01082nam0 22003013i 450 UBO307275420231121125900.03161475267316147546120160219d2001 ||||0itac50 baengdez01i xxxe z01nJewish literacy in roman PalestineCatherine HezserTubingenM. Siebeckc2001IX, 557 p.24 cm.Texts and studies in ancient judaism81001MIL04251442001 Texts and studies in ancient judaism81Hezser, CatherineUBOV8263630701324677ITIT-0120160219IT-FR0017 Biblioteca umanistica Giorgio ApreaFR0017 UBO3072754Biblioteca umanistica Giorgio Aprea 52CIS 12/341 52VM 0000702655 VM barcode:00061553. - Inventario:8113 DFLSVMB 2007091020121204 52Jewish literacy in roman Palestine3640682UNICAS01603nas 2200457- 450 991026275770332120230307213020.02398-4929(OCoLC)1008648679(CKB)3150000000023958(CONSER)--2018263006(EXLCZ)99315000000002395820170919a20189999 --- -engur|||||||||||txtrdacontentcrdamediacrrdacarrierPerspectives on public management and governanceOxford, UK :Oxford University Press,[2018]-©2018-1 online resourceRefereed/Peer-reviewed2398-4910 Perpectives on Public Management and Governance' is the second flagship journal of the Public Management Research Association. It publishes theory and methodological issues covering public administration and public management.PPMGPublic administrationPeriodicalsPolitical sciencePeriodicalsPolitical sciencefast(OCoLC)fst01069781Public administrationfast(OCoLC)fst01081976Periodicals.fastPublic administrationPolitical sciencePolitical science.Public administration.351.05Public Management Research Association,JOURNAL9910262757703321Perspectives on public management and governance2582014UNINA06865nam 2200613Ia 450 991095355060332120251116160940.01-280-20993-397866102099340-309-58951-7(CKB)111069351122126(EBL)3377706(SSID)ssj0000387848(PQKBManifestationID)11288886(PQKBTitleCode)TC0000387848(PQKBWorkID)10419723(PQKB)11537790(MiAaPQ)EBC3377706(Au-PeEL)EBL3377706(CaPaEBR)ebr10072029(CaONFJC)MIL20993(OCoLC)923272451(BIP)12806323(EXLCZ)9911106935112212620021126d2000 uy 0engur|n|---|||||txtccrColloquium on links between recombination and replication vital roles of recombination /Proceedings of the National Academy of Sciences1st ed.Washington, D.C. National Academies Press20001 online resource (303 p.)Description based upon print version of record.0-309-07424-X ""Colloquium on Links Between Recombination and Replication: Vital Roles of Recombination""; ""PNAS""; ""Contents""; ""Introduction Links between recombination and replication: Vital roles of recombination ""; ""Colloquium Historical overview: Searching for replication help in all of the rec places ""; ""THREAD 1: THE DISCOVERY OF RECOMBINATION GENES IN BACTERIA""; ""THREAD 2: IN VIVO CHARACTERIZATION OF BACTERIAL RECOMBINATION FUNCTIONS""; ""THREAD 3: EARLY LINKS BETWEEN REPLICATION FORKS AND RECOMBINATIONAL DNA REPAIR""; ""THREAD 4: Studies of the Bacterial SOS System""""THREAD 5: WORK ON BACTERIOPHAGE T4 DNA METABOLISM""""THREAD 6: ORIGIN-INDEPENDENT AND RDR RESTART DURING THE SOS RESPONSE""; ""THREAD 7: ISOLATION AND CHARACTERIZATION OF RECA PROTEIN AND PROKARYOTIC RECOMBINATION PROTEINS""; ""THREAD 8: RECOMBINATION MODEL DEVELOPMENT""; ""THREAD 9: EUKARYOTIC RECOMBINATION PROTEINS""; ""THREAD 10: THE RESTART (X174-TYPE) PRIMOSOME""; ""THREAD 11: TYING THE THREADS TOGETHER, GENETICALLY AND BIOCHEMICALLY""; ""THREAD 12: XERCD AND FREQUENCY ESTIMATES""; ""THE END MARKS A BEGINNING""""Colloquium Rescue of arrested replication forks by homologous recombination""""DNA SEQUENCES, OR MUTATIONS THAT CAUSE REPLICATION ARREST, INDUCE DNA REARRANGEMENTS""; ""THE REPLICATION FORK REVERSAL REACTION""; ""Colloquium Circles: The replication-recombination-chromosome segregation connection ""; ""Colloquium Participation of recombination proteins in rescue of arrested replication forks in UV-irradiated Escherichiaâ€?""; ""A COMMON PATHWAY INVOLVING BOTH NUCLEOTIDE EXCISION REPAIR AND REC GENES""""Colloquium Effects of mutations involving cell division, recombination, and chromosome dimer resolution on a priA2::kanâ€?""""MATERIALS AND METHODS""; ""RESULTS""; ""DISCUSSION""; ""Colloquium RecA protein promotes the regression of stalled replication forks in vitro ""; ""MATERIALS AND METHODS""; ""RESULTS""; ""DISCUSSION""; ""Colloquium Topological challenges to DNA replication: Conformations at the fork ""; ""CONFORMATIONS OF NONREPLICATING DNA""; ""CONFORMATIONS OF REPLICATING DNA""; ""DOMAINS""""Colloquium Rescue of stalled replication forks by RecG: Simultaneous translocation on the leading and lagging strandâ€?""""MATERIALS AND METHODS""; ""RESULTS""; ""DISCUSSION""; ""Colloquium Formation of Holliday junctions by regression of nascent DNA in intermediates containing stalled replicationâ€?""; ""MATERIALS AND METHODS""; ""RESULTS""; ""DISCUSSION""; ""Colloquium Single-strand interruptions in replicating chromosomes cause double-strand breaks ""; ""MATERIALS AND METHODS""; ""RESULTS""; ""DISCUSSION""""Colloquium Handoff from recombinase to replisome: Insights from transposition ""There has been a sea change in how we view genetic recombination. When germ cells are produced in higher organisms, genetic recombination assures the proper segregation of like chromosomes. In the course of that process, called meiosis, recombination not only assures segregation of one chromosome of each type to progeny germ cells, but also further shuffles the genetic deck, contributing to the unique inheritance of individuals. In a nutshell, that is the classical view of recombination. We have also known for many years that in bacteria recombination plays a role in horizontal gene transfer and in replication itself, the latter by establishing some of the replication forks that are the structural scaffolds for copying DNA. In recent years, however, we have become increasingly aware that replication, which normally starts without any help from recombination, is a vulnerable process that frequently leads to broken DNA. The enzymes of recombination play a vital role in the repair of those breaks. The recombination enzymes can function via several different pathways that mediate the repair of breaks, as well as restoration of replication forks that are stalled by other kinds of damage to DNA. Thus, to the classical view of recombination as an engine of inheritance we must add the view of recombination as a vital housekeeping function that repairs breaks suffered in the course of replication. We have also known for many years that genomic instability-including mutations, chromosomal rearrangements, and aneuploidy-is a hallmark of cancer cells. Although genomic instability has many contributing causes, including faulty replication, there are many indications that recombination, faulty or not, contributes to genome instability and cancer as well. The ( Nas colloquium) Links Between Recombination and Replication: Vital Roles of Recombination was convened to broaden awareness of this evolving area of research. Papers generated by this colloquium are published here. To encourage the desired interactions of specialists, we invited some contributions that deal only with recombination or replication in addition to contributions on the central thesis of functional links between recombination and replication. To aid the nonspecialist and specialist alike, we open the set of papers with a historical overview by Michael Cox and we close the set with a commentary on the meeting and the field by Andrei Kuzminov. Genetic recombinationGenomicsGenetic recombination.Genomics.MiAaPQMiAaPQMiAaPQBOOK9910953550603321Colloquium on links between recombination and replication4472647UNINA