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Restrictive Conditions (restrictive + condition)

Distribution by Scientific Domains
Life Sciences83%

Selected Abstracts

Adaptive regulation of cascade systems with nonlinear parameterization

INTERNATIONAL JOURNAL OF ROBUST AND NONLINEAR CONTROL, Issue 12 2002
Wei Lin
Abstract This article provides a solution to the problem of global adaptive regulation, for a class of nonlinearly parameterized cascade systems including feedback linearizable and minimum-phase systems with nonlinear parameterization. The solution is derived by using a novel parameter separation technique combined with a feedback domination design. We remove all the restrictive conditions previously imposed on the unknown parameters, such as linear parameterization or convex/concave parameterization conditions, which have been commonly assumed so far in the literature of nonlinear adaptive control. Copyright © 2002 John Wiley & Sons, Ltd. [source]

Adaptive evolution of baker's yeast in a dough-like environment enhances freeze and salinity tolerance

MICROBIAL BIOTECHNOLOGY, Issue 2 2010
Jaime Aguilera
Summary We used adaptive evolution to improve freeze tolerance of industrial baker's yeast. Our hypothesis was that adaptation to low temperature is accompanied by enhanced resistance of yeast to freezing. Based on this hypothesis, yeast was propagated in a flour-free liquid dough model system, which contained sorbitol and NaCl, by successive batch refreshments maintained constantly at 12°C over at least 200 generations. Relative to the parental population, the maximal growth rate (µmax) under the restrictive conditions, increased gradually over the time course of the experiment. This increase was accompanied by enhanced freeze tolerance. However, these changes were not the consequence of genetic adaptation to low temperature, a fact that was confirmed by prolonged selection of yeast cells in YPD at 12°C. Instead, the experimental populations showed a progressive increase in NaCl tolerance. This phenotype was likely achieved at the expense of others traits, since evolved cells showed a ploidy reduction, a defect in the glucose derepression mechanism and a loss in their ability to utilize gluconeogenic carbon sources. We discuss the genetic flexibility of S. cerevisiae in terms of adaptation to the multiple constraints of the experimental design applied to drive adaptive evolution and the technologically advantageous phenotype of the evolved population. [source]

Under restrictive conditions, can the widths of linear enamel hypoplasias be used as relative indicators of stress episode duration?

AMERICAN JOURNAL OF PHYSICAL ANTHROPOLOGY, Issue 2 2009
Amelia Hubbard
Abstract Linear enamel hypoplasia (LEH), a type of enamel defect reflecting nonspecific physiological stress, has traditionally been used by bioarchaeologists to assess human health. Initially, measurements of defect width were used to estimate the duration of stress episodes. More recently, methods of counting within-defect perikymata (enamel growth increments) were developed to more accurately assess duration. Because perikymata are often not continuously visible within defects, while widths can usually be measured, the primary purpose of this article was to determine if, under restrictive conditions, the widths of LEH defects might be used as relative indicators of stress episode duration. Using a set of dental replicas from the prehistoric Irene Mound (1150,1400 A.D.), this study also investigated potential sources of variation in defect widths and how often defect widths could be measured and within-defect perikymata counted. Of 120 defects, only 47 contained both measurable defect widths and total within-defect perikymata, while 79 had measurable defect widths. Regression analysis revealed that, for these 47 defects, defect widths were more strongly related to the total number of within-defect perikymata than they were to crown region or tooth type. Although wide prediction intervals indicated that a defect's width could not be used to predict the number of within-defect perikymata for an individual, narrower confidence intervals associated with hypothetical mean population widths suggested that mean defect widths might be used to rank populations in terms of relative average stress episode duration. Am J Phys Anthropol 2009. © 2008 Wiley-Liss, Inc. [source]

Mature monomeric forms of Hop stunt viroid resist RNA silencing in transgenic plants

THE PLANT JOURNAL, Issue 6 2007
G. Gómez
Summary Viroids, small non-coding pathogenic RNAs, are able to induce RNA silencing, a phenomenon that has been associated with the pathogenesis and evolution of these small RNAs. It has been recently suggested that viroids may resist this plant defense mechanism. However, the simultaneous degradation of non-replicating full-length viroid RNA, and the resistance of mature forms of viroids to RNA silencing, have not been experimentally demonstrated. Transgenic Nicotiana benthamiana plants expressing a dimeric form of Hop stunt viroid (HSVd) that have the capability to cleave and circularize this viroid RNA were used to address this question. A reporter construct, consisting of a full-length HSVd RNA fused to GFP-mRNA, was agroinfiltrated in these plants and its expression was suppressed. Interestingly, both circular and linear HSVd molecules were stable and able to traffic through grafts in these restrictive conditions, indicating that the mature forms of HSVd are able, in some way, to resist the RNA-silencing mechanism. The observation that a full-length HSVd RNA fused to GFP-mRNA, but not circular and/or linear viroid forms, was fully susceptible to RNA degradation strongly suggests that structures adopted by the free mature monomer protect the pathogenesis-associated forms of the viroid from RNA silencing. [source]

Identification of regulatory pathways involved in the reacquisition of root growth after salt stress in Medicago truncatula

THE PLANT JOURNAL, Issue 1 2007
Francisco Merchan
Summary Root growth and function are determined by the action of environmental stresses through specific genes that adapt root development to these restrictive conditions. We have defined in vitro conditions affecting the growth and recovery of Medicago truncatula roots after a salt stress. A dedicated macroarray containing 384 genes, based on a large-scale subtractive hybridization approach, was constructed and used to analyze gene expression during salt stress and recovery of root growth from this stress. Several potential regulatory genes were identified as being linked to this recovery process: a novel RNA-binding protein, a small G-protein homologous to ROP9, a receptor-like kinase, two TF IIIA-like and an AP2-like transcription factors (TF), MtZpt2-1, MtZpt2-2 and MtAp2, and a histidine kinase associated with cytokinin transduction pathways. The two ZPT2-type TFs were also rapidly induced by cold stress in roots. By analyzing transgenic M. truncatula plants showing reduced expression levels of both TFs and affected in their capacity to recover root growth after a salt stress, we identified potential target genes that were either activated or repressed in these plants. Overexpression of MtZpt2-1 in roots conferred salt tolerance and affected the expression of three putative targets in the predicted manner: a cold-regulated A (CORA) homolog, a flower-promoting factor (FPF1) homolog and an auxin-induced proline-rich protein (PRP) gene. Hence, regulatory networks depending on TFIIIA-like transcription factors are involved in the control of root adaptation to salt stress. [source]