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, 2012 Biološki sustavi imaju strukturu i oblik, potrebna im je energija za gibanje u kojemu moraju očuvati svoj integritet, oni svojim oblikom i dinamikom moraju udovoljiti nizu fizikalnih zahtjeva. Ovi zahtjevi postavljaju se na skali veličine samog organizma, no budući da se struktura organizma izgrauje molekularno te da fizikalna svojstva materijala ...
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Biophysical and Molecular Targets
2013Cardiac arrhythmia is the leading cause of death in the Western world despite significant therapeutic improvements by surgical, interventional, and pharmacological approaches in the last decade. This chapter reviews the latest research in identifying drugs and targets with the aim of preventing the arrhythmia.
Mark Slevin +3 more
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Methods in Molecular Biophysics
2007Our knowledge of biological macromolecules and their interactions is based on the application of physical methods, ranging from classical thermodynamics to recently developed techniques for the detection and manipulation of single molecules. These methods, which include mass spectrometry, hydrodynamics, microscopy, diffraction and crystallography ...
Igor N. Serdyuk +2 more
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Biophysics of Molecular Chaperones
2023Molecular chaperones are critical to control protein quality in all living cells. Understanding chaperone function at the atomic level, and in particular its mode of interaction with client proteins, is crucial to understanding the fundamental roles chaperones play in biology.
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Methods in Molecular Biophysics
2017Current techniques for studying biological macromolecules and their interactions are based on the application of physical methods, ranging from classical thermodynamics to more recently developed techniques for the detection and manipulation of single molecules. Reflecting the advances made in biophysics research over the past decade, and now including
Nathan R. Zaccai +2 more
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Biophysical applications of molecular dynamics
Computer Physics Communications, 1987A survey is given of the computer simulation method of Molecular Dynamics, as applied to complex molecular systems of biological interest. Possibilities and limitations of the method are discussed, with special emphasis on the derivation of free energy from simulations.
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Fractals In Molecular Biophysics
1998Abstract Historically, science has strived to reduced complex problems to its simplest components, but more recently, it has recognized the merit of studying complex phenomena in situ. Fractal geometry is one such appealing approach, and this book discusses their application to complex problems in molecular biophysics.
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Problems of Molecular Biophysics
1970Let us summarize. This book is essentially devoted to the physics and biological functionality of the macromolecules of proteins and nucleic acids. Long ago, Schrodinger had already given a well-founded answer to a question which he asked himself; Why do organisms contain a large number of atoms? Let us now go somewhat further and ask another question;
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Molecular and Cellular Biophysics
2006Molecular and Cellular Biophysics provides advanced undergraduate and graduate students with a foundation in the basic concepts of biophysics. Students who have taken physical chemistry and calculus courses will find this book an accessible and valuable aid in learning how these concepts can be used in biological research.
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