01110nam0-2200325---450 99000992401040332120180516072011.0000992401FED01000992401(Aleph)000992401FED0100099240120141210d1979----km-y0itay50------baeng--------001yyTrade and payments adjustment under flexible exchange ratespapers of the second annual conference of the International economics study groupedited by John P. Martin and Alasdair SmithLondonMacmillan for the Trade policy research centre1979xxiv, 250 p.23 cmMartin,John P.Smith,AlasdairInternational economics study group750682ITUNINARICAUNIMARCBK990009924010403321O/2.31 TRA2187SESO/2.31 MAR10987/ISESXV M3 862406DTESESDTETrade and payments adjustment under flexible exchange rates1510132UNINA02449nam 2200421 450 991058307120332120180911102923.00-12-813363-50-12-813362-7(CKB)4100000000449566(MiAaPQ)EBC5024589(PPN)228031788(EXLCZ)99410000000044956620171011h20182018 uy 0engurcnu||||||||rdacontentrdamediardacarrierThe natural anti-gal antibody as foe turned friend in medicine /Uri GaliliLondon, England :Academic Press,2018.©20181 online resource (301 pages) illustrations (some color)Includes index.Anti-gal in humans and its antigen the [alpha]-gal epitope -- Why do we produce anti-gal -- Anti-gal comprises most of anti-blood group b antibodies -- Anti-gal interaction with Trypansoma, Leishmania, and Plasmodium parasites -- Anti-gal b cells are tolerized by a [alpha]-gal epitopes in the absence of t cell help -- Anti-gal and other immune barriers in xenotransplantation -- Anti-gal IgE mediates allergies to red meat -- Anti-gal and autoimmunity -- Anti-gal-mediated amplification of viral vaccine efficacy -- Cancer immunotherapy by anti-gal-mediated in situ conversion of tumors into autologous vaccines -- Anti-gal as cancer cell destroying antibody and as antibiotics targeted by [alpha]-gal bifunctional molecules -- Acceleration of wound and burn healing by anti-gal/[alpha]-gal nanoparticles interaction -- Anti-gal and anti-non gal antibodies in regeneration of extracellular matrix bio-implants -- Post infarction regeneration of ischemic myocardium by intramyocardial injection of [alpha]-gal nanoparticles -- Regeneration of injured spinal cord and peripheral nerves by [alpha]-gal nanoparticles -- Inhalation of [alpha]-gal/sialic acid liposomes for decreasing influenza virus infection.Antigen-antibody reactionsAntigensAnalysisLaboratory manualsAntigen-antibody reactions.AntigensAnalysis612.11822Galili Uri897329MiAaPQMiAaPQMiAaPQBOOK9910583071203321The natural anti-gal antibody as foe turned friend in medicine2004736UNINA03675nam 2200613 450 991081725090332120170822144505.01-4704-0436-2(CKB)3360000000465019(EBL)3114252(SSID)ssj0000973209(PQKBManifestationID)11539950(PQKBTitleCode)TC0000973209(PQKBWorkID)10958883(PQKB)10349562(MiAaPQ)EBC3114252(RPAM)13946979(PPN)195417232(EXLCZ)99336000000046501920050429h20052005 uy| 0engur|n|---|||||txtccrHigher complex torsion and the framing principle /Kiyoshi IgusaProvidence, Rhode Island :American Mathematical Society,[2005]©20051 online resource (114 p.)Memoirs of the American Mathematical Society,0065-9266 ;number 835"Volume 177, number 835 (third of 4 numbers)."0-8218-3773-7 Includes bibliographical references.""Contents""; ""Introduction""; ""0.1. Higher Franz-Reidemeister torsion""; ""0.2. Construction of Ï?[sub(k)]""; ""0.3. Framing Principle""; ""0.4. Complex torsion""; ""Chapter 1. Complex torsion""; ""1.1. Definition for closed AC fibers""; ""1.2. Generalized Miller-Morita-Mumford classes""; ""1.3. Complex Framing Principle""; ""1.4. Nonempty boundary case""; ""Chapter 2. Definition of higher FRâ€?torsion""; ""2.1. Generalized Morse functions""; ""2.2. Families of chain complexes""; ""2.3. Monomial functors""; ""2.4. Filtered chain complexes""; ""2.5. Subfunctors""""2.6. The Whitehead category""""2.7. Definition in acyclic case""; ""2.8. Families of matrices as flat superconnections""; ""2.9. Independence of birth-death points""; ""2.10. Positive suspension lemma""; ""2.11. Definition in upper triangular case""; ""Chapter 3. Properties of higher FRâ€?torsion""; ""3.1. Basic properties""; ""3.2. Suspension Theorem""; ""3.3. Additivity, Splitting Lemma""; ""3.4. Applications of the Splitting Lemma""; ""3.5. Local equivalence lemma""; ""3.6. Product formula""; ""3.7. Transfer for coverings""; ""3.8. More transfer formulas""""Chapter 4. The Framing Principle""""4.1. Statement for Morse bundles""; ""4.2. General statement""; ""4.3. Push-down/transfer""; ""4.4. The Framing Principle""; ""Chapter 5. Proof of the Framing Principle""; ""5.1. Transfer theorem""; ""5.2. Stratified deformation lemma""; ""5.3. Proof of transfer theorem""; ""5.4. Proof of Framing Principle""; ""Chapter 6. Applications of the Framing Principle""; ""6.1. Torelli group""; ""6.2. Even dimensional fibers""; ""6.3. Unoriented fibers""; ""6.4. Vertical normal disk bundle""; ""Chapter 7. The Stability Theorem""; ""7.1. Definitions""""7.2. Stability for C(M)""""7.3. Involution""; ""7.4. Disks and spheres""; ""7.5. Relation to higher torsion""; ""Bibliography""Memoirs of the American Mathematical Society ;no. 835.Reidemeister torsionDifferentiable mappingsDiffeomorphismsReidemeister torsion.Differentiable mappings.Diffeomorphisms.510 s514/.72Igusa Kiyoshi1949-1636205MiAaPQMiAaPQMiAaPQBOOK9910817250903321Higher complex torsion and the framing principle3977366UNINA