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010   $a9786612348273
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010   $a9786610622023
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100   $a20151012d2008||||  u||            |
101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 10$aFrom genes to genomes$b[electronic resource] $econcepts and applications of DNA technology
205   $a2nd ed.$bfirst published 2002.
210   $aHoboken $cWiley$d2008
215   $a1 online resource (396 p.)
300   $aDescription based upon print version of record.
311   $a0-471-49783-5 
311   $a0-471-49782-7 
327   $a""From Genes to Genomes""; ""Contents""; ""Preface""; ""1: Introduction""; ""2: Basic Molecular Biology""; ""2.1 Nucleic acid structure""; ""2.2 What is a gene?""; ""2.3 Information flow: gene expression""; ""2.4 Gene structure and organization""; ""3: How to Clone a Gene""; ""3.1 What is cloning?""; ""3.2 Overview of the procedures""; ""3.3 Gene libraries""; ""3.4 Hybridization""; ""3.5 Polymerase chain reaction""; ""3.6 Extraction and purification of nucleic acids""; ""3.7 Detection and quantitation of nucleic acids""; ""3.8 Gel electrophoresis""; ""4: Cutting and Joining DNA""
327   $a""4.1 Restriction endonucleases""""4.2 Ligation""; ""4.3 Modification of restriction fragment ends""; ""4.4 Other ways of joining DNA molecules""; ""5: Vectors""; ""5.1 Plasmid vectors""; ""5.2 Vectors based on the lambda bacteriophage""; ""5.3 Cosmids""; ""5.4 M13 vectors""; ""5.5 Expression vectors""; ""5.6 Vectors for cloning and expression in eukaryotic cells""; ""5.7 Supervectors: YACs and BACs""; ""5.8 Summary""; ""6: Genomic and cDNA Libraries""; ""6.1 Genomic libraries""; ""6.2 Growing and storing libraries""; ""6.3 cDNA libraries""; ""6.4 Random, arrayed and ordered libraries""
327   $a""7: Finding the Right Clone""""7.1 Screening libraries with gene probes""; ""7.2 Screening expression libraries with antibodies""; ""7.3 Subcloning""; ""7.4 Characterization of plasmid clones""; ""8: Polymerase Chain Reaction""; ""8.1 The PCR reaction""; ""8.2 PCR in practice""; ""8.3 Cloning PCR products""; ""8.4 Long-range PCR""; ""8.5 Reverse-transcription PCR""; ""8.6 Rapid amplification of cDNA ends""; ""8.7 Quantitative PCR""; ""8.8 Applications of PCR""; ""9: Characterization of a Cloned Gene""; ""9.1 DNA sequencing""; ""9.2 Databank entries and annotation""; ""9.3 Sequence analysis""
327   $a""9.4 Sequence comparisons""""9.5 Protein structure""; ""9.6 Confirming gene function""; ""10: Analysis of Gene Expression""; ""10.1 Analysing transcription""; ""10.2 Methods for studying the promoter""; ""10.3 Regulatory elements and DNA-binding proteins""; ""10.4 Translational analysis""; ""11: Products from Native and Manipulated Cloned Genes""; ""11.1 Factors affecting expression of cloned genes""; ""11.2 Expression of cloned genes in bacteria""; ""11.3 Expression in eukaryotic host cells""; ""11.4 Adding tags and signals""; ""11.5 In vitro mutagenesis""; ""11.6 Vaccines""
327   $a""12: Genomic Analysis""""12.1 Genome sequencing""; ""12.2 Analysis and annotation""; ""12.3 Comparing genomes""; ""12.4 Genome browsers""; ""12.5 Relating genes and functions: genetic and physical maps""; ""12.6 Transposon mutagenesis and other screening techniques""; ""12.7 Conclusion""; ""13: Analysis of Genetic Variation""; ""13.1 Single nucleotide polymorphisms""; ""13.2 Larger-scale variations""; ""13.3 Other methods for studying variation""; ""13.4 Human genetic diseases""; ""13.5 Molecular phylogeny""; ""14: Post-genomic Analysis""; ""14.1 Analysing transcription;  transcriptomes""
327   $a""14.2 Array-based methods""
330   $aRapid advances in our understanding of genetics have required that new books contain topics such as the concept and theory of gene cloning, transgenics, genomics, and various other coverage of traditional and contemporary subjects. Although there is an abundance of textbooks that cover introductory genetics and advanced courses in genetics, there is a noticeable gap at the intermediate (second year) level. In the past gene structure, function and expression were taught at final year /postgraduate level, but the rapid advances in our understanding of genetics has encouraged courses to change considerably. Over recent years these topics have filtered down the curriculum and are currently taught as core topics at second year, with a corresponding change in textbook requirements. Where once second year students were restricted to learning about the concept and theory of gene cloning, now they routinely clone genes for themselves as part of their practical assignments. Genes to Genomics will fill the gap, cover much of the same ground as previous titles, but go further on contemporary topics like transgenics, sequence comparison and analysis of variation.; A concise, up to date textbook that provides a balanced coverage of traditional and contemporary topics taught within intermediate courses in molecular genetics Jeremy Dale has a proven track record as the successful author of Molecular Genetics of Bacteria Genes to Genomics will include a series of feature box-outs that will examine some of the topical issues related to the scientific concepts and examples explored within the text A range of questions and exercises including worked examples and web-based practicals An accompanying web site will allow the authors to keep their audience up to date in the areas that are prone to date most rapidly between successive editions of the textbook. It will
330 8 $aalso include the illustrations and images from the textbook, in addition to worked examples, answers to questions within the book, and links to related websites of key interest.
606   $aCloning, Molecular
606   $aDNA, Recombinant
606   $aDNA
606   $aGenes
606   $aGenetic Engineering
606   $aGenomes
606   $aGenetic engineering
606   $aDNA
606   $aGenes
606   $aGenomes
606   $aGenetic Engineering
606   $aDNA, Recombinant
606   $aCloning, Molecular
606   $aGenome
606   $aGenetic Structures
606   $aGenetic Techniques
606   $aDNA
606   $aInvestigative Techniques
606   $aGenetic Phenomena
606   $aNucleic Acids
606   $aAnalytical, Diagnostic and Therapeutic Techniques and Equipment
606   $aPhenomena and Processes
606   $aNucleic Acids, Nucleotides, and Nucleosides
606   $aChemicals and Drugs
606   $aGenetics$2HILCC
606   $aBiology$2HILCC
606   $aHealth & Biological Sciences$2HILCC
608   $aElectronic books.
615  4$aCloning, Molecular.
615  4$aDNA, Recombinant.
615  4$aDNA.
615  4$aGenes.
615  4$aGenetic Engineering.
615  4$aGenomes.
615  0$aGenetic engineering
615  0$aDNA
615  0$aGenes
615  0$aGenomes
615  2$aGenetic Engineering
615  2$aDNA, Recombinant
615  2$aCloning, Molecular
615  2$aGenome
615  2$aGenetic Structures
615  2$aGenetic Techniques
615  2$aDNA
615  2$aInvestigative Techniques
615  2$aGenetic Phenomena
615  2$aNucleic Acids
615  2$aAnalytical, Diagnostic and Therapeutic Techniques and Equipment
615  2$aPhenomena and Processes
615  2$aNucleic Acids, Nucleotides, and Nucleosides
615  2$aChemicals and Drugs
615  7$aGenetics
615  7$aBiology
615  7$aHealth & Biological Sciences
676   $a572.8
676   $a572.86
676   $a660.65
700   $aDale$b Jeremy$g(Jeremy W.)$0324172
701   $avon Schantz$b Malcolm$0927364
801  0$bAU-PeEL
801  1$bAU-PeEL
801  2$bAU-PeEL
906   $aBOOK
912   $a9910143510103321
996   $aFrom Genes to Genomes$92083589
997   $aUNINA