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<h2><font style="color:#008000;">Announcements</font></h2>


<h3><font style="color:#4B0082;">Research</font></h3>
[[Image:sunflower_cover_small.png|thumb|frame|left|[http://science.sciencemag.org/cgi/content/full/353/6299/587?ijkey=aVhP94O00PDOE&keytype=ref&siteid=sci Our investigation of sunflower solar tracking was recently published in ''Science'']!]]
* A nice description of our recent article investigating the role of the clock in sunflower solar tracking and flower orientation can be found in this [https://www.newscientist.com/article/2100051-mystery-of-why-some-sunflowers-track-the-sun-across-skies-solved/ ''New Scientist'' article].


Many organisms, including some prokaryotes and most eukaryotes, possess an internal timer or circadian clock that allows them to regulate their physiology to better adapt to our continually changing world.  These circadian clocks generate roughly 24 hour rhythms in physiology and behavior that are maintained even in the absence of environmental cues. Although the molecular components of circadian clocks are not conserved across higher taxa, in all organisms studied these clocks are cell autonomous oscillators and in diverse eukaryotes are composed of complex transcriptional networks.
*Other popular press coverage includes pieces in  [https://www.nytimes.com/2016/08/05/science/how-sunflowers-follow-the-sun-day-after-day.html?rref=collection%2Fcolumn%2Ftrilobites&action=click&contentCollection=science&region=stream&module=stream_unit&version=latest&contentPlacement=1&pgtype=collection&_r=0 the ''New York Times''], the [http://www.latimes.com/science/sciencenow/la-sci-sn-sunflowers-direction-20160804-snap-story.html ''Los Angeles Times''], and the [https://www.washingtonpost.com/news/speaking-of-science/wp/2016/08/05/watch-a-sunflower-dance-in-the-sun-now-scientists-know-how-its-done/ ''Washington Post''].


The study of circadian rhythms presents a wide range of interesting questions: What is the molecular nature of the circadian clock; that is, how can a cell keep time?  What aspects of physiology are under circadian regulation?  What are the mechanistic links between the clock network and other signaling pathways?  Why does a functional circadian clock provide an adaptive advantage?
*Links to additional popular press articles, podcasts, and social media references to this work may be found [[Sunflower_press_summary | on this page]].


The Harmer lab is using the model plant ''Arabidopsis thaliana'' to address these fundamental questions. We use forward and reverse genetics, genomics, biochemistry, and physiological studies to better understand the nature of the plant clock and how it helps shape plant responses to the environment.
*Schedules for [http://malooflab.phytonetworks.org/schedules/group-meeting-summer-2016/ our joint group meeting with the Maloof lab], [https://smartsite.ucdavis.edu/portal/site/5f0e3c4d-70cd-4de6-a3a1-32b178f19d88 our joint journal club with the Chiu lab] and [http://biosci.ucdavis.edu/seminars-and-events/ UC Davis seminars].




[[Harmer_Lab:Research | read more...]]
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<h2><font style="color:#4B0082;">Research</font></h2>
Many organisms, including some prokaryotes and most eukaryotes, possess an internal timer or circadian clock that allows them to regulate their physiology to better adapt to our continually changing world.  These circadian clocks generate roughly 24 hour rhythms in physiology and behavior that are maintained even in the absence of environmental cues.  Although the molecular components of circadian clocks are not conserved across higher taxa, in all organisms studied these clocks are cell autonomous oscillators and in diverse eukaryotes are composed of complex transcriptional networks.
As rooted organisms living in a continually changing world, plants are masters at withstanding environmental variation.  The circadian clock is key: it both ensures the optimal timing of daily and seasonal events to cope with predictable stresses and regulates myriad signaling pathways to optimize responses to environmental cues.  The study of circadian rhythms in plants thus presents a wide range of fascinating questions with real-world applications:  What is the molecular nature of the circadian clock; that is, how can a cell keep time?  What aspects of physiology are under circadian regulation?  What are the mechanistic links between the clock network and other signaling pathways?  Why does a functional circadian clock provide an adaptive advantage?
The Harmer lab is using ''Arabidopsis thaliana'' and sunflower to address these important questions.  We use forward and reverse genetics, genomics, biochemistry, and physiological studies to better understand the nature of the plant clock and how it helps shape plant responses to the environment.
<br/>
<br/>
[[Harmer_Lab:Research | Read more...]]
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<h3><font style="color:#FF0000;">Job Openings</font></h3>
<h2><font style="color:#E30B5C;">Lab Members</font></h2>
*[[Harmer_Lab:post-doc | post-doc position]]
*[[Harmer_Lab:Stacey_Harmer|Stacey Harmer]]
*Hagop Atamian
*Nicky Creux
*[[User:Valentina Fanelli|Valentina Fanelli]]
*[[User:Jennifer_Gray|Jennifer Gray]]
*Rod Kumimoto
*[[User:Akiva Shalit-Kaneh|Akiva Shalit-Kaneh]]


<h3><font style="color:#E30B5C;">Lab Members</font></h3>
<h3><font style="color:#E30B5C;">Undergrad & high school interns</font></h3>


*[[Harmer_Lab:Stacey_Harmer|Stacey Harmer]]
*Dalena (Nhu) Chu
*[[User:Shajahan_Anver|Shajahan Anver]]
*Emma Goguen
*[[User:Cory_Ellison|Cory Ellison]]
*Navdeep Kaur
*[[User:Daniel_He|Daniel He]]
*Rohan Konnur
*[[User:Matthew_A._Jones|Matt Jones]]
*Kellie Sluga
*[[Harmer_Lab:Nozomu_Takahashi|Nozomu Takahashi]]
*Winnifred Toy
*Timothy Youngblood
*Michael Zook


<h2><font style="color:#CA1F7B;">Former Members</font></h2>
*[http://www.mpipz.mpg.de/tsuda/members Shajahan_Anver]
*[http://mfcovington.github.io/ Mike Covington]
*[http://www.mofo.com/people/e/ellison-cory Cory Ellison]
*[http://sites.duke.edu/benfey/people/ Polly (Yingshan) Hsu]
*[http://www.joneslab.co.uk/ Matt Jones]
* Ellen Martin-Tryon
*[http://www.linkedin.com/pub/dir/Reetika/Rawat Reetika Rawat]
*Ivan Salles Santos
*Koby Schwartz
*[http://www.cragenomica.es/staff/detail/nozomu-takahashi Nozomu Takahashi]
*Mikayala Waugh
* Brian Williams


<h3><font style="color:#CA1F7B;">Former Members</font></h3>
*[http://biochem.rice.edu/facultydetail_new.cfm?riceid=175673 Mike Covington]
*[http://biology4.wustl.edu/faculty/haswell/labmembers.html Ellen Martin-Tryon]
*[http://www.edenspace.com/ Reetika Rawat]
*[http://ucsfeye.net/eullianpersonnel.shtml Jamian Reed]
*Koby Schwartz
*Mikayala Waugh
*[http://indica.ucdavis.edu/ronald_bio/current_personnel Brian Williams]
*[[Undergrad Alumni]]
*[[Undergrad Alumni]]
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<h2><font style="color:#DB7093">Funding</font></h2>
*[http://www.nigms.nih.gov/Research/ National Institute of General Medical Sciences]
**[[Harmer_Lab:NIH | Molecular analysis of ''Arabidopsis'' circadian regulation]]
*[http://www.nsf.gov/index.jsp National Science Foundation]
** [[Harmer_Lab:NSF | Investigating the Mechanistic Basis and Adaptive Significance of the Coordination of Plant Growth by External and Internal Cues]]
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<h2><font style="color:#1E90FF;">Recent Publications</font></h2>
*Atamian, H.S., Creux, N.M., Brown, E.A., Garner, A.G., Blackman, B.K., and Harmer, S.L. (2016) Circadian regulation of sunflower heliotropism, floral orientation, and pollinator visits. ''Science''. 353(6299):587-90. doi: 10.1126/science.aaf9793 [http://science.sciencemag.org/cgi/content/full/353/6299/587?ijkey=aVhP94O00PDOE&keytype=ref&siteid=sci]
*Atamian, H.S. and Harmer, S.L. (2016) Circadian regulation of hormone signaling and plant physiology. ''Plant Mol Biol.'' 91(6):691-702. doi: 10.1007/s11103-016-0477-4 [http://link.springer.com/article/10.1007/s11103-016-0477-4]
*Jones, M.A., Hu, W., Litthauer, S., Lagarias, J.C. and Harmer, S.L. (2015) A constitutively active allele of phytochrome B maintains circadian robustness in the absence of light. ''Plant Physiology.'' 169(1):814-25. doi: 10.1104/pp.15.00782 [http://www.plantphysiol.org/content/169/1/814.long]
*Anver, S., Roguev, A., Zofall, M., Krogan, N.J., Grewal, S.I.S., and Harmer, S.L. (2014) Yeast X-Chromosome Associated Protein 5 (Xap5) Functions with H2A.Z to Suppress Aberrant Transcripts.  ''EMBO reports.'' pii: e201438902. [http://onlinelibrary.wiley.com/doi/10.15252/embr.201438902/abstract]
*Hsu, P.Y. and Harmer, S.L. (2013) Wheels within wheels: the plant circadian system.  ''Trends in Plant Science''  [http://dx.doi.org/10.1016/j.tplants.2013.11.007]
*Hsu, P.Y., Devisetty, U.K., and Harmer, S.L. (2013) Cycling activators control the evening arm of the plant clock.  ''eLife.'' 2:e00473. [http://elifesciences.org/content/2/e00473]
*Zemach, A.,  Kim, M.Y., Hsieh, P.-H., Coleman-Derr,D., Eshed-Williams, L., Thao, K, Harmer, S.L., and Zilberman, D. (2013) The Arabidopsis nucleosome remodeler DDM1 allows DNA methyltransferases to access H1-containing heterochromatin.  ''Cell'' 153(1):193-205 [http://www.cell.com/abstract/S0092-8674%2813%2900222-5]
*Hu, W., Franklin, K.A., Sharrock, R.A., Jones, M.A., Harmer, S.L., and Lagarias, J.C. (2013) Unanticipated regulatory roles for Arabidopsis phytochromes revealed by null mutant analysis.  ''Proceedings of the National Academy of the Science'' 110(4) 1542-1547. [http://www.pnas.org/content/110/4/1542.abstract]
*Hsu, P.Y. and Harmer, S.L. (2012) Circadian phase has profound effects on differential expression analysis.  ''PLoS One'' 7(11):e49853 [http://www.plosone.org/article/info%3Adoi%2F10.1371%2Fjournal.pone.0049853]
*Jones, M.A., Williams, B.A., McNicol J., Simpson, C.G., Brown, J.W., and Harmer, S.L. (2012) Mutation of Arabidopsis SPLICEOSOMAL TIMEKEEPER LOCUS 1 causes circadian clock defects.  ''Plant Cell'', 24(10):4066-82 [http://www.plantcell.org/content/24/10/4066.long]


<h3><font style="color:#1E90FF;">Publications</font></h3>
*[[Harmer_Lab:Publications | see complete list...]]
 
<biblio>
 
#Harmer-2009 pmid=19133818
#Covington-2008 pmid=18710561
#Martin-Tryon-2008 pmid=18515502
#Covington-2007 pmid=17683202


</biblio>
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<h2><font style="color:#008000;">Collaborators</font></h2>
[http://people.virginia.edu/~bkb2f/Blackman_Lab/Welcome.html Blackman Lab]
<br/>
[http://www.joneslab.co.uk/ Jones Lab]
<br/>
[http://www.mcb.ucdavis.edu/faculty-labs/lagarias/ Lagarias Lab]
<br/>
[[Maloof_Lab | Maloof Lab]]
<br>
[http://www.researchgate.net/profile/Cinzia_Montemurro Montemurro Lab]
<br/>
[http://www.leloir.org.ar/yanovsky/ Yanovsky Lab]


*[[Harmer_Lab:Publications | see complete list...]]


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<h3><font style="color:#008000;">Announcements</font></h3>
*[[Maloof_Lab:Group_meeting|Group meeting, journal clubs, and seminars]]
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<h3><font style="color:#DB7093">Funding</font></h3>
*[http://www.nigms.nih.gov/Research/ National Institute of General Medical Sciences]
**[[Harmer_Lab:NIH | Molecular analysis of ''Arabidopsis'' circadian regulation]]
*[http://www.nsf.gov/index.jsp National Science Foundation]
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Revision as of 18:08, 26 August 2016

Room 2123
Department of Plant Biology
1002 Life Sciences, One Shields Ave.
University of California Davis
Davis, CA 95616

Contact: slharmer at ucdavis.edu

Home      Research      Publications      Protocols      Announcements      Lab Safety      Job openings     

Announcements

Our investigation of sunflower solar tracking was recently published in Science!
  • A nice description of our recent article investigating the role of the clock in sunflower solar tracking and flower orientation can be found in this New Scientist article.
  • Links to additional popular press articles, podcasts, and social media references to this work may be found on this page.


Research

Many organisms, including some prokaryotes and most eukaryotes, possess an internal timer or circadian clock that allows them to regulate their physiology to better adapt to our continually changing world. These circadian clocks generate roughly 24 hour rhythms in physiology and behavior that are maintained even in the absence of environmental cues. Although the molecular components of circadian clocks are not conserved across higher taxa, in all organisms studied these clocks are cell autonomous oscillators and in diverse eukaryotes are composed of complex transcriptional networks. As rooted organisms living in a continually changing world, plants are masters at withstanding environmental variation. The circadian clock is key: it both ensures the optimal timing of daily and seasonal events to cope with predictable stresses and regulates myriad signaling pathways to optimize responses to environmental cues. The study of circadian rhythms in plants thus presents a wide range of fascinating questions with real-world applications: What is the molecular nature of the circadian clock; that is, how can a cell keep time? What aspects of physiology are under circadian regulation? What are the mechanistic links between the clock network and other signaling pathways? Why does a functional circadian clock provide an adaptive advantage? The Harmer lab is using Arabidopsis thaliana and sunflower to address these important questions. We use forward and reverse genetics, genomics, biochemistry, and physiological studies to better understand the nature of the plant clock and how it helps shape plant responses to the environment.

Read more...

Lab Members

Undergrad & high school interns

  • Dalena (Nhu) Chu
  • Emma Goguen
  • Navdeep Kaur
  • Rohan Konnur
  • Kellie Sluga
  • Winnifred Toy
  • Timothy Youngblood
  • Michael Zook

Former Members

Funding

Recent Publications

  • Atamian, H.S., Creux, N.M., Brown, E.A., Garner, A.G., Blackman, B.K., and Harmer, S.L. (2016) Circadian regulation of sunflower heliotropism, floral orientation, and pollinator visits. Science. 353(6299):587-90. doi: 10.1126/science.aaf9793 [1]
  • Atamian, H.S. and Harmer, S.L. (2016) Circadian regulation of hormone signaling and plant physiology. Plant Mol Biol. 91(6):691-702. doi: 10.1007/s11103-016-0477-4 [2]
  • Jones, M.A., Hu, W., Litthauer, S., Lagarias, J.C. and Harmer, S.L. (2015) A constitutively active allele of phytochrome B maintains circadian robustness in the absence of light. Plant Physiology. 169(1):814-25. doi: 10.1104/pp.15.00782 [3]
  • Anver, S., Roguev, A., Zofall, M., Krogan, N.J., Grewal, S.I.S., and Harmer, S.L. (2014) Yeast X-Chromosome Associated Protein 5 (Xap5) Functions with H2A.Z to Suppress Aberrant Transcripts. EMBO reports. pii: e201438902. [4]
  • Hsu, P.Y. and Harmer, S.L. (2013) Wheels within wheels: the plant circadian system. Trends in Plant Science [5]
  • Hsu, P.Y., Devisetty, U.K., and Harmer, S.L. (2013) Cycling activators control the evening arm of the plant clock. eLife. 2:e00473. [6]
  • Zemach, A., Kim, M.Y., Hsieh, P.-H., Coleman-Derr,D., Eshed-Williams, L., Thao, K, Harmer, S.L., and Zilberman, D. (2013) The Arabidopsis nucleosome remodeler DDM1 allows DNA methyltransferases to access H1-containing heterochromatin. Cell 153(1):193-205 [7]
  • Hu, W., Franklin, K.A., Sharrock, R.A., Jones, M.A., Harmer, S.L., and Lagarias, J.C. (2013) Unanticipated regulatory roles for Arabidopsis phytochromes revealed by null mutant analysis. Proceedings of the National Academy of the Science 110(4) 1542-1547. [8]
  • Hsu, P.Y. and Harmer, S.L. (2012) Circadian phase has profound effects on differential expression analysis. PLoS One 7(11):e49853 [9]
  • Jones, M.A., Williams, B.A., McNicol J., Simpson, C.G., Brown, J.W., and Harmer, S.L. (2012) Mutation of Arabidopsis SPLICEOSOMAL TIMEKEEPER LOCUS 1 causes circadian clock defects. Plant Cell, 24(10):4066-82 [10]

Collaborators

Blackman Lab
Jones Lab
Lagarias Lab
Maloof Lab
Montemurro Lab
Yanovsky Lab


http://www2.clustrmaps.com/stats/maps-no_clusters/openwetware.org-wiki-Harmer_Lab-thumb.jpg

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