Farre Lab: Difference between revisions
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*[[Farre_Lab:Linsey Newton|Linsey Newton]] | *[[Farre_Lab:Linsey Newton|Linsey Newton]] | ||
*[[Farre_Lab:Tiffany Liu|Tiffany Liu]] | *[[Farre_Lab:Tiffany Liu|Tiffany Liu]] | ||
*[[Farre_Lab:Andrew Lapinsky|Andrew Lapinsky]] | *[[Farre_Lab:Andrew Lapinsky|Andrew Lapinsky]] | ||
*[[USer:Eric R Poliner|Eric Poliner]] | *[[USer:Eric R Poliner|Eric Poliner]] | ||
*[[USer:Adrian Hülsewede|Adrian Hülsewede]] | |||
*[[Farre_Lab:Open_positions|Open Positions: | *[[Farre_Lab:Open_positions|Open Positions: | ||
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[[Farre_Lab:Publications |<h3><font style="color:#F8B603;">Publications</font></h3>]] | [[Farre_Lab:Publications |<h3><font style="color:#F8B603;">Publications</font></h3>]] | ||
*Liu T, Carlsson J, Takeuchi T, Newton L (in press) Direct regulation of abiotic responses by the Arabidopsis circadian clock component PRR7. Plant Journal.[http://www.ncbi.nlm.nih.gov/pubmed/23808423 PubMed] | |||
*Farré EM, Liu T (in press) The PRR family of transcriptional regulators reflects the complexity and evolution of plant circadian clocks. Curr Opin Plant Biol.[http://www.ncbi.nlm.nih.gov/pubmed/23856081 PubMed] | |||
*Vieler et al. (2012) Genome, Functional Gene Annotation, and Nuclear Transformation of the Heterokont Oleaginous Alga Nannochloropsis oceanica CCMP1779. Plos Genetics8(11):e1003064. [http://www.ncbi.nlm.nih.gov/pubmed?term=Plos%20Genetics%20Vieler%20Benning Pubmed] | |||
*Farré EM, Weise SE (2012) The interactions between the circadian clock and primary metabolism. Curr Opin Plant Biol 15(3):293-300. [http://www.ncbi.nlm.nih.gov/pubmed/22305520 PubMed] | *Farré EM, Weise SE (2012) The interactions between the circadian clock and primary metabolism. Curr Opin Plant Biol 15(3):293-300. [http://www.ncbi.nlm.nih.gov/pubmed/22305520 PubMed] | ||
*Farre EM (2012) The regulation of plant growth by the circadian clock. Plant Biol 14(3):401-10.[http://www.ncbi.nlm.nih.gov/pubmed/22284304 PubMed] | *Farre EM (2012) The regulation of plant growth by the circadian clock. Plant Biol 14(3):401-10.[http://www.ncbi.nlm.nih.gov/pubmed/22284304 PubMed] | ||
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*Farre EM and Kay SA (2007) PRR7 Protein levels are regulated by light and the circadian clock in Arabidopsis. Plant J 52 (3):548–560. | *Farre EM and Kay SA (2007) PRR7 Protein levels are regulated by light and the circadian clock in Arabidopsis. Plant J 52 (3):548–560. | ||
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[[Farre_Lab:Links |<h3><font style="color:red">Links</font></h3>]] | [[Farre_Lab:Links |<h3><font style="color:red">Links</font></h3>]] | ||
*[[Farre Lab: | *[[Farre Lab:NSF_T&R|Farre Lab NSF funded Research & Teaching program for pre-service teachers]] | ||
*[[Farre_Lab:Links|MSU Links]] | *[[Farre_Lab:Links|MSU Links]] | ||
*[[Farre_Lab:Links|Other Circadian Labs]] | *[[Farre_Lab:Links|Other Circadian Labs]] |
Revision as of 08:51, 16 September 2013
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ResearchOur goal is to understand how circadian clocks work and why they play such a key role in growth and development. We study the regulation and role of circadian rhythms in plants, which as sessile and autotrophic organisms rely heavily on daily and seasonal changes for their development and growth. Recent findings show that the appropriate resonance of internal rhythms with daily environmental rhythms optimizes plant growth and survival. During the last few years, a large number of clock components have been identified in plants. However, knowledge of the molecular mechanisms involved in plant circadian clocks lags behind studies in other organisms such as Drosophila and Cyanobacteria. Although circadian clocks share a basic architecture among different taxa, they differ in their molecular components. Thus the study of circadian rhythms in plants will help define not only their role on plant specific processes but also the design principles of circadian oscillators. |
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