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Powerful Platform (powerful + platform)

Distribution by Scientific Domains
Life Sciences50%

Selected Abstracts

Spreadsheet-based interactive modules for control education

COMPUTER APPLICATIONS IN ENGINEERING EDUCATION, Issue 1 2010
Nourdine Aliane
Abstract In the last few years, spreadsheets have become a popular computational tool and a powerful platform for performing engineering calculations. The simplicity of spreadsheet programming in addition to their plotting capabilities, and other provided utilities, make them a powerful didactic tool. This paper describes the development of interactive tools based on Excel spreadsheets for basic control education. The motivation for developing these tools was to give students special learning modules focused on transmitting the essence of dynamics of systems to achieve an accurate mental model as well as helping them understand how feedback works. © 2009 Wiley Periodicals, Inc. Comput Appl Eng Educ 18: 166,174, 2010; Published online in Wiley InterScience (www.interscience.wiley.com); DOI 10.1002/cae.20221 [source]

Calibrating conservation: new tools for measuring success

CONSERVATION LETTERS, Issue 4 2008
Valerie Kapos
Abstract Conservation practitioners, policy makers, and donors agree that there is an urgent need to identify which conservation approaches are most likely to succeed in order to use more effectively the limited resources available for conservation. While recently developed standards of good practice in conservation are helpful, a framework for evaluation is needed that supports systematic analysis of conservation effectiveness. A conceptual framework and scorecard developed by the Cambridge Conservation Forum help to address common constraints to evaluating conservation success: unclear objectives, ineffective information management, the long time frames of conservation outcomes, scarcity of resources for evaluation, and lack of incentives for such evaluation. For seven major categories of conservation activity, the CCF tools help clarify conservation objectives and provide a standardized framework that is a useful basis for managing information about project outcomes and existing conservation experience. By identifying key outcomes that can predict conservation success and can be assessed in relatively short time frames, they help to make more efficient use of scarce monitoring and evaluation resources. With wide application, the CCF framework and evaluation tool can provide a powerful platform for drawing on the experience of past and ongoing conservation projects to identify quantitatively factors that contribute to conservation success. [source]

Identification of amplified and expressed genes in breast cancer by comparative hybridization onto microarrays of randomly selected cDNA clones

GENES, CHROMOSOMES AND CANCER, Issue 1 2002
Jeremy Clark
Microarray analysis using sets of known human genes provides a powerful platform for identifying candidate oncogenes involved in DNA amplification events but suffers from the disadvantage that information can be gained only on genes that have been preselected for inclusion on the array. To address this issue, we have performed comparative genome hybridization (CGH) and expression analyses on microarrays of clones, randomly selected from a cDNA library, prepared from a cancer containing the DNA amplicon under investigation. Application of this approach to the BT474 breast carcinoma cell line, which contains amplicons at 20q13, 17q11,21, and 17q22,23, identified 50 amplified and expressed genes, including genes from these regions previously proposed as candidate oncogenes. When considered together with data from microarray expression profiles and Northern analyses, we were able to propose five genes as new candidate oncogenes where amplification in breast cancer cell lines was consistently associated with higher levels of RNA expression. These included the HB01 histone acetyl transferase gene at 17q22,23 and the TRAP100 gene, which encodes a thyroid hormone receptor-associated protein coactivator, at 17q11,21. The results demonstrate the utility of this microarray-based CGH approach in hunting for candidate oncogenes within DNA amplicons. © 2002 Wiley-Liss, Inc. [source]

Single-Carbon-Atomic-Resolution Detection of Odorant Molecules using a Human Olfactory Receptor-based Bioelectronic Nose,

ADVANCED MATERIALS, Issue 1 2009
Tae Hyun Kim
Single-carbon-atomic-resolution detection of odorant molecules has been demonstrated using a human olfactory receptor-based bioelectric nose. Furthermore, since the human olfactory receptor is a G-protein-coupled receptor (GPCR), these sensor systems may be a new powerful platform for the development of new drugs and fragrances. [source]

A comprehensive framework for the evaluation of metacommunity structure

OIKOS, Issue 6 2010
Steven J. Presley
The metacommunity framework is a powerful platform for evaluating patterns of species distribution in geographic or environmental space. Idealized patterns (checkerboard, Clementsian, evenly spaced, Gleasonian and nested distributions) give the framework shape. Each pattern represents an area in a multidimensional continuum of metacommunity structures; however, the current approach to analysis of spatial structure of metacommunities is incomplete. To address this, we describe additional non-random structures and illustrate how they may be discerned via objective criteria. First, we distinguish three distinct forms of species loss in nested structures, which should improve identification of structuring mechanisms for nested patterns. Second, we define six quasi-structures that are consistent with the conceptual underpinnings of Clementsian, Gleasonian, evenly spaced and nested distributions. Finally, we demonstrate how combinations of structures at smaller spatial extents may aggregate to form Clementsian structure at larger extents. These refinements should facilitate the identification of best-fit patterns, associated structuring mechanisms, and informative scales of analysis and interpretation. This conceptual and analytical framework may be applied to network properties within communities (i.e. structure of interspecific interactions) and has broad application in ecology and biogeography. [source]

Expression of functional Candida antarctica lipase B in a cell-free protein synthesis system derived from Escherichia coli

BIOTECHNOLOGY PROGRESS, Issue 2 2009
Chang-Gil Park
Abstract This article reports the cell-free expression of functional Lipase B from Candida antarctica (CalB) in an Escherichia coli extract. Although most of the cell-free synthesized CalB was insoluble under conventional reaction conditions, the combined use of molecular chaperones led to the soluble expression of CalB. In addition, the functional enzyme was generated by applying the optimal redox potential. When examined using p -nitrophenyl palmitate as a substrate, the specific activity of the cell-free synthesized CalB was higher than that of the reference protein produced in Pichia pastoris. These results highlight the potential of cell-free protein synthesis technology as a powerful platform for the rapid expression, screening and analysis of industrially important enzymes. © 2009 American Institute of Chemical Engineers Biotechnol. Prog., 2009 [source]