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  1. A Functional Link between RNA Replication and Virion Assembly in the PotyvirusPlum Pox Virus
  2. Truncation of a P1 leader proteinase facilitates potyvirus replication in a non-permissive host
  3. Phosphorylation coexists with O -GlcNAcylation in a plant virus protein and influences viral infection
  4. The HCPro from thePotyviridaefamily: an enviable multitasking Helper Component that every virus would like to have
  5. RNA Polymerase Slippage as a Mechanism for the Production of Frameshift Gene Products in Plant Viruses of the Potyviridae Family
  6. Transcriptomic Analysis of Prunus domestica Undergoing Hypersensitive Response to Plum Pox Virus Infection
  7. A Novel Role of the Potyviral Helper Component Proteinase Contributes To Enhance the Yield of Viral Particles
  8. The Potyviridae Cylindrical Inclusion Helicase: A Key Multipartner and Multifunctional Protein
  9. 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
  10. Plum pox virusand sharka: a model potyvirus and a major disease
  11. 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
  12. Interspecific transfer of resistance toPlum pox virusfrom almond to peach by grafting
  13. O-GlcNAc modification of the coat protein of the potyvirus Plum pox virus enhances viral infection
  14. Mechanistic divergence between P1 proteases of the family Potyviridae
  15. The VP3 Factor from Viruses of Birnaviridae Family Suppresses RNA Silencing by Binding Both Long and Small RNA Duplexes
  16. Heterologous RNA-silencing suppressors from both plant- and animal-infecting viruses support plum pox virus infection
  17. Virus variants with differences in the P1 protein coexist in a Plum pox virus population and display particular host-dependent pathogenicity features
  18. The Cucumber vein yellowing virus Silencing Suppressor P1b Can Functionally Replace HCPro in Plum pox virus Infection in a Host-Specific Manner
  19. ceRNAs: miRNA Target Mimic Mimics
  20. Antiviral strategies in plants based on RNA silencing
  21. How do plant viruses induce disease? Interactions and interference with host components
  22. Analysis of the Epitope Structure ofPlum pox virusCoat Protein
  23. 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
  24. Resistance to Plum pox virus in plants expressing cytosolic and nuclear single-chain antibodies against the viral RNA NIb replicase
  25. Constraints to virus infection in Nicotiana benthamiana plants transformed with a potyvirus amplicon
  26. RNA-Dependent RNA Polymerase 1 fromNicotiana tabacumSuppresses RNA Silencing and Enhances Viral Infection inNicotiana benthamiana
  27. The Determinant of Potyvirus Ability to Overcome the RTM Resistance of Arabidopsis thaliana Maps to the N-Terminal Region of the Coat Protein
  28. A temperature-controlled amplicon system derived fromPlum pox potyvirus
  29. Alteration in the chloroplastic metabolism leads to ROS accumulation in pea plants in response to plum pox virus
  30. Host-specific effect of P1 exchange between two potyviruses
  31. Specific and efficient cleavage of fusion proteins by recombinant plum pox virus NIa protease
  32. Identification of Plum pox virus Pathogenicity Determinants in Herbaceous and Woody Hosts
  33. Protease Activity, Self Interaction, and Small Interfering RNA Binding of the Silencing Suppressor P1b from Cucumber Vein Yellowing Ipomovirus
  34. Target mimicry provides a new mechanism for regulation of microRNA activity
  35. Recombination and gene duplication in the evolutionary diversification of P1 proteins in the family Potyviridae
  36. A micropunch against plant viruses
  37. An antibody derivative expressed from viral vectors passively immunizes pigs against transmissible gastroenteritis virus infection when supplied orally in crude plant extracts
  38. Use of virus vectors for the expression in plants of active full-length and single chain anti-coronavirus antibodies
  39. Salicylic acid-mediated and RNA-silencing defense mechanisms cooperate in the restriction of systemic spread of plum pox virus in tobacco
  40. SECRET AGENT, anArabidopsis thaliana O-GlcNAc transferase, modifies thePlum pox viruscapsid protein
  41. Mapping of twoO-GlcNAc modification sites in the capsid protein of the potyvirusPlum pox virus
  42. Causal agent of sharka disease: Plum pox virus genome and function of gene products
  43. The use of Plum pox virus as a plant expression vector
  44. Multiple Resistance Traits Control Plum pox virus Infection in Arabidopsis thaliana
  45. Identification of a Plum pox virus CI-Interacting Protein from Chloroplast That Has a Negative Effect in Virus Infection
  46. Genetic analysis of the function of the plum pox virus CI RNA helicase in virus movement
  47. MicroRNA-Guided Processing Impairs Plum Pox Virus Replication, but the Virus Readily Evolves To Escape This Silencing Mechanism
  48. Application of GFP-tagged Plum pox virus to study Prunus–PPV interactions at the whole plant and cellular levels
  49. Identification of Secret Agent as the O-GlcNAc Transferase That Participates in Plum Pox Virus Infection
  50. Human influenza virus NS1 protein enhances viral pathogenicity and acts as an RNA silencing suppressor in plants
  51. Suppressor activity of potyviral and cucumoviral infections in potyvirus-induced transgene silencing
  52. Generation and characterisation of functional recombinant antibody fragments against RNA replicase NIb from plum pox virus
  53. Identification of Immunogenic Hot Spots within Plum Pox Potyvirus Capsid Protein for Efficient Antigen Presentation
  54. Host-Specific Involvement of the HC Protein in the Long-Distance Movement of Potyviruses
  55. The Capsid Protein of a Plant Single-stranded RNA Virus Is Modified by O-Linked N-Acetylglucosamine
  56. Pathogenicity Determinants in the Complex Virus Population of aPlum pox virusIsolate
  57. Identification of Plum pox virus Determinants Implicated in Specific Interactions with Different Prunus spp.
  58. Protection of Rabbits against Rabbit Hemorrhagic Disease Virus by Immunization with the VP60 Protein Expressed in Plants with a Potyvirus-Based Vector
  59. Construction of a stable and highly infectious intron-containing cDNA clone of plum pox potyvirus and its use to infect plants by particle bombardment
  60. Preservation of 5′-End Integrity of a Potyvirus Genomic RNA Is Not Dependent on Template Specificity
  61. Biotechnological aspects of plum pox virus
  62. RNA helicase activity of Semliki Forest virus replicase protein NSP2
  63. Mitotic Stability of Infection-Induced Resistance to Plum Pox Potyvirus Associated with Transgene Silencing and DNA Methylation
  64. Proteinases Involved in Plant Virus Genome Expression
  65. Susceptibility to recombination rearrangements of a chimeric plum pox potyvirus genome after insertion of a foreign gene
  66. Development of an antigen presentation system based on plum pox potyvirus
  67. Plum pox potyvirus resistance associated to transgene silencing that can be stabilized after different number of plant generations
  68. The motif V of plum pox potyvirus CI RNA helicase is involved in NTP hydrolysis and is essential for virus RNA replication
  69. Long Sequences in the 5′ Noncoding Region of Plum Pox Virus Are Not Necessary for Viral Infectivity but Contribute to Viral Competitiveness and Pathogenesis
  70. Delayed Resistance to Plum Pox Potyvirus Mediated by a Mutated RNA Replicase Gene: Involvement of a Gene-Silencing Mechanism
  71. The RNA helicase CI from plum pox potyvirus has two regions involved in binding to RNA
  72. Properties of the active plum pox potyvirus RNA polymerase complex in defined glycerol gradient fractions [Virus Research 37 (1995) 127–137]
  73. Properties of the active plum pox potyvirus RNA polymerase complex in defined glycerol gradient fractions
  74. RNA helicase activity of the plum pox potyvirus Cl protein expressed in Escherichia coli . Mapping of an RNA binding domain
  75. 3'-Terminal sequence of the plum pox virus PS and o6 isolates: evidence for RNA recombination within the potyvirus group
  76. Intracellular localization of three non-structural plum pox potyvirus proteins by immunogold labelling
  77. Highlights and prospects of potyvirus molecular biology
  78. Identification of the initiation codon of plum pox potyvirus genomic RNA
  79. Comparison among the isozyme profiles associated with ethrel treatments of leaves, and with senescence and plum pox virus infection in Chenopodium foetidum
  80. Comparison among the isozyme profiles associated with ethrel treatments of leaves, and with senescence and plum pox virus infection in Chenopodium foetidum
  81. Proteolytic activity of plum pox virus-tobacco etch virus chimeric NIaproteases
  82. Plum pox potyvirus RNA replication in a crude membrane fraction from infected Nicotiana clevelandii leaves
  83. Mutational Analysis of Plum Pox Potyvirus Polyprotein Processing By the NIa Protease in Escherichia Coli
  84. Infectious in Vitro transcripts from a plum pox potyvirus cDNA clone
  85. Determination of polyprotein processing sites by amino terminal sequencing of nonstructural proteins encoded by plum pox potyvirus
  86. Isozyme profiles associated with the hypersensitive response of Chenopodium foetidum to plum pox virus infection
  87. Isozyme profiles associated with the hypersensitive response of Chenopodium foetidum to plum pox virus infection
  88. RNA helicase: a novel activity associated with a protein encoded by a positive strand RNA virus
  89. Proteolytic activity of the plum pox potyvirus NIa-protein on excess of natural and artificial substrates inEscherichia coli
  90. The Genome-linked Protein and 5' End RNA Sequence of Plum Pox Potyvirus
  91. Homologous potyvirus and flavivirus proteins belonging to a superfamily of helicase-like proteins
  92. Proteolytic activity of the plum pox potyvirus Nla-like protein in Escherichia coli
  93. The complete nucleotide sequence of plum pox potyvirus RNA
  94. Nucleotide sequence of the 3' terminal region of plum pox potyvirus RNA
  95. Proteolytic activity of the cowpea mosaic virus encoded 24K protein synthesized in Escherichia coli
  96. Transformation of cowpea Vigna unguiculata with a full-length DNA copy of cowpea mosaic virus M-RNA
  97. Transformation of cowpea Vigna unguiculata cells with an antibiotic resistance gene using a Ti-plasmid-derived vector