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Results: 1 to 20 of 126

Similar articles for PubMed (Select 22857779)

1.

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.

2.

The influence of heat stress on auxin distribution in transgenic B. napus microspores and microspore-derived embryos.

Dubas E, Moravčíková J, Libantová J, Matušíková I, Benková E, Zur I, Krzewska M.

Protoplasma. 2014 Sep;251(5):1077-87. doi: 10.1007/s00709-014-0616-1. Epub 2014 Feb 20.

3.

Microtubule configurations and nuclear DNA synthesis during initiation of suspensor-bearing embryos from Brassica napus cv. Topas microspores.

Dubas E, Custers J, Kieft H, Wędzony M, van Lammeren AA.

Plant Cell Rep. 2011 Nov;30(11):2105-16. doi: 10.1007/s00299-011-1117-8. Epub 2011 Jul 21.

4.

Regeneration of zygotic-like microspore-derived embryos suggests an important role for the suspensor in early embryo patterning.

Supena ED, Winarto B, Riksen T, Dubas E, van Lammeren A, Offringa R, Boutilier K, Custers J.

J Exp Bot. 2008;59(4):803-14. doi: 10.1093/jxb/erm358. Epub 2008 Feb 13.

5.

Arabinogalactan protein profiles and distribution patterns during microspore embryogenesis and pollen development in Brassica napus.

El-Tantawy AA, Solís MT, Da Costa ML, Coimbra S, Risueño MC, Testillano PS.

Plant Reprod. 2013 Sep;26(3):231-43. doi: 10.1007/s00497-013-0217-8. Epub 2013 Jun 2.

PMID:
23729197
6.

Exine dehiscing induces rape microspore polarity, which results in different daughter cell fate and fixes the apical-basal axis of the embryo.

Tang X, Liu Y, He Y, Ma L, Sun MX.

J Exp Bot. 2013 Jan;64(1):215-28. doi: 10.1093/jxb/ers327. Epub 2012 Nov 16.

7.

Characterization of polarity development through 2- and 3-D imaging during the initial phase of microspore embryogenesis in Brassica napus L.

Dubas E, Custers J, Kieft H, Wędzony M, van Lammeren AA.

Protoplasma. 2014 Jan;251(1):103-13. doi: 10.1007/s00709-013-0530-y. Epub 2013 Aug 10.

8.

Plasticity in Cell Division Patterns and Auxin Transport Dependency during in Vitro Embryogenesis in Brassica napus.

Soriano M, Li H, Jacquard C, Angenent GC, Krochko J, Offringa R, Boutilier K.

Plant Cell. 2014 Jun 20;26(6):2568-2581. [Epub ahead of print]

9.

Isolation of an embryogenic line from non-embryogenic Brassica napus cv. Westar through microspore embryogenesis.

Malik MR, Wang F, Dirpaul JM, Zhou N, Hammerlindl J, Keller W, Abrams SR, Ferrie AM, Krochko JE.

J Exp Bot. 2008;59(10):2857-73. doi: 10.1093/jxb/ern149. Epub 2008 Jun 13.

10.

How microspores transform into haploid embryos: changes associated with embryogenesis induction and microspore-derived embryogenesis.

Seguí-Simarro JM, Nuez F.

Physiol Plant. 2008 Sep;134(1):1-12. doi: 10.1111/j.1399-3054.2008.01113.x. Epub 2008 Apr 11. Review.

PMID:
18507790
11.

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.

12.

A change of developmental program induces the remodeling of the interchromatin domain during microspore embryogenesis in Brassica napus L.

Seguí-Simarro JM, Corral-Martínez P, Corredor E, Raska I, Testillano PS, Risueño MC.

J Plant Physiol. 2011 May 15;168(8):746-57. doi: 10.1016/j.jplph.2010.10.014. Epub 2011 Jan 7.

PMID:
21216028
13.

Identification and characterization of genes expressed in early embryogenesis from microspores of Brassica napus.

Tsuwamoto R, Fukuoka H, Takahata Y.

Planta. 2007 Feb;225(3):641-52. Epub 2006 Sep 15.

PMID:
16977456
14.

Transcript profiling and identification of molecular markers for early microspore embryogenesis in Brassica napus.

Malik MR, Wang F, Dirpaul JM, Zhou N, Polowick PL, Ferrie AM, Krochko JE.

Plant Physiol. 2007 May;144(1):134-54. Epub 2007 Mar 23.

15.

Mitogen-activated protein kinases are developmentally regulated during stress-induced microspore embryogenesis in Brassica napus L.

Seguí-Simarro JM, Testillano PS, Jouannic S, Henry Y, Risueño MC.

Histochem Cell Biol. 2005 Jun;123(4-5):541-51. Epub 2005 May 14.

PMID:
15895239
16.

Microspore-derived embryogenesis in pepper (Capsicum annuum L.): subcellular rearrangements through development.

Bárány I, González-Melendi P, Fadón B, Mitykó J, Risueño MC, Testillano PS.

Biol Cell. 2005 Sep;97(9):709-22.

PMID:
15910280
17.

Depletion of cellular brassinolide decreases embryo production and disrupts the architecture of the apical meristems in Brassica napus microspore-derived embryos.

Belmonte M, Elhiti M, Waldner B, Stasolla C.

J Exp Bot. 2010 Jun;61(10):2779-94. doi: 10.1093/jxb/erq110. Epub 2010 Apr 30.

18.

Novel features of Brassica napus embryogenic microspores revealed by high pressure freezing and freeze substitution: evidence for massive autophagy and excretion-based cytoplasmic cleaning.

Corral-Martínez P, Parra-Vega V, Seguí-Simarro JM.

J Exp Bot. 2013 Jul;64(10):3061-75. doi: 10.1093/jxb/ert151. Epub 2013 Jun 12.

19.

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.

20.

Auxin Biosynthesis, Accumulation, Action and Transport are Involved in Stress-Induced Microspore Embryogenesis Initiation and Progression in Brassica napus.

Rodríguez-Sanz H, Solís MT, López MF, Gómez-Cadenas A, Risueño MC, Testillano PS.

Plant Cell Physiol. 2015 Jul;56(7):1401-17. doi: 10.1093/pcp/pcv058. Epub 2015 Apr 22.

PMID:
25907568
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