01634nam0-2200493-i-450-99000980225040332120131213153550.0978-0-8218-7564-3paperback000980225FED01000980225(Aleph)000980225FED0100098022520131213d2013----km-y0itay50------baengUSa---a---101yyHopf algebras and tensor categoriesInternational conference July 4-8, 2011, University of Almería, Almería, SpagnaNicolás Andruskiewitsch, Juan Cuadra, Blas Torrecillas, editorsProvidenceAmerican Mathe,atical Society2013XV, 325 p.26 cmContemporary mathematics585Anelli associativi ed algebre associativeAtti di conferenzeProdotto a sconquasso ridottoSmash di azioni di Hopf generaliGruppi quantisticiDeformazioni collegateCategorie monoidaliCategorie monoidali simmetricheCategorie intrecciateAtti di conferenze di interesse specifico vario512'.46Andruskiewitsch,NicolásCuadra,JuanTorrecillas,BlasITUNINAREICATUNIMARCBK990009802250403321C-1-(585256MA1MA116-0616T0516T1016S4016T3017B3718D1000B25Hopf algebras and tensor categories837649UNINA01904oam 2200517 450 991070989920332120180719093224.0(CKB)5470000002473260(OCoLC)896810358(OCoLC)995470000002473260(EXLCZ)99547000000247326020141123d1975 ua 0engurbn|||||||||txtrdacontentcrdamediacrrdacarrierPaleotectonic investigations of the Pennsylvanian System in the United StatesPart IIInterpretive summary and special features of the Pennsylvanian system /by Edwin D. McKee, Eleanor J. Crosby, and othersWashington :United States Department of the Interior, Geological Survey,1975.1 online resource (iv, 192 pages) illustrations, mapsGeological Survey professional paper ;853-2Includes bibliographical references and index.Interpretive summary and special features of the Pennsylvanian systemGeology, StratigraphicPennsylvanianGeologyUnited StatesGeologyfastGeology, StratigraphicfastPennsylvanian Geologic PeriodfastUnited StatesfastGeology, StratigraphicGeologyGeology.Geology, Stratigraphic.Pennsylvanian Geologic Period.McKee Edwin D(Edwin Dinwiddie),1906-1984,1397669Crosby Eleanor J.Geological Survey (U.S.),COPCOPOCLCOOCLCFGPOBOOK9910709899203321Paleotectonic investigations of the Pennsylvanian System in the United States3459654UNINA03942nam 2200397z- 450 991022003560332120210211(CKB)3800000000216421(oapen)https://directory.doabooks.org/handle/20.500.12854/53808(oapen)doab53808(EXLCZ)99380000000021642120202102d2017 |y 0engurmn|---annantxtrdacontentcrdamediacrrdacarrierModulating Prokaryotic Lifestyle by DNA-Binding ProteinsFrontiers Media SA20171 online resource (296 p.)Frontiers Research Topics2-88945-105-4 The Overview of the Topic was the following: "One of the most active areas of research in molecular microbiology has been the study of how bacteria modulate their genetic activity and its consequences. The prokaryotic world has received much interest not only because the resulting phenomena are important to cells, but also because many of the effects often can be readily measured. Contributing to the interest of the present topic is the fact that modulation of gene activity involves the sensing of intra- and inter-cellular conditions, DNA binding and DNA dynamics, and interaction with the replication/transcription machinery of the cell. All of these processes are fundamental to the operation of a genetic entity and condition their lifestyle. Further, the discoveries achieved in the bacterial world have been of ample use in eukaryotes. In addition to the fundamental interest of understanding modulation of prokaryotic lifestyle by DNA-binding proteins, there is an added interest from the healthcare point of view. As it is well known the antibiotic-resistance strains of pathogenic bacteria are a major world problem, so that there is an urgent need of innovative technologies to tackle it. Most of the acquired resistances are spread by processes of horizontal gene transfer mediated by mobile elements in which DNA replication and gene expression are of basic interest. There is an imperative of finding new alternatives to the 'classical' way of treatment of bacterial infections and these new alternatives include the discovery of new drugs and of new bacterial targets. Nevertheless, these new alternatives will find a dead-end if we are unable to obtain a better understanding of the basic processes modulating bacterial gene expression. Our goal to achieve with this Topic of Frontiers is to accelerate our understanding of protein-DNA interactions. First, the topic will bring together several very active researchers in the study of gene replication, gene regulation, the strategies applied by the different proteins that participate in these processes, and their consequences. We will also acquire an in-depth knowledge of some of the mechanisms of gene regulation, gene transfer and gene replication. Further, the readers of the papers will realize the importance of the topic and will learn the most recent thinking, results, and approaches in the area". We are fully confident that we have exceeded our expectations. Now we are proud to present the final output of the Topic, which is the eBook. It includes 24 articles contributed by 118 authors. As of today, Monday, 16th, January 2017, the total number of readings has reached 19,284, 14,921 article views, and 2,944 article downloads.bacterial pathogenscontrol of gene expressionDNA replication and DNA segregationGlobal Regulatory Networkshorizontal gene transferprokaryotesAntonio Juarezauth1280069Manuel EspinosaauthTatiana VenkovaauthBOOK9910220035603321Modulating Prokaryotic Lifestyle by DNA-Binding Proteins3016501UNINA