cell differentiation, considered in its temporal and spatial aspects during embryogenesis, provides a starting point for a unified theory of multicellular organisms (plants, fungi and animals), including their evolution and genetics. This unification is based on the recent discovery of differentiation waves by the author and his colleagues, described in the appendices, and illustrated by a flip movie prepared by a medical artist. To help the reader through the many fields covered, a glossary is included.This book will be of great value to the researcher and practicing doctors/scientists alike. The research students will receive an in-depth tutorial on the topics covered. The seasoned researcher will appreciate the applications and the gold mine of other possibilities for novel research topics.
Author: Nina Vsevolod Fedoroff
Publisher: CSHL Press
ISBN: 9780879694227
Category : Biography & Autobiography
Languages : en
Pages : 434
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Book Description
"But at Cold Spring Harbor, she began the studies on the consequence of dicentric chromosome formation and breakage that led her to the discovery of genetic elements capable moving within the genome and controlling expression of other genes. Although McClintock was universally respected and admired, the first reaction to these findings was often uncomprehending or indifferent, even dismissive. In due course, however, the generality of mobile genetic elements and the concept of a dynamic genome were understood and widely accepted, culminating in the award to McClintock of an unshared Nobel prize in 1983." "As Barbara's 90th birthday approached, some of her many friends and colleagues were invited to write essays for the occasion. This book contains a kaleidoscope of contributions, many by those who discovered transposition in other organisms. Their essays give a remarkable account of the scientific legacy of one of the century's greatest geneticists."--BOOK JACKET.
Author: Jian Gao
Publisher: Springer Nature
ISBN: 303080836X
Category : Science
Languages : en
Pages : 220
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Book Description
This book is the first comprehensive compilation describing the botanical traits, genetic resources, whole genome sequencing, Mitochondrial genome, transcriptomes of different organs with developmental stages, transcription factors, delineating gene evolution of gene family in Bambusoideae, alternative splicing (AS) and polyadenylation, case studies for economically important traits such as internode length, shoot fast growing, flowering, ageing and stress-resistant genes and small RNAs-mediated gene regulation of moso bamboo flowering and other developmental stages. Applications of transcriptome and genome approaches in moso bamboo in general and the prospects of transgenic breeding and genome editing technologies in bamboo are also discussed. Altogether, the book comprises eleven chapters covered over 200 pages authored by the researchers involved in genomic science, molecular biology, and breeding. This book appeals to graduate students, post-graduate students, research scholars, researchers, and industry players in the field of plantation bamboo in general, bamboo processing and bamboo garden owner and fans of bamboo culture in particular.
Author: James Shreeve
Publisher: Knopf
ISBN: 9780375406294
Category : Science
Languages : en
Pages : 403
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Book Description
An account of the race to solve the world's greatest scientific challenge--the sequencing of the human genome--describes the competition between rival researchers Craig Venter and Francis Collins.
Author: Douglas Axe
Publisher: HarperCollins
ISBN: 0062349600
Category : Religion
Languages : en
Pages : 219
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Book Description
Named A Best Book of the Year by World Magazine Throughout his distinguished and unconventional career, engineer-turned-molecular-biologist Douglas Axe has been asking the questions that much of the scientific community would rather silence. Now, he presents his conclusions in this brave and pioneering book. Axe argues that the key to understanding our origin is the “design intuition”—the innate belief held by all humans that tasks we would need knowledge to accomplish can only be accomplished by someone who has that knowledge. For the ingenious task of inventing life, this knower can only be God. Starting with the hallowed halls of academic science, Axe dismantles the widespread belief that Darwin’s theory of evolution is indisputably true, showing instead that a gaping hole has been at its center from the beginning. He then explains in plain English the science that proves our design intuition scientifically valid. Lastly, he uses everyday experience to empower ordinary people to defend their design intuition, giving them the confidence and courage to explain why it has to be true and the vision to imagine what biology will become when people stand up for this truth. Armed with that confidence, readers will affirm what once seemed obvious to all of us—that living creatures, from single-celled cyanobacteria to orca whales and human beings, are brilliantly conceived, utterly beyond the reach of accident. Our intuition was right all along.
Author: Albert Folch
Publisher: MIT Press
ISBN: 026204689X
Category : Technology & Engineering
Languages : en
Pages : 353
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Book Description
Stories behind essential microfluidic devices, from the inkjet printer to DNA sequencing chip. Hidden from view, microfluidics underlies a variety of devices that are essential to our lives, from inkjet printers to glucometers for the monitoring of diabetes. Microfluidics—which refers to the technology of miniature fluidic devices and the study of fluids at submillimeter levels—is invisible to most of us because it is hidden beneath ingenious user interfaces. In this book, Albert Folch, a leading researcher in microfluidics, describes the development and use of key microfluidic devices. He explains not only the technology but also the efforts, teams, places, and circumstances that enabled these inventions. Folch reports, for example, that the inkjet printer was one of the first microfluidic devices invented, and traces its roots back to nineteenth-century discoveries in the behavior of fluid jets. He also describes how rapid speed microfluidic DNA sequencers have enabled the sequencing of animal, plant, and microbial species genomes; organs on chips facilitate direct tests of drugs on human tissue, leapfrogging over the usual stage of animal testing; at-home pregnancy tests are based on clever microfluidic principles; microfluidics can be used to detect cancer cells in the early stages of metastasis; and the same technology that shoots droplets of ink on paper in inkjet printers enables 3D printers to dispense layers of polymers. Folch tells the stories behind these devices in an engaging style, accessible to nonspecialists. More than 100 color illustrations show readers amazing images of microfluids under the microscope.
Author: Harry Martinson
Publisher:
ISBN: 9780380006038
Category : Poetry
Languages : en
Pages : 132
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Book Description
Eight thousand people aboard the space ship Aniara are diverted off course and plunge headlong in to the "void" where they must create a world in which they will be irretrievably trapped.
