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» Authors » Anton J M Peeters

Anton J M Peeters

Explore the profile of Anton J M Peeters including associated specialties, affiliations and a list of published articles. Areas
Snapshot
Articles 42
Citations 1492
Followers 0
Related Specialties
Biology
Physiology
Molecular Biology
Top 10 Co-Authors
Laurentius A C J Voesenek
Martijn van Zanten
Frank F Millenaar
Ronald Pierik
Marjolein C H Cox
L Basten Snoek
Joris J Benschop
Joanna K Polko
Federico Tessadori
Paul Fransz
Published In
Plant Physiol
Plant J
Plant Signal Behav
Ann Bot
J Exp Bot
Affiliations
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Recent Articles
11.
Kinome profiling reveals an interaction between jasmonate, salicylate and light control of hyponastic petiole growth in Arabidopsis thaliana
Ritsema T, van Zanten M, Leon-Reyes A, Voesenek L, Millenaar F, Pieterse C, et al.
PLoS One . 2010 Dec; 5(12):e14255. PMID: 21170386
Plants defend themselves against infection by biotic attackers by producing distinct phytohormones. Especially jasmonic acid (JA) and salicylic acid (SA) are well known defense-inducing hormones. Here, the effects of MeJA...
12.
Auxin transport through PIN-FORMED 3 (PIN3) controls shade avoidance and fitness during competition
Keuskamp D, Pollmann S, Voesenek L, Peeters A, Pierik R
Proc Natl Acad Sci U S A . 2010 Dec; 107(52):22740-4. PMID: 21149713
Plants grow in dense vegetations at the risk of being out-competed by neighbors. To increase their competitive power, plants display adaptive responses, such as rapid shoot elongation (shade avoidance) to...
13.
Large-scale chromatin de-compaction induced by low light is not accompanied by nucleosomal displacement
van Zanten M, Tessadori F, Bossen L, Peeters A, Fransz P
Plant Signal Behav . 2010 Dec; 5(12):1677-8. PMID: 21139439
Arabidopsis thaliana is widely used as model to study chromatin compaction dynamics during development and in response to the environment. Signals such as prolonged heat treatment, low light and pathogen...
14.
Photoreceptors CRYTOCHROME2 and phytochrome B control chromatin compaction in Arabidopsis
van Zanten M, Tessadori F, McLoughlin F, Smith R, Millenaar F, van Driel R, et al.
Plant Physiol . 2010 Oct; 154(4):1686-96. PMID: 20935177
Development and acclimation processes to the environment are associated with large-scale changes in chromatin compaction in Arabidopsis (Arabidopsis thaliana). Here, we studied the effects of light signals on chromatin organization....
15.
Regulatory network identification by genetical genomics: signaling downstream of the Arabidopsis receptor-like kinase ERECTA
Terpstra I, Snoek L, Keurentjes J, Peeters A, Van den Ackerveken G
Plant Physiol . 2010 Sep; 154(3):1067-78. PMID: 20833726
Gene expression differences between individuals within a species can be largely explained by differences in genetic background. The effect of genetic variants (alleles) of genes on expression can be studied...
16.
Endogenous abscisic acid as a key switch for natural variation in flooding-induced shoot elongation
Chen X, Pierik R, Peeters A, Poorter H, Visser E, Huber H, et al.
Plant Physiol . 2010 Aug; 154(2):969-77. PMID: 20699400
Elongation of leaves and stem is a key trait for survival of terrestrial plants during shallow but prolonged floods that completely submerge the shoot. However, natural floods at different locations...
17.
A kinetic analysis of hyponastic growth and petiole elongation upon ethylene exposure in Rumex palustris
Heydarian Z, Sasidharan R, Cox M, Pierik R, Voesenek L, Peeters A
Ann Bot . 2010 Jul; 106(3):429-35. PMID: 20603244
Background And Aims: Complete submergence is an important stress factor for many terrestrial plants, and a limited number of species have evolved mechanisms to deal with these conditions. Rumex palustris...
18.
ERECTA controls low light intensity-induced differential petiole growth independent of phytochrome B and cryptochrome 2 action in Arabidopsis thaliana
van Zanten M, Snoek L, van Eck-Stouten E, Proveniers M, Torii K, Voesenek L, et al.
Plant Signal Behav . 2009 Dec; 5(3):284-6. PMID: 20037477
Plants can respond quickly and profoundly to changes in their environment. Several species, including Arabidopsis thaliana, are capable of differential petiole growth driven upward leaf movement (hyponastic growth) to escape...
19.
Auxin perception and polar auxin transport are not always a prerequisite for differential growth
van Zanten M, Millenaar F, Cox M, Pierik R, Voesenek L, Peeters A
Plant Signal Behav . 2009 Oct; 4(9):899-901. PMID: 19847122
Using time-lapse photography, we studied the response kinetics of low light intensity-induced upward leaf-movement, called hyponastic growth, in Arabidopsis thaliana. This response is one of the traits of shade avoidance...
20.
Ethylene-induced hyponastic growth in Arabidopsis thaliana is controlled by ERECTA
van Zanten M, Snoek L, van Eck-Stouten E, Proveniers M, Torii K, Voesenek L, et al.
Plant J . 2009 Oct; 61(1):83-95. PMID: 19796369
Plants can respond quickly and profoundly to detrimental changes in their environment. For example, Arabidopsis thaliana can induce an upward leaf movement response through differential petiole growth (hyponastic growth) to...