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| <div class="page_logo"> | | <div class="page_logo"> |
| <img src="https://static.igem.org/mediawiki/2017/5/5a/T--IISER-Mohali-INDIA--Co-culture.png" width="100%" height="100%"></div> | | <img src="https://static.igem.org/mediawiki/2017/5/5a/T--IISER-Mohali-INDIA--Co-culture.png" width="100%" height="100%"></div> |
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| <tr> | | <tr> |
| <td class="text-left">Nitric Oxide</td> | | <td class="text-left">Nitric Oxide</td> |
− | <td class="text-left">species of <i>Pseudomonas, Alkaligenes , Bacillus and algae -Dunaliella tertiolecta</i></td> | + | <td class="text-left">species of <i>Pseudomonas, Alkaligenes,</i> Bacillus and algae - <i>Dunaliella tertiolecta</i></td> |
| </tr> | | </tr> |
| <tr> | | <tr> |
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| <td class="text-left">Lead</td> | | <td class="text-left">Lead</td> |
− | <td class="text-left"><i>Clostridium formicoaceticum ,C.thermoaceticum, | + | <td class="text-left"><i>Clostridium formicoaceticum ,C.thermoaceticum,</i> |
− | algae -Chlorella vutgaris, Spirogyra</i></td> | + | algae - <i>Chlorella vutgaris, Spirogyra</i></td> |
| </tr> | | </tr> |
| <tr> | | <tr> |
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| <tr> | | <tr> |
| <td class="text-left">Uranium</td> | | <td class="text-left">Uranium</td> |
− | <td class="text-left">algae -<i>Cladophora hutchinsiae</i></td> | + | <td class="text-left">algae - <i>Cladophora hutchinsiae</i></td> |
| </tr> | | </tr> |
| <tr> | | <tr> |
| <td class="text-left">Chromium</td> | | <td class="text-left">Chromium</td> |
− | <td class="text-left">algae -<i>Oedogonium hatei</i></td> | + | <td class="text-left">algae - <i>Oedogonium hatei</i></td> |
| </tr> | | </tr> |
| <td class="text-left">Copper</td> | | <td class="text-left">Copper</td> |
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| </tr> | | </tr> |
| <td class="text-left">Zinc</td> | | <td class="text-left">Zinc</td> |
− | <td class="text-left"><i>algae -Gelidium</i></td> | + | <td class="text-left">algae - <i>Gelidium</i></td> |
| </tr> | | </tr> |
| </tbody> | | </tbody> |
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| <br/><br/> | | <br/><br/> |
| <center><div class="img-data"><img src="https://static.igem.org/mediawiki/2017/b/bd/T--IISER-Mohali-INDIA--hrdwrppr.png" height="30%" width="30%"></div></center> | | <center><div class="img-data"><img src="https://static.igem.org/mediawiki/2017/b/bd/T--IISER-Mohali-INDIA--hrdwrppr.png" height="30%" width="30%"></div></center> |
− | <section><div class="page-title"><h6>Culturing on paper</h6></div> | + | <section><div class="page-title">Culturing on paper</div><br/><br/> |
| <h3>The study of bacterial growth has been one of the most standard approaches in the field of microbiology | | <h3>The study of bacterial growth has been one of the most standard approaches in the field of microbiology |
| and <i>Escherichia coli</i> as a workhorse has been considerably exploited for its use in many molecular | | and <i>Escherichia coli</i> as a workhorse has been considerably exploited for its use in many molecular |
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| </section> | | </section> |
| <center><table><tr><td><img src="https://static.igem.org/mediawiki/2017/0/0b/T--IISER-Mohali-INDIA--hardware1.png" width="100%"></td></tr></table></center> | | <center><table><tr><td><img src="https://static.igem.org/mediawiki/2017/0/0b/T--IISER-Mohali-INDIA--hardware1.png" width="100%"></td></tr></table></center> |
− | | + | <h5><center>Arrangement of cultured E. coli colonies after printing on a sheet containing agar [1]</center></h5> |
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| dispense bacteria. Am. J. Biochem. Biotechnol, 10, 81-87. | | dispense bacteria. Am. J. Biochem. Biotechnol, 10, 81-87. |
| </h4><h4> | | </h4><h4> |
− | Schmidt, A., Frensch, M., Schleheck, D., Schink, B., & Müller, N. (2014).Degradation of Acetaldehyde and Its Precursors by <i>Pelobactercarbinolicus</i> and <i>P. acetylenicus. PloS one</i>, 9(12), e115902.</h4> | + | 2. Schmidt, A., Frensch, M., Schleheck, D., Schink, B., & Müller, N. (2014).Degradation of Acetaldehyde and Its Precursors by <i>Pelobactercarbinolicus</i> and <i>P. acetylenicus. PloS one</i>, 9(12), e115902.</h4> |
| <h4> | | <h4> |
− | Jin, Y., Veiga, M. C., &Kennes, C. (2005).Bioprocesses for the removal of nitrogen oxides from polluted air. <i>Journal of Chemical Technology and Biotechnology</i>, 80(5), 483-494.</h4> | + | 3. Jin, Y., Veiga, M. C., &Kennes, C. (2005).Bioprocesses for the removal of nitrogen oxides from polluted air. <i>Journal of Chemical Technology and Biotechnology</i>, 80(5), 483-494.</h4> |
− | <h4>François, F., Lombard, C., Guigner, J. M., Soreau, P., Brian-Jaisson, F., Martino, G., ...&Peduzzi, J. (2012). Isolation and characterization of environmental bacteria capable of extracellular biosorption of mercury. <i>Applied and environmental microbiology</i>, 78(4), 1097-1106.</h4> | + | <h4>4. François, F., Lombard, C., Guigner, J. M., Soreau, P., Brian-Jaisson, F., Martino, G., ...&Peduzzi, J. (2012). Isolation and characterization of environmental bacteria capable of extracellular biosorption of mercury. <i>Applied and environmental microbiology</i>, 78(4), 1097-1106.</h4> |
− | <h4>Wang, X., Wang, Q., Li, S., & Li, W. (2015). Degradation pathway and kinetic analysis for p-xylene removal by a novel <i>Pandoraea sp.</i> strain WL1 and its application in a biotrickling filter. <i>Journal of hazardous materials</i>, 288, 17-24. | + | <h4>5. Wang, X., Wang, Q., Li, S., & Li, W. (2015). Degradation pathway and kinetic analysis for p-xylene removal by a novel <i>Pandoraea sp.</i> strain WL1 and its application in a biotrickling filter. <i>Journal of hazardous materials</i>, 288, 17-24. |
| </h4> | | </h4> |
− | <h4>Diekert, G. B., &Thauer, R. K. (1978).Carbon monoxide oxidation by <i>Clostridium thermoaceticum</i> and <i>Clostridium formicoaceticum. Journal of bacteriology</i>, 136(2), 597-606.</h4> | + | <h4>6. Diekert, G. B., &Thauer, R. K. (1978).Carbon monoxide oxidation by <i>Clostridium thermoaceticum</i> and <i>Clostridium formicoaceticum. Journal of bacteriology</i>, 136(2), 597-606.</h4> |
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− | <h4>Chappelle, E. W. (1962). Carbon monoxide oxidation by algae. <i>Biochimicaetbiophysicaacta</i>, 62(1), 45-62. | + | <h4>7. Chappelle, E. W. (1962). Carbon monoxide oxidation by algae. <i>Biochimicaetbiophysicaacta</i>, 62(1), 45-62. |
| Slomczynski, D. J. AND W J. DavisHoover*.CHARACTERIZATION OF PB2+ UPTAKE AND SEQUESTRATION IN <i>PSEUDOMONAS AERUGINOSA</i>, CHL004, LEAD.Presented at Third International Conference, Monterey, CA, 5/20-23/2002.</h4> | | Slomczynski, D. J. AND W J. DavisHoover*.CHARACTERIZATION OF PB2+ UPTAKE AND SEQUESTRATION IN <i>PSEUDOMONAS AERUGINOSA</i>, CHL004, LEAD.Presented at Third International Conference, Monterey, CA, 5/20-23/2002.</h4> |
− | <h4>Wolfe-Simon, F., Blum, J. S., Kulp, T. R., Gordon, G. W., Hoeft, S. E., Pett-Ridge, J., ...& Anbar, A. D. (2011). A bacterium that can grow by using arsenic instead of phosphorus. <i>science</i>, 332(6034), 1163-1166. | + | <h4>8. Wolfe-Simon, F., Blum, J. S., Kulp, T. R., Gordon, G. W., Hoeft, S. E., Pett-Ridge, J., ...& Anbar, A. D. (2011). A bacterium that can grow by using arsenic instead of phosphorus. <i>science</i>, 332(6034), 1163-1166. |
| </h4></section><br/><br/> | | </h4></section><br/><br/> |
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