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Items: 15

1.

Transcription Factor-Mediated Control of Anthocyanin Biosynthesis in Vegetative Tissues.

Outchkourov NS, Karlova R, Hölscher M, Schrama X, Blilou I, Jongedijk E, Simon CD, van Dijk ADJ, Bosch D, Hall RD, Beekwilder J.

Plant Physiol. 2018 Feb;176(2):1862-1878. doi: 10.1104/pp.17.01662. Epub 2017 Nov 30.

2.

Transcriptional control of fleshy fruit development and ripening.

Karlova R, Chapman N, David K, Angenent GC, Seymour GB, de Maagd RA.

J Exp Bot. 2014 Aug;65(16):4527-41. doi: 10.1093/jxb/eru316. Review.

PMID:
25080453
3.

Identification, cloning and characterization of the tomato TCP transcription factor family.

Parapunova V, Busscher M, Busscher-Lange J, Lammers M, Karlova R, Bovy AG, Angenent GC, de Maagd RA.

BMC Plant Biol. 2014 Jun 6;14:157. doi: 10.1186/1471-2229-14-157.

4.

Identification of microRNA targets in tomato fruit development using high-throughput sequencing and degradome analysis.

Karlova R, van Haarst JC, Maliepaard C, van de Geest H, Bovy AG, Lammers M, Angenent GC, de Maagd RA.

J Exp Bot. 2013 Apr;64(7):1863-78. doi: 10.1093/jxb/ert049. Epub 2013 Mar 13.

5.

The tomato FRUITFULL homologs TDR4/FUL1 and MBP7/FUL2 regulate ethylene-independent aspects of fruit ripening.

Bemer M, Karlova R, Ballester AR, Tikunov YM, Bovy AG, Wolters-Arts M, Rossetto Pde B, Angenent GC, de Maagd RA.

Plant Cell. 2012 Nov;24(11):4437-51. doi: 10.1105/tpc.112.103283. Epub 2012 Nov 6.

6.

Cell plate restricted association of DRP1A and PIN proteins is required for cell polarity establishment in Arabidopsis.

Mravec J, Petrášek J, Li N, Boeren S, Karlova R, Kitakura S, Pařezová M, Naramoto S, Nodzyński T, Dhonukshe P, Bednarek SY, Zažímalová E, de Vries S, Friml J.

Curr Biol. 2011 Jun 21;21(12):1055-60. doi: 10.1016/j.cub.2011.05.018. Epub 2011 Jun 9.

7.

Transcriptome and metabolite profiling show that APETALA2a is a major regulator of tomato fruit ripening.

Karlova R, Rosin FM, Busscher-Lange J, Parapunova V, Do PT, Fernie AR, Fraser PD, Baxter C, Angenent GC, de Maagd RA.

Plant Cell. 2011 Mar;23(3):923-41. doi: 10.1105/tpc.110.081273. Epub 2011 Mar 11.

8.

Proteomics insights into plant signaling and development.

Kaufmann K, Smaczniak C, de Vries S, Angenent GC, Karlova R.

Proteomics. 2011 Feb;11(4):744-55. doi: 10.1002/pmic.201000418. Epub 2011 Jan 17. Review.

PMID:
21241020
9.

Identification of in vitro phosphorylation sites in the Arabidopsis thaliana somatic embryogenesis receptor-like kinases.

Karlova R, Boeren S, van Dongen W, Kwaaitaal M, Aker J, Vervoort J, de Vries S.

Proteomics. 2009 Jan;9(2):368-79. doi: 10.1002/pmic.200701059.

PMID:
19105183
10.

Solubilization, activation, and insecticidal activity of Bacillus thuringiensis serovar thompsoni HD542 crystal proteins.

Naimov S, Boncheva R, Karlova R, Dukiandjiev S, Minkov I, de Maagd RA.

Appl Environ Microbiol. 2008 Dec;74(23):7145-51. doi: 10.1128/AEM.00752-08. Epub 2008 Oct 3.

11.
12.

Advances in understanding brassinosteroid signaling.

Karlova R, de Vries SC.

Sci STKE. 2006 Sep 26;2006(354):pe36.

PMID:
17003466
13.

The Arabidopsis thaliana AAA protein CDC48A interacts in vivo with the somatic embryogenesis receptor-like kinase 1 receptor at the plasma membrane.

Aker J, Borst JW, Karlova R, de Vries S.

J Struct Biol. 2006 Oct;156(1):62-71. Epub 2006 Mar 30.

PMID:
16621602
14.

The Arabidopsis SOMATIC EMBRYOGENESIS RECEPTOR-LIKE KINASE1 protein complex includes BRASSINOSTEROID-INSENSITIVE1.

Karlova R, Boeren S, Russinova E, Aker J, Vervoort J, de Vries S.

Plant Cell. 2006 Mar;18(3):626-38. Epub 2006 Feb 10.

15.

Bacillus thuringiensis delta-endotoxin Cry1Ac domain III enhances activity against Heliothis virescens in some, but not all Cry1-Cry1Ac hybrids.

Karlova R, Weemen-Hendriks M, Naimov S, Ceron J, Dukiandjiev S, de Maagd RA.

J Invertebr Pathol. 2005 Feb;88(2):169-72. Epub 2005 Jan 5.

PMID:
15766934

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