BibTex RIS Kaynak Göster

Yıl 2016, Cilt: 5 Sayı: 2, 0 - 0, 10.03.2017

Manchikanti Padmavati B Ramesh Kumar Vinay Kumar Sıngh

Öz

Kaynakça

  • Bonser, S. P., de Permentier, P., Green, J., Velan, G. M., Adam, P., & Kumar, R. K. (2013). Engaging students by emphasising botanical concepts over techniques: innovative practical exercises using virtual microscopy. Journal of Biological Education, 47 (2), 123–127. Retrieved from http://www.tandfonline.com/doi/abs/10.1080/00219266.2013.764344
  • Breakey, K. M., Levin, D., Miller, I., & Hentges, K. E. (2008). The use of scenario-based-learning interactive software to create custom virtual laboratory scenarios for teaching genetics. Genetics, 179 (3), 1151–1155.
  • Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/18562663
  • Chou, S.W., & Min, H.T. (2009). The impact of media on collaborative learning in virtual settings: the perspective of social construction. Computers & Education, 52 (2), 417–431.
  • Retrieved from http://ac.els-cdn.com/S0360131508001462/1-s2.0-S0360131508001462- main.pdf?_tid=57 ecabc6-fa21-11e5-b053- 00000aab0f26&acdnat=1459745862_643fe6d38d8ab2f1e0d689013409ae88
  • Corter, J.E., Esche, S.K., Chassapis, C., Ma, J., & Nickerson, J.V. (2011). Process and learning outcomes from remotely operated simulated and hands on student laboratories. Computers & Education, 57, 2054-2067.
  • Retrieved from http://ac.els-cdn.com/S036013151100090X/1-s2.0-S036013151100090X-main.pdf?_tid=f9df1d9c-fa21-11e5-b09a-00000aab0f27&acdnat=1459746133_a96fb19f7adb6d551f04c2fe0c4cda6b
  • Diwakar, S., Parasuram, H., Medini, C., Raman, R., Nedungadi, P., Wiertelak, E., Srivastava, S., Achuthan, K., & Nair, B. (2014). Complementing Neurophysiology Education for Developing Countries via Cost Effective Virtual Labs: Case Studies and Classroom Scenarios. The Journal of Undergraduate Neuroscience Education, 12(2), A130-A139.
  • Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/24693260
  • Domingues, L., Roch, I., Dourado, F., Alves, M., Ferreira, E.C. (2010). Virtual laboratories in biochemical engineering education. Education for Chemical Engineers, 5: e22-e27.
  • Retrieved from http://www.ece.ichemejournals.com/article/S1749-7728(10)00003-5/pdf
  • Dormido, S., Farias, G., Sanchez, J. & Esquembre, F. (2005). Adding interactivity to existing Simulink models using Easy Java Simulations. In Proceedings of 44th IEEE European Conference on Decision and Control, 4163–4168.
  • Retrieved from http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=1582815
  • Duffy, J.L., & Mcdonald, J.B. (2008). Teaching and Learning with technology (3rd edition). Boston: Pearson/Allyn & Bacon.
  • Retrieved from http://www.amazon.com/Teaching-Learning-Technology-Enhanced-Loose- Leaf/dp/0133783030
  • Gandole, Y.B. (2005). Changing the Nature of Undergraduate Electronics Science Practical Work. International Journal of Instructional Technology and Distance Learning, 2(4), 1-14.
  • Retrieved from http://itdl.org/journal/apr_05/article02.htm
  • Gould, K.S., & Lister, C. (2006). Flavonoid Functions in Plants. In Andersen, O.M., & Markham, K.R. (Ed.), Flavonoids- Chemistry and Applications (pp. 397-425). CRC Taylor & Francis: Boca Raton.
  • Retrieved from http://blogs.cimav.edu.mx/daniel.glossman/data/files/Libros/Flavonoids%20-%20Chemistry,%20Biochemistry%20and%20Applications.pdf
  • Herga, N.R., Grmek, M.I., Dinevski, D. (2014). Virtual Laboratory as an element of visualization when teaching chemical contents in science class. The Turkish Online Journal of Educational Technology, 13 (4): 157-165.
  • Retrieved from http://www.tojet.net/articles/v13i4/13418.pdf
  • Huang, C. (2004). Virtual labs: e-learning for tomorrow. PLoS Biology, 2 (6), 0734-0735.s
  • Retrieved from http://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.0020157
  • Ma, J., & Nickerson, J.V. (2006). Hands-on simulated and remote laboratories: a comparative literature review. ACM Surveys, 38 (3), 1-24.
  • Retrieved from http://web.stevens.edu/jnickerson/ACMComputingSurveys2006MaNickerson.pdf
  • Muhamada, M., Zaman, H.B. & Ahmad, A. (2012). Virtual Biology Laboratory (Vlab-Bio): Scenario- Based Learning Approach. Procedia- Social and Behavioral Sciences, 69, 162-168.
  • Retrieved from http://ac.els-cdn.com/S1877042812053815/1-s2.0-S1877042812053815-main.pdf?_tid=9924b0ae-fa24-11e5-b3a9-00000aab0f02&acdnat=1459747260_6da8612323a9236956662a291a4ff2d9
  • Nair, B., Krishnan, R., Nizar, N., Radhamani, R., Rajan, K., Yoosef, A., Sujatha, G., Radhamony,V., Achuthan, K., & Diwakar, S. (2012). Role of ICT-enabled visualization-oriented virtual laboratories in Universities for enhancing biotechnology education- – VALUE initiative: Case study and impacts, FormaMente, Vol. VII (2012), n. 1-2, ISSN 1970-7118.
  • Retrieved from file:///C:/Users/Ramesh/Downloads/Nair2012.pdf
  • Nedic, Z., Machotka, J., & Nafalski, A. (2003). Remote Laboratories versus Virtual and Remote Laboratories. 33rd ASEE/IEEE Frontiers in Education Conference, November 5-8, T3E-1- T3E-6.
  • Retrieved from http://www.discoverlab.com/References/1077.pdf
  • Okojie, M.C., Olinzock, A.A., & Boulder, T.C.O. (2006). The pedagogy of technology integration. The Journal of Technology Studies, 32 (2), 66-77.
  • Retrieved from http://files.eric.ed.gov/fulltext/EJ847571.pdf
  • Potkonjak, V., Gardner, M., Callaghan, V., Mattila, P., Guetl, C., Vladimir, M., Jovanovic, P.K. (2016). Virtual laboratories for education in science, technology and engineering: A Review. Computers & Education, 95, 309-327.
  • Retrieved from http://ac.els-cdn.com/S0360131516300227/1-s2.0-S0360131516300227-main.pdf?_tid=7f567724-fa25-11e5-b12e-00000aacb362&acdnat=1459747646_a662e807173bafb9bec20a4d47fa3a94
  • Ray, S., Koshy, N.R., Reddy, P.J., & Srivastava, S. (2012). Virtual labs in proteomics: new E- learning tools. Journal of Proteomics, 75, 2515-2525.
  • Retrieved from http://ac.els-cdn.com/S1874391912001479/1-s2.0-S1874391912001479-main.pdf?_tid=b1d53f6e-fa25-11e5-a0ca-00000aab0f27&acdnat=1459747730_f73c63d819cb6af3b2e9b4c1fec644eb
  • Scheckler, R.K. (2003). Virtual Labs, A substitute for traditional labs? International Journal of Developmental Biology, 47, (2/3), 231-236.
  • Retrieved from http://www.intjdevbiol.com/paper.php?doi=12705675
  • Soni, S., & Katkar, M.D. (2014). Survey paper on Virtual Labs for E-learners. International Journal of Application or Innovation in Engineering and Management, 3(1), 108-110.
  • Retrieved from http://www.ijaiem.org/volume3issue1/IJAIEM-2014-01-13-027.pdf
  • Waller, J.C., & Foster, N. (2000). Training via the web: a virtual instrument. Computers & Education, 35, 161-167.
  • Retrieved from http://ac.els-cdn.com/S0360131500000233/1-s2.0-S0360131500000233-main.pdf?_tid=8357e0be-fa26-11e5-b33b-00000aab0f27&acdnat=1459748090_a0f374b2674b5b68532942256cbbd485
  • Weisman, D. (2010). Incorporating a Collaborative Web-Based Virtual Laboratory in an Undergraduate Bioinformatics Course. Biochemistry and Molecular Biology Education, 38 (1), 4–9.
  • Retrieved from http://onlinelibrary.wiley.com/doi/10.1002/bmb.20368/abstract;jsessionid=0CA67499E6AFAB3656D19C18C4F07C43.f01t04
  • Wen, F. (2012). Open Web-Based Virtual Lab for Experimental Enhanced Educational Environment, eLearning - Theories, Design, Software and Applications, Dr. Patrizia Ghislandi (Ed.), ISBN: 978-953-51-0475-9, InTech, DOI: 10.5772/29963.
  • Retrieved from http://cdn.intechopen.com/pdfs-wm/34907.pdf
  • Woodfield, B. F., Andrus, M. B., Andersen, T., Miller, J., Simmons, B., Stanger, R., Waddoups, G.L., Moore, M.S., Swan, R., Allen, R., & Bodily, G. (2005). The Virtual Chem lab project: A realistic and sophisticated simulation of organic synthesis and organic qualitative analysis. Journal of Chemical Education, 82 (11), 1728–1735.
  • Retrieved from http://pubs.acs.org/doi/pdf/10.1021/ed082p1728

Virtual Labs on Secondary Metabolic Pathways in Plants

Yıl 2016, Cilt: 5 Sayı: 2, 0 - 0, 10.03.2017

Manchikanti Padmavati B Ramesh Kumar Vinay Kumar Sıngh

Öz

Information and communication technologies have made a big impact on education system and brought a fundamental change in teaching and learning methods. Computer assisted collaborative learning has gained popularity over the years and revolutionized science education. The remote and virtual lab in plant metabolic pathway lab provides an interactive learning based environment to the students for studying the structural and functional complexity of secondary metabolites in plants. This is achieved by a systematic understanding of complex structure and pathway in plants through series of illustrative and interacting learning tools, tutorials and simulated experiments. Further, users can remotely connect to the virtual lab to learn the High Performance Liquid Chromatography (HPLC) instrumentation based on analysis of secondary metabolites in plants (with Tea, Maize and Petunia as the plant models). Further we examined the students’ understanding capability towards these labs with questionnaires designed in a hierarchical manner. This is the first systematic development of virtual laboratory on secondary metabolite pathway that encapsulates the importance of remote and virtual labs over the traditional mode of learning and describes its implementation in relation to the flavonoid pathway in plants. 

Kaynakça

  • Bonser, S. P., de Permentier, P., Green, J., Velan, G. M., Adam, P., & Kumar, R. K. (2013). Engaging students by emphasising botanical concepts over techniques: innovative practical exercises using virtual microscopy. Journal of Biological Education, 47 (2), 123–127. Retrieved from http://www.tandfonline.com/doi/abs/10.1080/00219266.2013.764344
  • Breakey, K. M., Levin, D., Miller, I., & Hentges, K. E. (2008). The use of scenario-based-learning interactive software to create custom virtual laboratory scenarios for teaching genetics. Genetics, 179 (3), 1151–1155.
  • Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/18562663
  • Chou, S.W., & Min, H.T. (2009). The impact of media on collaborative learning in virtual settings: the perspective of social construction. Computers & Education, 52 (2), 417–431.
  • Retrieved from http://ac.els-cdn.com/S0360131508001462/1-s2.0-S0360131508001462- main.pdf?_tid=57 ecabc6-fa21-11e5-b053- 00000aab0f26&acdnat=1459745862_643fe6d38d8ab2f1e0d689013409ae88
  • Corter, J.E., Esche, S.K., Chassapis, C., Ma, J., & Nickerson, J.V. (2011). Process and learning outcomes from remotely operated simulated and hands on student laboratories. Computers & Education, 57, 2054-2067.
  • Retrieved from http://ac.els-cdn.com/S036013151100090X/1-s2.0-S036013151100090X-main.pdf?_tid=f9df1d9c-fa21-11e5-b09a-00000aab0f27&acdnat=1459746133_a96fb19f7adb6d551f04c2fe0c4cda6b
  • Diwakar, S., Parasuram, H., Medini, C., Raman, R., Nedungadi, P., Wiertelak, E., Srivastava, S., Achuthan, K., & Nair, B. (2014). Complementing Neurophysiology Education for Developing Countries via Cost Effective Virtual Labs: Case Studies and Classroom Scenarios. The Journal of Undergraduate Neuroscience Education, 12(2), A130-A139.
  • Retrieved from http://www.ncbi.nlm.nih.gov/pubmed/24693260
  • Domingues, L., Roch, I., Dourado, F., Alves, M., Ferreira, E.C. (2010). Virtual laboratories in biochemical engineering education. Education for Chemical Engineers, 5: e22-e27.
  • Retrieved from http://www.ece.ichemejournals.com/article/S1749-7728(10)00003-5/pdf
  • Dormido, S., Farias, G., Sanchez, J. & Esquembre, F. (2005). Adding interactivity to existing Simulink models using Easy Java Simulations. In Proceedings of 44th IEEE European Conference on Decision and Control, 4163–4168.
  • Retrieved from http://ieeexplore.ieee.org/stamp/stamp.jsp?tp=&arnumber=1582815
  • Duffy, J.L., & Mcdonald, J.B. (2008). Teaching and Learning with technology (3rd edition). Boston: Pearson/Allyn & Bacon.
  • Retrieved from http://www.amazon.com/Teaching-Learning-Technology-Enhanced-Loose- Leaf/dp/0133783030
  • Gandole, Y.B. (2005). Changing the Nature of Undergraduate Electronics Science Practical Work. International Journal of Instructional Technology and Distance Learning, 2(4), 1-14.
  • Retrieved from http://itdl.org/journal/apr_05/article02.htm
  • Gould, K.S., & Lister, C. (2006). Flavonoid Functions in Plants. In Andersen, O.M., & Markham, K.R. (Ed.), Flavonoids- Chemistry and Applications (pp. 397-425). CRC Taylor & Francis: Boca Raton.
  • Retrieved from http://blogs.cimav.edu.mx/daniel.glossman/data/files/Libros/Flavonoids%20-%20Chemistry,%20Biochemistry%20and%20Applications.pdf
  • Herga, N.R., Grmek, M.I., Dinevski, D. (2014). Virtual Laboratory as an element of visualization when teaching chemical contents in science class. The Turkish Online Journal of Educational Technology, 13 (4): 157-165.
  • Retrieved from http://www.tojet.net/articles/v13i4/13418.pdf
  • Huang, C. (2004). Virtual labs: e-learning for tomorrow. PLoS Biology, 2 (6), 0734-0735.s
  • Retrieved from http://journals.plos.org/plosbiology/article?id=10.1371/journal.pbio.0020157
  • Ma, J., & Nickerson, J.V. (2006). Hands-on simulated and remote laboratories: a comparative literature review. ACM Surveys, 38 (3), 1-24.
  • Retrieved from http://web.stevens.edu/jnickerson/ACMComputingSurveys2006MaNickerson.pdf
  • Muhamada, M., Zaman, H.B. & Ahmad, A. (2012). Virtual Biology Laboratory (Vlab-Bio): Scenario- Based Learning Approach. Procedia- Social and Behavioral Sciences, 69, 162-168.
  • Retrieved from http://ac.els-cdn.com/S1877042812053815/1-s2.0-S1877042812053815-main.pdf?_tid=9924b0ae-fa24-11e5-b3a9-00000aab0f02&acdnat=1459747260_6da8612323a9236956662a291a4ff2d9
  • Nair, B., Krishnan, R., Nizar, N., Radhamani, R., Rajan, K., Yoosef, A., Sujatha, G., Radhamony,V., Achuthan, K., & Diwakar, S. (2012). Role of ICT-enabled visualization-oriented virtual laboratories in Universities for enhancing biotechnology education- – VALUE initiative: Case study and impacts, FormaMente, Vol. VII (2012), n. 1-2, ISSN 1970-7118.
  • Retrieved from file:///C:/Users/Ramesh/Downloads/Nair2012.pdf
  • Nedic, Z., Machotka, J., & Nafalski, A. (2003). Remote Laboratories versus Virtual and Remote Laboratories. 33rd ASEE/IEEE Frontiers in Education Conference, November 5-8, T3E-1- T3E-6.
  • Retrieved from http://www.discoverlab.com/References/1077.pdf
  • Okojie, M.C., Olinzock, A.A., & Boulder, T.C.O. (2006). The pedagogy of technology integration. The Journal of Technology Studies, 32 (2), 66-77.
  • Retrieved from http://files.eric.ed.gov/fulltext/EJ847571.pdf
  • Potkonjak, V., Gardner, M., Callaghan, V., Mattila, P., Guetl, C., Vladimir, M., Jovanovic, P.K. (2016). Virtual laboratories for education in science, technology and engineering: A Review. Computers & Education, 95, 309-327.
  • Retrieved from http://ac.els-cdn.com/S0360131516300227/1-s2.0-S0360131516300227-main.pdf?_tid=7f567724-fa25-11e5-b12e-00000aacb362&acdnat=1459747646_a662e807173bafb9bec20a4d47fa3a94
  • Ray, S., Koshy, N.R., Reddy, P.J., & Srivastava, S. (2012). Virtual labs in proteomics: new E- learning tools. Journal of Proteomics, 75, 2515-2525.
  • Retrieved from http://ac.els-cdn.com/S1874391912001479/1-s2.0-S1874391912001479-main.pdf?_tid=b1d53f6e-fa25-11e5-a0ca-00000aab0f27&acdnat=1459747730_f73c63d819cb6af3b2e9b4c1fec644eb
  • Scheckler, R.K. (2003). Virtual Labs, A substitute for traditional labs? International Journal of Developmental Biology, 47, (2/3), 231-236.
  • Retrieved from http://www.intjdevbiol.com/paper.php?doi=12705675
  • Soni, S., & Katkar, M.D. (2014). Survey paper on Virtual Labs for E-learners. International Journal of Application or Innovation in Engineering and Management, 3(1), 108-110.
  • Retrieved from http://www.ijaiem.org/volume3issue1/IJAIEM-2014-01-13-027.pdf
  • Waller, J.C., & Foster, N. (2000). Training via the web: a virtual instrument. Computers & Education, 35, 161-167.
  • Retrieved from http://ac.els-cdn.com/S0360131500000233/1-s2.0-S0360131500000233-main.pdf?_tid=8357e0be-fa26-11e5-b33b-00000aab0f27&acdnat=1459748090_a0f374b2674b5b68532942256cbbd485
  • Weisman, D. (2010). Incorporating a Collaborative Web-Based Virtual Laboratory in an Undergraduate Bioinformatics Course. Biochemistry and Molecular Biology Education, 38 (1), 4–9.
  • Retrieved from http://onlinelibrary.wiley.com/doi/10.1002/bmb.20368/abstract;jsessionid=0CA67499E6AFAB3656D19C18C4F07C43.f01t04
  • Wen, F. (2012). Open Web-Based Virtual Lab for Experimental Enhanced Educational Environment, eLearning - Theories, Design, Software and Applications, Dr. Patrizia Ghislandi (Ed.), ISBN: 978-953-51-0475-9, InTech, DOI: 10.5772/29963.
  • Retrieved from http://cdn.intechopen.com/pdfs-wm/34907.pdf
  • Woodfield, B. F., Andrus, M. B., Andersen, T., Miller, J., Simmons, B., Stanger, R., Waddoups, G.L., Moore, M.S., Swan, R., Allen, R., & Bodily, G. (2005). The Virtual Chem lab project: A realistic and sophisticated simulation of organic synthesis and organic qualitative analysis. Journal of Chemical Education, 82 (11), 1728–1735.
  • Retrieved from http://pubs.acs.org/doi/pdf/10.1021/ed082p1728
Toplam 49 adet kaynakça vardır.

Ayrıntılar

Bölüm Makaleler
Yazarlar

Manchikanti Padmavati Bu kişi benim

B Ramesh Kumar Bu kişi benim

Vinay Kumar Sıngh Bu kişi benim

Yayımlanma Tarihi 10 Mart 2017
Yayımlandığı Sayı Yıl 2016 Cilt: 5 Sayı: 2

Kaynak Göster

APA Padmavati, M., Kumar, B. R., & Sıngh, V. K. (2017). Virtual Labs on Secondary Metabolic Pathways in Plants. International Journal Of Biology Education, 5(2).
AMA Padmavati M, Kumar BR, Sıngh VK. Virtual Labs on Secondary Metabolic Pathways in Plants. International Journal Of Biology Education. Mart 2017;5(2).
Chicago Padmavati, Manchikanti, B Ramesh Kumar, ve Vinay Kumar Sıngh. “Virtual Labs on Secondary Metabolic Pathways in Plants”. International Journal Of Biology Education 5, sy. 2 (Mart 2017).
EndNote Padmavati M, Kumar BR, Sıngh VK (01 Mart 2017) Virtual Labs on Secondary Metabolic Pathways in Plants. International Journal Of Biology Education 5 2
IEEE M. Padmavati, B. R. Kumar, ve V. K. Sıngh, “Virtual Labs on Secondary Metabolic Pathways in Plants”, International Journal Of Biology Education, c. 5, sy. 2, 2017.
ISNAD Padmavati, Manchikanti vd. “Virtual Labs on Secondary Metabolic Pathways in Plants”. International Journal Of Biology Education 5/2 (Mart 2017).
JAMA Padmavati M, Kumar BR, Sıngh VK. Virtual Labs on Secondary Metabolic Pathways in Plants. International Journal Of Biology Education. 2017;5.
MLA Padmavati, Manchikanti vd. “Virtual Labs on Secondary Metabolic Pathways in Plants”. International Journal Of Biology Education, c. 5, sy. 2, 2017.
Vancouver Padmavati M, Kumar BR, Sıngh VK. Virtual Labs on Secondary Metabolic Pathways in Plants. International Journal Of Biology Education. 2017;5(2).