Farre Lab: Difference between revisions
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[[Farre Lab:Research |<h3><font style="color:#228B22;">Research</font></h3>]] | [[Farre Lab:Research |<h3><font style="color:#228B22;">Research</font></h3>]] | ||
Our goal is to understand how circadian clocks work and why they play such a key role in growth and development. | Our 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 and alga. Circadian rhythms are necessary for optimal growth and survival in several photosynthetic species, including ''Chlamydomonas rheinhardtii'', ''Synechocystes'' sp. and ''Arabidopsis thaliana''. Although circadian clocks share a basic architecture, they differ in their molecular components and appear to not to be conserved between different taxa. | ||
We | We work on the model plant ''Arabidopsis thaliana'' and have recently started analyzing rhythms in the heterokont alga ''Nannochloropsis oceanica''. | ||
[[Farre_Lab:Research | read more...]] | [[Farre_Lab:Research | read more...]] | ||
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*[[Farre_Lab:Eva_Farre|Eva Farre]] | *[[Farre_Lab:Eva_Farre|Eva Farre]] | ||
*[[Farre_Lab:Linsey Newton|Linsey Newton]] | *[[Farre_Lab:Linsey Newton|Linsey Newton]] | ||
*[[Farre_Lab:Tiffany Liu|Tiffany Liu]] | *[[Farre_Lab:Tiffany Liu|Tiffany Liu]] | ||
*[[ | *[[USer:Eric R Poliner|Eric Poliner]] | ||
*[[USer:Tyler Messenger|Tyler Messenger]] | |||
*[[ | *[[Farre_Lab:Elyse Horak|Elyse Horak]] | ||
*[[Farre_Lab: | |||
*[[Farre_Lab:Open_positions|Open Positions: | *[[Farre_Lab:Open_positions|Open Positions: | ||
Undergraduate assistant]] | Undergraduate assistant]] | ||
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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>]] | ||
*Takeuchi T, Newton L, Burkhardt A, Mason S, Farre EM. Light and the circadian clock mediate time specific changes in sensitivity to UV-B stress under light/dark cycles. Journal of Experimental Botany (in press). | |||
*Braun R, Farré EM, Schurr U, Matsubara S (2014) Effects of light and circadian clock on growth and chlorophyll accumulation of Nannochloropsis gaditana. Journal of Phycology 50(1):515–525 [http://onlinelibrary.wiley.com/doi/10.1111/jpy.12177/abstract] | |||
*Liu T, Carlsson J, Takeuchi T, Newton L (2013) Direct regulation of abiotic responses by the Arabidopsis circadian clock component PRR7. Plant Journal.Plant J 76(1):101-14[http://www.ncbi.nlm.nih.gov/pubmed/23808423 PubMed] | |||
*Farré EM, Liu T (2013) The PRR family of transcriptional regulators reflects the complexity and evolution of plant circadian clocks. Curr Opin Plant Biol 16(5):621-9[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] | ||
*Nusinow DA, Helfer A, Hamilton EE, King JJ, Imaizumi T, Schultz TF, Farré EM, Kay SA (2011) The ELF4-ELF3-LUX complex links the circadian clock to diurnal control of hypocotyl growth. Nature 475:398-402.[http://www.ncbi.nlm.nih.gov/pubmed/21753751 PubMed] | *Nusinow DA, Helfer A, Hamilton EE, King JJ, Imaizumi T, Schultz TF, Farré EM, Kay SA (2011) The ELF4-ELF3-LUX complex links the circadian clock to diurnal control of hypocotyl growth. Nature 475:398-402.[http://www.ncbi.nlm.nih.gov/pubmed/21753751 PubMed] | ||
*Dong M, Farre EM, Thomashow MF (2011) CIRCADIAN CLOCK-ASSOCIATED 1 and LATE ELONGATED HYPOCOTYL regulate expression of the C-REPEAT BINDING FACTOR (CBF) pathway in Arabidopsis. PNAS 108(17):7241-6.[http://www.ncbi.nlm.nih.gov/pubmed/21471455 PubMed] | *Dong M, Farre EM, Thomashow MF (2011) CIRCADIAN CLOCK-ASSOCIATED 1 and LATE ELONGATED HYPOCOTYL regulate expression of the C-REPEAT BINDING FACTOR (CBF) pathway in Arabidopsis. PNAS 108(17):7241-6.[http://www.ncbi.nlm.nih.gov/pubmed/21471455 PubMed] | ||
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[[Farre_Lab:Research |<h3><font style="color:#F8B603;">Announcements</font></h3>]] | [[Farre_Lab:Research |<h3><font style="color:#F8B603;">Announcements</font></h3>]] | ||
* Andrew Lapinsky has been awarded the Bessey Award for Outstanding Senior in Plant Biology. Congratulations! | |||
*[[Farre_Lab:Announcements | Group meeting, journal clubs, and seminars]]<br> | *[[Farre_Lab:Announcements | Group meeting, journal clubs, and seminars]]<br> | ||
*[ | *[[Media:201404330-Map-MPSB.jpg| Our Lab has moved to the new Plant Molecular Science Building]] | ||
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|style="padding: 5px; background-color: #ffffff; border: 2px solid red;" | | |style="padding: 5px; background-color: #ffffff; border: 2px solid red;" | | ||
[[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 13:33, 26 November 2014
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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 and alga. Circadian rhythms are necessary for optimal growth and survival in several photosynthetic species, including Chlamydomonas rheinhardtii, Synechocystes sp. and Arabidopsis thaliana. Although circadian clocks share a basic architecture, they differ in their molecular components and appear to not to be conserved between different taxa. We work on the model plant Arabidopsis thaliana and have recently started analyzing rhythms in the heterokont alga Nannochloropsis oceanica. |
Lab Members
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Publications
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Announcements
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Links
Funding
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