Raymond C. Baker scite author profile

This article discusses the process by which a questionnaire was developed specifically to measure attitude to shared learning. Over a three-year period the attitude questionnaire was developed and tested using pre-registration students who were engaged in a shared learning programme. These pre-registration students were from three professional groups, namely occupational therapy (OT), diagnostic radiography (DR), and therapeutic radiography (TR). While the study hypothesis was that shared learning would improve attitudes over the three-year period, the focus of this article is to discuss the process by which the research instrument was developed. The rationale for focusing on the process is a simple one. After a diligent literature search it was clear that there were no attitude questionnaires specific to attitude measurement in relation to shared learning. Thus without an already validated attitude to a shared learning questionnaire, it became imperative to create systematically a credible attitude measure of shared learning. The process centred on understanding how monadic scales are constructed and used to measure attitudes and perceptions of participants. Amongst a number of processes to be followed was the need also to check the reliability of the developed questionnaire. This was done using the Cronbach alpha coefficient. A Cronbach alpha coefficient of 0.7 was set as a minimum reliability requirement, which was duly satisfied. The outcome of this process was that it very useful to learn how to produce a suitable instrument to measure attitude to shared learning and to add in a small way to the range of attitude questionnaires available.

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Improving peppermint essential oil yield and composition by metabolic engineering

Lange

Mahmoud

Wildung

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

131

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Peppermint (Mentha × piperita L.) was transformed with various gene constructs to evaluate the utility of metabolic engineering for improving essential oil yield and composition. Oil yield increases were achieved by overexpressing genes involved in the supply of precursors through the 2C-methyl-D-erythritol 4-phosphate (MEP) pathway. Two-gene combinations to enhance both oil yield and composition in a single transgenic line were assessed as well. The most promising results were obtained by transforming plants expressing an antisense version of (+)-menthofuran synthase, which is critical for adjusting the levels of specific undesirable oil constituents, with a construct for the overexpression of the MEP pathway gene 1-deoxy-D-xylulose 5-phosphate reductoisomerase (up to 61% oil yield increase over wild-type controls with low levels of the undesirable side-product (+)-menthofuran and its intermediate (+)-pulegone). Elite transgenic lines were advanced to multiyear field trials, which demonstrated consistent oil yield increases of up to 78% over wild-type controls and desirable effects on oil composition under commercial growth conditions. The transgenic expression of a gene encoding (+)-limonene synthase was used to accumulate elevated levels of (+)-limonene, which allows oil derived from transgenic plants to be recognized during the processing of commercial formulations containing peppermint oil. Our study illustrates the utility of metabolic engineering for the sustainable agricultural production of high quality essential oils at a competitive cost.

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Raymond C. Baker

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Improving peppermint essential oil yield and composition by metabolic engineering

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