Difference between revisions of "Team:SBS SH 112144/Reference"
(Created page with "{{SBS_SH_112144}} <html> <p>1. Mehta, K. K., Evitt, N. H. & Swartz, J. R. Chemical lysis of cyanobacteria. Journal of Biological Engineering 9, (2015).</p> <p>2. Chen, J. e...") |
|||
| Line 1: | Line 1: | ||
{{SBS_SH_112144}} | {{SBS_SH_112144}} | ||
<html> | <html> | ||
| + | <h2>References</h2> | ||
<p>1. Mehta, K. K., Evitt, N. H. & Swartz, J. R. Chemical lysis of cyanobacteria. Journal of Biological Engineering 9, (2015).</p> | <p>1. Mehta, K. K., Evitt, N. H. & Swartz, J. R. Chemical lysis of cyanobacteria. Journal of Biological Engineering 9, (2015).</p> | ||
<p>2. Chen, J. et al. Degradation of Microcystin-LR and RR by a Stenotrophomonas sp. Strain EMS Isolated from Lake Taihu, China. International Journal of Molecular Sciences 11, 896–911 (2010).</p> | <p>2. Chen, J. et al. Degradation of Microcystin-LR and RR by a Stenotrophomonas sp. Strain EMS Isolated from Lake Taihu, China. International Journal of Molecular Sciences 11, 896–911 (2010).</p> | ||
Revision as of 05:14, 16 October 2018
References
1. Mehta, K. K., Evitt, N. H. & Swartz, J. R. Chemical lysis of cyanobacteria. Journal of Biological Engineering 9, (2015).
2. Chen, J. et al. Degradation of Microcystin-LR and RR by a Stenotrophomonas sp. Strain EMS Isolated from Lake Taihu, China. International Journal of Molecular Sciences 11, 896–911 (2010).
3. Shimizu, K. et al. How microcystin-degrading bacteria express microcystin degradation activity. Lakes & Reservoirs: Research & Management 16, 169–178 (2011).
4. Khan, F., He, M. & Taussig, M. J. Double-Hexahistidine Tag with High-Affinity Binding for Protein Immobilization, Purification, and Detection on Ni−Nitrilotriacetic Acid Surfaces. Analytical Chemistry 78, 3072–3079 (2006).
5. Liu, Z., Zhang, J., Chen, X. & Wang, P. G. Combined Biosynthetic Pathway For De Novo Production of UDP-Galactose: Catalysis with Multiple Enzymes Immobilized on Agarose Beads. ChemBioChem 3, 348–355 (2002).
6. Jeong, W. H. et al. Connecting two proteins using a fusion alpha helix stabilized by a chemical cross linker. Nature Communications 7, 11031 (2016).
7. Singh, R. et al. Uncovering Potential Applications of Cyanobacteria and Algal Metabolites in Biology, Agriculture and Medicine: Current Status and Future Prospects. Frontiers in Microbiology 8, (2017).
8. Baase, W. A., Liu, L., Tronrud, D. E. & Matthews, B. W. Lessons from the lysozyme of phage T4. Protein Science 19, 631–641 (2010).
9. https://leafygills.com/what-solvents-dissolve-chlorophyll/
10. Wessel, Paul, and D. Bercovici. "Interpolation with Splines in Tension: A Green's Function Approach." Mathematical Geology 30.1(1998):77-93
11. Smith, W. H. F., and P. Wessel. "Gridding with continuous curvature splines in tension." Geophysics 55.3(1990):293-305
12. Eberhart, R., and J. Kennedy. "A new optimizer using particle swarm theory." MHS'95. Proceedings of the Sixth International Symposium on Micro Machine and Human Science IEEE, 2002:39-43.
13. Zhao, Bo, and Y. J. Cao. "Multiple objective particle swarm optimization technique for economic load dispatch." Journal of Zhejiang University-SCIENCE A 6.5(2005):420-427.