Seth B. Roberts scite author profile

In linkage studies, independent replication of positive findings is crucial in order to distinguish between true positives and false positives. Recently, the following question has arisen in linkage studies of complex traits: at what distance do we reject the hypothesis that two location estimates in a genomic region represent the same gene? Here we attempt to address this question. Sampling distributions for location estimates were constructed by computer simulation. The conditions for simulation were chosen to reflect features of "typical" complex traits, including incomplete penetrance, phenocopies, and genetic heterogeneity. Our findings, which bear on what is considered a replication in linkage studies of complex traits, suggest that, even with relatively large numbers of multiplex families, chance variation in the location estimate is substantial. In addition, we report evidence that, for the conditions studied here, the standard error of a location estimate is a function of the magnitude of the expected LOD score.

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Neuroticism and self-esteem as indices of the vulnerability to major depression in women

Roberts

1999

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Genome-scale metabolic analysis of Clostridium thermocellum for bioethanol production

et al. 2010

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Background: Microorganisms possess diverse metabolic capabilities that can potentially be leveraged for efficient production of biofuels. Clostridium thermocellum (ATCC 27405) is a thermophilic anaerobe that is both cellulolytic and ethanologenic, meaning that it can directly use the plant sugar, cellulose, and biochemically convert it to ethanol. A major challenge in using microorganisms for chemical production is the need to modify the organism to increase production efficiency. The process of properly engineering an organism is typically arduous. Results: Here we present a genome-scale model of C. thermocellum metabolism, iSR432, for the purpose of establishing a computational tool to study the metabolic network of C. thermocellum and facilitate efforts to engineer C. thermocellum for biofuel production. The model consists of 577 reactions involving 525 intracellular metabolites, 432 genes, and a proteomic-based representation of a cellulosome. The process of constructing this metabolic model led to suggested annotation refinements for 27 genes and identification of areas of metabolism requiring further study. The accuracy of the iSR432 model was tested using experimental growth and by-product secretion data for growth on cellobiose and fructose. Analysis using this model captures the relationship between the reduction-oxidation state of the cell and ethanol secretion and allowed for prediction of gene deletions and environmental conditions that would increase ethanol production.

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Proteomic and network analysis characterize stage-specific metabolism in Trypanosoma cruzi

et al. 2009

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BackgroundTrypanosoma cruzi is a Kinetoplastid parasite of humans and is the cause of Chagas disease, a potentially lethal condition affecting the cardiovascular, gastrointestinal, and nervous systems of the human host. Constraint-based modeling has emerged in the last decade as a useful approach to integrating genomic and other high-throughput data sets with more traditional, experimental data acquired through decades of research and published in the literature.ResultsWe present a validated, constraint-based model of the core metabolism of Trypanosoma cruzi strain CL Brener. The model includes four compartments (extracellular space, cytosol, mitochondrion, glycosome), 51 transport reactions, and 93 metabolic reactions covering carbohydrate, amino acid, and energy metabolism. In addition, we make use of several replicate high-throughput proteomic data sets to specifically examine metabolism of the morphological form of T. cruzi in the insect gut (epimastigote stage).ConclusionThis work demonstrates the utility of constraint-based models for integrating various sources of data (e.g., genomics, primary biochemical literature, proteomics) to generate testable hypotheses. This model represents an approach for the systematic study of T. cruzi metabolism under a wide range of conditions and perturbations, and should eventually aid in the identification of urgently needed novel chemotherapeutic targets.

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Dexmedetomidine as an Adjuvant Analgesic for Intractable Cancer Pain

Roberts

Wozencraft

Coyne

et al. 2011

Journal of Palliative Medicine

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Dexmedetomidine (Precedex®) is an alpha-2 adrenergic agonist that can produce sedation and analgesia without causing respiratory depression. Its use has been described in patients undergoing mechanical ventilation, sedation for surgical and nonsurgical procedures, and prevention of withdrawal. We describe its use as an adjuvant analgesic in a patient with cancer pain refractory to multiple treatment modalities.

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Seth B. Roberts

Replication of Linkage Studies of Complex Traits: An Examination of Variation in Location Estimates

Neuroticism and self-esteem as indices of the vulnerability to major depression in women

Genome-scale metabolic analysis of Clostridium thermocellum for bioethanol production

Proteomic and network analysis characterize stage-specific metabolism in Trypanosoma cruzi

Dexmedetomidine as an Adjuvant Analgesic for Intractable Cancer Pain

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