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Functional interaction

The elastomer compression coupling provides both tuning and damp ing to the system. In some cases, the two functions interact, that is, the stiffness K or damping C may be a function of the other. The elastomers are torsionally softer than the metal-metal resilients, but will introduce higher levels of damping into the system. [Pg.398]

Zhong, H., Guerrero, S. W., Esbenshade, T. A., and Minneman, K. P. (1996). Inducible expression of 3 - and P2-adrenergic receptors in rat C6 glioma cells Functional interactions between closely related subtypes. Mol. Pharmacol. 50 175-184. [Pg.98]

As reviewed earlier in the section on the pharmacology of ethanol, several neurotransmitter systems appear to influence the reinforcing or discriminative stimulus effects of ethanol. Although these systems appear to function interactively in their influences on drinking behavior, the medications that have been employed to treat alcohol dependence affect neurotransmitter systems relatively selectively. Consequently, these systems will be discussed individually here. [Pg.22]

The Newns-Anderson approximation successfully accounts for the main features of bonding when an adsorbate approaches the surface of a metal and its wave functions interact with those of the metal. It can also be used to describe features of the dynamics in the scattering of ions, atoms and molecules on surfaces. In particular the neutralization of ions at surfaces is well understood in this framework. The subject is beyond the scope of this book and the reader is referred to the literature [J.K. N0rskov, J. Vac. Sci. Technol. 18 (1981) 420],... [Pg.242]

Waddington, JL (1989) Functional interactions between Di and D2 dopamine receptor systems their role in the regulation of psychomotor behaviour, putative mechanisms and clinical relevance. J. Psychopharm. 3 54-63. [Pg.162]

SUAUD L, LI J, JIANG Q, RUBENSTEIN R c and KLEYMAN T R (2002) Genisteiu restores functional interactions between Delta F508-CFTR and EnaC in Xenopus ooc)ites. J Biol Chem. Ill (11) 8928-33. [Pg.220]

E-IIs solubilized in detergent may exist in a self-associated state [41,44,45,49,50,52,54,101]. In the case of Il , dissociation led to a lower activity in the overall reaction indicating functional interaction between the subunits [52]. [Pg.160]

Selected chemokine receptors in CNS cells and functional interactions. Chapter 17, Fig. 1. [Pg.418]

Figure 6.3. Gene neighbor method for detecting functional interactions among proteins. Figure 6.3. Gene neighbor method for detecting functional interactions among proteins.
If two genes (white and black circles) are found as neighbors in several genomes, the encoded proteins are predicted to functionally interact. Figure adapted from Eisenberg etal. (2000). [Pg.79]

The reaction of tetraethynylplatinum derivatives with mercury dihalide in acetone affords complexes 156 and 157 in which the mercury centers are coordinated to two neighboring mercury alkynyl functionalities.194 195 In turn, each alkynyl functionality interacts with the mercury center in an 7]Z-fashion. For complexes 156 and 157, the resulting Hg-Cjp bonds, which range from 2.41 to 2.77 A, are longer than typical Hg-C cr-bonds but shorter that those observed in 154. In 156, the greater flexibility of the structure allows for the formation of shorter Hg-C(.r/>) bonds than in 157 (av. Hg-C(.r/>) = 2.52 A for 156 and 2.64A for 157). The formation of such complexes is not limited to the case of... [Pg.448]

Future studies in this field should focus on better understanding the biology of NP cells, the functional interactions between IVD components, and the pathobiol-ogy of the IDD process in humans, so that early non-surgical interventions can be tested. Use of adult stem cells pre-differentiated under physiologically relevant conditions on 3D scaffolds prior to implantation by minimally invasive procedures may prove most advantageous. [Pg.225]

A cyclization reaction involving a half-formed bridge in which alkyl halide functions interact with (initially) coordinated oxygen atoms is illustrated by [2.9] (Kluiber Sasso, 1970). The X-ray structure of the red paramagnetic nickel complex (65) indicates that the macrocycle coordi-... [Pg.31]

Ciruela, F Escriche, M., Burgueno, J., et al. (2001) Metabotropic glutamate la and adenosine Al receptors assemble into functional interacting complexes.. /. Biol. Chem. 276,18345-18351. [Pg.82]

Gines, S Hillion, J., Torvinen, M., et al. (2000) Dopamine D1 and adenosine A1 receptors form functionally interacting heteromeric complexes. Proc. Natl. Acad. Sci. USA 97, 8606-8611. [Pg.259]

Functional Interaction of Main and Accessory Olfactory Systems... [Pg.257]

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See also in sourсe #XX -- [ Pg.543 ]

See also in sourсe #XX -- [ Pg.2 ]

See also in sourсe #XX -- [ Pg.2 ]



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Aluminum interaction with functional groups

Apolipoproteins, functions receptor interactions

Basis functions interaction terms between

Basis functions, interaction site fluids

Bessel function interaction

Biomolecule-functionalized nanoparticles interaction with

Cation interaction with phosphine oxide functionalized

Chemical Interactions to the Adhesion Between Evaporated Metals and Functional Croups of Different Types at Polymer Surfaces

Chemical functionalities, interaction

Complementary functional/interactional

Complementary functional/interactional groups

Configuration Interaction wave function

Configuration interactions state functions

Density functional approaches interactions

Density functional theory interaction prediction

Density functional theory interactions

Density functional theory intermolecular interactions, electron

Density functional theory protein-ligand interactions

Density functionals covalent interactions

Density functionals noncovalent interactions

Description of Scoring Functions for Receptor-Ligand Interactions

Drug-receptor interactions functional group contributions

Electronic wave functions electrostatic interactions

Electrostatic potential, molecular interactive electronic density function

Energy Relations for Functional Groups and Their Interactions

Energy derivatives interaction wave functions

Full configuration interaction wave functions

Function interaction with antibodies

Functional Interaction of the Calcium Channel Subunits

Functional Interactions of PARP-1 with

Functional Interactions of PARP-1 with p53 and Genomic Integrity

Functional Interactions of PARP-1 with p53 in Apoptotic Cells

Functional Materials via Multiple Noncovalent Interactions

Functional groups dipole interactions

Functional groups drug-receptor interactions

Functional groups electrostatic interactions

Functional groups hydrophobic interactions

Functional groups inductive interactions

Functional groups interacting, local shapes

Functional groups interaction

Functional groups steric interactions

Functional monomer-template interactions

Functional monomers interactions

Functionalization and Solubilization of BN Nanotubes by Interaction with

General Interaction Properties Function descriptors

General Interaction Properties Function procedure

General interaction properties function

General interaction properties function GIPF)

Ground-state wave function interactions

Induction/dispersion interactions functional

Induction/dispersion interactions functionals

Interaction Potential and Partition Function

Interaction energy functions, poly

Interaction energy functions, poly(vinyl

Interaction function

Interaction of functional groups

Interaction potential wave functions

Interaction site fluids pair correlation functions

Interactions between Functional Elements

Interactions of Functional Dyes

Interactions transfer function

Interactive Functions and Algorithms

Interactive difference function

Interactive function

Interactive function

Ligand-receptor interaction-induced functional effects

Lymphocyte function-associated interactions

Multireference configuration interaction wave functions

Neutron-nucleus interaction function

Opioid-chemokine receptor interaction function

Pair correlation function, interaction site

Pair correlation function, interaction-induced

Pair interactions sequence-structure-function prediction

Partition functions intermolecular interaction, perturbative

Polar functional group interaction

Polarization functions interactions

Potential energy functions interactions)

Potential functions harmonic interaction

Potential functions nonbonded interactions

Purchasing interaction with other functions

Response equations interaction wave functions

Selectin-ligand interactions in lymphocyte function

Self-interaction-correction functional

Self-interaction-free functionals

Side Chain Functionalization Using Coulombic Interactions

Solvent-protein interactions functional roles

Steroid Molecular Structure, Protein Interaction and Biological Function

Structure, Function, and Interactions

The Interaction Function

The Role of Functional Groups in Drug-Receptor Interactions

The Strengths of Functional Group Contributions to Drug-Receptor Interactions

The scaling functions for purely electromagnetic interactions

Time-dependent density functional interacting electrons

Vibrational wave function interaction with rotation

Water interaction with functional groups

Wave-function based methods configuration interactions

Weak interactions. Generalized product functions

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