Learning in a gene technology laboratory with educational focus: Results of a teaching unit with authentic experiments

Scharfenberg, Franz-Josef; Bogner, Franz X.; Klautke, Siegfried

doi:10.1002/bmb.1

Cited by 50 publications

(41 citation statements)

References 39 publications

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“…Instead of simply offering a traditional lecture-based course to address this, we felt a more effective route would be to provide students with a hands-on opportunity to participate in bioinformatics research [2][3][4]. Hands-on learning strategies primarily follow three different models.…”

Section: Introductionmentioning

confidence: 99%

“On the job” learning: A bioinformatics course incorporating undergraduates in actual research projects and manuscript submissions

Smith

Harris

Lopez

et al. 2015

Biochem Molecular Bio Educ

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The sequencing of whole genomes and the analysis of genetic information continues to fundamentally change biological and medical research. Unfortunately, the people best suited to interpret this data (biologically trained researchers) are commonly discouraged by their own perceived computational limitations. To address this, we developed a course to help alleviate this constraint. Remarkably, in addition to equipping our undergraduates with an informatic toolset, we found our course design helped prepare our students for collaborative research careers in unexpected ways. Instead of simply offering a traditional lecture-or laboratorybased course, we chose a guided inquiry method, where an instructor-selected research question is examined by students in a collaborative analysis with students contributing to experimental design, data collection, and manuscript reporting. While students learn the skills needed to conduct bioinformatic research throughout all sections of the course, importantly, students also gain experience in working as a team and develop important communication skills through working with their partner and the class as a whole, and by contributing to an original research article. Remarkably, in its first three semesters, this novel computational genetics course has generated 45 undergraduate authorships across three peer-reviewed articles. More importantly, the students that took this course acquired a positive research experience, newfound informatics technical proficiency, unprecedented familiarity with manuscript preparation, and an earned sense of achievement. Although this course deals with analyses of genetic systems, we suggest the basic concept of integrating actual research projects into a 16-week undergraduate course could be applied to numerous other research-active academic fields. V C 2015 by The International Union of Biochemistry and Molecular Biology, 43(3):154-161, 2015.

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Section: Introductionmentioning

confidence: 99%

“On the job” learning: A bioinformatics course incorporating undergraduates in actual research projects and manuscript submissions

Smith

Harris

Lopez

et al. 2015

Biochem Molecular Bio Educ

View full text Add to dashboard Cite

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“…We took the sum-scores of KT1 (pretest; applied one week before the lesson) as indicators of students' previous knowledge. A weighted difference between sum-scores of KT2/3 and KT1 (Scharfenberg, Bogner, & Klautke, 2007) yielded short-term/long-term cognitive achievement scores. For instance, we calculated long-term cognitive achievement scores as follows:…”

Section: Knowledge Tests As Instrument To Value Effectiveness Of the mentioning

confidence: 99%

Towards Cognitive Load Theory as Guideline for Instructional Design in Science Education

Meissner

Bogner

2013

WJE

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We applied cognitive load theory in an heuristic out-of-school science lesson. The lesson comprises experiments concerning major attributes of NaCl and was designed for 5 th to 8 th grade students. Our interest focused on wether cognitive load theory provides sufficient guidelines for instructional design in the field of heuristic science education. We extracted student clusters derived from pre-knowledge and learning success. We characterised students, based on cognitive achievement, mental effort, and instructional efficiency. Cluster analyses revealed three student clusters with quite satisfying results. Two further clusters showed improvable results, two showed no learning success, which may point to difficulties in coping with the learning setting. Motivational characterisation will refine the results, and may confirm starting points to advance cognitive load theory in heuristic science education.

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“…Our own research has shown that students often have very little experience in independently conducting experiments at school (7). One potential cause may be resource limitations due to financial restrictions.…”

Section: Introductionmentioning

confidence: 99%

Agar Plates Made from Common Supermarket Substances and Bacillus subtilis Natto as an Inexpensive Approach to Microbiology Education

Scharfenberg

Marquardt

2015

J Microbiol Biol Educ.

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To address the possible limitations that financial restrictions may have on students’ independent experimentation at school, we developed and implemented an inexpensive approach for basic microbiology education. We describe four nutrient agars consisting only of everyday substances available from the supermarket or online that we developed to replace standard agars and specific agars. Additionally, we selected Bacillus subtilis natto as an example of a pure-culture species. Our tip first reports the four supermarket-substance agar variants; second, it suggests utilizing them to introduce basic microbiological techniques; and third, it introduces B. subtilis natto in the context of the antibacterial effects of antibiotics as well as of supermarket products which students can bring to class from home. We implemented our approach in microbiology education at school as well as in pre-service teacher education and in in-service teacher professional development courses at our university. Finally, our paper provides worksheets for all the experiments. Editor's Note: The ASM advocates that students must successfully demonstrate the ability to explain and practice safe laboratory techniques. For more information, read the laboratory safety section of the ASM Curriculum Recommendations: Introductory Course in Microbiology and the Guidelines for Biosafety in Teaching Laboratories, available at www.asm.org. The Editors of JMBE recommend that adopters of the protocols included in this article follow a minimum of Biosafety Level 1 practices. If the soil plates described in the activity are opened, a minimum of Biosafety Level 2 is required.

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Learning in a gene technology laboratory with educational focus: Results of a teaching unit with authentic experiments

Cited by 50 publications

References 39 publications

“On the job” learning: A bioinformatics course incorporating undergraduates in actual research projects and manuscript submissions

“On the job” learning: A bioinformatics course incorporating undergraduates in actual research projects and manuscript submissions

Towards Cognitive Load Theory as Guideline for Instructional Design in Science Education

Agar Plates Made from Common Supermarket Substances and Bacillus subtilis Natto as an Inexpensive Approach to Microbiology Education

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