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Items: 1 to 20 of 248

1.

Arabidopsis stomatal initiation is controlled by MAPK-mediated regulation of the bHLH SPEECHLESS.

Lampard GR, Macalister CA, Bergmann DC.

Science. 2008 Nov 14;322(5904):1113-6. doi: 10.1126/science.1162263.

2.

Transcription factor control of asymmetric cell divisions that establish the stomatal lineage.

MacAlister CA, Ohashi-Ito K, Bergmann DC.

Nature. 2007 Feb 1;445(7127):537-40.

PMID:
17183265
3.

Termination of asymmetric cell division and differentiation of stomata.

Pillitteri LJ, Sloan DB, Bogenschutz NL, Torii KU.

Nature. 2007 Feb 1;445(7127):501-5.

PMID:
17183267
4.

Stomatal development in Arabidopsis and grasses: differences and commonalities.

Serna L.

Int J Dev Biol. 2011;55(1):5-10. doi: 10.1387/ijdb.103094ls.

5.

Plant science. Pores in place.

Sack FD, Chen JG.

Science. 2009 Jan 30;323(5914):592-3. doi: 10.1126/science.1169553. No abstract available.

PMID:
19179518
6.

Phosphorylation of Serine 186 of bHLH Transcription Factor SPEECHLESS Promotes Stomatal Development in Arabidopsis.

Yang KZ, Jiang M, Wang M, Xue S, Zhu LL, Wang HZ, Zou JJ, Lee EK, Sack F, Le J.

Mol Plant. 2015 May;8(5):783-95. doi: 10.1016/j.molp.2014.12.014.

7.

The bHLH protein, MUTE, controls differentiation of stomata and the hydathode pore in Arabidopsis.

Pillitteri LJ, Bogenschutz NL, Torii KU.

Plant Cell Physiol. 2008 Jun;49(6):934-43. doi: 10.1093/pcp/pcn067.

PMID:
18450784
8.

Stomatal development and pattern controlled by a MAPKK kinase.

Bergmann DC, Lukowitz W, Somerville CR.

Science. 2004 Jun 4;304(5676):1494-7.

9.

Orthologs of Arabidopsis thaliana stomatal bHLH genes and regulation of stomatal development in grasses.

Liu T, Ohashi-Ito K, Bergmann DC.

Development. 2009 Jul;136(13):2265-76. doi: 10.1242/dev.032938.

10.

Arabidopsis reduces growth under osmotic stress by decreasing SPEECHLESS protein.

Kumari A, Jewaria PK, Bergmann DC, Kakimoto T.

Plant Cell Physiol. 2014 Dec;55(12):2037-46. doi: 10.1093/pcp/pcu159.

11.

Functional domains of SPATULA, a bHLH transcription factor involved in carpel and fruit development in Arabidopsis.

Groszmann M, Paicu T, Smyth DR.

Plant J. 2008 Jul;55(1):40-52. doi: 10.1111/j.1365-313X.2008.03469.x.

12.

Stomatal density is controlled by a mesophyll-derived signaling molecule.

Kondo T, Kajita R, Miyazaki A, Hokoyama M, Nakamura-Miura T, Mizuno S, Masuda Y, Irie K, Tanaka Y, Takada S, Kakimoto T, Sakagami Y.

Plant Cell Physiol. 2010 Jan;51(1):1-8. doi: 10.1093/pcp/pcp180.

PMID:
20007289
13.

Jasmonic acid control of GLABRA3 links inducible defense and trichome patterning in Arabidopsis.

Yoshida Y, Sano R, Wada T, Takabayashi J, Okada K.

Development. 2009 Mar;136(6):1039-48. doi: 10.1242/dev.030585.

14.

Stomatal patterning and development.

Dong J, Bergmann DC.

Curr Top Dev Biol. 2010;91:267-97. doi: 10.1016/S0070-2153(10)91009-0. Review.

PMID:
20705185
15.

Plant development: three steps for stomata.

Gray JE.

Curr Biol. 2007 Mar 20;17(6):R213-5.

16.

The BASL polarity protein controls a MAPK signaling feedback loop in asymmetric cell division.

Zhang Y, Wang P, Shao W, Zhu JK, Dong J.

Dev Cell. 2015 Apr 20;33(2):136-49. doi: 10.1016/j.devcel.2015.02.022.

17.

Control of stomatal distribution on the Arabidopsis leaf surface.

Nadeau JA, Sack FD.

Science. 2002 May 31;296(5573):1697-700.

18.

Relationship between brassinosteroids and genes controlling stomatal production in the Arabidopsis hypocotyl.

Fuentes S, Cañamero RC, Serna L.

Int J Dev Biol. 2012;56(9):675-80. doi: 10.1387/ijdb.120029ls.

19.

SPEECHLESS integrates brassinosteroid and stomata signalling pathways.

Gudesblat GE, Schneider-Pizoń J, Betti C, Mayerhofer J, Vanhoutte I, van Dongen W, Boeren S, Zhiponova M, de Vries S, Jonak C, Russinova E.

Nat Cell Biol. 2012 Apr 1;14(5):548-54. doi: 10.1038/ncb2471.

PMID:
22466366
20.

Breaking the silence: three bHLH proteins direct cell-fate decisions during stomatal development.

Pillitteri LJ, Torii KU.

Bioessays. 2007 Sep;29(9):861-70. Review.

PMID:
17691100

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