Interaction between transcriptional factors and phytohormones in regulation of plant meristems activity



Cite item

Full Text

Abstract

Plant growth and development are controlled by large regulatory network which modulates activity of special groups of cells — apical meristems. This control is performed by means of phytohormones and transcriptional factors, the regulators of gene expression. In this review principal transcriptional factors regulating plant apical meristems are described, and the data are presented about their interactions with the most important plant hormones, auxins, cytokinins and gibberellins. General tendencies of these interactions are depicted.

Keywords

About the authors

Varvara E Tvorogova

Saint-Peterburg State University, Saint-Petersburg, RF

Email: krubaza@mail.ru Universitetskaya nab., 7/9, Saint-Petersburg, 199034

Maria A Osipova

Saint Petersburg State University, Saint-Petersburg, RF

Email: mary_osipova@mail.ru Universitetskaya nab., 7/9, Saint-Petersburg, 199034, Russia

Irina E Dodueva

Saint-Peterburg State University, Saint-Petersburg, RF

Email: wildtype@yandex.ru Universitetskaya nab., 7/9, Saint-Petersburg, 199034, Russia

Ludmila A Lutova

Saint-Petersburg State University., Saint-Petersburg, RF

Email: olgunja_@mail.ru 199034, Saint-Petersburg, Universitetskaya nab, 7/9. Russia

References

  1. Лутова Л. А., Долгих Е. А., Додуева И. Е. и др., 2012. Изучение системного контроля деления и дифференцировки клеток растений на примере опухолевого роста у редиса // Генетика. Т. 44. С. 1075–1083.
  2. Синнот Э., 1963. Морфогенез растений. М.: Издательство иностранной литературы. 603 с.
  3. Творогова В. Е., 2012. Взаимодействие генов KNOX и WOX и фитогормонов у инбредных линий редиса со спонтанным опухолеобразованием. Магистерская диссертация. СПб., 70 с.
  4. Aida M., Beis D., Heidstra R. et al., 2004. The PLETHORA genes mediate patterning of the Arabidopsis root stem cell niche // Cell. Vol. 119. P. 109–120.
  5. Aloni R., Schwalm K., Langhans M., Ullrich C. I., 2003. Gradual shifts in sites of free-auxin production during leaf-primordium development and their role in vascular differentiation and leaf morphogenesis in Arabidopsis // Planta. Vol. 216. P. 841–853.
  6. Atta R., Laurens L., Boucheron-Dubuisson E. et al., 2009. Pluripotency of Arabidopsis xylem pericycle underlies shoot regeneration from root and hypocotyl explants grown in vitro // The Plant Journal. Vol. 57. P. 626–644.
  7. Bao Y., Dharmawardhana P., Arias R. et al., 2009. WUS and STM-based reporter genes for studying meristem development in poplar // Plant Cell Rep. Vol. 28. P. 947–962.
  8. Barkoulas M., Hay A., Kougioumoutzi E., Tsiantis M., 2008. A developmental framework for dissected leaf formation in the Arabidopsis relative Cardamine hirsuta // Nature Genetics. Vol. 40. P. 1136–1141.
  9. Barton M. K., 2010. Twenty years on: The inner workings of the shoot apical meristem, a developmental dynamo // Developmental Biology. Vol. 341. P. 95–113.
  10. Bolduc N., Hake S., 2009. The Maize Transcription Factor KNOTTED1 Directly Regulates the Gibberellin Catabolism Gene ga2ox1 // Plant Cell. Vol. 21. P. 1647–1658.
  11. Buechel S., Leibfried A., To J. P. C. et al., 2010. Role of A-type ARABIDOPSIS RESPONSE REGULATORS in meristem maintenance and regeneration // Eur. J. Cell Biol. Vol. 89. P. 279–284.
  12. Busch W., Miotk A., Ariel F. D. et al., 2010. Transcriptional control of a plant stem cell niche // Dev. Cell. Vol. 18. P. 849–861.
  13. Chen H., Banerjee A. K., Hannapel D. J., 2004. The tandem complex of BEL and KNOX partners is required for transcriptional repression of ga20ox1 // The Plant Journal. Vol. 38. P. 276–284.
  14. Chen H., Rosin F. M., Prat S., Hannapel D. J., 2003. Interacting transcription factors from the three-amino acid loop extension superclass regulate tuber formation // Plant Physiol. Vol. 132. P. 1391–1404.
  15. Chen S.-K., Kurdyukov S., Kereszt A. et al., 2009. The association of homeobox gene expression with stem cell formation and morphogenesis in cultured Medicago truncatula // Planta. Vol. 230. P. 827–840.
  16. Chickarmane V., Gordon S., Tarr P. et al., 2012. Cytokinin signaling as a positional cue for patterning the apical-basal axis of the growing Arabidopsis shoot meristem // Proc. Natl. Acad. Sci. U. S. A. Vol. 109. P. 4002–4007.
  17. Craft J., Samalova M., Baroux et al., 2005. New pOp/LhG4 vectors for stringent glucocorticoid-dependent transgene expression in Arabidopsis // The Plant Journal. Vol. 41. P. 899–918.
  18. Cui H., Levesque M. P., Vernoux T. et al., 2007. An Evolutionarily Conserved Mechanism Delimiting SHR Movement Defines a Single Layer of Endodermis in Plants // Science. Vol. 316. P. 421–425.
  19. Ding Z., Friml J., 2010. Auxin regulates distal stem cell differentiation in Arabidopsis roots // Proc. Natl. Acad. Sci. U. S. A. Vol. 107. P. 12046–12051.
  20. Elhiti M., Stasolla C., 2011. Ectopic expression of the Brassica SHOOTMERISTEMLESS attenuates the deleterious effects of the auxin transport inhibitor TIBA on somatic embryo number and morphology // Plant Sci. Vol. 180. P. 383–390.
  21. Elhiti M., Stasolla C., 2012. In vitro shoot organogenesis and hormone response are affected by the altered levels of Brassica napus meristem genes // Plant Science. Vol. 190. P. 40–51.
  22. Galinha C., Bilsborough G., Tsiantis M., 2009. Hormonal input in plant meristems: A balancing act. Semin // Cell Dev. Biol. Vol. 20. P. 1149–1156.
  23. Galinha C., Hofhuis H., Luijten M. et al., 2007. PLETHORA proteins as dose-dependent master regulators of Arabidopsis root development // Nature. Vol. 449. P. 1053–1057.
  24. Gallois J.-L., Nora F. R., Mizukami Y., Sablowski R., 2004. WUSCHEL induces shoot stem cell activity and developmental plasticity in the root meristem // Genes Dev. Vol. 18. P. 375–380.
  25. Gao X.-H., Xiao S.-L., Yao Q.-F. et al., 2011. An Updated GA Signaling «Relief of Repression» Regulatory Model // Mol. Plant. Vol. 4. P. 601–606.
  26. Gonzali S., Novi G., Loreti E. et al., 2005. A turanose-insensitive mutant suggests a role for WOX5 in auxin homeostasis in Arabidopsis thaliana // Plant J. Vol. 44. P. 633–645.
  27. Gordon S. P., Chickarmane V. S., Ohno C., Meyerowitz E. M., 2009. Multiple feedback loops through cytokinin signaling control stem cell number within the Arabidopsis shoot meristem // Proc. Natl. Acad. Sci. U. S. A. Vol. 106. P. 16529–16534.
  28. Hamant O., Pautot V., 2010. Plant development: a TALE story // C. R. Biol. Vol. 333, 371–381. Hay A., Barkoulas M., Tsiantis M., 2006. ASYMMETRIC LEAVES1 and auxin activities converge to repress BREVIPEDICELLUS expression and promote leaf development in Arabidopsis // Development. Vol. 133. P. 3955–3961.
  29. Hay A., Kaur H., Phillips A. et al., 2002. The gibberellin pathway mediates KNOTTED1-type homeobox function in plants with different body plans // Curr. Biol. Vol. 12. P. 1557–1565.
  30. Hedden P., Thomas S. G., 2012. Gibberellin biosynthesis and its regulation // Biochem. J. Vol. 444. P. 11–25.
  31. Helariutta Y., Fukaki H., Wysocka-Diller J. et al., 2000. The SHORT-ROOT Gene Controls Radial Patterning of the Arabidopsis Root through Radial Signaling // Cell. Vol. 101. P. 555–567.
  32. Hoth S., Ikeda Y., Morgante M. et al., 2003. Monitoring genome-wide changes in gene expression in response to endogenous cytokinin reveals targets in Arabidopsis thaliana // FEBS Letters. Vol. 554. P. 373–380.
  33. Imin N., Nizamidin M., Wu T., Rolfe B. G., 2007. Factors involved in root formation in Medicago truncatula // J. Exp. Bot. Vol. 58. P. 439–451.
  34. Ishida T., Fujiwara S., Miura K. et al., 2009. SUMO E3 ligase HIGH PLOIDY2 regulates endocycle onset and meristem maintenance in Arabidopsis // Plant Cell. Vol. 21. P. 2284–2297.
  35. Jasinski S., Piazza P., Craft J. et al., 2005. KNOX Action in Arabidopsis Is Mediated by Coordinate Regulation of Cytokinin and Gibberellin Activities // Current Biology. Vol. 15. P. 1560–1565.
  36. Jasinski S., Tattersall A., Piazza P. et al., 2008. PROCERA encodes a DELLA protein that mediates control of dissected leaf form in tomato // The Plant Journal. Vol. 56. P. 603–612.
  37. Kamada-Nobusada T., Sakakibara H., 2009. Molecular basis for cytokinin biosynthesis // Phytochemistry. Vol. 70. P. 444–449.
  38. Kuijt S. J. H., Lamers G. E. M., Rueb S. et al., 2004. Different subcellular localization and trafficking properties of KNOX class 1 homeodomain proteins from rice // Plant Mol. Biol. Vol. 55. P. 781–796.
  39. Kurakawa T., Ueda N., Maekawa M. et al., 2007. Direct control of shoot meristem activity by a cytokinin-activating enzyme // Nature. Vol. 445. P. 652–655.
  40. Kusaba S., Fukumoto M., Honda C. et al., 1998b. Decreased GA1 Content Caused by the Overexpression of OSH1 Is Accompanied by Suppression of GA 20-Oxidase Gene Expression // Plant Physiology. Vol. 117. P. 1179.
  41. Kusaba S., Kano-Murakami Y., Matsuoka M. et al., 1998a. Alteration of Hormone Levels in Transgenic Tobacco Plants Overexpressing the Rice Homeobox Gene OSH1 // Plant Physiology. Vol. 116. P. 471.
  42. Leibfried A., To J. P.C., Busch W. et al., 2005. WUSCHEL controls meristem function by direct regulation of cytokinin-inducible response regulators // Nature. Vol. 438. P. 1172–1175.
  43. Lindsay D. L., Sawhney V. K., Bonham-Smith P. C. et al., 2006 Cytokinin-induced changes in CLAVATA1 and WUSCHEL expression temporally coincide with altered floral development in Arabidopsis // Plant Sci. Vol. 170. P. 1111–1117
  44. Liu J., Ha D., Xie Z. et al., 2008. Ectopic expression of soybean GmKNT1 in Arabidopsis results in altered leaf morphology and flower identity // Journal of Genetics and Genomics. Vol. 35. P. 441–449.
  45. Lucas M., Swarup R., Paponov I. A. et al., 2011. SHORT-ROOT Regulates Primary, Lateral, and Adventitious Root Development in Arabidopsis//Plant Physiol. Vol. 155. P. 384–398.
  46. Matsuzaki Y., Ogawa-Ohnishi M., Mori A., Matsubayashi Y., 2010. Secreted peptide signals required for maintenance of root stem cell niche in Arabidopsis//Science. Vol. 329. P. 1065–1067.
  47. Montero-Córtes M., Sáenz L., Córdova I. et al., 2010. GA3 stimulates the formation and germination of somatic embryos and the expression of a KNOTTED-like homeobox gene of Cocos nucifera (L.) // Plant Cell Rep. Vol. 29. P. 1049–1059.
  48. Müller R., Bleckmann A., Simon R., 2008. The receptor kinase CORYNE of Arabidopsis transmits the stem cell-limiting signal CLAVATA3 independently of CLAVATA1 // Plant Cell. Vol. 20. P. 934–946.
  49. Osipova M. A., Mortier V., Demchenko K. N. et al., 2012. Wuschel-related homeobox5 gene expression and interaction of CLE peptides with components of the systemic control add two pieces to the puzzle of autoregulation of nodulation // Plant Physiol. Vol. 158. P. 1329–1341.
  50. Perales M., Reddy G. V., 2012. Stem cell maintenance in shoot apical meristems // Current Opinion in Plant Biology. Vol. 15. P. 10–16.
  51. Qiao M., Zhao Z., Song Y. et al., 2012. Proper regeneration from in vitro cultured Arabidopsis thaliana requires the microRNA-directed action of an auxin response factor // Plant J. Vol. 71. P. 14–22.
  52. Riou-Khamlichi C., Huntley R., Jacqmard A., Murray J. A., 1999. Cytokinin activation of Arabidopsis cell division through a D-type cyclin // Science. Vol. 283. P. 1541–1544.
  53. Rupp H.-M., Frank M., Werner et al., 1999. Increased steady state mRNA levels of the STM and KNAT1 homeobox genes in cytokinin overproducing Arabidopsis thaliana indicate a role for cytokinins in the shoot apical meristem // The Plant Journal. Vol. 18. P. 557–563.
  54. Sablowski R., 2007. The dynamic plant stem cell niches//Current Opinion in Plant Biology. Vol. 10. P. 639–644.
  55. Sakamoto T., Kamiya N., Ueguchi-Tanaka M. et al., 2001. KNOX homeodomain protein directly suppresses the expression of a gibberellin biosynthetic gene in the tobacco shoot apical meristem // Genes Dev. Vol. 15. P. 581–590.
  56. Salvini M., Sani E., Fambrini M. et al., 2012. Molecular analysis of a sunflower gene encoding an homologous of the B subunit of a CAAT binding factor // Mol. Biol. Rep. Vol. 39. P. 6449–6465.
  57. Sarkar A. K., Luijten M., Miyashima S. et al., 2007. Conserved factors regulate signalling in Arabidopsis thaliana shoot and root stem cell organizers // Nature. Vol. 446. P. 811–814.
  58. Sauer M., Kleine-Vehn J., 2011. AUXIN BINDING PROTEIN1: the outsider // Plant Cell. Vol. 23. P. 2033–2043.
  59. Scofield S., Murray J. A. H., 2006. KNOX gene function in plant stem cell niches//Plant Mol. Biol. Vol. 60. P. 929–946.
  60. Skoog F., Miller C. O., 1957. Chemical regulation of growth and organ formation in plant tissue culture in vitro // Symp. Soc. Exp. Biol. Vol. 11. P. 118–131.
  61. Sinha N. R., Williams R. E., Hake S., 1993. Overexpression of the maize homeo box gene, KNOTTED-1, causes a switch from determinate to indeterminate cell fates // Genes Dev. Vol. 7. P. 787–795.
  62. Souček P., Klíma P., Reková A., Brzobohatý B., 2007. Involvement of hormones and KNOXI genes in early Arabidopsis seedling development // J. Exp. Bot. Vol. 58. P. 3797–3810.
  63. Sozzani R., Cui H., Moreno-Risueno M. A. et al., 2010. Spatiotemporal regulation of cell-cycle genes by SHORTROOT links patterning and growth // Nature. Vol. 466. P. 128–132.
  64. Srinivasan C., Liu Z., Scorza R., 2011. Ectopic expression of class 1 KNOX genes induce adventitious shoot regeneration and alter growth and development of tobacco (Nicotiana tabacum L) and European plum (Prunus domestica L) // Plant Cell Rep. Vol. 30. P. 655–664.
  65. Stahl Y., Simon R., 2010. Plant primary meristems: shared functions and regulatory mechanisms // Current Opinion in Plant Biology. Vol. 13. P. 53–58.
  66. Su Y. H., Zhao X. Y., Liu Y. B. et al., 2009. Auxin-induced WUS expression is essential for embryonic stem cell renewal during somatic embryogenesis in Arabidopsis // Plant J. Vol. 59. P. 448–460.
  67. Tabata R., Ikezaki M., Fujibe T., et al., 2010. Arabidopsis AUXIN RESPONSE FACTOR6 and 8 Regulate Jasmonic Acid Biosynthesis and Floral Organ Development via Repression of Class 1 KNOX Genes // Plant Cell Physiol. Vol. 51. P. 164–175.
  68. Tan X., Calderon-Villalobos L. I. A., Sharon M. et al., 2007. Mechanism of auxin perception by the TIR1 ubiquitin ligase // Nature. Vol. 446. P. 640–645.
  69. Teo W. L., Kumar P., Goh C. J., Swarup S., 2001. The expression of Brostm, a KNOTTED1-like gene, marks the cell type and timing of in vitro shoot induction in Brassica oleracea // Plant Mol. Biol. Vol. 46. P. 567–580.
  70. To J. P. C., Kieber J. J., 2008. Cytokinin signaling: two-components and more // Trends Plant Sci. Vol. 13. P. 85–92.
  71. Tromas A., Braun N., Muller P. et al., 2009. The AUXIN BINDING PROTEIN 1 is required for differential auxin responses mediating root growth // PLoS ONE. Vol. 4. P. e6648.
  72. Tsiantis M., Brown M. I. N., Skibinski G., Langdale J. A., 1999. Disruption of Auxin Transport Is Associated with Aberrant Leaf Development in Maize // Plant Physiol. Vol. 121. P. 1163–1168.
  73. van der Graaff E., Laux T., Rensing S. A., 2009. The WUS homeobox-containing (WOX) protein family // Genome Biol. Vol. 10. P. 248.
  74. Yadav R. K., Reddy G. V., 2012. WUSCHEL protein movement and stem cell homeostasis // Plant signaling & behavior. Vol. 7.
  75. Yadav R. K., Tavakkoli M., Reddy G. V., 2010. WUSCHEL mediates stem cell homeostasis by regulating stem cell number and patterns of cell division and differentiation of stem cell progenitors // Development. Vol. 137. P. 3581–3589.
  76. Yanai O., Shani E., Dolezal K. et al., 2005. Arabidopsis KNOXI Proteins Activate Cytokinin Biosynthesis // Current Biology. Vol. 15. P. 1566–1571.
  77. Yang S., Yu H., Xu Y., Goh C. J., 2003. Investigation of cytokinin-deficient phenotypes in Arabidopsis by ectopic expression of orchid DSCKX1 // FEBS Lett. Vol. 555. P. 291–296.
  78. Zhang Z.-L., Ogawa M., Fleet C. M. et al., 2011. SCARECROW-LIKE 3 promotes gibberellin signaling by antagonizing master growth repressor DELLA in Arabidopsis // Proc Natl Acad Sci U S A. Vol. 108. P. 2160–2165.
  79. Zhou W., Wei L., Xu J. et al., 2010. Arabidopsis Tyrosylprotein Sulfotransferase Acts in the Auxin/PLETHORA Pathway in Regulating Postembryonic Maintenance of the Root Stem Cell Niche // Plant Cell. Vol. 22. P. 3692–3709.

Supplementary files

Supplementary Files
Action
1. JATS XML
Download

Copyright (c) 2012 Tvorogova V.E., Osipova M.A., Dodueva I.E., Lutova L.A.

Creative Commons License
This work is licensed under a Creative Commons Attribution 4.0 International License.
СМИ зарегистрировано Федеральной службой по надзору в сфере связи, информационных технологий и массовых коммуникаций (Роскомнадзор).
Регистрационный номер и дата принятия решения о регистрации СМИ: серия ПИ № ФС 77 - 65617 от 04.05.2016.


This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies