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  • Book
    [edited by] Craig R. Asher, Brian P. Griffin.
    Summary: "Portable and clinically oriented, this full-color handbook is a unique and timely guide to valvular heart disease and percutaneous coronary interventions. A structured, standardized format helps you quickly find the information you need, while numerous illustrations and videos online provide visual support for key concepts and procedures. Key Features: Numerous tables, diagrams, and images highlight concepts, procedures, and devices related to valvular heart disease. Structured outline format lists landmark articles, key reviews, and relevant book chapters at the end of each chapter. Online chapter self-assessment questions and answers allow you to self-test and review key concepts. Authored by current or former Cleveland Clinic trainees and clinicians, as well as international experts in the field. Ideal for interventional cardiologists, fellows, cardiothoracic surgeons, anesthesiologists, cardiac technicians, sonographers, nurses, physician assistants and nurse practitioners. Your book purchase includes a complimentary download of the enhanced eBook for iOS, Android, PC & Mac."--Provided by publisher.
    Digital Access LWW Health Library 2018
  • Article
    Nikol'skaia II, Tediashvili MI, Chanishvili TG, Debov SS.
    Biokhimiia. 1978 Jul;43(7):1228-32.
    The nature and content of minor bases in DNA of 3 Shigella strains are investigated. DNAs from Shigella stutzeri 2, Sh. sonnei 1188 and Sh. sonnei 311 are found to contain 0.43, 0.56 and 0.45 mol.% of N6-methyladenine respectively. 5-methylcytosine (0.16 mol.%) is discovered in Sh. sonnei 311. Substrate specificity of adenine methylase from Sh. sonnei 1188 with respect to phage DNAs of different host modification is investigated. Recognition sites for guanine methylase of DDVI phage and for adenine methylase of Sh. sonnei 1188 turned to be different. DNA of DDII phage grown in Sh. stutzeri 2 cells does not accept methyl groups under the treatment with Sh. sonnei 1188 extracts, but it is methylated by Escherichia coli extract. Adenine methylases of Sh. sonnei 1188 and Sh. stutzeri 2 are suggested to be either the same enzyme, or enzymes, which recognition sites are partially overlapped.
    Digital Access Access Options