Overview

Dalmadi Ágnes is a scientific co-worker at the Genetics and Biotechnology Institute of Hungarian University of Agricultural and Life Sciences. Her research focuses on the regulation of miRNA pathway in relation to agronomically important traits, like heat stress resilience. Her expertise lies in the identification and functional investigation of protein and RNA factors of the miRNA pathway. Across her research, she uses DNA, RNA and protein detection techniques, cloning, bacterial and plant transformational systems, FPLC, immune-precipitation and nuclei extraction. She authored and co-authored several research articles in international scientific journals.

Research keywords:
argonaute proteins, barley, arabidopsis, nicotiana benthamiana, mirna pathway, mirna loading efficiency, heat stress

Publications

1/ Papp I, Mur LA, Dalmadi A, Dulai S, Koncz C, A mutation in the Cap Binding Protein 20 gene confers drought tolerance to Arabidopsis., 2004, Plant Mol Biol. D1 (IF:4,02), 2004 Jul;55(5):679-86. doi: 10.1007/s11103-004-1680-2.

2/ Dalmadi A, Kaló P, Jakab J, Saskoi A, Petrovics T, Deák G, Kiss GB, Dwarf plants of diploid Medicago sativa carry a mutation in the gibberellin 3-beta-hydroxylase gene., 2008, Plant Cell Rep. Q1 (IF:4,6), 27(8):1271-9. doi: 10.1007/s00299-008-0546-5

3/ Dalmadi Á, Gyula P, Bálint J, Szittya G, Havelda Z., AGO-unbound cytosolic pool of mature miRNAs in plant cells reveals a novel regulatory step at AGO1 loading., 2019, Nucleic Acids Res., D1, (IF:11,1), 10;47(18):9803-9817., doi.org/10.1093/nar/gkz690

4/ Hamar E., Szaker H.M., Kis A., Dalmadi A., Miloro F., Szittya G., Taller J., Gyula P.*, Csorba T.*, Havelda Z.*., Genome-wide identification of RNA silencing-related genes and their expressional analysis in response to heat stress in barley (Hordeum vulgare L.)., 2020, Biomolecules, Q2 (IF:4,082), 10, 929, doi:10.3390/biom10060929

5/Fabio Miloro F, Andras Kis A, Zoltan Havelda Z, Agnes Dalmadi, Barley AGO4 proteins show overlapping functionality with distinct small RNA-binding properties in heterologous complementation., (2024), Plant Cell Rep., D1 (IF:6,2), 13;43(4):96. doi: 10.1007/s00299-024-03177-z


Projects

Dr. Ágnes Dalmadi
Institute of Genetics and Biotechnology
Campus address: H-2100 Gödöllő, Szent-Györgyi Albert str. 4.
Dalmadi.Agnes@uni-mate.hu
Dalmadi.Agnes@uni-mate.hu

MTMT: 10055867
Scopus: 23017942900