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27 results on '"Biotechnology education"'

1. Integrating research into a molecular cloning course to address the evolving biotechnology landscape.

Author

Garcia CB, Chapman IF, Chen SH, Lazear E, Lentz TB, Williams C, Dums JT, Goller CC, and Robertson SD

Subjects
Animals, Calcium metabolism, Cloning, Molecular, Curriculum, Fluorescent Dyes chemistry, Humans, Proteins analysis, Students, Biotechnology education, Research
Abstract

The rapid development of molecular biotechnology presents a curricular challenge for educators trying to provide students with relevant coursework. A comprehensive biology education should also include opportunities for students to develop intellectual and technical skills through authentic research experiences. Integrating relevant and interesting research projects into their classes, however, can be a challenging task for instructors. To address these varied demands, we redesigned our existing molecular cloning course to incorporate an independent research project assessing calcium signaling. In the revised course, students use traditional and recombination-based cloning strategies to generate bacterial and mammalian expression vectors encoding CaMPARI, a novel fluorescent calcium indicator. Bacterially-expressed CaMPARI is used in protein quantification and purification assays. Students must also design their own research project evaluating the effect of chemotherapeutic agents on calcium signaling in a mammalian system. Revised and novel labs were designed to be modular, facilitating their integration into the course over 2 years. End-of-semester student evaluations were compared between years revealing a significant difference in students' perception of the course's difficulty between years. This change in attitude highlights potential pedagogical considerations that must be examined when introducing new material and activities into existing courses. Since calcium signaling is important for cellular process across diverse species, instructors may be able to develop research projects within their respective areas of interest. Integration of authentic research experiences into the curriculum is challenging; however, the framework described here provides a versatile structure that can be adapted to merge diverse instructor interests with evolving educational needs., (© 2020 International Union of Biochemistry and Molecular Biology.)

Published
2021
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2. All-around management of a fungal isolate obtained from cheese spoilage as an environmental source: Direct approach from an undergrad student to a biotechnological characterization.

Author

Ortiz Lechuga EG, Tovar Herrera OE, and Arévalo Niño K

Subjects
Biochemistry education, Humans, Hydrogen-Ion Concentration, Molecular Biology education, Students, Temperature, Universities, Biotechnology education, Cheese microbiology, Fungi isolation & purification, Research education
Abstract

In this work, we present the results of an undergrad student from the perspective of its first approach as a principal researcher in a project. In order to gain practical experience, one of the options for students that have interest in pursuing a postgraduate program corresponds to a research stay in a laboratory of their selected field conducting a project for a period of 6 months. In this particular project, a fungal sample was isolated from Parmesan cheese spoilage and its enzymatic activity evaluated. Using simple and standardized protocols, the student was capable of identifying a possible biotechnological application for the isolate by detecting and categorizing the lipolytic activity. Through microculture characterization in potato dextrose agar (PDA) the genus of the sample was determined as Penicillium and confirmed by molecular analysis of the ITS1 and ITS4 regions. In order to examine comprehensively the potential of the new isolate, the extracellular and intracellular enzymatic activities were analyzed as well as four methods of cell rupture. From these results, sonication was determined as the best technique with 211 U/L as a maximum lipolytic value. To finalize the evaluation of the sample, the student determined the optimal pH and temperature as well as the thermotolerance of the crude extract obtaining a residual activity of 13% after 60 minutes of incubation at 45 °C. Upon conclusion of the research we could recognize that through a direct characterization of a fungal isolate using techniques that are widely known, the student was capable of determining and value one of the most interesting capabilities fungi has to offer; enzymatic activity, and that the knowledge obtained from established protocols enables and encourages the students to correlate the source from where they were obtained with potential biotechnological applications. © 2019 International Union of Biochemistry and Molecular Biology, 47(6):681-688, 2019., (© 2019 International Union of Biochemistry and Molecular Biology.)

Published
2019
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3. It Is Time for a New Direction in Biotechnology Education Research.

Author

Nordqvist O and Aronsson H

Subjects
Biotechnology education, Research trends
Abstract

This manuscript presents a scoping review of Biotechnology Education Research (BTER) over the last 20 years. BTER during this period primarily focused on attitudes and knowledge, typically using research design methods suitable for addressing questions about frequencies, central tendencies, correlations, and so on. However, to guide the development of educational practices that will increase and sustain students' motivation and interest in science in general and biotechnology in particular, BTER will need to adopt research design methods that support the inference of causal relationships from observations. Research will need to focus on students' interest and motivation, and its relationship with effective teaching and learning of biotechnology in the context of socio-scientific issues (SSIs). Such a shift will increase interest and motivation in teaching and learning biotechnology and will also help establish and maintain students' interest in Science, Technology, Engineering and Mathematics (STEM) because biotechnology is an important STEM subject. This in turn may encourage students to choose educational and professional careers in science, helping to meet society's current and future needs. © 2019 International Union of Biochemistry and Molecular Biology, 47(2): 189-200, 2019., (© 2019 International Union of Biochemistry and Molecular Biology.)

Published
2019
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4. Implementation and evaluation of a biotechnology research experience for African-American high school students.

Author

Boyce AS, Avent C, Adetogun A, Servance L, DeStefano L, Nerem R, and Platt MO

Subjects
Adolescent, Community-Institutional Relations, Cultural Competency, Female, Humans, Leadership, Male, Program Development, Program Evaluation, Black or African American, Biotechnology education, Research education
Abstract

Exposure to science content and development of excitement for scientific inquiry throughout the high school years are imperative in attracting students into the sciences. The purpose of this article is to report lessons learned and share best practices from the implementation and evaluation of a high school STEM program that aims to provide an authentic research experience for African-American students and expose them to the possibility and benefits of attaining advanced degrees and careers in STEM fields. Participants reported that enriching science experiences improved their college readiness and exposed them to STEM degree and career options. Formative evaluation results lead to the following lessons learned for best practice: 1) Relationships with high schools will facilitate buy-in; 2) Setting clear expectations and assigning responsibilities is essential; 3) Diversity and cultural sensitivity training is necessary; and 4) Programs of this nature need strong evaluation., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published
2019
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5. Preparing for a career in biopharma research.

Author

Wu LC

Subjects
Drug Discovery education, Drug Discovery methods, Humans, Interpersonal Relations, Biotechnology education, Biotechnology methods, Drug Industry education, Drug Industry methods, Research education
Abstract

Many life sciences trainees in academia have limited exposure to how the biotechnology/pharmaceutical industry approaches drug discovery and development and what life is like in biopharma research. In this article, I will provide my perspectives on how to prepare for a successful career in biopharma research, focusing on technical background, an understanding of the drug discovery and development process, and personal and interpersonal keys to success., (Copyright © 2015. Published by Elsevier Ltd.)

Published
2015
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6. The potential of biotechnology in Ethiopia: present situation and expected development.

Author

Kassa GD

Subjects
Developing Countries, Ethiopia, Interviews as Topic, Policy, Surveys and Questionnaires, Academies and Institutes, Biotechnology education, Biotechnology trends, Research
Abstract

Conventional research approaches have tried to address the major research and development problems in Ethiopia. However, these approaches could not achieve the desired level of improvement unless they are supported by modern biotechnological tools. Biotechnological facilities exist scattered in different institutions in Ethiopia, a country with immense genetic biodiversity, but no precise information is available as to their capacities, capabilities and the associated technical and administrative gaps. A study based on structured questionnaires, interviews with key informants and reviewing secondary sources was initiated in 2006 by the Horn Biotechnology Forum to generate such information and design strategies for bridging the gaps. The study showed that seven institutions with a total of 24 branches are engaged in biotechnology research/teaching and development at different stages, mainly tissue culture, but including bio-fertilizers, molecular marker, embryo transfer, immunology, vaccine and diagnostic kit development and epidemiology. Ten centers have modest to well equipped laboratories and a few other laboratories are also under expansion. By and large, the future success of biotechnological research and development in Ethiopia depends on the level of attention to be given by the government on capacity building and on the level of collaboration among the institutions., (Copyright © 2010 Elsevier Ltd. All rights reserved.)

Published
2011
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7. The treatment: why is it so difficult to develop drugs for cancer?

Author

Gladwell M

Subjects
Biotechnology economics, Biotechnology education, Biotechnology history, History, 20th Century, History, 21st Century, Patients history, Patients psychology, Pharmaceutical Preparations economics, Pharmaceutical Preparations history, Therapeutics economics, Therapeutics history, Therapeutics psychology, United States ethnology, Biomedical Research economics, Biomedical Research education, Biomedical Research history, Drug Industry economics, Drug Industry education, Drug Industry history, Neoplasms ethnology, Neoplasms history, Pharmacology economics, Pharmacology education, Pharmacology history, Research economics, Research education, Research history
Published
2010

9. Integration of chemical engineering, environmental engineering, and bioengineering to facilitate research and education in nanotechnology, biotechnology, and sustainability.

Author

Williamson K, Semprini L, Rorrer G, and McGuire J

Subjects
Biomedical Engineering education, Biomedical Engineering trends, Biotechnology education, Biotechnology trends, Chemical Engineering education, Chemical Engineering trends, Nanotechnology education, Nanotechnology trends, Biomedical Engineering methods, Biotechnology methods, Chemical Engineering methods, Environmental Pollution prevention & control, Interprofessional Relations, Nanotechnology methods, Research
Published
2006

10. The learning curve.

Author

Kreeger K

Subjects
Education, Continuing trends, Education, Professional trends, Europe, United States, Biotechnology education, Education, Continuing methods, Education, Professional methods, Inservice Training methods, Inservice Training trends, Professional Competence, Research education, Research trends
Published
2003
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12. California dreaming: San Diego.

Author

Smaglik P

Subjects
Biotechnology economics, Biotechnology education, California, Drug Industry economics, Personnel Selection, Research Personnel economics, Research Personnel psychology, Weather, Workforce, Emigration and Immigration, Employment, Research economics, Research education
Published
2003
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14. Isolationism is not the answer to bioterrorism.

Author

Singh JA and Singer PA

Subjects
Biological Warfare economics, Biological Warfare prevention & control, Biotechnology economics, Biotechnology education, Bioterrorism economics, Genomics economics, Genomics education, International Cooperation, National Institutes of Health (U.S.), Research education, Security Measures, United States, Bioterrorism prevention & control, Civil Defense economics, Civil Defense methods, Developing Countries economics, Research economics, Research Support as Topic
Published
2002
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15. Start small, think big--the art of process R&D.

Author

Federsel HJ

Subjects
Drug Design, Employment, Humans, United States, Biotechnology education, Biotechnology organization & administration, Biotechnology trends, Research education, Research organization & administration, Research trends
Published
2002
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17. Teaching science graduates to think business.

Author

Bunk S

Subjects
Biotechnology education, Biotechnology trends, Drug Industry education, Drug Industry trends, Education, Graduate methods, Entrepreneurship trends, Research trends, Science trends, Teaching methods, Teaching trends, Commerce education, Education, Graduate trends, Research education, Science education
Published
2002
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18. Getting into good company.

Author

Hellemans A

Subjects
Europe, Interprofessional Relations, United States, Biotechnology education, Drug Industry education, Education, Graduate trends, Research education
Published
2002
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20. Pathways in plant biology.

Author

Hicks GR

Subjects
Faculty, Humans, Industry, Universities, Biology education, Biotechnology education, Career Choice, Plant Physiological Phenomena, Research education
Published
2001

24. Development of biotechnology in India.

Author

Ghose TK and Bisaria VS

Subjects
Agriculture, Animal Husbandry, Animals, Biomedical Technology, Bombyx physiology, Environmental Pollutants, Food Technology, Genetic Engineering, Humans, India, Industrial Microbiology, Intellectual Property, Workforce, Biotechnology education, Biotechnology organization & administration, Research
Abstract

India has embarked upon a very ambitious program in biotechnology with a view to harnessing its available human and unlimited biodiversity resources. It has mainly been a government sponsored effort with very little private industry participation in investment. The Department of Biotechnology (DBT) established under the Ministry of Science and Technology in 1986 was the major instrument of action to bring together most talents, material resources, and budgetary provisions. It began sponsoring research in molecular biology, agricultural and medical sciences, plant and animal tissue culture, biofertilizers and biopesticides, environment, human genetics, microbial technology, and bioprocess engineering, etc. The establishment of a number of world class bioscience research institutes and provision of large research grants to some existing universities helped in developing specialized centres of biotechnology. Besides DBT, the Department of Science & Technology (DST), also under the Ministry of S&T, sponsors research at universities working in the basic areas of life sciences. Ministry of Education's most pioneering effort was instrumental in the creation of Biochemical Engineering Research Centre at IIT Delhi with substantial assistance from the Swiss Federal Institute of Technology, Zurich, Switzerland to make available state-of-the-art infrastructure for education, training, and research in biochemical engineering and biotechnology in 1974. This initiative catalysed biotechnology training and research at many institutions a few years later. With a brief introduction, the major thrust areas of biotechnology development in India have been reviewed in this India Paper which include education and training, agricultural biotechnology, biofertilizers and biopesticides, tissue culture for tree and woody species, medicinal and aromatic plants, biodiversity conservation and environment, vaccine development, animal, aquaculture, seri and food biotechnology, microbial technology, industrial biotechnology, biochemical engineering and associated activities such as creation of biotechnology information system and national repositories. Current status of intellectual property rights has also been discussed. Contribution to the India's advances in biotechnology by the industry, excepting a limited few, has been far below expectations. The review concludes with some cautious notes.

Published
2000
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25. International technology transfer to China: the case of biotechnology.

Author

Ding HB

Subjects
China, Economics, History, 20th Century, Internationality, Research Design, Biotechnology classification, Biotechnology economics, Biotechnology education, Biotechnology ethics, Biotechnology history, Biotechnology instrumentation, Biotechnology legislation & jurisprudence, Biotechnology trends, Diffusion of Innovation, Research economics, Research education, Research history
Published
2000

27. A statistical approach to quantitative data validation focused on the assessment of students’ perceptions about biotechnology

Author

Patrício Costa, Leonor Lencastre, Fernando Tavares, Maria João Fonseca, Faculdade de Psicologia e de Ciências da Educação, Faculdade de Ciências, and Universidade do Minho

Subjects
Psychometrics, Computer science, Elementary and high school, Data validation, Validity, Context (language use), 0504 sociology, Multidisciplinary approach, Psychometric analysis, Reliability (statistics), Exploratory factor analysis, Biotechnology education, Science & Technology, Multidisciplinary, business.industry, Research, 4. Education, 05 social sciences, 050401 social sciences methods, 050301 education, Reliability, Questionnaire validation, Biotechnology, Scientific literacy, business, 0503 education
Abstract

Student awareness levels are frequently used to evaluate the effectiveness of educational policies to promote scientific literacy. Over the last years several studies have been developed to assess students' perceptions towards science and technology, which usually rely on quantitative methods to achieve broad characterizations, and obtain quantifiable and comparable data. Although the usefulness of this information depends on its validity and reliability, validation is frequently neglected by researchers with limited background in statistics. In this context, we propose a guideline to implement a statistical approach to questionnaire validation, combining exploratory factor analysis and reliability analysis. The work focuses on the psychometric analysis of data provided by a questionnaire assessing 1196 elementary and high school students' perceptions about biotechnology. Procedural guidelines to enhance the efficiency of quantitative inquiry surveys are given, by discussing essential methodological aspects and relevant criteria to integrate theory into practice., The authors are grateful to all the participant teachers and students that contributed to gather the data presented and to Catarina L. Santos for useful comments and suggestions on the manuscript. Maria Joao Fonseca was supported by the FCT fellowship SFRH/BD/37389/2007 and this work was sponsored by a research grant (PTDC/AGR-PRO/111857/2009) from Fundacao para a Ciencia e Tecnologia (FCT, Portugal).

Published
2013

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