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Nobuko Yoshida
Researcher at Imperial College London
Publications - 416
Citations - 17089
Nobuko Yoshida is an academic researcher from Imperial College London. The author has contributed to research in topics: Session (computer science) & Trypanosoma cruzi. The author has an hindex of 64, co-authored 396 publications receiving 15672 citations. Previous affiliations of Nobuko Yoshida include University of Edinburgh & Royal Holloway, University of London.
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Language Primitives and Type Discipline for Structured Communication-Based Programming, Subject Reduction and Type Safety Theorems
TL;DR: In this article, the authors introduce basic language constructs and a type discipline as a foundation of structured communication-based concurrent programming, which allow programmers to organize programs as a combination of multiple flows of (possibly unbounded) reciprocal interactions in a simple and elegant way, subsuming the preceding communication primitives such as method invocation and rendez-vous.
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Multiparty asynchronous session types
TL;DR: This work extends the foregoing theories of binary session types to multiparty, asynchronous sessions, which often arise in practical communication-centred applications, and introduces a new notion of types in which interactions involving multiple peers are directly abstracted as a global scenario.
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Multiparty Asynchronous Session Types
TL;DR: The theory introduces a new notion of types in which interactions involving multiple peers are directly abstracted as a global scenario, and the fundamental properties of the session type discipline, such as communication safety, progress, and session fidelity, are established.
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Hybridoma produces protective antibodies directed against the sporozoite stage of malaria parasite
TL;DR: Hybrid cells secreting antibodies against sporozoites of Plasmodium berghei were obtained by fusion of plasmacytoma cells with immune murine spleen cells with monoclonal antibodies bound to a protein with an apparent molecular weight of 44,000 (Pb44), which envelopes the surface membrane of sporozoite.
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Monovalent fragments (Fab) of monoclonal antibodies to a sporozoite surface antigen (Pb44) protect mice against malarial infection.
TL;DR: It is concluded that the CSP reaction can result from the cross-linking of Pb44 and that it has the characteristics of a capping reaction followed by the shedding of the immune complexes.