Extracting Ramachandran torsional angle distributions from 2D NMR data using Tikhonov regularization /

Solid state nuclear magnetic resonance (NMR) spectroscopy is a powerful technique for studying structural and dynamical properties of disordered and partially ordered materials, such as glasses, polymers, liquid crystals, and biological materials. In particular, twodimensional( 2D) NMR methods such as ^^C-^^C correlation spectroscopy under the magicangle- spinning (MAS) conditions have been used to measure structural constraints on the secondary structure of proteins and polypeptides. Amyloid fibrils implicated in a broad class of diseases such as Alzheimer's are known to contain a particular repeating structural motif, called a /5-sheet. However, the details of such structures are poorly understood, primarily because the structural constraints extracted from the 2D NMR data in the form of the so-called Ramachandran (backbone torsion) angle distributions, g{^,'4)), are strongly model-dependent. Inverse theory methods are used to extract Ramachandran angle distributions from a set of 2D MAS and constant-time double-quantum-filtered dipolar recoupling (CTDQFD) data. This is a vastly underdetermined problem, and the stability of the inverse mapping is problematic. Tikhonov regularization is a well-known method of improving the stability of the inverse; in this work it is extended to use a new regularization functional based on the Laplacian rather than on the norm of the function itself. In this way, one makes use of the inherently two-dimensional nature of the underlying Ramachandran maps. In addition, a modification of the existing numerical procedure is performed, as appropriate for an underdetermined inverse problem. Stability of the algorithm with respect to the signal-to-noise (S/N) ratio is examined using a simulated data set. The results show excellent convergence to the true angle distribution function g{(j),ii) for the S/N ratio above 100.

A dimensional analysis of the benzylic hydroxylase active site in mortierella isabellina

The spatial limits of the active site in the benzylic hydroxylase enzyme of the fungus Mortierella isabellina were investigated. Several molecular probes were used in incubation experiments to determine the acceptability of each compound by this enzyme. The yields of benzylic alcohols provided information on the acceptability of the particular compound into the active site, and the enantiomeric excess values provided information on the "fit" of acceptable substrates. Measurements of the molecular models were made using Cambridge Scientific Computing Inc. CSC Chem 3D Plus modeling program. i The dimensional limits of the aromatic binding pocket of the benzylic hydroxylase were tested using suitably substituted ethyl benzenes. Both the depth (para substituted substrates) and width (ortho and meta substituted substrates) of this region were investigated, with results demonstrating absolute spatial limits in both directions in the plane of the aromatic ring of 7.3 Angstroms for the depth and 7.1 Angstroms for the width. A minimum requirement for the height of this region has also been established at 6.2 Angstroms. The region containing the active oxygen species was also investigated, using a series of alkylphenylmethanes and fused ring systems in indan, 1,2,3,4-tetrahydronaphthalene and benzocycloheptene substrates. A maximum distance of 6.9 Angstroms (including the 1.5 Angstroms from the phenyl substituent to the active center of the heme prosthetic group of the enzyme) has been established extending directly in ii front of the aromatic binding pocket. The other dimensions in this region of the benzylic hydroxylase active site will require further investigation to establish maximum allowable values. An explanation of the stereochemical distributions in the obtained products has also been put forth that correlates well with the experimental observations.

Exact Nonparametric Two-Sample Homogeneity Tests for Possibly Discrete Distributions.

In this paper, we study several tests for the equality of two unknown distributions. Two are based on empirical distribution functions, three others on nonparametric probability density estimates, and the last ones on differences between sample moments. We suggest controlling the size of such tests (under nonparametric assumptions) by using permutational versions of the tests jointly with the method of Monte Carlo tests properly adjusted to deal with discrete distributions. We also propose a combined test procedure, whose level is again perfectly controlled through the Monte Carlo test technique and has better power properties than the individual tests that are combined. Finally, in a simulation experiment, we show that the technique suggested provides perfect control of test size and that the new tests proposed can yield sizeable power improvements.

Rank Regressions, Wage Distributions and the Gender Gap.

In this paper, we model the interactions between the distribution of male and female wages under the assumption that any change in the wage distribution of women must be offset by an opposite change in the wage distribution of men.

Harsanyi’s Social Aggregation Theorem : A Multi-Profile Approach with Variable-Population Extensions

This paper provides new versions of Harsanyi’s social aggregation theorem that are formulated in terms of prospects rather than lotteries. Strengthening an earlier result, fixed-population ex-ante utilitarianism is characterized in a multi-profile setting with fixed probabilities. In addition, we extend the social aggregation theorem to social-evaluation problems under uncertainty with a variable population and generalize our approach to uncertain alternatives, which consist of compound vectors of probability distributions and prospects.

Exact Multivariate Tests of Asset Pricing Models with Stable Asymmetric Distributions

In this paper, we propose exact inference procedures for asset pricing models that can be formulated in the framework of a multivariate linear regression (CAPM), allowing for stable error distributions. The normality assumption on the distribution of stock returns is usually rejected in empirical studies, due to excess kurtosis and asymmetry. To model such data, we propose a comprehensive statistical approach which allows for alternative - possibly asymmetric - heavy tailed distributions without the use of large-sample approximations. The methods suggested are based on Monte Carlo test techniques. Goodness-of-fit tests are formally incorporated to ensure that the error distributions considered are empirically sustainable, from which exact confidence sets for the unknown tail area and asymmetry parameters of the stable error distribution are derived. Tests for the efficiency of the market portfolio (zero intercepts) which explicitly allow for the presence of (unknown) nuisance parameter in the stable error distribution are derived. The methods proposed are applied to monthly returns on 12 portfolios of the New York Stock Exchange over the period 1926-1995 (5 year subperiods). We find that stable possibly skewed distributions provide statistically significant improvement in goodness-of-fit and lead to fewer rejections of the efficiency hypothesis.

Distributions de salaire et participation au marché du travail.

Rapport de recherche

Rank Regressions, Wage Distributions and the Gender Gap.

In this paper, we model the interactions between the distribution of male and female wages under the assumption that any change in the wage distribution of women must be offset by an opposite change in the wage distribution of men.

Caractérisation de la composante toxicocinétique du facteur d’ajustement pour la variabilité interindividuelle utilisé en analyse du risque toxicologique

Un facteur d’incertitude de 10 est utilisé par défaut lors de l’élaboration des valeurs toxicologiques de référence en santé environnementale, afin de tenir compte de la variabilité interindividuelle dans la population. La composante toxicocinétique de cette variabilité correspond à racine de 10, soit 3,16. Sa validité a auparavant été étudiée sur la base de données pharmaceutiques colligées auprès de diverses populations (adultes, enfants, aînés). Ainsi, il est possible de comparer la valeur de 3,16 au Facteur d’ajustement pour la cinétique humaine (FACH), qui constitue le rapport entre un centile élevé (ex. : 95e) de la distribution de la dose interne dans des sous-groupes présumés sensibles et sa médiane chez l’adulte, ou encore à l’intérieur d’une population générale. Toutefois, les données expérimentales humaines sur les polluants environnementaux sont rares. De plus, ces substances ont généralement des propriétés sensiblement différentes de celles des médicaments. Il est donc difficile de valider, pour les polluants, les estimations faites à partir des données sur les médicaments. Pour résoudre ce problème, la modélisation toxicocinétique à base physiologique (TCBP) a été utilisée pour simuler la variabilité interindividuelle des doses internes lors de l’exposition aux polluants. Cependant, les études réalisées à ce jour n’ont que peu permis d’évaluer l’impact des conditions d’exposition (c.-à-d. voie, durée, intensité), des propriétés physico/biochimiques des polluants, et des caractéristiques de la population exposée sur la valeur du FACH et donc la validité de la valeur par défaut de 3,16. Les travaux de la présente thèse visent à combler ces lacunes. À l’aide de simulations de Monte-Carlo, un modèle TCBP a d’abord été utilisé pour simuler la variabilité interindividuelle des doses internes (c.-à-d. chez les adultes, ainés, enfants, femmes enceintes) de contaminants de l’eau lors d’une exposition par voie orale, respiratoire, ou cutanée. Dans un deuxième temps, un tel modèle a été utilisé pour simuler cette variabilité lors de l’inhalation de contaminants à intensité et durée variables. Ensuite, un algorithme toxicocinétique à l’équilibre probabiliste a été utilisé pour estimer la variabilité interindividuelle des doses internes lors d’expositions chroniques à des contaminants hypothétiques aux propriétés physico/biochimiques variables. Ainsi, les propriétés de volatilité, de fraction métabolisée, de voie métabolique empruntée ainsi que de biodisponibilité orale ont fait l’objet d’analyses spécifiques. Finalement, l’impact du référent considéré et des caractéristiques démographiques sur la valeur du FACH lors de l’inhalation chronique a été évalué, en ayant recours également à un algorithme toxicocinétique à l’équilibre. Les distributions de doses internes générées dans les divers scénarios élaborés ont permis de calculer dans chaque cas le FACH selon l’approche décrite plus haut. Cette étude a mis en lumière les divers déterminants de la sensibilité toxicocinétique selon le sous-groupe et la mesure de dose interne considérée. Elle a permis de caractériser les déterminants du FACH et donc les cas où ce dernier dépasse la valeur par défaut de 3,16 (jusqu’à 28,3), observés presqu’uniquement chez les nouveau-nés et en fonction de la substance mère. Cette thèse contribue à améliorer les connaissances dans le domaine de l’analyse du risque toxicologique en caractérisant le FACH selon diverses considérations.