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Your search keyword '"Gifford, D.R."' showing total 11 results
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11 results on '"Gifford, D.R."'

1. The length of adaptive walks is insensitive to starting fitness in Aspergillus nidulans

Author

Gifford, D.R., Schoustra, S.E., and Kassen, R.K.

Subjects
adaptation, rugged landscapes, PE&RC, Laboratorium voor Erfelijkheidsleer, populations, beneficial mutations, rna virus, antibiotic-resistance, bacteriophage, escherichia-coli, term experimental evolution, Laboratory of Genetics, biological cost
Abstract

Adaptation involves the successive substitution of beneficial mutations by selection, a process known as an adaptive walk. Gradualist models of adaptation, which assume that all mutations are small relative to the distance to a fitness optimum, predict that adaptive walks should be longer when the founding genotype is less well adapted. More recent work modeling adaptation as a sequence of moves in phenotype or genotype space predicts, by contrast, much shorter adaptive walks irrespective of the fitness of the founding genotype. Here, we provide what is, to the best of our knowledge, the first direct test of these alternative models, measuring the length of adaptive walks in evolving lineages of fungus that differ initially in fitness. Contrary to the gradualist view, we show that the length of adaptive walks in the fungus Aspergillus nidulans is insensitive to starting fitness and involves just two mutations on average. This arises because poorly adapted populations tend to fix mutations of larger average effect than those of better-adapted populations. Our results suggest that the length of adaptive walks may be independent of the fitness of the founding genotype and, moreover, that poorly adapted populations can quickly adapt to novel environments

Published
2011

2. Data from: Model and test in a fungus of the probability that beneficial mutations survive drift

Author

Gifford, D.R., de Visser, Arjan, Wahl, L.M., Gifford, D.R., de Visser, Arjan, and Wahl, L.M.

Abstract

Determining the probability of fixation of beneficial mutations is critically important for building predictive models of adaptive evolution. Despite considerable theoretical work, models of fixation probability have stood untested for nearly a century. However, recent advances in experimental and theoretical techniques permit the development of models with testable predictions. We developed a new model for the probability of surviving genetic drift, a major component of fixation probability, for novel beneficial mutations in the fungus Aspergillus nidulans, based on the life-history characteristics of its colony growth on a solid surface. We tested the model by measuring the probability of surviving drift in 11 adapted strains introduced into wild-type populations of different densities. We found that the probability of surviving drift increased with mutant invasion fitness, and decreased with wild-type density, as expected. The model accurately predicted the survival probability for the majority of mutants, yielding one of the first direct tests of the extinction probability of beneficial mutations.

Published
2012

3. The Properties of Adaptive Walks in Evolving Populations of Fungus

Author

Schoustra, S.E., Bataillon, T., Gifford, D.R., Kassen, R.K., Schoustra, S.E., Bataillon, T., Gifford, D.R., and Kassen, R.K.

Abstract

The rarity of beneficial mutations has frustrated efforts to develop a quantitative theory of adaptation. Recent models of adaptive walks, the sequential substitution of beneficial mutations by selection, make two compelling predictions: adaptive walks should be short, and fitness increases should become exponentially smaller as successive mutations fix. We estimated the number and fitness effects of beneficial mutations in each of 118 replicate lineages of Aspergillus nidulans evolving for approximately 800 generations at two population sizes using a novel maximum likelihood framework, the results of which were confirmed experimentally using sexual crosses. We find that adaptive walks do indeed tend to be short, and fitness increases become smaller as successive mutations fix. Moreover, we show that these patterns are associated with a decreasing supply of beneficial mutations as the population adapts. We also provide empirical distributions of fitness effects among mutations fixed at each step. Our results provide a first glimpse into the properties of multiple steps in an adaptive walk in asexual populations and lend empirical support to models of adaptation involving selection towards a single optimum phenotype. In practical terms, our results suggest that the bulk of adaptation is likely to be accomplished within the first few steps

Published
2009

9. Do malpractice concerns, payment mechanisms, and attitudes influence test-ordering decisions?

Author

Birbeck, G.L, Gifford, D.R, Song, J., Belin, T.R, Mittman, B S., and Vickrey, B.G

Abstract

Greater understanding is needed of nonclinical factors that determine neurologists’ decisions to order tests. The authors surveyed 595 US neurologists and utilized demographic information, attitude scales, and clinical scenarios to evaluate the influence of nonclinical factors on test-ordering decisions. Greater test reliance, higher malpractice concerns, and receiving reimbursement for testing were all associated with a higher likelihood of test ordering. These findings have implications for training needs and suggest malpractice worries may inflate health care costs.

Published
2004
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