Dean W. Goddette scite author profile

Three different QSAR methods, Comparative Molecular Field Analysis (CoMFA), classical QSAR (utilizing the CODESSA program), and Hologram QSAR (HQSAR), are compared in terms of their potential for screening large data sets of chemicals as endocrine disrupting compounds (EDCs). While CoMFA and CODESSA (Comprehensive Descriptors for Structural and Statistical Analysis) have been commercially available for some time, HQSAR is a novel QSAR technique. HQSAR attempts to correlate molecular structure with biological activity for a series of compounds using molecular holograms constructed from counts of sub-structural molecular fragments. In addition to using r2 and q2 (cross-validated r2) in assessing the statistical quality of QSAR models, another statistical parameter was defined to be the ratio of the standard error to the activity range. The statistical quality of the QSAR models constructed using CoMFA and HQSAR techniques were comparable and were generally better than those produced with CODESSA. It is notable that only 2D-connectivity, bond and elemental atom-type information were considered in building HQSAR models. Since HQSAR requires no conformational analysis or structural alignment, it is straightforward to use and lends itself readily to the rapid screening of large numbers of compounds. Among the QSAR methods considered, HQSAR appears to offer many attractive features, such as speed, reproducibility and ease of use, which portend its utility for prioritizing large numbers of potential EDCs for subsequent toxicological testing and risk assessment.

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Polymerization of actin and actin-like systems: evaluation of the time course of polymerization in relation to the mechanism

Frieden¹,

Goddette²

1983

Biochemistry

116

108

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The time course of protein polymerization of the nucleation--elongation type is examined by using a general computer-simulation solution. For a simple nucleation--elongation scheme, it is shown that the half-time of polymerization is not necessarily a good measure of the nucleus size as has been previously suggested [Oosawa, F., & Kasai, M. (1962) J. Mol. Biol. 4, 10-21] since, depending on the mechanism, the apparent nucleus size, measured by a ratio of half-times at two actin concentrations, may be either larger or smaller than the real size. Steady-state equations developed by Wegner and Engel [Wegner, A., & Engel, J. (1975) Biophys. Chem. 3, 215-225] present a good description of the time course of polymerization although they are somewhat inflexible with regard to allowing for different mechanisms. Some of the assumptions implicit in the development of these equations are discussed in terms of the effect of changing individual rate constants or dissociation constants on the time course of polymerization. In addition, these steady-state equations have been expanded to include the consequences of a reversible first-order conformational change prior to polymerization. It is shown that a conformational change as a prerequisite to polymerization lengthens the lag time of polymerization and, depending on the conditions, may slow the rate of polymerization. The question of fragmentation and of reannealling is examined, and it is noted that simple relationships to describe these processes may not be possible.(ABSTRACT TRUNCATED AT 250 WORDS)

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Mercuric reductase structural genes from plasmid R100 and transposon Tn501: functional domains of the enzyme

Misra

Brown

Haberstroh

et al. 1985

Gene

104

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Actin polymerization. The mechanism of action of cytochalasin D.

Goddette¹,

Frieden²

1986

Journal of Biological Chemistry

242

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The binding of cytochalasin D to monomeric actin

Goddette

Frieden

1985

Biochemical and Biophysical Research Communications

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Dean W. Goddette

Evaluation of Quantitative Structure−Activity Relationship Methods for Large-Scale Prediction of Chemicals Binding to the Estrogen Receptor

Polymerization of actin and actin-like systems: evaluation of the time course of polymerization in relation to the mechanism

Mercuric reductase structural genes from plasmid R100 and transposon Tn501: functional domains of the enzyme

Actin polymerization. The mechanism of action of cytochalasin D.

The binding of cytochalasin D to monomeric actin

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