József Burgyán
József Burgyán
Mezőgazdasági Biotechnológiai Kutatóközpont
Verified email at abc.hu
Cited by
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Sensitive and specific detection of microRNAs by northern blot analysis using LNA-modified oligonucleotide probes
A Válóczi, C Hornyik, N Varga, J Burgyán, S Kauppinen, Z Havelda
Nucleic acids research 32 (22), e175-e175, 2004
A viral protein suppresses RNA silencing and binds silencing‐generated, 21‐to 25‐nucleotide double‐stranded RNAs
D Silhavy, A Molnár, A Lucioli, G Szittya, C Hornyik, M Tavazza, J Burgyán
The EMBO journal 21 (12), 3070-3080, 2002
Size selective recognition of siRNA by an RNA silencing suppressor
JM Vargason, G Szittya, J Burgyán, TMT Hall
Cell 115 (7), 799-811, 2003
Small RNA binding is a common strategy to suppress RNA silencing by several viral suppressors
L Lakatos, T Csorba, V Pantaleo, EJ Chapman, JC Carrington, YP Liu, ...
The EMBO journal 25 (12), 2768-2780, 2006
Low temperature inhibits RNA silencing‐mediated defence by the control of siRNA generation
G Szittya, D Silhavy, A Molnár, Z Havelda, Á Lovas, L Lakatos, Z Bánfalvi, ...
The EMBO journal 22 (3), 633-640, 2003
Molecular mechanism of RNA silencing suppression mediated by p19 protein of tombusviruses
L Lakatos, G Szittya, D Silhavy, J Burgyán
The EMBO journal 23 (4), 876-884, 2004
MicroRNA detection by northern blotting using locked nucleic acid probes
E Várallyay, J Burgyán, Z Havelda
Nature protocols 3 (2), 190-196, 2008
Plant virus-derived small interfering RNAs originate predominantly from highly structured single-stranded viral RNAs
A Molnár, T Csorba, L Lakatos, É Várallyay, C Lacomme, J Burgyán
Journal of virology 79 (12), 7812-7818, 2005
Viral suppressors of RNA silencing
J Burgyán, Z Havelda
Trends in plant science 16 (5), 265-272, 2011
Identification of grapevine microRNAs and their targets using high‐throughput sequencing and degradome analysis
V Pantaleo, G Szittya, S Moxon, L Miozzi, V Moulton, T Dalmay, J Burgyan
The Plant Journal 62 (6), 960-976, 2010
Viral silencing suppressors: tools forged to fine-tune host-pathogen coexistence
T Csorba, L Kontra, J Burgyán
Virology 479, 85-103, 2015
Short defective interfering RNAs of tombusviruses are not targeted but trigger post-transcriptional gene silencing against their helper virus
G Szittya, A Molnár, D Silhavy, C Hornyik, J Burgyán
The Plant Cell 14 (2), 359-372, 2002
Molecular biology of Tombusviridae
M Russo, J Burgyan, GP Martelli
Advances in virus research 44, 381-428, 1994
A viral satellite RNA induces yellow symptoms on tobacco by targeting a gene involved in chlorophyll biosynthesis using the RNA silencing machinery
H Shimura, V Pantaleo, T Ishihara, N Myojo, J Inaba, K Sueda, J Burgyán, ...
PLoS Pathog 7 (5), e1002021, 2011
Plant virus‐mediated induction of miR168 is associated with repression of ARGONAUTE1 accumulation
É Várallyay, A Válóczi, Á Ágyi, J Burgyán, Z Havelda
The EMBO journal 29 (20), 3507-3519, 2010
Effects and side-effects of viral RNA silencing suppressors on short RNAs
D Silhavy, J Burgyán
Trends in plant science 9 (2), 76-83, 2004
Viral protein inhibits RISC activity by argonaute binding through conserved WG/GW motifs
A Giner, L Lakatos, M García-Chapa, JJ López-Moya, J Burgyán
PLoS Pathog 6 (7), e1000996, 2010
The p122 subunit of Tobacco Mosaic Virus replicase is a potent silencing suppressor and compromises both small interfering RNA-and microRNA-mediated pathways
T Csorba, A Bovi, T Dalmay, J Burgyán
Journal of virology 81 (21), 11768-11780, 2007
RNA silencing: an antiviral mechanism
T Csorba, V Pantaleo, J Burgyán
Advances in virus research 75, 35-230, 2009
Molecular bases of viral RNA targeting by viral small interfering RNA-programmed RISC
V Pantaleo, G Szittya, J Burgyán
Journal of Virology 81 (8), 3797-3806, 2007
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