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Biological molecule

Human growth hormone is a very complex molecule biologically. Several diverse biological activities such as anaboHc, insulin-like, diabetogenic, and lactogenic activities have been ascribed to hGH, which also appears to promote water and salt retention. An in-depth discussion of these activities may be found in several excellent reviews available in the Hterature (34—36). [Pg.196]

Harding, Stephen E. 1997b. The Viscosity Intrinsic of Biological Macromolecules. Progress in Measurement, Interpretation and Application to Structure in Dilute Solution. Progress in Biophysical Molecules Biological 68, 207-262. [Pg.113]

Identification of targets (genes, pathways, molecules, biologies, etc.)... [Pg.368]

Is the externally commercially produced molecule biologically equivalent to the naturally occurring one ... [Pg.241]

Mesophase materials are possible for all three classes of molecules. Biological mesophases were already discovered in the middle of the 19th Century. Reinitzer later described the special two-stage melting of cholesteryl benzoate. These materials were then named liquid crystals by Lehmann in 1904 5). Small molecule mesophase materials will be referred to from time to time in this review as reference materials. [Pg.3]

Littlewood, D.T.J., Rohde, K. and Clough, K.A. (1999b) The interrelationships of all major groups of Platyhelminthes phylogenetic evidence from morphology and molecules. Biological Journal of the Linnean Society 66, 75-114. [Pg.34]

The simultaneous combination of the all three aforementioned techniques allows for a precise control over the structure of materials at several scales [52]. One of the most useful characteristics of molecular self-assembly is that it can take place simultaneously at multiple scales, producing highly hierarchical structures. This allows for the programmed organization of molecules, biological structures, and nanoparticles in the final architecture of the material in a bottom-up fashion [5],... [Pg.59]

Besides synthetic polymers and small molecules, biological or bioactive species are used in the functionalization of carbon nanotubes not only for water solubility but also enhanced biocompatibilities and biorecognition capabilities. Various proteins, DNAs, and carbohydrates have been covalently or noncovalently functionalized with carbon nanotubes, producing highly aqueous stable and biocompatible... [Pg.200]

Comparison of Preclinical Development Programs for Small Molecules (Drugs/Pharmaceuticals) and Large Molecules (Biologics/Biopharmaceuticals) Studies, Timing, Materials, and Costs... [Pg.125]

Small Molecule-Biological Target Interactions, Tool to Study Small Molecules to Elucidate Biological Eunction... [Pg.585]

Development of Nanocrystal Molecules for Plasmon Rulers and Single Molecule Biological Imaging... [Pg.175]

Protease Breaks down protein molecules Biological wash powders for removal of blood and gravy stains, etc. [Pg.238]

Small-volume injectables can be therapeutic injections, ophthalmics, diagnostics, radiopharmaceuticals, or allergenic extracts. The active ingredients can be intended for human or animal therapy and can be small molecules, proteins and other large molecules, biologies, vaccines, monoclonal antibodies, antisense oligonucleotides, and, in the future, genes. [Pg.1266]

Typical composition Pure small molecules Biological or small active molecules with excipients Pure small molecules or composites with polymers... [Pg.3572]

Some of the boron-contaiifing molecules biologically active are reported in Figure 15.70. Some boronic analogs of amino acids were prepared as chymotrypsine and elastase... [Pg.332]

Barbituric acid has two active hydrogen atoms at the 5-position which can be replaced by various substituents to make the molecule biologically active.229-233 The introduction of simple alkyl substituents into this position... [Pg.263]


See other pages where Biological molecule is mentioned: [Pg.151]    [Pg.314]    [Pg.69]    [Pg.173]    [Pg.359]    [Pg.111]    [Pg.406]    [Pg.47]    [Pg.8]    [Pg.275]    [Pg.84]    [Pg.116]    [Pg.128]    [Pg.60]    [Pg.75]    [Pg.47]    [Pg.192]    [Pg.473]    [Pg.578]    [Pg.300]    [Pg.883]    [Pg.47]    [Pg.229]    [Pg.119]    [Pg.81]    [Pg.15]    [Pg.206]    [Pg.5]    [Pg.507]    [Pg.900]    [Pg.319]    [Pg.321]   
See also in sourсe #XX -- [ Pg.51 ]

See also in sourсe #XX -- [ Pg.310 ]




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A biologically active molecule

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Biologic molecules

Biologic molecules

Biologic molecules cytochrome

Biologic systems chiral molecules

Biological Activity of Target Molecules

Biological macro molecules

Biological molecule Subject

Biological molecule conformations

Biological molecule identification

Biological molecule structural characterization

Biological molecules and structures

Biological molecules spectral analysis

Biological molecules stereoisomers

Biological molecules, carbohydrates

Biological molecules, containing metals

Biological molecules, design

Biological molecules, proton

Biological molecules, proton spectroscopy

Biological molecules, thiols

Biological processes chiral molecules

Biological relevance of micelle formation by drug molecules

Biologically active molecule

Biologically active molecules, nickel-catalyzed

Biologically active molecules, synthesis

Biologically relevant molecules

Biologies and small molecules

Biosensors incorporating biological molecule

Chemistry of Biological Molecules

Chiral molecules biological sampling

Conformational change biological molecules

Covalent bonds biologic molecules stabilized

Cu NPs Capped by Cysteine, Oleic Acid and Other Small Molecules with Biological Relevance

Designs of Natural Products or Possible Biologically Active Molecules

Detection of Single Biological Molecules

Development from biologically active molecules

Drug biologically active molecule

Electrochemistry of biological molecules

Electron Affinities of Biological Molecules from Reduction Potentials

Enantiomers Can Be Distinguished by Biological Molecules

Factors Affecting Hydrogen-Deuterium Exchange of Biological Molecules

Historical Overview of the CHARMM Drude Polarizable Force Field for Small Molecules and Biological Polymers

Hydrogen Bonds in Biological Molecules

Hydrogen bonding in biological molecules

Imidazole molecule, biological relevance

Metal Complexation with Biological Molecules

Metal Ions in Proteins and Biological Molecules

Molecular biology techniques molecules

NMR STUDIES OF BIOLOGICALLY IMPORTANT MOLECULES

Natural Fluorescence Techniques for Monitoring the Membrane Processing of Biological Molecules

Natural Products and Small Biological Molecules

Optofluidic Manipulation of Biological Molecules

Other Fatty Biological Molecules

PASP Synthesis in the Library Production of Biologically Active Small Molecules

Patterning of biological molecules

Pharmaceutical applications, high-sensitivity biological molecules

Porphyrins and Related Molecules of Biological Importance

Protein Targeting with Small Molecules: Chemical Biology Techniques and Applications

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Reactions of biologically important molecules

Small Biologically Active Molecules

Small Molecules as Probes for Biological Processes

Small Molecules or Ions of Biological Interest

Small molecule drug discovery systems biology

Small molecule imaging biological applications

Small molecule-protein interaction chemical biology based

Solid State Conformations of Drugs and Biologically Active Molecules

Spectral Characteristics of Biologically Significant Molecules

Substances of which both ion and molecule play a part in the biological action

Synthesis of Biological Molecules

Synthesis of Biologically Active Molecules

Synthesis of Biologically Interesting Molecules

Synthesis of Biologically Relevant Molecules

Synthetic Methods for Biologically Active Molecules: Exploring the Potential of Bioreductions, First Edition

Systems biology, small molecule drug

Systems biology, small molecule drug development

Using Small Molecules to Unravel Biological Mechanisms

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