Team:HKUST/Ref1

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[1]R.J. Bryson-Richardson, D.W. Logan, P.D. Currie and I.J. Jackson, 2004. Large-scale analysis of gene structure in rhodopsin-like GPCRs: evidence for widespread loss of an ancient intron, Gene 338 (2004), pp. 15–23. <br><br>
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[1] Bryson-Richardson RJ, Logan DW, Currie PD & Jackson IJ. Large-scale analysis of gene structure in rhodopsin-like GPCRs: evidence for widespread loss of an ancient intron. <em>Gene</em> <b>338</b> , 15–23 (2004). <br><br>
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[2]E. Jacoby, R. Bouhelal, M. Gerspacher and K. Seuwen, The 7 TM G-protein-coupled receptor target family, ChemMedChem 1 (2006), pp. 761–782.<br><br>
+
[2] Jacoby E, Bouhelal R, Gerspacher M & Seuwen K. The 7 TM G-protein-coupled receptor target family. <em>ChemMedChem</em> <b>1</b> , 761–782 (2006).<br><br>
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[3]Hinako Suga, Tatsuya Haga, 2007. Ligand screening system using fusion proteins of G protein-coupled receptors with G protein α subunits. Neurochemistry International, Volume 51, Issues 2-4, July-September 2007, Pages 140-164<br><br>
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[3] Suga H & Haga T. Ligand screening system using fusion proteins of G protein-coupled receptors with G protein α subunits. <em>Neurochemistry International</em> <b>51</b>, 140-164 (2007).<br><br>
-
[4]Sato K. and Touhara K. (2008) Insect olfaction: receptors, signal transduction, and behavior. Results Probl. Cell Differ. Epub ahead of print.<br><br>
+
[4] Sato K & Touhara K. Insect olfaction: receptors, signal transduction, and behavior. <em>Results Probl. Cell Differ. Epub</em>, ahead of print (2008).<br><br>
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[5]Versele, M. et al. (2001) Sex and sugar in yeast: two distinct GPCR
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[5] Versele M, <em>et al</em>. Sex and sugar in yeast: two distinct GPCR
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systems. EMBO Rep. 2, 574–579<br><br>
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systems. <em>EMBO Rep.</em> <b> 2</b>, 574–579 (2001).<br><br>
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[6]Graham Ladds, Alan Goddard, John Davey,2005. Functional analysis of heterologous GPCR signalling pathways in yeast.Trends in Biotechnology, Volume 23, Issue 7, July 2005, Pages 367-373<br><br>
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[6] Ladds G, Goddard A & Davey J. Functional analysis of heterologous GPCR signalling pathways in yeast.<em>Trends in Biotechnology</em><b> 23</b>, 367-373 (2005).<br><br>
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[7]Johnson GL, Dhanasekaran N. The G-protein family and their interaction with receptors. Endocr Rev. 1989; 10: 317–331.<br><br>
+
[7] Johnson GL & Dhanasekaran N. The G-protein family and their interaction with receptors. <em>Endocr Rev. </em> <b>10</b>, 317–331 (1989).<br><br>
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[8]J. Minic, M.A. Persuy, E. Godel, J. Aioun, I. Connerton, R. Salesse and E. Pajot-Augy, Functional expression of olfactory receptors in yeast and development of a bioassay for odorant screening, FEBS J. 272 (2005), pp. 524–537.<br><br>
+
[8] Minic J, Persuy MA, Godel E, Aioun J, Connerton I, Salesse R & Pajot-Augy E. Functional expression of olfactory receptors in yeast and development of a bioassay for odorant screening. <em>FEBS J.</em> <b>272</b>, 524–537 (2005).<br><br>
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[9]Minic, J., Sautel, M., Salesse, R., and Pajot-Augy, E. (2005) Yeast System as a Screening Tool for Pharmacological Assessment of G Protein Coupled Receptors .Curr. Med. Chem. 12, 961-969<br>
+
[9] Minic J, Sautel M, Salesse R & Pajot-Augy E. Yeast System as a Screening Tool for Pharmacological Assessment of G Protein Coupled Receptors. <em>Curr. Med. Chem.</em> <b>12</b>, 961-969 (2005).<br><br>
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[10]Radhika, V. et al . 2007. Chemical sensing of DNT by engineered olfactory yeast strain. Nat. Chem. Biol. 3 : 325–330<br><br>
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[10] Radhika V, Proikas-Cezanne T, Jayaraman M, Onesime D, Ha JH, Dhanasekaran DN. Chemical sensing of DNT by engineered olfactory yeast strain. <em>Nat. Chem. Biol.</em> <b>3</b>, 325–330 (2007)<br><br>
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[11]Crowe ML, Perry BN & Connerton IF (2000) Golf complements a GPA1 null mutation in Saccharomyces cerevisiae and functionally couples to the STE2 pheromone receptor. J Recept Signal Transduct Res 20, 61–73. <br><br>
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[11] Crowe ML, Perry BN & Connerton IFGolf complements a GPA1 null mutation in Saccharomyces cerevisiae and functionally couples to the STE2 pheromone receptor. <em>J Recept Signal Transduct Res </em> <b>20</b>, 61–73 (2000). <br><br>
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[12]Janke et al., 2004 C. Janke, M.M. Magiera, N. Rathfelder, C. Taxis, S. Reber, H. Maekawa, A. Moreno-Borchart, G. Doenges, E. Schwob, E. Schiebel and M. Knop, A versatile toolbox for PCR-based tagging of yeast genes: new fluorescent proteins, more markers and promoter substitution cassettes, Yeast 21 (2004), pp. 947–962.<br><br>
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[12] Janke C, Magiera MM, Rathfelder N, Taxis C, Reber S, Maekawa H <em>et al</em>. A versatile toolbox for PCR-based tagging of yeast genes: new fluorescent proteins, more markers and promoter substitution cassettes. <em>Yeast</em> <b>21</b> , 947–962 (2004).<br><br>
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[13]Zhang Y., Chou J.H., Bradley J., Bargmann C.I., Zinn K.(1997) The Caenorhabditis elegans seven-transmembrane protein ODR-10 functions as an odorant receptor in mammalian cells. Proc. Natl. Acad. Sci. 94:12162–12167.<br>
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[13] Zhang Y, Chou JH, Bradley J, Bargmann CI & Zinn K. The Caenorhabditis elegans seven-transmembrane protein ODR-10 functions as an odorant receptor in mammalian cells. <em>Proc. Natl. Acad. Sci.</em> <b>94</b>, 12162–12167 (1997).<br>
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Latest revision as of 13:46, 20 October 2009

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[1] Bryson-Richardson RJ, Logan DW, Currie PD & Jackson IJ. Large-scale analysis of gene structure in rhodopsin-like GPCRs: evidence for widespread loss of an ancient intron. Gene 338 , 15–23 (2004).

[2] Jacoby E, Bouhelal R, Gerspacher M & Seuwen K. The 7 TM G-protein-coupled receptor target family. ChemMedChem 1 , 761–782 (2006).

[3] Suga H & Haga T. Ligand screening system using fusion proteins of G protein-coupled receptors with G protein α subunits. Neurochemistry International 51, 140-164 (2007).

[4] Sato K & Touhara K. Insect olfaction: receptors, signal transduction, and behavior. Results Probl. Cell Differ. Epub, ahead of print (2008).

[5] Versele M, et al. Sex and sugar in yeast: two distinct GPCR systems. EMBO Rep. 2, 574–579 (2001).

[6] Ladds G, Goddard A & Davey J. Functional analysis of heterologous GPCR signalling pathways in yeast.Trends in Biotechnology 23, 367-373 (2005).

[7] Johnson GL & Dhanasekaran N. The G-protein family and their interaction with receptors. Endocr Rev. 10, 317–331 (1989).

[8] Minic J, Persuy MA, Godel E, Aioun J, Connerton I, Salesse R & Pajot-Augy E. Functional expression of olfactory receptors in yeast and development of a bioassay for odorant screening. FEBS J. 272, 524–537 (2005).

[9] Minic J, Sautel M, Salesse R & Pajot-Augy E. Yeast System as a Screening Tool for Pharmacological Assessment of G Protein Coupled Receptors. Curr. Med. Chem. 12, 961-969 (2005).

[10] Radhika V, Proikas-Cezanne T, Jayaraman M, Onesime D, Ha JH, Dhanasekaran DN. Chemical sensing of DNT by engineered olfactory yeast strain. Nat. Chem. Biol. 3, 325–330 (2007)

[11] Crowe ML, Perry BN & Connerton IF. Golf complements a GPA1 null mutation in Saccharomyces cerevisiae and functionally couples to the STE2 pheromone receptor. J Recept Signal Transduct Res 20, 61–73 (2000).

[12] Janke C, Magiera MM, Rathfelder N, Taxis C, Reber S, Maekawa H et al. A versatile toolbox for PCR-based tagging of yeast genes: new fluorescent proteins, more markers and promoter substitution cassettes. Yeast 21 , 947–962 (2004).

[13] Zhang Y, Chou JH, Bradley J, Bargmann CI & Zinn K. The Caenorhabditis elegans seven-transmembrane protein ODR-10 functions as an odorant receptor in mammalian cells. Proc. Natl. Acad. Sci. 94, 12162–12167 (1997).

  • Background
  • Experimental Design
  • Parts Design
  • Experimental Results
  • Future Work
  • References
  • HKUST