Results 251 to 260 of about 4,020,279 (308)
TinkerModeller: An Efficient Tool for Building Biological Systems in Tinker Simulations. [PDF]
J Chem Theory ComputWang X, Liu H, Li Y, Li J, Li WL.
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Network analysis of multivariate time series data in biological systems: methods and applications. [PDF]
Brief BioinformMei H, Wang Z, Yang H, Li X, Xu Y.
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KEGG: biological systems database as a model of the real world. [PDF]
Nucleic Acids ResKanehisa M +4 more
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New England Journal of Medicine, 1977
IN this paper we marshal the facts that are available on the properties of water molecules found in cellular and subcellular materials.
I D, Kuntz, A, Zipp
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IN this paper we marshal the facts that are available on the properties of water molecules found in cellular and subcellular materials.
I D, Kuntz, A, Zipp
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The biological integration system
Proceedings of the 5th ACM international workshop on Web information and data management, 2003The access and exploitation of integrated Web data repositories and applications is critical for life science. Biologists design protocols that typically rely on complex query pipelines accessing various biological Web resources (data sources and tools) to constitute data sets for analysis and mining.
Zoé Lacroix, Omar Boucelma, Mehdi Essid
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Tungsten in biological systems
FEMS Microbiology Reviews, 1996Tungsten (atomic number 74) and the chemically analogous and very similar metal molybdenum (atomic number 42) are minor yet equally abundant elements on this planet. The essential role of molybdenum in biology has been known for decades and molybdoenzymes are ubiquitous.
A, Kletzin, M W, Adams
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Oscillations in biological systems
Biosystems, 1970Abstract In this paper an attempt is made to illustrate that lower frequency oscillations — in metabolic processes 3$¯seen at intracellular levels and at tissue and entire organism levels are similarly related; i.e., that there is a regularization of the signals from many millions of cells into a few integrated signals in the overall system.
S Z, Cardon, A S, Iberall
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Quarterly Reviews of Biophysics, 1985
Chaos is a widespread and easily recognizable phenomenon that hardly anybody took notice of until recently. The reason may be that chaos has something profoundly counterintuitive about it. It will not fit easily into any familiar cause–effect frame. The best introduction to chaos is by the way of an example. Consider a leaking faucet (Shaw, 1984). When
Olsen, Lars Folke, Degn, Hans
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Chaos is a widespread and easily recognizable phenomenon that hardly anybody took notice of until recently. The reason may be that chaos has something profoundly counterintuitive about it. It will not fit easily into any familiar cause–effect frame. The best introduction to chaos is by the way of an example. Consider a leaking faucet (Shaw, 1984). When
Olsen, Lars Folke, Degn, Hans
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Sialidases in biological systems.
Die Pharmazie, 2010Sialidases are very common in biological systems. They are found particularly in diverse virus families and bacteria, but also in protozoa, some invertebrates and mammalian. The enzymes differ in their biochemical properties, e.g., kinetics, binding affinity or substrate preference. Nevertheless, they have conserved domains and structural similarities.
Melzig, M. F., Schwerdtfeger, S. M.
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