Global Regulation Of Gene Expression In Escherichia Coli PDF Download

Are you looking for read ebook online? Search for your book and save it on your Kindle device, PC, phones or tablets. Download Global Regulation Of Gene Expression In Escherichia Coli PDF full book. Access full book title Global Regulation Of Gene Expression In Escherichia Coli.

Regulation of Gene Expression in Escherichia coli

Regulation of Gene Expression in Escherichia coli
Author: E. C. C. Lin
Publisher: Springer Science & Business Media
Total Pages: 1010
Release: 2012-12-06
Genre: Medical
ISBN: 1468486012
GET BOOK

Download Regulation of Gene Expression in Escherichia coli Book in PDF, ePub and Kindle

This up-to-date guide focuses on the understanding of key regulatory mechanisms governing gene expression in Escherichia coli. Studies of E. coli not only provide the first models of gene regulation, but research continues to yield different control mechanisms.

Coordinated Regulation of Gene Expression by E.coli Chromatin Proteins FIS and H-NS

Coordinated Regulation of Gene Expression by E.coli Chromatin Proteins FIS and H-NS
Author: Ramesh Mavathur Nanjundaiah
Publisher:
Total Pages: 176
Release: 2007
Genre:
ISBN:
GET BOOK

Download Coordinated Regulation of Gene Expression by E.coli Chromatin Proteins FIS and H-NS Book in PDF, ePub and Kindle

Bacteria posses impressive ability to adapt to their environment. Adaptation is accomplished mainly by adjustment of the gene expression pattern. Studies on transcript profiling in E.coli demonstrated the existence of direct correlations between the global gene expression patterns and different phases. Previous work indicated that in E.coli the transcription is controlled by a global regulatory network whose main components are - DNA topoisomerases, chromatin proteins and the RNA polymerase. Aim of this project was to understand the structural mechanism of interaction of the components (DNA supercoiling and chromatin proteins) and the underlying functional coordination of gene expression in E.coli. To understand the molecular mechanism of the interplay, the problem was approached at two levels of complexity (1) global - using a novel DNA microarray-based approach combining mutations in the genes of chromatin proteins with directional changes of DNA superhelicity and (2) local - at the level of individual gene promoter, using tyrT promoter system. The study has led us to propose that the global transcription is spatiotemporally coordinated by the differential distribution of two types of information, 'analog' and 'digital'. The digital or discontinuous property of information is manifest in the pattern of expressed genes depending on the distribution of the analog component - DNA supercoiling - in different parts of the genome. The analog component is continuously converted in the pattern of expressed genes and vice versa, thereby modulating the physiology to a dynamic equilibrium. On the example of tyrT promoter we demonstrate how the sequence organization of the promoter determines the supercoiling sensitivity of the promoters. We also show that the transcription from a strong promoter, like tyrT, is a consequence of the local effect of binding of chromatin protein FIS at the promoter and the general effect of FIS on the average superhelical density of the DNA.

Stress and Environmental Regulation of Gene Expression and Adaptation in Bacteria

Stress and Environmental Regulation of Gene Expression and Adaptation in Bacteria
Author: Frans J. de Bruijn
Publisher: John Wiley & Sons
Total Pages: 1472
Release: 2016-07-13
Genre: Science
ISBN: 1119004896
GET BOOK

Download Stress and Environmental Regulation of Gene Expression and Adaptation in Bacteria Book in PDF, ePub and Kindle

Bacteria in various habitats are subject to continuously changing environmental conditions, such as nutrient deprivation, heat and cold stress, UV radiation, oxidative stress, dessication, acid stress, nitrosative stress, cell envelope stress, heavy metal exposure, osmotic stress, and others. In order to survive, they have to respond to these conditions by adapting their physiology through sometimes drastic changes in gene expression. In addition they may adapt by changing their morphology, forming biofilms, fruiting bodies or spores, filaments, Viable But Not Culturable (VBNC) cells or moving away from stress compounds via chemotaxis. Changes in gene expression constitute the main component of the bacterial response to stress and environmental changes, and involve a myriad of different mechanisms, including (alternative) sigma factors, bi- or tri-component regulatory systems, small non-coding RNA’s, chaperones, CHRIS-Cas systems, DNA repair, toxin-antitoxin systems, the stringent response, efflux pumps, alarmones, and modulation of the cell envelope or membranes, to name a few. Many regulatory elements are conserved in different bacteria; however there are endless variations on the theme and novel elements of gene regulation in bacteria inhabiting particular environments are constantly being discovered. Especially in (pathogenic) bacteria colonizing the human body a plethora of bacterial responses to innate stresses such as pH, reactive nitrogen and oxygen species and antibiotic stress are being described. An attempt is made to not only cover model systems but give a broad overview of the stress-responsive regulatory systems in a variety of bacteria, including medically important bacteria, where elucidation of certain aspects of these systems could lead to treatment strategies of the pathogens. Many of the regulatory systems being uncovered are specific, but there is also considerable “cross-talk” between different circuits. Stress and Environmental Regulation of Gene Expression and Adaptation in Bacteria is a comprehensive two-volume work bringing together both review and original research articles on key topics in stress and environmental control of gene expression in bacteria. Volume One contains key overview chapters, as well as content on one/two/three component regulatory systems and stress responses, sigma factors and stress responses, small non-coding RNAs and stress responses, toxin-antitoxin systems and stress responses, stringent response to stress, responses to UV irradiation, SOS and double stranded systems repair systems and stress, adaptation to both oxidative and osmotic stress, and desiccation tolerance and drought stress. Volume Two covers heat shock responses, chaperonins and stress, cold shock responses, adaptation to acid stress, nitrosative stress, and envelope stress, as well as iron homeostasis, metal resistance, quorum sensing, chemotaxis and biofilm formation, and viable but not culturable (VBNC) cells. Covering the full breadth of current stress and environmental control of gene expression studies and expanding it towards future advances in the field, these two volumes are a one-stop reference for (non) medical molecular geneticists interested in gene regulation under stress.

Biochemical Systems Analysis

Biochemical Systems Analysis
Author: Michael A. Savageau
Publisher: CreateSpace
Total Pages: 400
Release: 2010-02-01
Genre: Biological control systems
ISBN: 9781449590765
GET BOOK

Download Biochemical Systems Analysis Book in PDF, ePub and Kindle

The reductionist approach of molecular biology has given us detailed descriptions for many biochemical constituents of complex biological systems. For some of the simpler systems nearly the entire "parts catalog" has been assembled. These developments have set the stage for a new generation of questions -- questions of integration that deal with the relation between behavior of intact systems and their underlying molecular determinants, questions of unifying design principles that will give meaning to the bewildering diversity of alternative molecular designs, questions of higher-level theory and quantitative prediction, which currently are not available in most of biology. The motivation to develop this new perspective comes from the study of complex biochemical pathways, intricate circuits of gene regulation, network interactions within the immune system, plasticity of neural networks, and pattern formation by cellular networks. All these networks consist of more elemental constituents that find their meaning within the context of the intact system. The integrative perspective requires a new language and methodology. The objective of this text is to systematically develop these and to apply them to specific classes of metabolic networks and gene circuitry. The applications demonstrate the power of this approach to formulate and answer fundamental questions concerning network function, design and evolution that currently cannot be addressed by other methods. The text was first published in 1976 and is being reissued to commemorate the 40th anniversary of the author's first paper published on Biochemical Systems Analysis.

Higher Levels of Gene Regulation in Escherichia Coli

Higher Levels of Gene Regulation in Escherichia Coli
Author: Karen Cooke
Publisher:
Total Pages: 0
Release: 2019
Genre:
ISBN:
GET BOOK

Download Higher Levels of Gene Regulation in Escherichia Coli Book in PDF, ePub and Kindle

"Epigenetic" mechanisms result in information being carried by DNA, independent of its base sequence. These are widely studied in eukaryotic cells, but less so in bacterial contexts. DNA methylases, such as DNA adenine methyltransferase (DAM), methylate DNA at '5-GATC-3' sequences. This is known to impact upon DNA replication, DNA repair, and transcriptional regulation at some virulence promoters. Investigations in to cell methylation were achieved by digestion of plasmid pBR322 with DpnI restriction enzyme; this showed nutrient-dependent differences in methylation levels. DNA topology in wild-type and ∆dam cells was investigated by chloroquine gel electrophoresis, and this revealed a higher degree of supercoiling in ∆dam cells in the exponential phase of growth. To investigate global effects of DAM on transcription in Escherichia coli K-12, a lac28::egfp fusion was inserted at different chromosomal loci, and expression was measured using flow cytometry. Differences in gene expression between wild-type and ∆dam cells were found at these loci, with some differences depending on growth medium. At many loci, ∆dam cell populations exhibited increased fluorescence and, occasionally, less variation than wild-type cells. In further experiments, interactions between DAM and CRP (the catabolite-repression global transcription regulator protein) were explored, and found that DAM methylation could affect the action of CRP at a model promoter. My work implicates DAM methylase as a potent regulator of gene expression in Escherichia coli and an agent of cell-to-cell heterogeneity. The mechanisms by which DAM methylase affected gene regulation were probed, bioinformatically. These studies revealed that while the absolute number of GATC motifs in the locality of the lac28 promoter did not seem to correlate to overall increases in gene expression, the number of GATC sites upstream of the same promoter may correlate with changes in the variability of GFP expression. This study also highlighted that DAM regulation of some loci may be protein-dependent. Lastly, the effect of genetic position on the expression of antibiotic resistance genes was investigated in both the chromosomal and plasmid contexts. This work highlighted that chromosomal resistance cassettes may express differently, depending on their location. This in turn, yields different resistance phenotypes within the "same" bacterial strain. This concept was addditionally explored within a plasmid, whereby a transposon encoding a resistance gene was inserted randomly in to different locations in the plasmid genome. Thence, different levels of antibiotic resistance where seen that were location dependent. In sum, this work aims to further traverse the existence of so-called "higher levels" of genetic regulation within Escherichia coli.