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  Omics approaches, technologies and applications : integrative approaches for understanding OMICS data

  Preeti Arivaradarajan, Gauri Misra, Editors.

  Summary: This book is a concerted effort to put together the rapidly growing facets of biological data. It provides a platform for the readers to think about integrative approaches to solve complex biological problems. This fundamental book deals with the simplest concepts of omics to recent advancements in the field. The content is divided into seven chapters that provide insight into various omics approaches, omics technologies, and its applications. Each chapter delves into different molecular scales: genomics, transcriptomics, proteomics, and metabolomics. Further to provide a holistic view a chapter detailing microbiome has been included in the book. The sub-sections in the chapters is dedicated to introducing the various analytical tools such as next generation sequencing, chromatin immunoprecipitation, mass spectrometry, peptide mass fingerprinting, RNA Seq and NMR spectroscopy. It entails a chapter focused on the bioinformatics resources for analysis of the omics data. In summary, this comprehensive book emphasizes the recent advancements in the study of biomolecules spanning from DNA to metabolites.
  
  Contents:
  Module 1_Introduction to omics
  Module 2_Genomics
  Module 3_Transcriptomics
  Module 4_Proteomics
  Module 5_Metabolomics
  Module 6_Microbiome
  Module 7_Bioinformatics resources.

  Digital Access Springer 2018
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• Article

  Electron microscope heteroduplex studies of sequence relations among plasmids of Escherichia coli: isolation of a new F-prime factor, F80, and its implication for the mechanism of F integration into the chromosome.

  Ohtsubo E, Hsu MT.

  J Bacteriol. 1978 Jun;134(3):795-800.

  A new F-prime factor, F80, was isolated from an Escherichia coli strain harboring the F-prime factor F8 by selecting for transfer of the supE marker to a RecA- recipient. Genetic analysis shows that F80 carries a segment of the chromosomal DNA between lip and suc in addition to the tol-gal region normally in F8. Physical analysis by the electron microscope heteroduplex method suggests that the formation of F80 from F8 involves recombination between the alphabeta segment of F, which is present in F8, and the homologous sequence of F present in the E. coli chromosome at the site where F is supposed to integrate to form HfrP3. The implications of this result for the general mechanisms of F integration to form Hfr's are discussed.

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  PubMed