Team:MIT/References

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<center>[[Team:MIT|Home]]|[[Team:MIT/Projects|Projects]]|[[Team:MIT/Protocols|Protocols]]|[http://partsregistry.org/cgi/partsdb/pgroup.cgi?pgroup=iGEM2009&group=MIT Parts for Registry]|[[Team:MIT/References|References]]</center>
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[[Image:Bilibuddies_references_export.png]]
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<center>[[Team:MIT|Home]] | [[Team:MIT/Projects|Projects]] | [[Team:MIT/Protocols|Protocols]] | [http://partsregistry.org/cgi/partsdb/pgroup.cgi?pgroup=iGEM2009&group=MIT Parts for Registry] | [[Team:MIT/References|References]]</center>
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1. Al-Sady B et al., "Photoactivated Phytochrome Induces Rapid PIF3 Phosphorylation Prior to Proteasome-Mediated Degradation," Molecular Cell 2006, 23, 439-446 <br>
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== References ==
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2. Bischoff M et al, "Excited-State Processes in Phycocyanobilin Studied by Femtosecond Spectroscopy," J. Phys. Chem. B 2000, 104, 1810-1816 <br>
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# Al-Sady B et al., "Photoactivated Phytochrome Induces Rapid PIF3 Phosphorylation Prior to Proteasome-Mediated Degradation," ''Molecular Cell'' 2006, 23, 439-446
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3. Daisy W. Leung et al., “Genetically encoded photoswitching of actin assembly through the Cdc42-WASP-Arp2/3 complex pathway,” Proceedings of the National Academy of Sciences 105, no. 35 (2008): 12797-12802.<br>
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# Bischoff M et al, "Excited-State Processes in Phycocyanobilin Studied by Femtosecond Spectroscopy," ''J. Phys. Chem. B'' 2000, 104, 1810-1816
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4. Frankenberg N, Lagarias JC, "Phycocyanobilin:Ferredoxin Oxidoreductase of Anabaena sp. PCC 7120," J. of Bio. Chem. Vol. 278, No. 11, Issue of March 14, pp. 9219–9226, 2003 <br>
+
# Daisy W. Leung et al., “Genetically encoded photoswitching of actin assembly through the Cdc42-WASP-Arp2/3 complex pathway,” ''Proceedings of the National Academy of Sciences'' 105, no. 35 (2008): 12797-12802.
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5. Gregory A. Gambetta and J. Clark Lagarias, “Genetic engineering of phytochrome biosynthesis in bacteria,” Proceedings of the National Academy of Sciences of the United States of America 98, no. 19 (2001): 10566-10571.<br>
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# Frankenberg N, Lagarias JC, "Phycocyanobilin:Ferredoxin Oxidoreductase of Anabaena sp. PCC 7120," ''J. of Bio. Chem.'' Vol. 278, No. 11, Issue of March 14, pp. 9219–9226, 2003
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6. Hoffman M., Gora M., Rytka J., "Identification of rate-limiting steps in yeast heme biosynthesis," Biochemical and Biophysical Research Communications 310 (2003) 1247-1253 <br>
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# Gregory A. Gambetta and J. Clark Lagarias, “Genetic engineering of phytochrome biosynthesis in bacteria,” ''Proceedings of the National Academy of Sciences of the United States of America'' 98, no. 19 (2001): 10566-10571.
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7. Keng T., Alani E., Guarante L., "The Nine Amino-Terminal Residues of delta-Aminolevulinate Synthase Direct Beta-Galactosidase into the Mitochondrial Matrix," Mol. and Cell Bio. Vol. 6, No. 2, 355-364 (February 1986) <br>
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# Hoffman M., Gora M., Rytka J., "Identification of rate-limiting steps in yeast heme biosynthesis," ''Biochemical and Biophysical Research Communications'' 310 (2003) 1247-1253
-
8. Kim D et al., "Fungal Heme Oxygenases: Functional Expression and Characterization of Hmx1 from Saccharomyces cerevisiae and CaHmx1 from Candida albicans," Biochemistry 2006, 45, 14772-14780 <br>
+
# Keng T., Alani E., Guarante L., "The Nine Amino-Terminal Residues of delta-Aminolevulinate Synthase Direct Beta-Galactosidase into the Mitochondrial Matrix," ''Mol. and Cell Bio.'' Vol. 6, No. 2, 355-364 (February 1986)
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9. Kohchi T et al , "Biosynthesis of chromophores for phytochrome and related photoreceptors," Plant Biotechnology 22, 409-413 (2005)<br>
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# Kim D et al., "Fungal Heme Oxygenases: Functional Expression and Characterization of Hmx1 from Saccharomyces cerevisiae and CaHmx1 from Candida albicans," ''Biochemistry'' 2006, 45, 14772-14780
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10. Mukougawa K et al, "Metabolic engineering to produce phytochromes with phytochromobilin, phycocyanobilin, or phycoerythrobilin chromophore in Escherichia coli," FEBS Letters 580 (2006) 1333–1338 <br>
+
# Kohchi T et al , "Biosynthesis of chromophores for phytochrome and related photoreceptors," ''Plant Biotechnology'' 22, 409-413 (2005)
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11. Ni M, Tepperman JM, Quail PH, "Binding of phytochrome B to its nuclear signalling partner PIF3 is reversibly induced by light," Nature Vol. 400, 19 Aug 1999, pp. 781 - 784 <br>
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# Mukougawa K et al, "Metabolic engineering to produce phytochromes with phytochromobilin, phycocyanobilin, or phycoerythrobilin chromophore in Escherichia coli," ''FEBS Letters'' 580 (2006) 1333–1338 <br>
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12. Sae Shimizu-Sato et al., “A light-switchable gene promoter system,” Nat Biotech 20, no. 10 (October 2002): 1041-1044. <br>
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# Ni M, Tepperman JM, Quail PH, "Binding of phytochrome B to its nuclear signalling partner PIF3 is reversibly induced by light," ''Nature'' Vol. 400, 19 Aug 1999, pp. 781 - 784
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13. Zhang L, Hach A, "Molecular mechanism of heme signaling in yeast: the transcriptional activator Hap1 serves as the key mediator," CMLS, Cell. Mol. Life Sci. 56 (1999) 415–426
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# Sae Shimizu-Sato et al., “A light-switchable gene promoter system,” ''Nat Biotech'' 20, no. 10 (October 2002): 1041-1044.
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# Zhang L, Hach A, "Molecular mechanism of heme signaling in yeast: the transcriptional activator Hap1 serves as the key mediator," CMLS, ''Cell. Mol. Life Sci.'' 56 (1999) 415–426

Revision as of 02:35, 22 October 2009

Bilibuddies references export.png

Home | Projects | Protocols | [http://partsregistry.org/cgi/partsdb/pgroup.cgi?pgroup=iGEM2009&group=MIT Parts for Registry] | References

References

  1. Al-Sady B et al., "Photoactivated Phytochrome Induces Rapid PIF3 Phosphorylation Prior to Proteasome-Mediated Degradation," Molecular Cell 2006, 23, 439-446
  1. Bischoff M et al, "Excited-State Processes in Phycocyanobilin Studied by Femtosecond Spectroscopy," J. Phys. Chem. B 2000, 104, 1810-1816
  1. Daisy W. Leung et al., “Genetically encoded photoswitching of actin assembly through the Cdc42-WASP-Arp2/3 complex pathway,” Proceedings of the National Academy of Sciences 105, no. 35 (2008): 12797-12802.
  1. Frankenberg N, Lagarias JC, "Phycocyanobilin:Ferredoxin Oxidoreductase of Anabaena sp. PCC 7120," J. of Bio. Chem. Vol. 278, No. 11, Issue of March 14, pp. 9219–9226, 2003
  1. Gregory A. Gambetta and J. Clark Lagarias, “Genetic engineering of phytochrome biosynthesis in bacteria,” Proceedings of the National Academy of Sciences of the United States of America 98, no. 19 (2001): 10566-10571.
  1. Hoffman M., Gora M., Rytka J., "Identification of rate-limiting steps in yeast heme biosynthesis," Biochemical and Biophysical Research Communications 310 (2003) 1247-1253
  1. Keng T., Alani E., Guarante L., "The Nine Amino-Terminal Residues of delta-Aminolevulinate Synthase Direct Beta-Galactosidase into the Mitochondrial Matrix," Mol. and Cell Bio. Vol. 6, No. 2, 355-364 (February 1986)
  1. Kim D et al., "Fungal Heme Oxygenases: Functional Expression and Characterization of Hmx1 from Saccharomyces cerevisiae and CaHmx1 from Candida albicans," Biochemistry 2006, 45, 14772-14780
  1. Kohchi T et al , "Biosynthesis of chromophores for phytochrome and related photoreceptors," Plant Biotechnology 22, 409-413 (2005)
  1. Mukougawa K et al, "Metabolic engineering to produce phytochromes with phytochromobilin, phycocyanobilin, or phycoerythrobilin chromophore in Escherichia coli," FEBS Letters 580 (2006) 1333–1338
  1. Ni M, Tepperman JM, Quail PH, "Binding of phytochrome B to its nuclear signalling partner PIF3 is reversibly induced by light," Nature Vol. 400, 19 Aug 1999, pp. 781 - 784
  1. Sae Shimizu-Sato et al., “A light-switchable gene promoter system,” Nat Biotech 20, no. 10 (October 2002): 1041-1044.
  1. Zhang L, Hach A, "Molecular mechanism of heme signaling in yeast: the transcriptional activator Hap1 serves as the key mediator," CMLS, Cell. Mol. Life Sci. 56 (1999) 415–426
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