[ { "id": "https://authors.library.caltech.edu/records/795fv-kj118", "eprint_id": 102901, "eprint_status": "archive", "datestamp": "2023-08-19 13:27:26", "lastmod": "2023-10-20 00:36:44", "type": "book_section", "metadata_visibility": "show", "creators": { "items": [ { "id": "Strauss-E-G", "name": { "family": "Strauss", "given": "Ellen G." } }, { "id": "Strauss-J-H", "name": { "family": "Strauss", "given": "James H." } } ] }, "title": "Sindbis Virus nsP2 Endopeptidase", "ispublished": "unpub", "full_text_status": "public", "keywords": "Sindbis virus, nsP2 endopeptidase, alphaviruses", "note": "\u00a9 2013 Elsevier Ltd. \n\nAvailable online 9 November 2012.\n\n
Published - main.pdf
", "abstract": "The third edition of the Handbook of Proteolytic Enzymes aims to be a comprehensive reference work for the enzymes that cleave proteins and peptides, and contains over 800 chapters. Each chapter is organized into sections describing the name and history, activity and specificity, structural chemistry, preparation, biological aspects, and distinguishing features for a specific peptidase. The subject of Chapter 494 is Sindbis Virus nsP2 Endopeptidase.", "date": "2012-11-09", "date_type": "published", "publisher": "Elsevier", "place_of_pub": "Amsterdam", "pagerange": "2234-2236", "id_number": "CaltechAUTHORS:20200429-090020920", "isbn": "9780123822192", "book_title": "Handbook of Proteolytic Enzymes", "official_url": "https://resolver.caltech.edu/CaltechAUTHORS:20200429-090020920", "rights": "No commercial reproduction, distribution, display or performance rights in this work are provided.", "contributors": { "items": [ { "id": "Rawlings-N-D", "name": { "family": "Rawlings", "given": "Neil D." } }, { "id": "Salvesen-G", "name": { "family": "Salvesen", "given": "Guy" } } ] }, "doi": "10.1016/b978-0-12-382219-2.00494-4", "pmcid": "PMC7184224", "primary_object": { "basename": "main.pdf", "url": "https://authors.library.caltech.edu/records/795fv-kj118/files/main.pdf" }, "resource_type": "book_section", "pub_year": "2012", "author_list": "Strauss, Ellen G. and Strauss, James H." }, { "id": "https://authors.library.caltech.edu/records/97a3a-d2g36", "eprint_id": 64882, "eprint_status": "archive", "datestamp": "2023-08-20 03:36:57", "lastmod": "2024-01-13 16:42:40", "type": "book_section", "metadata_visibility": "show", "creators": { "items": [ { "id": "Strauss-J-H", "name": { "family": "Strauss", "given": "J. H." } }, { "id": "Wang-K-S", "name": { "family": "Wang", "given": "K.-S." } }, { "id": "Schmaljohn-A-L", "name": { "family": "Schmaljohn", "given": "A. L." } }, { "id": "Kuhn-R-J", "name": { "family": "Kuhn", "given": "R. J." } }, { "id": "Strauss-E-G", "name": { "family": "Strauss", "given": "E. G." } } ] }, "title": "Host-cell receptors for Sindbis virus", "ispublished": "unpub", "full_text_status": "public", "note": "\u00a9 1994 Springer-Verlag.", "abstract": "Sindbis virus has a very wide host range, infecting many species of mosquitoes and other hematophagous insects and infecting many species of higher vertebrates. We have used two approaches to study host cell receptors used by Sindbis virus to enter cells. Antiidiotype antibodies to neutralizing antibodies directed against glycoprotein E2 of the virus identified a 63-kDa protein as a putative receptor in chicken cells. In a second approach, monoclonal antibodies identified a 67 kDa protein, believed to be a high affinity laminin receptor, as a putative receptor in mammalian cells and in mosquito cells. We conclude that the virus attains its very wide host range by two mechanisms. In one mechanism, the virus is able to use more than one protein as a receptor. In a second mechanism, the virus utilizes proteins as receptors that are highly conserved across the animal kingdom.", "date": "1994", "date_type": "published", "publisher": "Springer", "place_of_pub": "Vienna, Austria", "pagerange": "473-484", "id_number": "CaltechAUTHORS:20160229-164441821", "isbn": "978-3-211-82522-8", "book_title": "Positive-Strand RNA Viruses", "official_url": "https://resolver.caltech.edu/CaltechAUTHORS:20160229-164441821", "rights": "No commercial reproduction, distribution, display or performance rights in this work are provided.", "contributors": { "items": [ { "id": "Brinton-M-A", "name": { "family": "Brinton", "given": "Margo A." } }, { "id": "Calisher-C-H", "name": { "family": "Calisher", "given": "Charles H." } }, { "id": "Rueckert-R", "name": { "family": "Rueckert", "given": "Roland" } } ] }, "doi": "10.1007/978-3-7091-9326-6_46", "resource_type": "book_section", "pub_year": "1994", "author_list": "Strauss, J. H.; Wang, K.-S.; et el." }, { "id": "https://authors.library.caltech.edu/records/yeb9g-btc36", "eprint_id": 65156, "eprint_status": "archive", "datestamp": "2023-08-19 21:11:53", "lastmod": "2024-01-13 16:43:21", "type": "book_section", "metadata_visibility": "show", "creators": { "items": [ { "id": "Hahn-Chang-S", "name": { "family": "Hahn", "given": "Chang S." } }, { "id": "Strauss-E-G", "name": { "family": "Strauss", "given": "Ellen G." } }, { "id": "Strauss-J-H", "name": { "family": "Strauss", "given": "James H." } } ] }, "title": "Dideoxy Sequencing of RNA Using Reverse Transcriptase", "ispublished": "unpub", "full_text_status": "restricted", "note": "\u00a9 1989 Academic Press. Inc. \n\nThis work was supported by Grants AI 10793 and AI 20612 from the National Institutes of Health and by Grant DMB 86-17372 from the National Science Foundation.", "abstract": "Shortly after the dideoxy (dd) chain-termination method for DNA sequencing was described by Sanger et al., Zimmern and Kaesberg modified this method to sequence RNA directly, using purified encephalomyocarditis viral RNA as a template, pdT_(7)rC as a specific primer, and reverse transcriptase as the elongation enzyme. Bina-Stein et al. further developed the method to use total cellular mRNA as a template and complementary DNA restriction fragments, which anneal to a particular mRNA at specific locations, as primers for reverse transcriptase. Recently, sequence-specific oligonucleotides, synthesized with an automated DNA synthesizer, have been used as primers on both DNA and RNA templates.", "date": "1989", "date_type": "published", "publisher": "Academic Press", "pagerange": "121-130", "id_number": "CaltechAUTHORS:20160307-152609982", "isbn": "978-0-12-182081-7", "book_title": "RNA Processing Part A: General Methods", "official_url": "https://resolver.caltech.edu/CaltechAUTHORS:20160307-152609982", "rights": "No commercial reproduction, distribution, display or performance rights in this work are provided.", "funders": { "items": [ { "agency": "NIH", "grant_number": "AI 10793" }, { "agency": "NIH", "grant_number": "AI 20612" }, { "agency": "NSF", "grant_number": "DMB 86-17372" } ] }, "doi": "10.1016/0076-6879(89)80097-7", "resource_type": "book_section", "pub_year": "1989", "author_list": "Hahn, Chang S.; Strauss, Ellen G.; et el." }, { "id": "https://authors.library.caltech.edu/records/xn5va-rp626", "eprint_id": 65909, "eprint_status": "archive", "datestamp": "2023-08-19 15:38:46", "lastmod": "2024-01-13 16:47:17", "type": "book_section", "metadata_visibility": "show", "creators": { "items": [ { "id": "Strauss-E-G", "name": { "family": "Strauss", "given": "Ellen G." } }, { "id": "Strauss-J-H", "name": { "family": "Strauss", "given": "James H." } } ] }, "title": "Replication Strategies of the Single Stranded RNA Viruses of Eukaryotes", "ispublished": "unpub", "full_text_status": "public", "note": "\u00a9 Springer-Verlag Berlin Heidelberg 1983.", "abstract": "Our knowledge of the molecular biology of virus replication has expanded dramatically in the last few years, especially with the advent of rapid techniques for obtaining the nucleotide sequence of viral genomes. Full or partial sequences of virus genomes are appearing monthly, and it seems appropriate at this time to review the subject of the strategies used for replication by RNA animal viruses in the hope of formulating a conceptual framework in which to organize the new sequence information. This chapter will be concerned with the single-stranded RNA viruses which replicate via RNA intermediates and will focus on the animal viruses, but selected plant viruses whose replication strategies are known will also be discussed. The primary topics will be RNA transcription (the production of virus-specific messages), RNA replication (synthesis of viral genomes), and mRNA translation (synthesis and processing of viral proteins).", "date": "1983", "date_type": "published", "publisher": "Springer Berlin Heidelberg", "pagerange": "1-98", "id_number": "CaltechAUTHORS:20160404-153755099", "isbn": "978-3-642-69161-4", "book_title": "Current Topics in Microbiology and Immunology", "official_url": "https://resolver.caltech.edu/CaltechAUTHORS:20160404-153755099", "rights": "No commercial reproduction, distribution, display or performance rights in this work are provided.", "contributors": { "items": [ { "id": "Cooper-M", "name": { "family": "Cooper", "given": "M." } }, { "id": "Hofschneider-P-H", "name": { "family": "Hofschneider", "given": "P. H." } }, { "id": "Koprowski-H", "name": { "family": "Koprowski", "given": "H." } }, { "id": "Melchers-F", "name": { "family": "Melchers", "given": "F." } }, { "id": "Rott-R", "name": { "family": "Rott", "given": "R." } }, { "id": "Schweiger-H-G", "name": { "family": "Schweiger", "given": "H. G." } }, { "id": "Vogt-P-K", "name": { "family": "Vogt", "given": "P. K." } }, { "id": "Zinkernagel-R", "name": { "family": "Zinkernagel", "given": "R." } } ] }, "doi": "10.1007/978-3-642-69159-1", "resource_type": "book_section", "pub_year": "1983", "author_list": "Strauss, Ellen G. and Strauss, James H." } ]