Team:Wisconsin-Madison/Notebook References

From 2009.igem.org

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* Resources
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* Genes for direct methylation of glycine provide high levels of glycinebetaine and abiotic-stress tolerance in Synechococcus and Arabidopsis [Link]
* Genes for direct methylation of glycine provide high levels of glycinebetaine and abiotic-stress tolerance in Synechococcus and Arabidopsis [Link]
* Isolation and functional characterization of N-methyltransferases that catalyze betaine synthesis from glycine in a halotolerant photosynthetic organism Aphanothece halophytica [Link]
* Isolation and functional characterization of N-methyltransferases that catalyze betaine synthesis from glycine in a halotolerant photosynthetic organism Aphanothece halophytica [Link]

Revision as of 22:45, 17 October 2009



REFERENCES
  • Project
  • General
  • Resources
PROJECT
  • Genes for direct methylation of glycine provide high levels of glycinebetaine and abiotic-stress tolerance in Synechococcus and Arabidopsis [Link]
  • Isolation and functional characterization of N-methyltransferases that catalyze betaine synthesis from glycine in a halotolerant photosynthetic organism Aphanothece halophytica [Link]
  • Extreme halophiles synthesize betaine from glycine by methylation [Link]
  • Improving heterologous polyketide production in Escherichia coli by overexpression of an S-adenosylmethionine synthetase gene [Link]
  • cDNA cloning of phosphoethanolamine N-methyltransferase from spinach by complementation in Schizosaccharomyces pombe and characterization of the recombinant enzyme. [Link]
  • Enhanced synthesis of choline and glycine betaine in transgenic tobacco plants that overexpress phosphoethanolamine * N-methyltransferase [Link]
  • Genetic engineering of glycinebetaine synthesis in plants: current status and implications for enhancement of stress tolerance. [Link]
  • Genes for direct methylation of glycine provide high levels of glycinebetaine and abiotic-stress tolerance in
  • Synechococcus and Arabidopsis [Link]
  • Improved osmotolerance of recombinant Escherichia coli by de novo glycine betaine biosynthesis [Link]
  • Identification of Osmoresponsive Genes in Escherichia coli: Evidence for Participation of Potassium and Proline
  • Transport Systems in Osmoregulation [Link]
  • Two Different Escherichia coli proP Promoters Respond to Osmotic and Growth Phase Signals [Link]
  • Abiotic stress and ABA-inducible Group 4 LEA from Brassica napus plays a key role in salt and drought tolerance [Link]
  • Improved osmotolerance of recombinant Escherichia coli by de novo glycine betaine biosynthesis [Link]
  • Characterization of Glycine Sarcosine N-Methyltransferase and Sarcosine Dimethylglycine N-Methyltransferase [Link]

Discovery of sarcosine dimethylglycine methyltransferase from Galdieria sulphuraria Link

GENERAL
  • Enzymatic assembly of DNA molecules up to several hundred kilobases [Link]
  • Engineering BioBrick vectors from BioBrick parts [Link]
RESOURCES
  • EcoCyc [Link]
  • Add Gene [Link]
  • KEGG Pathway Database [Link]
  • Gene Almanac (Interactive Videos) [Link]
  • Basic Local Alignment Search Tool (BLAST) [Link]
  • Oligo Analyzer - Integrated DNA Technologies [Link]