Team:UANL Mty-Mexico/Project/references

From 2012.igem.org

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<ol>
<ol>
   <li>Camacho L.M., Gutiérrez M., Alarcón-Herrera M.T., Villalba M. de L. and Deng S. (2011) Occurrence and treatment of arsenic in groundwater and soil in northern Mexico and southwestern USA. <i>Chemosphere</i>. <b>83</b>:211–225</li>
   <li>Camacho L.M., Gutiérrez M., Alarcón-Herrera M.T., Villalba M. de L. and Deng S. (2011) Occurrence and treatment of arsenic in groundwater and soil in northern Mexico and southwestern USA. <i>Chemosphere</i>. <b>83</b>:211–225</li>
-
   <li>World Health Organization (2004) Guidelines for Drinking Water Quality. Recommendations, Vol. 1, 3rd Ed., World Health Organization, Geneva, pp. 306– 308.</li>
+
   <li>World Health Organization (2004) Guidelines for Drinking Water Quality. Recommendations, Vol. 1, 3rd Ed., World Health Organization, Geneva, pp. 306–308.</li>
   <li>National Research Council (1999) Arsenic in Drinking Water. The National Academies Press, Washington, DC, 330 pp.</li>
   <li>National Research Council (1999) Arsenic in Drinking Water. The National Academies Press, Washington, DC, 330 pp.</li>
   <li>Secretaria de Salud (2000) MODIFICACION a la Norma Oficial Mexicana NOM-127-SSA1-1994. url:http://www.salud.gob.mx/unidades/cdi/nom/m127ssa14.html</li>
   <li>Secretaria de Salud (2000) MODIFICACION a la Norma Oficial Mexicana NOM-127-SSA1-1994. url:http://www.salud.gob.mx/unidades/cdi/nom/m127ssa14.html</li>
   <li>Kaur P. and Rosen B.P. (1992) Plasmid-encoded resistance to arsenic and antimony. <i>Plasmid</i>. <b>27</b>(1): 29-40.</li>
   <li>Kaur P. and Rosen B.P. (1992) Plasmid-encoded resistance to arsenic and antimony. <i>Plasmid</i>. <b>27</b>(1): 29-40.</li>
-
   <li>Wu J. and Rosen B.P. (1993) Metalloregulated expression of the ars operon. <i>J Biol Chem</i>. <b>268</b>(1): 52-8.</li>
+
   <li>Wu J. and Rosen B.P. (1993) Metalloregulated expression of the ars operon. <i>J Biol Chem</i>. <b>268</b>(1): 52-58.</li>
   <li>Fujii H., Noda K., Asami Y., Kuroda A., Sakata M. and Tokida A. (2007) Increase in bioluminescence intensity of firefly luciferase using genetic modification. <i>Anal Biochem</i>. <b>366</b>(2): 131-6</li>
   <li>Fujii H., Noda K., Asami Y., Kuroda A., Sakata M. and Tokida A. (2007) Increase in bioluminescence intensity of firefly luciferase using genetic modification. <i>Anal Biochem</i>. <b>366</b>(2): 131-6</li>
   <li>Devgan V. (2009) Quantitative Signal Transduction Reporter Assays: The Future is Bright (Luminescent or Fluorescent). <i>SABiosciences</i>.</li>
   <li>Devgan V. (2009) Quantitative Signal Transduction Reporter Assays: The Future is Bright (Luminescent or Fluorescent). <i>SABiosciences</i>.</li>
   <li>Kostal J., Yang R., Wu C.H., Mulchandani A. and Chen W. (2004) Enhanced Arsenic Accumulation in Engineered Bacterial Cells Expressing ArsR. <i>Appl Enrion Microbiol</i>. <b>70</b>(8): 4582-4587.</li>
   <li>Kostal J., Yang R., Wu C.H., Mulchandani A. and Chen W. (2004) Enhanced Arsenic Accumulation in Engineered Bacterial Cells Expressing ArsR. <i>Appl Enrion Microbiol</i>. <b>70</b>(8): 4582-4587.</li>
-
   <li>Ngu <i>et al.</i> (2006) Arsenic Binding to Human Metallothionein.<i> J Am Chem Soc. </i><b>128</b>(38): 12473-83.</li>
+
   <li>Ngu T.T. and Stillman M.J. (2006) Arsenic Binding to Human Metallothionein.<i> J Am Chem Soc. </i><b>128</b>(38): 12473-12483.</li>
-
   <li>Ali &amp; Imperiali (2005) Protein oligomerization: How and why.<i> Bioorg Med Chem. </i><b>13</b>(17): 5013-20.</li>
+
   <li>Ali M.H. and Imperiali B. (2005) Protein oligomerization: How and why.<i> Bioorg Med Chem. </i><b>13</b>(17): 5013-5020.</li>
-
   <li>Wu &amp; Rosen (1993) Metalloregulated expression of the ars operon.<i> J Biol Chem.</i> <b>268</b>(1): 52-8.</li>
+
   <li>Wu &amp; Rosen (1993) Metalloregulated expression of the ars operon.<i> J Biol Chem.</i> <b>268</b>(1): 52-58.</li>
-
   <li>Hong <i>et al.</i> (2000) Molecular design of novel metal-binding oligomeric human metallothioneins. <i>Appl Microbiol Biotechnol.</i> <b>54</b>(1): 84-9. </li>
+
   <li>Hong S.H., Gohya M., Ono H., Murakami H., Yamashita M., Hirayama N. and Murooka Y. (2000) Molecular design of novel metal-binding oligomeric human metallothioneins. <i>Appl Microbiol Biotechnol.</i> <b>54</b>(1): 84-89. </li>
-
   <li>Hammartörm <i>et al.</i> (2002) Rapid screening for improved solubility of small human proteins produced as fusion proteins in <i>Escherichia coli</i>.<i> Protein Sci.</i> <b>11</b>(2): 313-21.</li>
+
   <li>Hammarström M., Hellgren N., van Den Berg S., Berglund H. and Härd T. (2002) Rapid screening for improved solubility of small human proteins produced as fusion proteins in <i>Escherichia coli</i>.<i> Protein Sci.</i> <b>11</b>(2): 313-321.</li>
-
   <li>DelProposto<i> et al.</i> (2008) Mocr: A novel fusion tag for enhancing solubility that is compatible with structural biology applications. <i>Protein Expr Purif. </i><b>63</b>(1): 40-9.</li>
+
   <li>DelProposto J., Majmudar C.Y., Smith J.L. and Brown W.C. (2008) Mocr: A novel fusion tag for enhancing solubility that is compatible with structural biology applications. <i>Protein Expr Purif. </i><b>63</b>(1): 40-49.</li>
-
   <li>Taniguchi <i>et al. </i>(2007) The Si-tag for Immobilizing Proteins on a Silica Surface. <i>Biotechnol Bioeng.</i> <b>96</b>(6): 1023-9.</li>
+
   <li>Taniguchi K., Nomura K., Hata Y., Nishimura T., Asami Y. and Kuroda A. (2007) The Si-tag for Immobilizing Proteins on a Silica Surface. <i>Biotechnol Bioeng.</i> <b>96</b>(6): 1023-1029.</li>
-
   <li>van Bloois <i>et al.</i> (2011) Decorating microbes: surface display of proteins on <i>Escherichia coli.</i> <i>Trends Biotechnol.</i> <b>29</b>(2): 79-86.</li>
+
   <li>van Bloois E., Winter R.T., Kolmar H. and Fraaije M.W. (2011) Decorating microbes: surface display of proteins on <i>Escherichia coli.</i> <i>Trends Biotechnol.</i> <b>29</b>(2): 79-86.</li>
-
   <li>Jose &amp; Meyer (2007) The Autodisplay Story, from Discovery to Biotechnical and Biomedical Applications. <i>Microbiol Mol Biol</i>. <b>71</b>(4): 600-19.</li>
+
   <li>Jose J. and Meyer T.F. (2007) The Autodisplay Story, from Discovery to Biotechnical and Biomedical Applications. <i>Microbiol Mol Biol</i>. <b>71</b>(4): 600-619.</li>
-
   <li>Li <i>et al.</i> (2007) Presentation of Functional Organophosphorus Hydrolase Fusions on the Surface of <i>Escherichia coli</i> by the AIDA-I Autotransporter Pathway <i>Biotechnol Bioeng</i>. <b>99</b>(2): 485-90.</li>
+
   <li>Li C., Zhu Y., Benz I., Schmidt M.A., Chen W., Mulchandani A. and Qiao C. (2007) Presentation of Functional Organophosphorus Hydrolase Fusions on the Surface of <i>Escherichia coli</i> by the AIDA-I Autotransporter Pathway <i>Biotechnol Bioeng</i>. <b>99</b>(2): 485-490.</li>
-
   <li>Francisco <i>et al. </i>(1992) Transport and anchoring of beta-lactamase to the external surface of <i>Escherichia coli.</i> <i>Proc Natl Acad Sci</i> USA. <b>89</b>(7):2713-7.</li>
+
   <li>Francisco J.A., Earhart C.F. and Georgiou G. (1992) Transport and anchoring of beta-lactamase to the external surface of <i>Escherichia coli.</i> <i>Proc Natl Acad Sci</i> USA. <b>89</b>(7):2713-2717.</li>
</ol>
</ol>
</div>
</div>

Revision as of 21:39, 26 September 2012

iGEM UANL 2012


References

  1. Camacho L.M., Gutiérrez M., Alarcón-Herrera M.T., Villalba M. de L. and Deng S. (2011) Occurrence and treatment of arsenic in groundwater and soil in northern Mexico and southwestern USA. Chemosphere. 83:211–225
  2. World Health Organization (2004) Guidelines for Drinking Water Quality. Recommendations, Vol. 1, 3rd Ed., World Health Organization, Geneva, pp. 306–308.
  3. National Research Council (1999) Arsenic in Drinking Water. The National Academies Press, Washington, DC, 330 pp.
  4. Secretaria de Salud (2000) MODIFICACION a la Norma Oficial Mexicana NOM-127-SSA1-1994. url:http://www.salud.gob.mx/unidades/cdi/nom/m127ssa14.html
  5. Kaur P. and Rosen B.P. (1992) Plasmid-encoded resistance to arsenic and antimony. Plasmid. 27(1): 29-40.
  6. Wu J. and Rosen B.P. (1993) Metalloregulated expression of the ars operon. J Biol Chem. 268(1): 52-58.
  7. Fujii H., Noda K., Asami Y., Kuroda A., Sakata M. and Tokida A. (2007) Increase in bioluminescence intensity of firefly luciferase using genetic modification. Anal Biochem. 366(2): 131-6
  8. Devgan V. (2009) Quantitative Signal Transduction Reporter Assays: The Future is Bright (Luminescent or Fluorescent). SABiosciences.
  9. Kostal J., Yang R., Wu C.H., Mulchandani A. and Chen W. (2004) Enhanced Arsenic Accumulation in Engineered Bacterial Cells Expressing ArsR. Appl Enrion Microbiol. 70(8): 4582-4587.
  10. Ngu T.T. and Stillman M.J. (2006) Arsenic Binding to Human Metallothionein. J Am Chem Soc. 128(38): 12473-12483.
  11. Ali M.H. and Imperiali B. (2005) Protein oligomerization: How and why. Bioorg Med Chem. 13(17): 5013-5020.
  12. Wu & Rosen (1993) Metalloregulated expression of the ars operon. J Biol Chem. 268(1): 52-58.
  13. Hong S.H., Gohya M., Ono H., Murakami H., Yamashita M., Hirayama N. and Murooka Y. (2000) Molecular design of novel metal-binding oligomeric human metallothioneins. Appl Microbiol Biotechnol. 54(1): 84-89. 
  14. Hammarström M., Hellgren N., van Den Berg S., Berglund H. and Härd T. (2002) Rapid screening for improved solubility of small human proteins produced as fusion proteins in Escherichia coli. Protein Sci. 11(2): 313-321.
  15. DelProposto J., Majmudar C.Y., Smith J.L. and Brown W.C. (2008) Mocr: A novel fusion tag for enhancing solubility that is compatible with structural biology applications. Protein Expr Purif. 63(1): 40-49.
  16. Taniguchi K., Nomura K., Hata Y., Nishimura T., Asami Y. and Kuroda A. (2007) The Si-tag for Immobilizing Proteins on a Silica Surface. Biotechnol Bioeng. 96(6): 1023-1029.
  17. van Bloois E., Winter R.T., Kolmar H. and Fraaije M.W. (2011) Decorating microbes: surface display of proteins on Escherichia coli. Trends Biotechnol. 29(2): 79-86.
  18. Jose J. and Meyer T.F. (2007) The Autodisplay Story, from Discovery to Biotechnical and Biomedical Applications. Microbiol Mol Biol. 71(4): 600-619.
  19. Li C., Zhu Y., Benz I., Schmidt M.A., Chen W., Mulchandani A. and Qiao C. (2007) Presentation of Functional Organophosphorus Hydrolase Fusions on the Surface of Escherichia coli by the AIDA-I Autotransporter Pathway Biotechnol Bioeng. 99(2): 485-490.
  20. Francisco J.A., Earhart C.F. and Georgiou G. (1992) Transport and anchoring of beta-lactamase to the external surface of Escherichia coli. Proc Natl Acad Sci USA. 89(7):2713-2717.

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