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Items: 11

1.

5-azacytidine promotes microspore embryogenesis initiation by decreasing global DNA methylation, but prevents subsequent embryo development in rapeseed and barley.

Solís MT, El-Tantawy AA, Cano V, Risueño MC, Testillano PS.

Front Plant Sci. 2015 Jun 25;6:472. doi: 10.3389/fpls.2015.00472. eCollection 2015.

2.

Early markers are present in both embryogenesis pathways from microspores and immature zygotic embryos in cork oak, Quercus suber L.

Rodríguez-Sanz H, Manzanera JA, Solís MT, Gómez-Garay A, Pintos B, Risueño MC, Testillano PS.

BMC Plant Biol. 2014 Aug 21;14:224. doi: 10.1186/s12870-014-0224-4.

3.

DNA methylation dynamics and MET1a-like gene expression changes during stress-induced pollen reprogramming to embryogenesis.

Solís MT, Rodríguez-Serrano M, Meijón M, Cañal MJ, Cifuentes A, Risueño MC, Testillano PS.

J Exp Bot. 2012 Nov;63(18):6431-44. doi: 10.1093/jxb/ers298.

4.

A new microspore embryogenesis system under low temperature which mimics zygotic embryogenesis initials, expresses auxin and efficiently regenerates doubled-haploid plants in Brassica napus.

Prem D, Solís MT, Bárány I, Rodríguez-Sanz H, Risueño MC, Testillano PS.

BMC Plant Biol. 2012 Aug 2;12:127. doi: 10.1186/1471-2229-12-127.

5.

NO, ROS, and cell death associated with caspase-like activity increase in stress-induced microspore embryogenesis of barley.

Rodríguez-Serrano M, Bárány I, Prem D, Coronado MJ, Risueño MC, Testillano PS.

J Exp Bot. 2012 Mar;63(5):2007-24. doi: 10.1093/jxb/err400. Epub 2011 Dec 23.

6.

Carbon-iron magnetic nanoparticles for agronomic use in plants: promising but still a long way to go.

Corredor E, Risueño MC, Testillano PS.

Plant Signal Behav. 2010 Oct;5(10):1295-7. doi: 10.4161/psb.5.10.13080. Epub 2010 Oct 1.

7.

Cell wall components and pectin esterification levels as markers of proliferation and differentiation events during pollen development and pollen embryogenesis in Capsicum annuum L.

Bárány I, Fadón B, Risueño MC, Testillano PS.

J Exp Bot. 2010 Feb;61(4):1159-75. doi: 10.1093/jxb/erp392. Epub 2010 Jan 22.

8.

Pollen development in Annona cherimola Mill. (Annonaceae). Implications for the evolution of aggregated pollen.

Lora J, Testillano PS, Risueño MC, Hormaza JI, Herrero M.

BMC Plant Biol. 2009 Oct 29;9:129. doi: 10.1186/1471-2229-9-129.

9.

Nanoparticle penetration and transport in living pumpkin plants: in situ subcellular identification.

Corredor E, Testillano PS, Coronado MJ, González-Melendi P, Fernández-Pacheco R, Marquina C, Ibarra MR, de la Fuente JM, Rubiales D, Pérez-de-Luque A, Risueño MC.

BMC Plant Biol. 2009 Apr 23;9:45. doi: 10.1186/1471-2229-9-45.

10.

Cellular response of pea plants to cadmium toxicity: cross talk between reactive oxygen species, nitric oxide, and calcium.

Rodríguez-Serrano M, Romero-Puertas MC, Pazmiño DM, Testillano PS, Risueño MC, Del Río LA, Sandalio LM.

Plant Physiol. 2009 May;150(1):229-43. doi: 10.1104/pp.108.131524. Epub 2009 Mar 11.

11.

Nanoparticles as smart treatment-delivery systems in plants: assessment of different techniques of microscopy for their visualization in plant tissues.

González-Melendi P, Fernández-Pacheco R, Coronado MJ, Corredor E, Testillano PS, Risueño MC, Marquina C, Ibarra MR, Rubiales D, Pérez-de-Luque A.

Ann Bot. 2008 Jan;101(1):187-95. Epub 2007 Nov 11.

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