Auxin and cytokinin control formation of the quiescent centre in the adventitious root apex of arabidopsis

Annals of Botany

Volumn 112, Issue 7, 2013, Pages 1395-1407

  Della Rovere, Federica ^a   Fattorini, L ^a   D'Angeli, S ^a   Veloccia, A ^a   Falasca, G ^a   Altamura, M M ^a  

^a SAPIENZA UNIVERSITY OF ROME   (Italy)

Author keywords

Adventitious root apex; Arabidopsis thaliana; Auxin biosynthesis; Auxin transport; Cytokinin localization; Quiescent centre; Root meristemoids; Stem endodermis; Thin cell layers; WOX5.

Indexed keywords

BIOTECHNOLOGY; GENE EXPRESSION; GENETIC MARKER; IMMUNOASSAY; MUTATION; NICHE; PLANT COMMUNITY; ROOT SYSTEM;

ARABIDOPSIS; ARABIDOPSIS THALIANA;

6 N (3,3 DIMETHYLALLYL)ADENOSINE; ARABIDOPSIS PROTEIN; BETA GLUCURONIDASE; BIOLOGICAL MARKER; CARRIER PROTEIN; CYTOKININ; DRUG DERIVATIVE; HOMEODOMAIN PROTEIN; INDOLE DERIVATIVE; INDOLEACETIC ACID DERIVATIVE; INDOLEBUTYRIC ACID; KINETIN; LAX3 PROTEIN, ARABIDOPSIS; MIXED FUNCTION OXIDASE; PIN1 PROTEIN, ARABIDOPSIS; WUSCHEL PROTEIN, ARABIDOPSIS; YUCCA6 PROTEIN, ARABIDOPSIS; ZEATIN; ZEATIN RIBOSIDE;

ADVENTITIOUS ROOT APEX; ARABIDOPSIS; ARABIDOPSIS THALIANA; ARTICLE; AUXIN BIOSYNTHESIS; AUXIN TRANSPORT; BIOLOGICAL MODEL; CELL DIVISION; CYTOKININ LOCALIZATION; CYTOLOGY; DRUG EFFECT; GENE EXPRESSION REGULATION; GENETICS; GROWTH, DEVELOPMENT AND AGING; METABOLISM; PLANT GENE; PLANT GROWTH; PLANT ROOT; QUIESCENT CENTRE; ROOT MERISTEMOIDS; SEEDLING; STEM ENDODERMIS; THIN CELL LAYERS; TRANSPORT AT THE CELLULAR LEVEL; WOX5;

ADVENTITIOUS ROOT APEX; ARABIDOPSIS THALIANA; AUXIN BIOSYNTHESIS; AUXIN TRANSPORT; CYTOKININ LOCALIZATION; QUIESCENT CENTRE; ROOT MERISTEMOIDS; STEM ENDODERMIS; THIN CELL LAYERS; WOX5;

ARABIDOPSIS; ARABIDOPSIS PROTEINS; BIOLOGICAL MARKERS; BIOLOGICAL TRANSPORT; CELL DIVISION; CYTOKININS; GENE EXPRESSION REGULATION, PLANT; GENES, PLANT; GLUCURONIDASE; HOMEODOMAIN PROTEINS; HYPOCOTYL; INDOLEACETIC ACIDS; INDOLES; ISOPENTENYLADENOSINE; KINETIN; MEMBRANE TRANSPORT PROTEINS; MIXED FUNCTION OXYGENASES; MODELS, BIOLOGICAL; PLANT ROOTS; SEEDLING; ZEATIN;

EID: 84889779332     PISSN: 03057364     EISSN: 10958290     Source Type: Journal    
DOI: 10.1093/aob/mct215     Document Type: Article

References (51)

1. Airoldi CA, Della Rovere F, Falasca G, et aL. 2010. The Arabidopsis BET bromodomain factor GTE4 is involved in maintenance of the mitotic cell cycle during plant development. Plant Physiology 152: 1320-1334.
2. Aloni R, Langhans M, Aloni E, Dreieicher E, Ullrich CI. 2005. Root-synthesized cytokinin in Arabidopsis is distributed in the shoot by the transpiration stream. Journal of Experimental Botany 56: 1535-1544.
3. Barlier I, Kowalczyk M, Marchant A, et aL. 2000. The SUR2 gene of Arabidopsis thaliana encodes the cytochrome P450 CYP83B1, a modulator of auxin homeostasis. Proceedings of the National Academy of Sciences, USA 97: 14819-14824.
4. Benková E, Michniewicz M, Sauer M, et aL. 2003. Local, efflux-dependent auxin gradients as a common module for plant organ formation. Cell 115: 591-602.
5. van den Berg C, Willemsen V, Hendriks G, Weisbeek P, Scheres B. 1997. Short-range control of cell differentiation in the Arabidopsis root meristem. Nature 390: 287-289.
6. Blakeslee JJ, Bandyopadhyay A, Lee OR, et aL. 2007. Interactions among PIN-FORMED and P-glycoprotein auxin transporters in Arabidopsis. The Plant Cell 19: 131-147.
7. Blilou I, Xu J, Wildwater M, et aL. 2005. The PIN auxin efflux facilitator network controls growth and patterning in Arabidopsis roots. Nature 433: 39-44.
8. Caboni E, D'Angeli S, Chiappetta A, Innocenti AM, Onckelen HV, Damiano C. 2002. Adventitious shoot regeneration from vegetative shoot apices in pear and putative role of cytokinin accumulation in the morphogenetic process. Plant Cell, Tissue and Organ Culture 70: 199-206.
9. Clowes FAL. 1956. Nucleic acids in root apical meristem of Zea. New Phytologist 55: 29-35.
10. DelarueM, Prinsen E, Onckelen VH, CabocheM,Bellini C. 1998. Sur2 mutations of Arabidopsis thaliana define a new locus involved in the control of auxin homeostasis. The Plant Journal 14: 603-611.
11. Della Rovere F, Airoldi CA, Falasca G, et aL. 2010. The Arabidopsis BET bromodomain factor GTE4regulates the mitotic cell cycle. Plant Signaling and Behavior 56: 677-680.
12. Dello Ioio R,Nakamura K,Moubayidin L, et aL. 2008.Agenetic framework for the control of cell division and differentiation in the root meristem. Science 322: 1380-1384.
13. Ding Z, Friml J. 2010. Auxin regulates distal stem cell differentiation in Arabidopsis roots. Proceedings of the National Academy of Sciences, USA 107: 12046-12051.
14. Ditengou FA, Teale WD, Kocherspenger P, et aL. 2008. Mechanical induction of lateral root initiation in Arabidopsis thaliana. Proceedings of theNational Academy of Sciences, USA 105: 18818-18823.
15. Dubrovsky JG, Sauer M, Napsucialy-Mendivil S, et aL. 2008. Auxin acts as a local morphogenetic trigger to specify lateral root founder cells. Proceedings of the National Academy of Sciences, USA 105: 8790-8794.
16. FalascaG, AltamuraMM.2003. Histological analysis of adventitious rooting in Arabidopsis thaliana (L.) Heynh seedlings. Plant Biosystems 137: 265-274.
17. Falasca G, Zaghi D, Possenti M, Altamura MM. 2004. Adventitious root formation in Arabidopsis thaliana thin cell layers. Plant Cell Reports 23: 17-25.
18. Feldman LJ. 1979. Cytokinin biosynthesis in roots of corn. Planta 145: 315-321.
19. Friml J, Vieten A, SauerM,et aL. 2003. Efflux-dependent auxin gradients establish the apical-basal axis of Arabidopsis. Nature 426: 147-153.
20. García-Aguilar M, Dorantes-Acosta A, Pérez-Espana V, Vielle-Calzada JP. 2005. Whole-mount in situ mRNA localization in developing ovules and seeds of Arabidopsis. Plant Molecular Biology Reporter 23: 279-289.
21. Gonzali S, Novi G, Loreti E, et aL. 2005.Aturanose-insensitive mutant suggests a role for WOX5 in auxin homeostasis in Arabidopsis thaliana. The Plant Journal 44: 633-645.
22. Haecker A,Gross-Hardt R, Geiges B, et aL. 2004. Expressiondynamics ofWOX genes mark cell fate decisions during early embryonic patterning in Arabidopsis thaliana. Development 131: 657-668.
23. Hejátko J, Blilou I, Brewer PB, Friml J, Scheres B, Benková E. 2006. In situ hybridization technique for mRNA detection in whole mount Arabidopsis samples. Nature Protocols 1: 1939-1946.
24. Jiang K, Feldman LJ. 2005. Regulation of root apical meristem development. Annual Review of Cell and Developmental Biology 21: 485-509.
25. Jones B, Gunneras SA,PeterssonSV, et aL. 2010. Cytokinin regulation of auxin synthesis in Arabidopsis involves a homeostatic feedback loop regulated via auxin and cytokinin signal transduction. The Plant Cell 22: 2956-2969.
26. Kim JI, Sharkhuu A, Jin JB, et aL. 2007. yucca6, a dominant mutation in Arabidopsis, affects auxin accumulation and auxin-related phenotypes. Plant Physiology 145: 722-735.
27. Li SW, Xue L, Xu S, Feng H, An L. 2009. Mediators, genes and signaling in adventitious rooting. Botanical Review 75: 230-247.
28. Ljung K, Hull AK, Celenza J, et aL. 2005. Sites and regulation of auxin biosynthesis in Arabidopsis roots. The Plant Cell 17: 1090-1104.
29. Ludwig-Mu ller J, Vertocnik A, Town CD. 2005. Analysis of indole-3-butyric acid-induced adventitious root formation on Arabidopsis stem segments. Journal of Experimental Botany 56: 2095-2105.
30. Malamy JE, Benfey PN. 1997. Organization and cell differentiation in lateral roots of Arabidopsis thaliana. Development 124: 33-44.
31. Marchant A, Bhalerao R, Casimiro I, et aL. 2002. AUX1 promotes lateral root formation by facilitating indole-3-acetic acid distribution between sink and source tissues in the Arabidopsis seedling. The Plant Cell 14: 589-597.
32. Mashiguchi K, Tanaka K, Sakai T, et aL. 2011. The main auxin biosynthesis pathway in Arabidopsis. Proceedings of the National Academy of Sciences, USA 108: 18512-18517.
33. Moubayidin L, Di Mambro R, Sabatini S. 2009. Cytokinin-auxin crosstalk. Trends in Plant Science 14: 557-562.
34. Murashige T, Skoog F. 1962.A revised medium for rapid growth and bio assays with tobacco tissue cultures. Physiologia Plantarum 15: 473-497.
35. NawyT, LeeJY,Colinas J, et aL. 2005.Transcriptional profile of the Arabidopsis root quiescent center. The Plant Cell 17: 1908-1925.
36. Pernisová M, Kli'ma P, Hora'k J, et aL. 2009. Cytokinins modulate auxin-induced organogenesis in plants via regulation of the auxin efflux. Proceedings of the National Academy of Sciences, USA 106: 3609-3614.
37. Petersson SV, Johansson AI, Kowalczyk M, et aL. 2009. An auxin gradient and maximum in the Arabidopsis root apex shown by high-resolution cell-specific analysis of IAA distribution and synthesis. The Plant Cell 21: 1659-1668.
38. Petrásek J, Friml J. 2009. Auxin transport routes in plant development. Development 136: 2675-2688.
39. Péret B,Swarup K,Ferguson A, et aL. 2012. AUX/LAX genes encode a family of auxin influx transporters that perform distinct functions during Arabidopsis development. The Plant Cell 24: 2874-2885.
40. Sabatini S, Beis D,Wolkenfelt H, et aL. 1999. An auxin-dependent distal organizer of pattern and polarity in the Arabidopsis root. Cell 99: 463-472.
41. Sabatini S, Heidstra R, Wildwater M, Scheres B. 2003. SCARECROW is involved in positioning the stem cell niche in the Arabidopsis root meristem. Genes and Development 17: 354-358.
42. Sarkar AK, Luijten M, Miyashima S, et aL. 2007. Conserved factors regulate signalling in Arabidopsis thaliana shoot and root stem cell organizers. Nature 446: 811-814.
43. Strader LC, Bartel B. 2011.Transport and metabolism of the endogenous auxin precursor indole-3-butyric acid. Molecular Plant 4: 477-486.
44. Strader LC, Wheeler DL, Christensen SE, et aL. 2011. Multiple facets of Arabidopsis seedling development require indole-3-butyric acid-derived auxin. The Plant Cell 23: 984-999.
45. Su YH, Liu YB, Zhang XS. 2011. Auxin-cytokinin interaction regulates meristem development. Molecular Plant 4: 616-625.
46. Swarup K, Benková E, Swarup R, et aL. 2008. The auxin influx carrier LAX3 promotes lateral root emergence. Nature Cell Biology 10: 946-954.
47. Takahashi F, Sato-Nara K, Kobayashi K, Suzuki M, Suzuki H. 2003. Sugar-induced adventitious roots in Arabidopsis seedlings. Journal of Plant Research 116: 83-91.
48. Takechi K, Sakamoto W, Katsuhara M, Murata M, Motoyoshi F. 1999. In situ RNA hybridization using Technovit resin in Arabidopsis thaliana. Plant Molecular Biology Reporter 17: 43-51.
49. Vieten A, Vanneste S, Wiśniewska J, et aL. 2005. Functional redundancy of PIN proteins is accompanied by auxin-dependent cross-regulation of PIN expression. Development 132: 4521-4531.
50. Weigel D, Glazebrook J. 2002. Arabidopsis: A laboratory manuaL. Cold Spring Harbor, NY: Cold Spring Harbor Laboratory Press.
51. Willemsen V,Wolkenfelt H, de Vrieze G,Weisbeek P, Scheres B. 1998. The HOBBIT gene is required for formation of the root meristem in the Arabidopsis embryo. Development 125: 521-531.