Faculty

Stanley Roux

Roux, Stanley
Professor in Molecular Cell & Developmental Biology

E-mail

Website

Main Office: BIO 16
Phone: 471-4238

Alternate Office: BIO 9
Phone: 471-1074

Mailing Address:
The University of Texas at Austin -MCDB
1 University Station A6700
205 W. 24th St.; BIO 16
Austin, TX 78712-0183


Research Lab Students:
    Graduate Student
  • Bushart, Thomas - Graduate Student
  • Butterfield, Timothy - Graduate Student
  • Cannon, Ashley - Graduate Student
  • Cantero-Garcia, Maria - Graduate Student
  • Fraley, Devin - Graduate Student
  • Henaff, Elizabeth - Graduate Student
  • Kays, Julia - Graduate Student
  • Lim, minhui - Graduate Student
  • Salmi, Mari - Graduate Student
  • Wu, Jian - Graduate Student
  • Yang, Jian - Graduate Student
  • Yao, Jianchao - Graduate Student
    Staff
  • Clark, Gregory - Staff
  • Salmi, Mari - Staff


  • Research Summary:

    We are studying how the stimuli of light and gravity alter patterns of plant development. In our studies of light-induced responses we have found that ectoapyrase, an enzyme whose expression is strongly regulated by the photoreceptor phytochrome, can modulate the levels of extracellular ATP [eATP], and that, surprisingly, changes in [eATP] can influence hormone transport, the growth of plant cells and organs (including pollen tubes, root hairs, hypocotyls, roots and leaves), wound responses, and toxin resistance in Arabidopsis and other plants. This indicates that eATP, which is a physiological regulator in animals, also influences plant growth and development, and we are investigating how this happens. For our gravitational studies we are using two model systems, Arabidopsis and spores of the fern Ceratopteris richardii. In Arabidopsis we are using genetic approaches to evaluate the role of annexins, which mediate the secretion of wall materials to growing points of cells, in gravitropic growth. In Ceratopteris spores, where gravity directs polarity development, we are using microarrays to compare the pattern of gene expression in space-flown vs. earth-grown cells, so as to identify genes needed for early stages of the spore’s graviresponse, and we using a Micro-Electro-Mechanical system (MEMS) to document very rapid changes in the transport activity of calcium channels and pumps that are directed by gravity. We are also studying the role of extracellular nucleotides in regulating polarized calcium transport changes and other early signaling steps that direct the gravity response in single spore cells.

    Publications:
    2013Bushart TJ, Cannon AE, Ul Haque A, San Miguel P, Mostajeran K, Clark GB, Porterfield DM, Roux SJ, RNA-seq analysis identified potential modulators of gravity response in spores of Ceratopteris (Parkeriaceae): Evidence for modulation by calcium pumps and apyrase activity, Am J Bot 100:161-174.
    2012Liu X, Wu J, Clark G, Lundy S, Lim M, Arnold D, Chan J, Tang W, Muday GK, Gardner G, Roux SJ, Role for apyrases in polar auxin transport in Arabidopsis, Plant Physiol 160:1985-95.
    2011Salmi M, ul Haque A, Bushart TJ, Stout SC, Roux SJ, Porterfield DM, Changes in gravity rapidly alter the magnitude and direction of a cellular calcium current, Planta 233:911-920.
    2011Clark G, Fraley D, Steinebrunner I, Cervantes A, Onyirimba J, Liu A, Torres T, Tang W, Kim J, Roux SJ, Extracellular nucleotides and apyrases regulate stomatal aperture in Arabidopsis1, Plant Physiology 156:1740-53 view.
    2010Clark G, Torres J, Finlayson S., Guan X, Handley C, Lee J, Kays J, Chen ZJ, Roux SJ, Apyrase (NTPDase) and extracellular nucleotides regulate cotton fiber elongation in cultured ovules, Plant Physiology 152:1073-83.

     
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