03626nam 2200601 450 991025739420332120220228074454.03-540-38271-210.1007/978-3-540-38271-3(CKB)3390000000042927(SSID)ssj0001187267(PQKBManifestationID)11651501(PQKBTitleCode)TC0001187267(PQKBWorkID)11243359(PQKB)11743347(DE-He213)978-3-540-38271-3(MiAaPQ)EBC5577558(Au-PeEL)EBL5577558(OCoLC)1066178291(MiAaPQ)EBC6857117(Au-PeEL)EBL6857117(OCoLC)1293262087(PPN)237969637(EXLCZ)99339000000004292720220228d1976 uy 0engurnn|008mamaatxtccrIntroduction to the theory of heavy-ion collisions /Wolfgang Nörenberg, Hans A. Weidenmüller2nd ed. 1976.Berlin ;Heidelberg :Springer-Verlag GmbH,1976.1 online resource (IX, 277 p.) Lecture notes in physics ;Volume 51Bibliographic Level Mode of Issuance: Monograph3-540-09753-8 Includes bibliographical references and index.1. Introduction -- 2. Classical theory of HI collisions -- 3. Gross properties of HI reactions. Compound-nucleus formation -- 4. Some elements of nuclear scattering theory -- 5. Elastic scattering -- 6. Coulomb excitation -- 7. Inelastic scattering and transfer reactions -- 8. Statistical theory -- 9. Atomic effects in ion-atom collisions.With the advent of heavy-ion reactions, nuclear physics has acquired a new frontier. The new heavy-ion sources operating at electrostatic accelerators and the high-energy experiments performed at Berkeley, Dubna, Manchester and Orsay, have opened up the field, and have shown us impressive new prospects. The new accelerators now under construction at Berlin, Daresbury and Darmstadt, as well as those under consideration (GANIL, Oak Ridge, etc. ) are expected to add significantly to our knowledge and understanding of nuclear properties. This applies not only to such exotic topics as the existence and lifetimes of superheavy elements, or the possibil­ ity of shock waves in nuclei, but also to such more mundane issues as high-spin states, new regions of deformed nuclei and friction forces. The field promises not only to produce a rich variety of interesting phenomena, but also to have wide-spread theoretical implications. Heavy-ion reactions are characterized by the large masses of the fragments, as well as the high total energy and the large total angular momentum typically involved in the collision. A purely quantum-mechanical description of such a collision process may be too complicated to be either possible or inter­ esting. We expect and, in some cases,know that the classical limit, the limit of geometrical optics, a quantum-statistical or a hydrodynamical description correctly account for typical features.Lecture notes in physics ;Volume 51.Heavy ion collisionsHeavy ion collisions.539.7234Nörenberg Wolfgang1938-48630Weidenmüller Hans A.MiAaPQMiAaPQMiAaPQBOOK9910257394203321Introduction to the theory of heavy-ion collisions2786216UNINA00919nam a2200265 i 450099100049674970753620020503182005.0960429s1989 it ||| | ita 8813167296b10086195-39ule_instLE02517124ExLFac. Economiaita346.450434 Fantacchiotti, Mario232001La durata della locazione abitativa /Mario FantacchiottiPadova :CEDAM,1989vi, 144 p. ;25 cmLocazione degli immobili urbani ;3Locazione.b1008619517-02-1727-06-02991000496749707536LE025 ECO 346 FAN01.0112025000022591le025-E0.00-l- 00000.i1009947527-06-02Durata della locazione abitativa196078UNISALENTOle02501-01-96ma -itait 3105477nam 2200745Ia 450 991101917090332120200520144314.09786611764159978128176415712817641599783527613465352761346397835276134723527613471(CKB)1000000000377229(EBL)481967(OCoLC)261342614(SSID)ssj0000156888(PQKBManifestationID)11147310(PQKBTitleCode)TC0000156888(PQKBWorkID)10131389(PQKB)10460564(MiAaPQ)EBC481967(Perlego)2768436(EXLCZ)99100000000037722919990502d2000 uys 0engur|n|---|||||txtccrForeign DNA in mammalian systems /Walter DoerflerWeinheim ;New York Wiley-VCHc20001 online resource (197 p.)Description based upon print version of record.9783527300891 3527300899 Includes bibliograhical references and index.Foreign DNA in Mammalian Systems; Preface; Contents; 1 Introduction; 1.1 Further reading; 2 ForeignDNA; 2.1 Foreign DNA in the environment; 2.2 Uptake and modes of persistence of foreign DNA in mammalian cells; 2.3 Further reading; 3 Methods to detect integrated foreign DNA; 3.1 Parameters of foreign DNA integration; 3.2 The fluorescent in situ hybridization method; 3.3 Detection of foreign DNA by Southern DNA ti DNA hybridization; 3.4 Detection of foreign DNA sequences by the pol reaction (PCR); 3.5 Recloning of junction fragments and the detern nucleotide sequences3.6 Equilibirum sedimentation in alkaline CsCl gral DNA hybridization3.7 Further reading; 4 The adenovirus paradigm; 4.1 An introduction to the adenovirus system; 4.1.1 Clinical background; 4.1.2 Virion structure; 4.1.3 Classification; 4.1.4 Multiplication during productive infection; 4.1.5 Abortive infection; 4.2 An example: Ad12 DNA integration in the Ad12 hamster cell line T637; 4.3 The state of the viral DNA in different cell systems; 4.3.1 Productive infection; 4.3.2 Abortive infection; 4.3.3 Transformation of cells in culture; 4.3.4 Tumor induction by Ad12 in newborn hamsters4.3.5 Tumor cells in culture4.3.6 Loss of previously integrated Ad12 DNA sequences; 4.4 Adenovirus infection, DNA transfection or DNA microinjection; 4.5 Integration of adenovirus DNA in human cells - significance human somatic gene therapy; 4.6 Studies on integrative recombination of adenovirus DNA in a cell-free system; 4.7 Further reading; 5 Conclusions derived from a survey of junction sites; 5.1 On the characteristics of junction sequences; 5.2 Persistence of integrated foreign DNA - a novel functional type of insertional mutagenesis5.3 Adenovirus DNA: chromosomal association - covalent genc integration5.4 Further reading; 6 Adenovirus-induced tumor cells and revertants; 6.1 Clonal origin of Ad12-induced tumors; 6.2 Stability - instability; 6.2.1 Hit-and-run mechanism of viral oncogenesis?; 6.2.2 General implications of a hit-and-run mechanism; 6.3 Further reading; 7 Comparisons with other viral systems; 7.1 Integration of viral DNA; 7.2 Transcription of integrated viral genomes; Color plates; 7.3 Virus-induced tumors; 7.4 Replication and integration of the retroviral genome; 7.5 Endogenous retroviral genomes7.6 The viral archetype: integration of bacteriophage λ DNA7.6.1 The most important regulatory functions in the phage λ genome; 7.6.2 Control of transcription at the right operator OR of phage λ DNA; 7.6.3 A closer look at the integration and excision of the bacteriophage λ genome; 7.7 Further reading; 8 Non-viral systems; 8.1 Exchange of genetic information with extracellular DNA in pneumococci; 8.2 IS elements and transposons; 8.3 Thoughts on the mechanism of foreign DNA integration; 8.4 Expression of integrated foreign DNA; 8.5 Fixation of foreign DNA in transgenic animals8.6 Critical evaluation of the results obtained with transgenic animalsIt is unlikely that the established genomes of present day organisms remain stable forever. It is conceivable that foreign DNA can gain entry into individual cells of an organism. Foreign DNA is defined as genetic material that derives from another organism of the same or a different species. The natural environment is heavily ""contaminated"" with such foreign DNA, and mammals, like other organisms, are frequently exposed to foreign DNA in their environment, notably by ingesting their daily food supply. By necessity, the gastrointestinal tract also of all mammalian organisms is constantlyGenetic transformationMammalsGeneticsAdenovirusesDNADNAMethylationGenetic transformation.MammalsGenetics.Adenoviruses.DNA.DNAMethylation.572.819572.8619Doerfler Walter1933-1840086MiAaPQMiAaPQMiAaPQBOOK9911019170903321Foreign DNA in mammalian systems4419569UNINA