Jan Maisch
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Explore the profile of Jan Maisch including associated specialties, affiliations and a list of published articles.
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16
Citations
146
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Recent Articles
1.
Manz C, Raorane M, Maisch J, Nick P
Plant Cell Rep
. 2022 Oct;
41(12):2363-2378.
PMID: 36214871
Paclitaxel synthesis in Taxus cells correlates with a cell-fate switch that leads to vacuoles of a glossy appearance and vermiform mitochondria. This switch depends on actin and apoplastic respiratory burst....
2.
Huang X, Maisch J, Hayashi K, Nick P
Int J Mol Sci
. 2022 Aug;
23(15).
PMID: 35955725
The complexity of auxin signaling is partially due to multiple auxin receptors that trigger differential signaling. To obtain insight into the subcellular localization of auxin-binding sites, we used fluorescent auxin...
3.
Rajabi F, Gusbeth C, Frey W, Maisch J, Nick P
Protoplasma
. 2020 Jul;
257(6):1585-1594.
PMID: 32651872
The potential of pharmacologically active secondary plant metabolites is limited by the low yield from often rare plants, and the lack of economically feasible chemical synthesis of these complex compounds....
4.
Asfaw K, Liu Q, Maisch J, Munch S, Wehl I, Brase S, et al.
Sci Rep
. 2019 Dec;
9(1):18832.
PMID: 31806864
An amendment to this paper has been published and can be accessed via a link at the top of the paper.
5.
Asfaw K, Liu Q, Maisch J, Munch S, Wehl I, Brase S, et al.
Sci Rep
. 2019 Jul;
9(1):9839.
PMID: 31285457
Controlled delivery of molecules interfering specifically with target activities in a cell of interest can be a powerful tool for experimental manipulation, because it can be administered at a defined...
6.
Huang X, Maisch J, Nick P
J Plant Physiol
. 2017 Aug;
218:6-15.
PMID: 28763708
Polar auxin transport depends on the polar localization of auxin-efflux carriers. The cycling of these carriers between cell interior and plasma membrane depends on actin. The dynamic of actin not...
7.
Rajabi F, Heene E, Maisch J, Nick P
PLoS One
. 2017 Jan;
12(1):e0169778.
PMID: 28081182
The great potential of pharmacologically active secondary plant metabolites is often limited by low yield and availability of the producing plant. Chemical synthesis of these complex compounds is often too...
8.
Maisch J, Kreppenhofer K, Buchler S, Merle C, Sobich S, Gorling B, et al.
J Plant Physiol
. 2016 Jun;
200:28-34.
PMID: 27318870
The plant secondary metabolism generates numerous compounds harbouring pharmaceutical activity. In plants, these compounds are typically formed by different and specialised cell types that have to interact constituting a metabolic...
9.
Brochhausen L, Maisch J, Nick P
J Integr Plant Biol
. 2016 Feb;
58(9):799-812.
PMID: 26898230
Nuclear migration and positioning are crucial for the morphogenesis of plant cells. We addressed the potential role of nuclear positioning for polarity induction using an experimental system based on regenerating...
10.
Dolch K, Danzer J, Kabbeck T, Bierer B, Erben J, Forster A, et al.
Bioresour Technol
. 2014 Feb;
157:284-92.
PMID: 24566287
Microbe-electrode-interactions are keys for microbial fuel cell technology. Nevertheless, standard measurement routines to analyze the interplay of microbial physiology and material characteristics have not been introduced yet. In this study,...