MARC record from Internet Archive

LEADER: 15314cam 2200949 a 4500
001 ocn799010630
003 OCoLC
005 20211120031623.0
008 120705s2013 dcua b 001 0 eng
010 $a 2012027461
040 $aDNLM/DLC$beng$cDLC$dNLM$dGZM$dBTCTA$dIXA$dYDXCP$dCDX$dYUS$dVET$dMUU$dOCLCF$dOCLCQ$dOCLCO$dINNDH$dNZHMA$dOCLCQ$dCSJ$dOCLCA$dOCLCQ$dCCH$dOCLCQ$dIOG$dBUB$dCUY$dCUI$dCAUOI$dLGG$dQE2$dU3G$dOL$$dUK5EZ$dIEUOL$dCNCGM$dOKS$dDCT$dRDF$dREU$dLIP$dUNM$dCASCU$dELZ$dUKMGB$dOCLCQ$dJ9X$dSNU$dOCLCQ$dUKEHC$dOCLCO
066 $c(S
015 $aGBC007853$2bnb
016 7 $a101587640$2DNLM
016 7 $a019681003$2Uk
019 $a805056697$a952005621$a1001247245$a1166789569
020 $a9781555816278$q(hardcover ;$qalk. paper)
020 $a1555816274$q(hardcover)
020 $a9781555817169$q(e-book)
020 $a1555817165$q(e-book)
024 8 $a9250855
035 $a(OCoLC)799010630$z(OCoLC)805056697$z(OCoLC)952005621$z(OCoLC)1001247245$z(OCoLC)1166789569
042 $apcc
050 00 $aQH434$b.S59 2013
060 00 $a2013 B-537
060 10 $aQW 51
080 $a577.21 Q3
082 00 $a572.8/293$223
084 $aQ2c1$qUkBrU-I$2cmedlit
245 00 $aMolecular genetics of bacteria /$cLarry Snyder [and others].
250 $a4th ed.
260 $aWashington, DC :$bASM Press,$c©2013.
300 $axx, 707 pages :$billustrations ;$c29 cm
336 $atext$btxt$2rdacontent
337 $aunmediated$bn$2rdamedia
338 $avolume$bnc$2rdacarrier
500 $aRevised edition of: Molecular genetics of bacteria / Larry Snyder and Wendy Champness. c2007.
504 $aIncludes bibliographical references and index.
520 $a"The classic comprehensive and authoritative textbook on bacterial molecular genetics: Features completely revised and updated material and retains same chapter order, incorporating the most recent advances in the field since publication of the third edition in 2007 ; Provides thought questions, problems, and suggested reading lists for each chapter that test student comprehension and encourage further research ; Provides descriptive background information, examples of genetic analyses, and advanced material relevant to current applications of molecular genetics ; While intended as an undergraduate textbook, it also serves as an invaluable text for anyone working in the fields of microbiology, genetics, biochemistry, bioengineering, medicine, molecular biology, and biotechnology ; Also an essential reading for scientists in all fields of biology, many of whom depend upon the concepts and techniques covered in this book."--Publisher's website.
505 0 $aThe bacterial chromosome : DNA structure, replication, and segregation -- Bacterial gene expression : transcription, translation, and protein folding -- Bacterial genetic analysis : fundamentals and current approaches -- Plasmids -- Conjugation -- Transformation -- Lytic bacteriophages : development, genetics, and generalized transduction -- Lysogeny : the lambda paradigm and the role of lysogenic conversion in bacterial pathogenesis -- Transposition, site-specific recombination, and families of recombinases -- Molecular mechanisms of homologous recombination -- DNA repair and mutagenesis -- Regulation of gene expression: genes and operons -- Global regulation : regulons and stimulons -- Bacterial cell biology and development.
650 0 $aBacterial genetics.
650 0 $aMicrobial genetics.
650 0 $aMolecular genetics.
650 0 $aGenetic engineering.
650 6 $aGénétique bactérienne.
650 6 $aBactériophages$xGénétique.
650 6 $aGénétique moléculaire.
650 7 $aScience.$2eflch
650 7 $aBacterial genetics.$2fast$0(OCoLC)fst00825221
650 7 $aGenetic engineering.$2fast$0(OCoLC)fst00940027
650 7 $aMicrobial genetics.$2fast$0(OCoLC)fst01019500
650 7 $aMolecular genetics.$2fast$0(OCoLC)fst01024797
650 7 $aBactéries$xgénétique.$2fmesh
650 27 $aBactériophages$xgénétique.$2fmesh
650 27 $aChromosomes de bactérie.$2fmesh
650 27 $aGénétique microbienne$xmethods.$2fmesh
650 7 $aGénétique bactérienne.$2ram$0(FrPBN)11961075
650 7 $aGénétique moléculaire.$2ram$0(FrPBN)11931559
650 7 $aGénétique microbienne.$2ram$0(FrPBN)11961076
650 7 $aScience.$2ukslc
650 12 $aBacteria$xgenetics
650 22 $aBacteriophages$xgenetics
650 22 $aChromosomes, Bacterial
650 22 $aGenetics, Microbial$xmethods
650 22 $aMolecular Biology$xmethods
700 1 $aSnyder, Larry.
700 1 $aSnyder, Larry.$tMolecular genetics of bacteria.
856 42 $3Notice et cote du catalogue de la Bibliothèque nationale de France$uhttp://catalogue.bnf.fr/ark:/12148/cb43648598m
880 $6505-00/(S$tMale-Specific Phages$g(starting p. 226) --$tEfficiency of Transfer$g(starting p. 227) --$tInterspecies Transfer of Plasmids$g(starting p. 227) --$tConjugation and Type IV Protein Secretion$g(starting p. 228) --$tMobilizable Plasmids$g(starting p. 232) --$tChromosome Transfer by Plasmids$g(starting p. 235) --$tFormation of Hfr Strains$g(starting p. 235) --$tTransfer of Chromosomal DNA by Integrated Plasmids$g(starting p. 236) --$tChromosome Mobilization$g(starting p. 236) --$tPrime Factors$g(starting p. 236) --$tTransfer Systems of Gram-Positive Bacteria$g(starting p. 237) --$tPlasmid-Attracting Pheromones$g(starting p. 237) --$tIntegrating Conjugative Elements$g(starting p. 240) --$gBox 5.1$tGene Exchange between Domains$g(starting p. 230) --$tSummary$g(starting p. 242) --$tQuestions For Thought$g(starting p. 243) --$tProblems$g(starting p. 243) --$tSuggested Reading$g(starting p. 244) --$gch. 6$tTransformation$g(starting p. 247) --$tNatural Transformation$g(starting p. 248) --$tDiscovery of Transformation$g(starting p. 248) --$tCompetence$g(starting p. 248) --$tDNA Processing after Uptake$g(starting p. 252) --$tExperimental Evidence for Models of Natural Transformation$g(starting p. 252) --$tPlasmid Transformation and Phage Transfection of Naturally Competent Bacteria$g(starting p. 254) --$tRegulation of Natural Competence$g(starting p. 255) --$tRole of Natural Transformation$g(starting p. 257) --$tImportance of Natural Transformation for Forward and Reverse Genetics$g(starting p. 259) --$tCongression$g(starting p. 259) --$tArtificially Induced Competence$g(starting p. 260) --$tChemical Induction$g(starting p. 260) --$tElectroporation$g(starting p. 261) --$tProtoplast Transformation$g(starting p. 261) --$gBox 6.1$tAntigenic Variation in Neisseria gonorrhoeae$g(starting p. 259) --$tSummary$g(starting p. 262) --$tQuestions For Thought$g(starting p. 262) --$tProblems$g(starting p. 262) --$tSuggested Reading$g(starting p. 263) --$gch. 7$tBacteriophages: Lytic Development, Genetics, and Generalized Transduction$g(starting p. 265) --$tRegulation of Gene Expression during Lytic Development$g(starting p. 270) --$tPhages That Encode Their Own RNA Polymerases$g(starting p. 272) --$tT7 Phage-Based Expression Vectors$g(starting p. 273) --$tMaking Riboprobes and RNA-Processing Substrates$g(starting p. 273) --$tPhage T4: Transcriptional Activators, a New Sigma Factor, and Replication-Coupled Transcription$g(starting p. 275) --$tPhage DNA Genome Replication and Packaging$g(starting p. 279) --$tPhages with Single-Stranded Circular DNA$g(starting p. 279) --$tReplication and DNA Packaging: Linear Genomes$g(starting p. 285) --$tPhage T7: Linear DNA That Forms Concatemers$g(starting p. 285) --$tPhage T4: Another Phage That Forms Concatemers$g(starting p. 286) --$tPhage Lysis$g(starting p. 289) --$tSingle-Protein Lysis$g(starting p. 289) --$tTimed Lysis$g(starting p. 290) --$tTiming of Lysis by Holins$g(starting p. 290) --$tPhage Display$g(starting p. 292) --$tGenetic Analysis of Phages$g(starting p. 298) --$tInfection of Cells$g(starting p. 298) --$tPhage Crosses$g(starting p. 299) --$tRecombination and Complementation Tests with Phages$g(starting p. 299) --$tGenetic Experiments with the rll Genes of Phage T4$g(starting p. 301) --$tConstructing the Genetic-Linkage Map of a Phage$g(starting p. 307) --$tPhage Defense Mechanisms$g(starting p. 309) --$tRestriction-Modification Systems$g(starting p. 310) --$tAbi Systems$g(starting p. 310) --$tCRISPR Loci$g(starting p. 311) --$tGeneralized Transduction$g(starting p. 314) --$tWhat Makes a Transducing Phage$g(starting p. 315) --$tShuttle Phasmids$g(starting p. 316) --$tRole of Transduction in Bacterial Evolution$g(starting p. 317) --$gBox 7.1$tPhage Genomics$g(starting p. 268) --$gBox 7.2$tRNA Phages$g(starting p. 271) --$gBox 7.3$tProtein Priming$g(starting p. 286) --$gBox 7.4$tPhage Display$g(starting p. 294) --$tSummary$g(starting p. 318) --$tQuestions For Thought$g(starting p. 319) --$tProblems$g(starting p. 319) --$tSuggested Reading$g(starting p. 320) --$gch. 8$tLysogeny: the λ Paradigm and the Role of Lysogenic Conversion in Bacterial Pathogenesis$g(starting p. 323) --$tPhage λ$g(starting p. 324) --$tλ Lytic Development$g(starting p. 324) --$tReplication of λ DNA$g(starting p. 331) --$tLysogeny by Phage λ$g(starting p. 333) --$tThe Lytic-versus-Lysogen Decision: the Roles of cl, cll and clll Gene Products$g(starting p. 333) --$tPhage λ Integration$g(starting p. 334) --$tMaintenance of λ Lysogeny$g(starting p. 335) --$tImmunity to Superinfection$g(starting p. 337) --$tInduction of λ$g(starting p. 338) --$tSummary of the Lytic and Lysogenic Cycles$g(starting p. 340) --$tSpecialized Transduction$g(starting p. 340) --$tSelection of HFT Particles$g(starting p. 342) --$tOther Lysogen-Forming Phages$g(starting p. 343) --$tPhage P2$g(starting p. 343) --$tPhage P4: a Satellite Virus$g(starting p. 343) --$tProphages That Replicate as Plasmids$g(starting p. 345) --$tPhage Mu: a Transposon Masquerading as a Phage$g(starting p. 345) --$tLysogenic Conversion and Bacterial Pathogenesis$g(starting p. 345) --$tE. coli and Dysentery: Shiga Toxins$g(starting p. 346) --$tDiphtheria$g(starting p. 347) --$tCholera$g(starting p. 347) --$tS. aureus and Toxic Shock Syndrome$g(starting p. 349) --$tSynopsis$g(starting p. 350) --$tUses of Lysogeny in Genetic Analysis and Biotechnology$g(starting p. 350) --$tComplementation and Gene Expression Studies$g(starting p. 350) --$tUse of Phage Display and Frequency of Mixed Dilysogens To Detect Protein-Protein Interactions$g(starting p. 350) --$tGenetic Experiments with Phage λ$g(starting p. 351) --$tGenetic Analysis of λ Lysogen Formation$g(starting p. 351) --$tGenetics of the CI Repressor: Evidence for the Domain Structure of Proteins$g(starting p. 353) --$tIdentification of λ nut Sites Involved in Progressive Transcription Antitermination$g(starting p. 354) --$tIsolation of Host nus Mutations: E. coli Functions Involved in Transcription Elongation-Termination$g(starting p. 356) --$gBox 8.1$tEffects of Prophage Insertion on the Host$g(starting p. 336) --$tSummary$g(starting p. 357) --$tQuestions For Thought$g(starting p. 358) --$tProblems$g(starting p. 358) --$tSuggested Reading$g(starting p. 359) --$gch. 9$tTransposition, Site-Specific Recombination, and Families of Recombinases$g(starting p. 361) --$tTransposition$g(starting p. 361) --$tOverview of Transposition$g(starting p. 362) --$tStructure of Bacterial Transposons$g(starting p. 362) --$tTypes of Bacterial Transposons$g(starting p. 364) --$tAssays of Transposition$g(starting p. 366) --$tMechanisms of Transposition$g(starting p. 368) --$tGenetic Requirements for Transposition of Tn3$g(starting p. 368) --$tA Molecular Model for Transposition of Tn3$g(starting p. 372) --$tTransposition by Tn10 and Tn5$g(starting p. 373) --$tDetails of Transposition by the DDE Transposons$g(starting p. 376) --$tDetails of the Mechanism of Transposition by Tn5 and Tn7$g(starting p. 376) --$tRolling-Circle Transposons$g(starting p. 378) --$tY and S Transposons$g(starting p. 378) --$tGeneral Properties of Transposons$g(starting p. 379) --$tTarget Site Specificity$g(starting p. 379) --$tEffects on Genes Adjacent to the Insertion Site$g(starting p. 380) --$tRegulation of Transposition$g(starting p. 380) --$tTarget Immunity$g(starting p. 381) --$tTransposon Mutagenesis$g(starting p. 382) --$tTransposon Mutagenesis In Vivo$g(starting p. 382) --$tTransposon Mutagenesis In Vitro$g(starting p. 382) --$tTransposon Mutagenesis of Plasmids$g(starting p. 385) --$tTransposon Mutagenesis of the Bacterial Chromosome$g(starting p. 386) --$tTransposon Mutagenesis of All Bacteria$g(starting p. 386) --$tUsing Transposon Mutagenesis To Make Random Gene Fusions$g(starting p. 387) --$tSite-Specific Recombination$g(starting p. 387) --$tIntegrases$g(starting p. 387) --$tResolvases$g(starting p. 390) --$tDNA Invertases$g(starting p.
880 $6505-00/(S$t391) --$tY and S Recombinases$g(starting p. 392) --$tY Recombinases: Mechanism$g(starting p. 392) --$tS Recombinases: Mechanism$g(starting p. 397) --$tImportance of Transposition and Site-Specific Recombination in Bacterial Adaptation$g(starting p. 398) --$gBox 9.1$tTransposons and Genomics$g(starting p. 383) --$tSummary$g(starting p. 399) --$tQuestions For Thought$g(starting p. 400) --$tProblems$g(starting p. 400) --$tSuggested Reading$g(starting p. 401) --$gch. 10$tMolecular Mechanisms of Homologous Recombination$g(starting p. 403) --$tHomologous Recombination and DNA Replication in Bacteria$g(starting p. 404) --$tEarly Evidence for the Interdependence of Homologous Recombination and DNA Replication$g(starting p. 404) --$tThe Molecular Basis for Recombination in E. coli$g(starting p. 405) --$tChi (Χ) Sites and the RecBCD Complex$g(starting p. 405) --$tThe RecF Pathway$g(starting p. 409) --$tSynapse Formation and the RecA Protein$g(starting p. 411) --$tThe Ruv and RecG Proteins and the Migration and Cutting of Holliday Junctions$g(starting p. 414) --$tRecombination between Different DNAs in Bacteria$g(starting p. 416) --$tHow Are Linear DNA Fragments Recombined into the E. coli Chromosome$g(starting p. 417) --$tPhage Recombination Pathways$g(starting p. 417) --$tRec Proteins of Phages T4 and T7$g(starting p. 417) --$tThe RecE Pathway of the rac Prophage$g(starting p. 417) --$tThe Phage λ Red System$g(starting p. 419) --$tRecombineering: Gene Replacements in E. coli with Phage λ Recombination Functions$g(starting p. 419) --$tGenetic Analysis of Recombination in Bacteria$g(starting p. 422) --$tIsolating Rec- Mutants of E. coli$g(starting p. 422) --$tIsolating Mutants with Mutations in Other Recombination Genes$g(starting p. 423) --$tGene Conversion and Other Manifestations of Heteroduplex Formation during Recombination$g(starting p. 426) --$gBox 10.1$tOther Types of Double-Strand Break Repair in Bacteria$g(starting p. 410) --
938 $aBaker and Taylor$bBTCP$nBK0011891455
938 $aCoutts Information Services$bCOUT$n22714568
938 $aYBP Library Services$bYANK$n9250855
029 1 $aAU@$b000050540369
029 1 $aCHBIS$b007596802
029 1 $aCHDSB$b006290427
029 1 $aCHVBK$b185338674
029 1 $aCHVBK$b320163881
029 1 $aNLM$b101587640
029 1 $aUKMGB$b019681003
994 $aZ0$bP4A
948 $hHELD BY P4A - 230 OTHER HOLDINGS