Miklos Pogany
Overview
Explore the profile of Miklos Pogany including associated specialties, affiliations and a list of published articles.
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Articles
10
Citations
169
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0
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Recent Articles
1.
Otto M, Geml J, Hegyi A, Hegyi-Kalo J, Pierneef R, Pogany M, et al.
Food Microbiol
. 2022 Jun;
106:104037.
PMID: 35690441
Botrytis cinerea, the pathogen causing grey rot (GR) with important economic losses in fruit crops, can also cause noble rot (NR) of grape berries under certain environmental conditions, leading to...
2.
Pogany M, Danko T, Hegyi-Kalo J, Kaman-Toth E, Szam D, Hamow K, et al.
Plants (Basel)
. 2022 Apr;
11(7).
PMID: 35406844
Noble rot is a favorable form of the interaction between grape ( spp.) berries and the phytopathogenic fungus . The transcriptome pattern of grapevine cells subject to natural noble rot...
3.
Szatmari A, Moricz A, Schwarczinger I, Kolozsvarine Nagy J, Alberti A, Pogany M, et al.
BMC Plant Biol
. 2021 Mar;
21(1):153.
PMID: 33765920
Background: Acetosyringone (3,5-dimethoxy-4-hydroxyacetophenone, AS) is a syringyl-type phenolic compound rarely found in plants in free form. It has been shown earlier to inhibit the growth of Pseudomonas bacteria in the...
4.
Kaman-Toth E, Danko T, Gullner G, Bozso Z, Palkovics L, Pogany M
Mol Plant Pathol
. 2018 Nov;
20(4):485-499.
PMID: 30426643
Cell wall peroxidases and plasma membrane-localized NADPH oxidases are considered to be the main sources of the apoplastic oxidative burst in plants attacked by microbial pathogens. In spite of this...
5.
Kaman-Toth E, Pogany M, Danko T, Szatmari A, Bozso Z
3 Biotech
. 2018 Mar;
8(3):148.
PMID: 29487777
is a widely used microbial tool in plant molecular biology to transfer DNA into plant cells and produce, e.g., stable or transient transformants or induce gene silencing. In our study,...
6.
Fodor J, Kaman-Toth E, Danko T, Schwarczinger I, Bozso Z, Pogany M
Phytopathology
. 2017 Aug;
108(1):149-155.
PMID: 28853320
Nicotiana benthamiana is a valuable model organism in plant biology research. This report describes its extended applicability in the field of molecular plant pathology by introducing a nonbiotrophic fungal pathogen...
7.
Bozso Z, Ott P, Kaman-Toth E, Bognar G, Pogany M, Szatmari A
Front Plant Sci
. 2016 Mar;
7:251.
PMID: 27014286
In this study transcriptomic alterations of bacterially induced pattern triggered immunity (PTI) were compared with other types of tobacco-Pseudomonas interactions. In addition, using pharmacological agents we blocked some signal transduction...
8.
Pogany M, Danko T, Kaman-Toth E, Schwarczinger I, Bozso Z
Int J Mol Sci
. 2015 Sep;
16(10):23177-94.
PMID: 26404238
Approximately two and a half percent of protein coding genes in Arabidopsis encode enzymes with known or putative proteolytic activity. Proteases possess not only common housekeeping functions by recycling nonfunctional...
9.
Pogany M, Von Rad U, Grun S, Dongo A, Pintye A, Simoneau P, et al.
Plant Physiol
. 2009 Sep;
151(3):1459-75.
PMID: 19726575
Arabidopsis (Arabidopsis thaliana) NADPH oxidases have been reported to suppress the spread of pathogen- and salicylic acid-induced cell death. Here, we present dual roles of RBOHD (for respiratory burst oxidase...
10.
Barna B, Fodor J, Pogany M, Kiraly Z
Pest Manag Sci
. 2003 Apr;
59(4):459-64.
PMID: 12701708
Membrane damage caused by the non-specific fungal toxin fusaric acid was less on pretreated than on control leaves when tobacco leaves were pretreated with anti-senescence plant hormones, such as kinetin,...