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101.
Gail Deuce 《British Journal of Special Education》2017,44(4):376-393
CHARGE syndrome, although a low incidence condition, is now recognised as a leading cause of congenital deafblindness among genetic conditions. Anecdotal reporting has suggested that learners with CHARGE syndrome are distinct from the wider deafblind population. This study investigates the education of learners with CHARGE syndrome, while also examining what the similarities and differences might be between this group of learners and the wider deafblind population. The findings of this study support the identification of potential learning characteristics of individuals with CHARGE syndrome, and also indicate that educational deafblind practice is applicable for this group of learners, although alternative or additional strategies may be required. Both commonalities and distinctions were found, but it was concluded that educationally there may be something unique and distinct in learners with this condition. 相似文献
102.
Campbell AM Ledbetter ML Hoopes LL Eckdahl TT Heyer LJ Rosenwald A Fowlks E Tonidandel S Bucholtz B Gottfried G 《CBE life sciences education》2007,6(2):109-118
The Genome Consortium for Active Teaching (GCAT) facilitates the use of modern genomics methods in undergraduate education. Initially focused on microarray technology, but with an eye toward diversification, GCAT is a community working to improve the education of tomorrow's life science professionals. GCAT participants have access to affordable microarrays, microarray scanners, free software for data analysis, and faculty workshops. Microarrays provided by GCAT have been used by 141 faculty on 134 campuses, including 21 faculty that serve large numbers of underrepresented minority students. An estimated 9480 undergraduates a year will have access to microarrays by 2009 as a direct result of GCAT faculty workshops. Gains for students include significantly improved comprehension of topics in functional genomics and increased interest in research. Faculty reported improved access to new technology and gains in understanding thanks to their involvement with GCAT. GCAT's network of supportive colleagues encourages faculty to explore genomics through student research and to learn a new and complex method with their undergraduates. GCAT is meeting important goals of BIO2010 by making research methods accessible to undergraduates, training faculty in genomics and bioinformatics, integrating mathematics into the biology curriculum, and increasing participation by underrepresented minority students. 相似文献
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