Hans Hoenicka
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Explore the profile of Hans Hoenicka including associated specialties, affiliations and a list of published articles.
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16
Citations
380
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Recent Articles
1.
Hoenicka H, Bein S, Starczak M, Graf W, Hanelt D, Gackowski D
BMC Plant Biol
. 2024 Aug;
24(1):779.
PMID: 39148013
Background: β-Aminobutyric acid (BABA) has been successfully used to prime stress resistance in numerous plant species; however, its effectiveness in forest trees has been poorly explored thus far. This study...
2.
Agius D, Kapazoglou A, Avramidou E, Baranek M, Carneros E, Caro E, et al.
Front Plant Sci
. 2023 Jun;
14:1181039.
PMID: 37389288
Epigenetic modifications play a vital role in the preservation of genome integrity and in the regulation of gene expression. DNA methylation, one of the key mechanisms of epigenetic control, impacts...
3.
Mladenov V, Fotopoulos V, Kaiserli E, Karalija E, Maury S, Baranek M, et al.
Int J Mol Sci
. 2021 Jul;
22(13).
PMID: 34281171
Although epigenetic modifications have been intensely investigated over the last decade due to their role in crop adaptation to rapid climate change, it is unclear which epigenetic changes are heritable...
4.
Muller N, Kersten B, Leite Montalvao A, Mahler N, Bernhardsson C, Brautigam K, et al.
Nat Plants
. 2020 Jun;
6(6):630-637.
PMID: 32483326
Although hundreds of plant lineages have independently evolved dioecy (that is, separation of the sexes), the underlying genetic basis remains largely elusive. Here we show that diverse poplar species carry...
5.
Kersten B, Leite Montalvao A, Hoenicka H, Vettori C, Paffetti D, Fladung M
Transgenic Res
. 2020 May;
29(3):321-337.
PMID: 32356192
Next-generation sequencing (NGS) approaches are attractive alternatives to the PCR-based characterisation of genetically modified plants for safety assessment and labelling since NGS is highly sensitive to the detection of T-DNA...
6.
Briones M, Hoenicka H, Canas L, Beltran J, Hanelt D, Sharry S, et al.
Plant Cell Rep
. 2020 Feb;
39(5):577-587.
PMID: 32052127
The early flowering system HSP::AtFT allowed a fast evaluation of a gene containment system based on the construct PsEND1::barnase-barstar for poplar. Transgenic lines showed disturbed pollen development and sterility. Vertical...
7.
Brenner W, Mader M, Muller N, Hoenicka H, Schroeder H, Zorn I, et al.
G3 (Bethesda)
. 2019 Jan;
9(3):709-717.
PMID: 30617214
RNA editing occurs in the endosymbiont organelles of higher plants as C-to-U conversions of defined nucleotides. The availability of large quantities of RNA sequencing data makes it possible to identify...
8.
Hoenicka H, Lehnhardt D, Briones V, Nilsson O, Fladung M
Tree Physiol
. 2016 Apr;
36(5):667-77.
PMID: 27052434
Until now, artificial early flowering poplar systems have mostly led to the development of sterile flowers. In this study, several strategies aimed at inducting fertile flowers in pHSP::AtFT transgenic poplar...
9.
Hoenicka H, Lehnhardt D, Nunna S, Reinhardt R, Jeltsch A, Briones V, et al.
Plant Cell Rep
. 2015 Nov;
35(2):369-84.
PMID: 26521210
Differentiation level but not transgene copy number influenced activation of a gene containment system in poplar. Heat treatments promoted CRE gene body methylation. The flower-specific transgene deletion was confirmed. Gene...
10.
Hoenicka H, Lehnhardt D, Nilsson O, Hanelt D, Fladung M
Plant Biotechnol J
. 2014 Jul;
12(8):1066-74.
PMID: 24975279
In forest tree species, the reproductive phase is reached only after many years or even decades of juvenile growth. Different early flowering systems based on the genetic transfer of heat-shock...