PUBLICACIONES DE LOS ULTIMOS 10 AÑOS
- D. Chen, S. Juárez, L. Hartweck, J.M. Alamillo, C.
Simón-Mateo, J.J. Pérez, M.R.
Fernández-Fernández, N.E. Olszewski and J.A.
García (2005). Identification of SECRET
AGENT as the O-GlcNAc
transferase that participates in Pum pox virus infection. J. Virol. 79,
9381-9387.
- M. Lansac, J.P. Eyquard, B. Salvador, J.A. Garcia, O. Le Gall,
V. Decroocq and V. Schurdi-Levraud
(2005). Application of GFP-tagged Plum pox virus to study Prunus-PPV interactions at the
whole plant and cellular levels. J. Virol. Meth. 129, 125-133.
- M. Gómez de Cedrón, L. Osaba, L. López and
J. A. García. (2006) Genetic analysis of the
function of the plum pox
virus CI RNA helicase in virus movement. Virus Res. 116, 136-145.
- I. Jiménez, L. López, J.M. Alamillo, A. Valli and
J.A. García (2006). Identification of a plum pox
potyvirus
CI-interacting protein from chloroplast that has a negative effect in
virus infection. Mol. Plant-Microbe Interact. 19, 350-358.
- C. Simón-Mateo and J.A. García
(2006).
miRNA-guided processing impairs Plum pox virus replication but the
virus readily evolve to escape this silencing mechanism. J. Virol. 80,
2429-2436.
- V. Decroocq, O. Sicard, J.M. Alamillo, M. Lansac, J-P. Eyquard,
J.A. García, T. Candresse, O. Le Gall and F. Revers (2006).
Multiple
resistance traits control Plum Pox Virus infection in Arabidopsis
thaliana. Mol. Plant-Microbe Interact. 19, 541-549.
- L. Ion-Nagy, M. Lansac, J.P. Eyquard, B. Salvador, J.A.
García, O. Le Gall, M. Hernould, V. Schurdi-Levraud and V.
Decroocq (2006). PPV long-distance movement is
occasionally permitted in
resistant apricot hosts. Virus Res. 10, 70-78.
- A. Valli, A.M. Martín-Hernández, J.J.
López-Moya and J.A. García
(2006). RNA silencing suppression by
a second copy of the P1 serine protease of Cucumber vein yellowing ipomovirus
(CVYV), a member of the family Potyviridae
that lacks the cysteine protease HCPro. J. Virol. 80, 10055-10063.
- J.M. Alamillo, P. Sáenz, P. and J.A. García (2006).
Salicylic acid-mediated and RNA silencing defense mechanisms cooperate
in the restriction of plum pox virus systemic spread in tobacco. Plant
J. 48, 217-227.
- W. Monger, J.M.
Alamillo, I. Sola, Y. Perrin, M. Bestagno, O.
Burrone, P. Sabella, J. Plana-Duran, L. Enjuanes, J.A. Garcia and G. P.
Lomonossoff (2006). An
antibody derivative expressed from viral vectors
passively immunises pigs against transmissible gastroenteritis virus
infection when supplied orally in crude plant extracts. Plant
Biotechnol. J. 4, 623-631.
- J.M. Alamillo, W. Monger, I. Sola, B. García, Y. Perrin,
M. Bestagno, O. Burrone, P. Sabella, J. Plana-Durán, L.
Enjuanes, G. P.
Lomonossoff, and J.A. García (2006). Use of virus vectors for
the
expression in plants of active full-length and single chain
anti-coronavirus antibodies. Biotechnol. J. 1, 1103-1111.
- J.J. Pérez, S. Juárez, D. Chen, C.L. Scott, L.M.
Hartweck, N.E. Olszewski and J.A. García (2006). Mapping of two
O-GlcNAc modification sites in the capsid protein of the potyvirus Plum
pox virus. FEBS Lett. 580, 5822-5828.
- C.L. Scott, L.M. Hartweck, J.J. Pérez, D. Chen, J.A.
García and N.E. Olszewski (2006). SECRET AGENT, an Arabidopsis
thaliana
O-GlcNAc transferase, modifies the Plum pox virus capsid protein. FEBS
Lett. 580, 5829-5835.
- B. Salvador, J. A. García and C.
Simón-Mateo (2006).
Molecular characterization of plum pox potyvirus. EPPO Bulletin 36, 229-238.
- J. A. García, C. Lucini, B. García, J.M. Alamillo
and J.J. López-Moya (2006). Use of Plum
pox virus as a plant expression
vector. EPPO Bulletin 36, 341-345.
- J.A. García and C.
Simón-Mateo (2006). A micropunch against plant viruses. Nat.
Biotechnol. 24, 1358-1359.
- A. Valli, J.J.
López-Moya
and J.A. García (2007). Recombination and
gene duplication in the evolutionary diversification of P1 proteins in
the family Potyviridae. J. Gen. Virol. 88, 1016-1028.
- J.A. García and M. Cambra
(2007). Plum pox virus and sharka disease. Plant Viruses 1,
69-79.
- J.M. Franco-Zorrilla, A. Valli, M.
Todesco, I. Mateos, M.I. Puga, I. Rubio-Somoza, A. Leyva, D. Weigel,
J.A. García and J. Paz-Ares (2007). Target mimicry provides a
new mechanism for regulation of microRNA activity. Nat. Genet. 39,
1033-1037.
- M. Gil, O. Esteban, L. Peña,
J.A. García y M. Cambra (2008) Anticuerpos recombinantes en
Patología Vegetal. En Herramientas
biotecnológicas en Fitopatología, V.
Pallás, C. Escobar, P. Rodríguez Palenzuela y J. F.
Marcos (Eds), pp 437-455. Sociedad Española de
Fitopatología. Ediciones Mundi-Prensa. Madrid.
- B. Salvador, M.O. Delgadillo, P.
Sáenz, J.A. García. and C. Simón-Mateo (2008).
Identification of Plum pox virus
pathogenicity determinants in
herbaceous and woody hosts. Mol. Plant-Microbe Interact. 21, 20-29.
- N. Zheng, J.J. Pérez, Z. Zhang, E. Domínguez, J.A.
Garcia and Q. Xie (2008) Specific and efficient cleavage of fusion
proteins by recombinant plum pox virus NIa protease. Protein Expr.
Purif. 57, 153-162.
- P. Díaz-Vivancos, M.J. Clemente-Moreno, M. Rubio, E. Olmos,
J.A. García, P. Martínez-Gómez and J.A.
Hernández (2008). Alteration in the chloroplast metabolism leads
to ROS accumulation in pea plants in response to plum pox virus. J.
Exp. Bot. 59, 2147-2160.
-J.J. López-Moya and J.A. García (2008). Potyviruses.
Encyclopedia of Virology, 5 vols. B.W.J. Mahy and M.H.V. Van
Regenmortel, Editors), pp 313-322 Oxford: Elsevier.
- A. Valli, G. Dujovny and J.A. García (2008). Protease
activity, self interaction and siRNA binding of the silencing
suppressor P1b from Cucumber vein yellowing ipomovirus. J. Virol. 82,
974-986.
- B. Salvador, P.
Sáenz, E. Yangüez, J.B. Quiot, L. Quiot, M.O. Delgadillo, J.A. García and C.
Simón-Mateo (2008). Host-specific effect of P1 exchange between
two potyviruses. Mol. Plant Pathol. 9, 147-155.
- G. Dujovny, A.Valli, M. Calvo and J.A. García (2009). A
temperature-controlled amplicon system derived from Plum pox
potyvirus. Plant Biotech. J. 7, 49-58.
- J.J. López-Moya, A. Valli and J.A. García (2009)
Potyviridae. Encyclopedia of Life Sciences (ELS). J. Wiley & Sons,
Ltd, Chichester. http://www.els.net/ [DOI:
10.1002/9780470015902.a0000755.pub2]
- A. Valli, J.J. López-Moya, and J.A. García (2009) RNA
silencing and its suppressors in the plant-virus interplay.
Encyclopedia of Life Sciences (ELS). J. Wiley & Sons, Ltd,
Chichester. http://www.els.net/ [DOI:
10.1002/9780470015902.a0021261]
- V. Decroocq, B. Salvador, O. Sicard, M. Glasa, P. Cosson, L.
Svanella-Dumas, F. Revers, J. A. García, and T. Candresse (2009)
The determinant of potyvirus ability to overcome the RTM resistance of Arabidopsis thaliana maps to the
N-terminal region of the coat protein. Mol. Plant-Microbe
Interact. 22, 1302-1311
- X-B. Ying, L. Dong, H. Zhu, C-G. Duan, Q-S. Du, D-Q. Lv, Y-Y. Fang,
J.A. García, R-X. Fang, and H-S. Guo (2010) RNA-dependent RNA
polymerase 1 from Nicotiana tabacum suppresses RNA silencing and
enhances viral infection in Nicotiana benthamiana. Plant Cell 12,
1358-1372.
- M. Calvo, G. Dujovny, C. Lucini, J. Ortuño, J. M. Alamillo, C.
Simón-Mateo, J.J. López-Moya, and J. A. García
(2010) Constraints to virus infection in Nicotiana benthamiana plants
transformed with a potyvirus amplicon. BMC Plant Biol. 10, e139
(http://www.biomedcentral.com/1471-2229/10/139).
- T. Candresse, P. Sáenz, J. A. García, D. Boscia, M.
Navratil, M.T. Gorris and M. Cambra (2011) Analysis of the epitope
structure of Plum pox virus coat protein. Phytopathology 101,
611-619.
- M. Gil, O. Esteban, J.A. García, L. Peña and M. Cambra
(2011) Resistance to Plum pox virus in plants expressing cytosolic and
nuclear single-chain antibodies against the viral RNA NIb replicase.
Plant Pathol. 60, 967-976.
- A. Valli, J. C. Oliveros, A. Molnar, D. Baulcombe and J. A. García
(2011) The specific binding to 21-nt double stranded RNAs is crucial
for the anti-silencing activity of Cucumber vein yellowing virus P1b
and perturbs endogenous small RNA populations. RNA 17, 1148-1158.
- C. Simón-Mateo and J.A. García (2011) Antiviral strategies in plants
based on RNA silencing. Biochim. Biophys. Acta 1809, 722-731.
- V. Pallas, and J.A. García (2011) How do plant viruses induce
disease? Interactions and interference with host components. J. Gen.
Virol. 92, 2691-2705.
- I. Rubio-Somoza, D. Weigel, J.M. Franco-Zorrilla, J.A. García and J.
Paz-Ares (2011) ceRNAs: miRNA target mimic mimics Cell (Leading Edge
Correspondence) 147, 1431-1432 .
- A. Carbonell, G. Dujovny, J.A. García, and A. Valli (2012) The
Cucumber vein yellowing virus silencing suppressor P1b can functionally
replace HCPro in Plum pox virus infection in a host-specific manner.
Mol. Plant-Microbe Interact. 25, 151-164.
- V. I. Maliogka, B. Salvador, A. Carbonell, P. Sáenz, D. San León, J.
C. Oliveros, M.O. Delgadillo, J.A. García and C. Simón-Mateo (2012)
Virus variants with differences in the P1 protein coexist in a Plum pox
virus population and display particular host-dependent
pathogenicity feautures. Mol. Plant Pathol. 13, 877-886.
- V. I. Maliogka, M. Calvo, A. Carbonell, J. A. García, A. Valli (2012)
Heterologous RNA silencing suppressors from both plant- and
animal-infecting viruses support Plum
pox virus infection. J. Gen.
Virol. 93, 1601-1611.
- A. Valli, I. Busnadiego, V. I. Maliogka, D. Ferrero, J.R. Caston,
J.F. Rodríguez, J. A. García, (2012) The VP3 factor from viruses of
Birnaviridae family suppresses the RNA silencing by binding both long
and small RNA duplexes. PLoS ONE 7(9), e45957.
- B. Rodamilans, A. Valli and J.A. García (2013) Mechanistic
divergence between P1 proteases of the family Potyviridae. J. Gen. Virol. 94,
1407-1414.
- J.J. Pérez, N.D. Udeshi, J. Shabanowitz, S. Ciordia, S. Juárez, C. L
Scott; N.E. Olszewski, D.F. Hunt, J.A. Garcia (2013) O-GlcNAc modification of the coat
protein of the potyvirus Plum pox virus enhances viral infection.
Virology, 442, 122-131.
-A. Carbonell, V. I. Maliogka , J.J. Pérez, B. Salvador, D. San León,
J.A. García, Carmen Simón-Mateo (2013) Diverse amino acid changes at
specific positions in the N-terminal region of the coat protein allow Plum pox virus to adapt to new
hosts. Mol. Plant-Microbe Interact., 26, 1211-1224.
- M. Rubio, P. Martínez-Gómez, J.A. García, F. Dicenta (2013)
Interspecific transfer of resistance to Plum pox virus from almond to peach
by grafting. Ann. Appl. Biol. 163, 466-474.
- M. Calvo, T. Malinowski, J.A. García (2014) Single amino acid changes
in the 6K1-CI region can promote the alternative adaptation of Prunus- and Nicotiana-propagated Plum pox virus C isolates to either
host. Mol. Plant-Microbe Interact. Mol. Plant-Microbe Interact. 27,
136-149.
- J.A. García, M. Glasa, M. Cambra, T. Candresse (2014) Plum pox virus and sharka: a model
potyvirus and a major disease. Mol. Plant Pathol. 15, 226-241.
- M. Sorel, J.A. García, S. German-Retana (2014) The Potyviridae
Cylindrical Inclusion helicase: a key multipartner and multifunctional
protein. Mol. Plant-Microbe Interact. 27, 215-226.
- F. Pasin, C. Simón-Mateo, J.A. García (2014) The hypervariable
amino-terminus of P1 protease modulates potyviral replication and host
defense responses. PLoS Pathog. 10, e1003985.
- M. Zhao, D. San León, M.O. Delgadillo, J.A., C. Simón-Mateo (2014)
Virus-induced gene silencing in transgenic plants: transgene silencing
and reactivation associate with two different patterns of transgene
body methylation. Plant J. 79, 440-452 (DOI:
10.1111/tpj.12579).
- B. Rodamilans, B., D. San León, L. Mühlberger, T. Candresse, M.
Neumüller, J.C. Oliveros, J.A. García (2014) Transcriptomic analysis of
Prunus domestica undergoing hypersensitive response to Plum pox
virus infection. PLoS ONE 9(6) e100477.
doi:10.1371/journal.pone.0100477.
- A. Valli, A. Gallo, M. Calvo, J.J. Pérez, J.A. García (2014) A novel
role of the potyviral helper component proteinase contributes to
enhance the yield of viral particles. J. Virol. 88, 9808-9818.
doi:10.1128/JVI.01010-14.
- F. Pasin, S. Kulasekaran, P. Natale, C. Simón-Mateo, J.A. García
(2014) Rapid fluorescent reporter quantification by leaf disc analysis
and its application in plant virus studies. Plant Meth. 10:22.
doi:10.1186/1746-4811-10-22
- M. Calvo, S. Martínez-Turiño, J.A. García (2014) Resistance to Plum
pox virus strain C in Arabidopsis
thaliana and Chenopodium
foetidum
involves genome-linked viral protein and other viral determinants and
might depend on compatibility with host translation initiation factors.
Mol. Plant-Microbe Interact. 27, 1291-1301.
doi:10.1094/MPMI-05-14-0130-R.
- H. Shan, F. Pasin, A. Valli, C. Castillo, C. Rajulu, A. Carbonell, C.
Simón-Mateo, J.A. García, B. Rodamilans (2015) The Potyviridae P1a leader protease
contributes to host range specificity. Virology, 476, 264-270.
doi:10.1016/j.virol.2014.12.013
- J.A. García, V. Pallás (2015) Viral factors involved in plant
pathogenesis. Curr. Opin. Virol. 11, 21-30.
doi:10.1016/j.coviro.2015.01.001
- F. Revers, J.A. García (2015) Molecular biology of potyviruses. Adv.
Virus Res. 92, 101-199,
doi:10.1016/bs.aivir.2014.11.006