Complex signals for simple cells: the expanding ranks of signals and receptors guiding stomatal development

Current Opinion in Plant Biology

Volumn 13, Issue 5, 2010, Pages 548-555

  Rowe, Matthew H ^a   Bergmann, Dominique C ^a  

^a STANFORD UNIVERSITY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

CELL SURFACE RECEPTOR; PROTEIN SERINE THREONINE KINASE; VEGETABLE PROTEIN;

AMINO ACID SEQUENCE; CELL DIFFERENTIATION; CELL PROLIFERATION; GROWTH, DEVELOPMENT AND AGING; METABOLISM; MOLECULAR GENETICS; PLANT; PLANT STOMA; REVIEW; SIGNAL TRANSDUCTION;

AMINO ACID SEQUENCE; CELL DIFFERENTIATION; CELL PROLIFERATION; MOLECULAR SEQUENCE DATA; PLANT PROTEINS; PLANT STOMATA; PLANTS; PROTEIN-SERINE-THREONINE KINASES; RECEPTORS, CELL SURFACE; SIGNAL TRANSDUCTION;

EID: 78049248859     PISSN: 13695266     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.pbi.2010.06.002     Document Type: Review

References (37)

1. Cho S.K., Larue C.T., Chevalier D., Wang H., Jinn T.L., Zhang S., Walker J.C. Regulation of floral organ abscission in Arabidopsis thaliana. Proc Natl Acad Sci U S A 2008, 40:15629-15634.
2. Leslie M.E., Lewis M.W., Youn J.Y., Daniels M.J., Liljegren S.J. The EVERSHED receptor-like kinase modulates floral organ shedding in Arabidopsis. Development 2010, 3:467-476.
3. De Smet I., Vassileva V., De Rybel B., Levesque M.P., Grunewald W., Van Damme D., Van Noorden G., Naudts M., Van Isterdael G., De Clercq R., et al. Receptor-like kinase ACR4 restricts formative cell divisions in the Arabidopsis root. Science 2008, 5901:594-597.
4. Kwak S.H., Shen R., Schiefelbein J. Positional signaling mediated by a receptor-like kinase in Arabidopsis. Science 2005, 5712:1111-1113.
5. Chevalier D., Batoux M., Fulton L., Pfister K., Yadav R.K., Schellenberg M., Schneitz K. STRUBBELIG defines a receptor kinase-mediated signaling pathway regulating organ development in Arabidopsis. Proc Natl Acad Sci U S A 2005, 25:9074-9079.
6. Nodine M.D., Yadegari R., Tax F.E. RPK1 and TOAD2 are two receptor-like kinases redundantly required for Arabidopsis embryonic pattern formation. Dev Cell 2007, 6:943-956.
7. Fisher K., Turner S. PXY, a receptor-like kinase essential for maintaining polarity during plant vascular-tissue development. Curr Biol 2007, 12:1061-1066.
8. Hirakawa Y., Shinohara H., Kondo Y., Inoue A., Nakanomyo I., Ogawa M., Sawa S., Ohashi-Ito K., Matsubayashi Y., Fukuda H. Non-cell-autonomous control of vascular stem cell fate by a CLE peptide/receptor system. Proc Natl Acad Sci U S A 2008, 39:15208-15213.
9. Clark S.E., Williams R.W., Meyerowitz E.M. The CLAVATA1 gene encodes a putative receptor kinase that controls shoot and floral meristem size in Arabidopsis. Cell 1997, 4:575-585.
10. DeYoung B.J., Clark S.E. BAM receptors regulate stem cell specification and organ development through complex interactions with CLAVATA signaling. Genetics 2008, 2:895-904.
11. Bergmann D.C., Sack F.D. Stomatal development. Annu Rev Plant Biol 2007, 58:163-181.
12. Shpak E.D., McAbee J.M., Pillitteri L.J., Torii K.U. Stomatal patterning and differentiation by synergistic interactions of receptor kinases. Science 2005, 5732:290-293.
13. Yang M., Sack F.D. The too many mouths and four lips mutations affect stomatal production in Arabidopsis. Plant Cell 1995, 12:2227-2239.
14. Hara K., Kajita R., Torii K.U., Bergmann D.C., Kakimoto T. The secretory peptide gene EPF1 enforces the stomatal one-cell-spacing rule. Genes Dev 2007, 14:1720-1725.
15. Hunt L., Gray J.E. The signaling peptide EPF2 controls asymmetric cell divisions during stomatal development. Curr Biol 2009, 10:864-869.
16. Hara K., Yokoo T., Kajita R., Onishi T., Yahata S., Peterson K.M., Torii K.U., Kakimoto T. Epidermal cell density is autoregulated via a secretory peptide, EPIDERMAL PATTERNING FACTOR 2 in Arabidopsis leaves. Plant Cell Physiol 2009, 6:1019-1031.
17. Abrash E.B., Bergmann D.C. Regional specification of stomatal production by the putative ligand CHALLAH. Development 2010, 137:447-455.
18. Sugano S.S., Shimada T., Imai Y., Okawa K., Tamai A., Mori M., Hara-Nishimura I. Stomagen positively regulates stomatal density in Arabidopsis. Nature 2009, 463:241-244.
19. Kondo T., Kajita R., Miyazaki A., Hokoyama M., Nakamura-Miura T., Mizuno S., Masuda Y., Irie K., Tanaka Y., Takada S., et al. Stomatal density is controlled by a mesophyll-derived signaling molecule. Plant Cell Physiol 2009, 51:1-8.
20. Hunt L., Bailey K.J., Gray J.E. The signalling peptide EPFL9 is a positive regulator of stomatal development. New Phytol 2010, 186:609-614.
21. Nadeau J.A., Sack F.D. Control of stomatal distribution on the Arabidopsis leaf surface. Science 2002, 5573:1697-1700.
22. Shpak E.D., Berthiaume C.T., Hill E.J., Torii K.U. Synergistic interaction of three ERECTA-family receptor-like kinases controls Arabidopsis organ growth and flower development by promoting cell proliferation. Development 2004, 7:1491-1501.
23. Shpak E.D., Lakeman M.B., Torii K.U. Dominant-negative receptor uncovers redundancy in the Arabidopsis ERECTA leucine-rich repeat receptor-like kinase signaling pathway that regulates organ shape. Plant Cell 2003, 5:1095-1110.
24. Muller R., Bleckmann A., Simon R. The receptor kinase CORYNE of Arabidopsis transmits the stem cell-limiting signal CLAVATA3 independently of CLAVATA1. Plant Cell 2008, 4:934-946.
25. Jeong S., Trotochaud A.E., Clark S.E. The Arabidopsis CLAVATA2 gene encodes a receptor-like protein required for the stability of the CLAVATA1 receptor-like kinase. Plant Cell 1999, 10:1925-1934.
26. Geisler M., Nadeau J., Sack F.D. Oriented asymmetric divisions that generate the stomatal spacing pattern in Arabidopsis are disrupted by the too many mouths mutation. Plant Cell 2000, 11:2075-2086.
27. Bhave N.S., Veley K.M., Nadeau J.A., Lucas J.R., Bhave S.L., Sack F.D. TOO MANY MOUTHS promotes cell fate progression in stomatal development of Arabidopsis stems. Planta 2009, 2:357-367.
28. Silverstein K.A., Moskal W.A., Wu H.C., Underwood B.A., Graham M.A., Town C.D., VandenBosch K.A. Small cysteine-rich peptides resembling antimicrobial peptides have been under-predicted in plants. Plant J 2007, 2:262-280.
29. Okuda S., Tsutsui H., Shiina K., Sprunck S., Takeuchi H., Yui R., Kasahara R.D., Hamamura Y., Mizukami A., Susaki D., et al. Defensin-like polypeptide LUREs are pollen tube attractants secreted from synergid cells. Nature 2009, 7236:357-361.
30. Wen J., Lease K.A., Walker J.C. DVL, a novel class of small polypeptides: overexpression alters Arabidopsis development. Plant J 2004, 5:668-677.
31. Butenko M.A., Vie A.K., Brembu T., Aalen R.B., Bones A.M. Plant peptides in signalling: looking for new partners. Trends Plant Sci 2009, 5:255-263.
32. Berger D., Altmann T. A subtilisin-like serine protease involved in the regulation of stomatal density and distribution in Arabidopsis thaliana. Genes Dev 2000, 9:1119-1131.
33. Etchells J.P., Turner S.R. The PXY-CLE41 receptor ligand pair defines a multifunctional pathway that controls the rate and orientation of vascular cell division. Development 2010, 5:767-774.
34. Ito Y., Nakanomyo I., Motose H., Iwamoto K., Sawa S., Dohmae N., Fukuda H. Dodeca-CLE peptides as suppressors of plant stem cell differentiation. Science 2006, 5788:842-845.
35. Tang W., Kim T.W., Oses-Prieto J.A., Sun Y., Deng Z., Zhu S., Wang R., Burlingame A.L., Wang Z.Y. BSKs mediate signal transduction from the receptor kinase BRI1 in Arabidopsis. Science 2008, 5888:557-560.
36. Saitou N., Nei M. The neighbor-joining method: a new method for reconstructing phylogenetic trees. Mol Biol Evol 1987, 4:406-425.
37. Lassmann T., Sonnhammer EL Kalign, Kalignvu and Mumsa: web servers for multiple sequence alignment. Nucleic Acids Res 2006, (Web Server issue):W596-W599.