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  1. Genome Sequences of Defoliating Strain XJ592 and Non-defoliating Strain XJ511 of Verticillium dahliae
  2. Measurements of Aerial Spore Load by qPCR Facilitates Lettuce Downy Mildew Risk Advisement
  3. The Verticillium dahliae Sho1‐MAPK pathway regulates melanin biosynthesis and is required for cotton infection
  4. Proteome and metabolome analyses reveal differential responses in tomato -Verticillium dahliae-interactions
  5. Arabidopsis defense mutant ndr1-1 displays accelerated development and early flowering mediated by the hormone gibberellic acid
  6. The LsVe1L allele provides a molecular marker for resistance to Verticillium dahliae race 1 in lettuce
  7. The genetics of resistance to lettuce drop (Sclerotinia spp.) in lettuce in a recombinant inbred line population from Reine des Glaces × Eruption
  8. Assessment of Resistance in Potato Cultivars to Verticillium Wilt Caused by Verticillium dahliae and Verticillium nonalfalfae
  9. The Gossypium hirsutum TIR‐NBS‐LRR gene GhDSC1 mediates resistance against Verticillium wilt
  10. Spinach Downy Mildew: Advances in Our Understanding of the Disease Cycle and Prospects for Disease Management
  11. Genetic Diversity of Verticillium dahliae Populations From Olive and Potato in Lebanon
  12. Population genomics demystifies the defoliation phenotype in the plant pathogen Verticillium dahliae
  13. Harvest of Lettuce from Verticillium-Infested Fields Has Little Impact on Postharvest Quality
  14. Volatile Compounds Emitted by Diverse Verticillium Species Enhance Plant Growth by Manipulating Auxin Signaling
  15. Genome-Wide Identification and Functional Analyses of the CRK Gene Family in Cotton Reveals GbCRK18 Confers Verticillium Wilt Resistance in Gossypium barbadense
  16. Verticillium Wilt Caused by Verticillium dahliae and V. nonalfalfae in Potato in Northern China
  17. Detection of Latent Peronospora effusa Infections in Spinach
  18. SNARE-Encoding GenesVdSec22andVdSso1Mediate Protein Secretion Required for Full Virulence inVerticillium dahliae
  19. The island cotton NBS-LRR gene GbaNA1 confers resistance to the non-race 1 Verticillium dahliae isolate Vd991
  20. Heterologous Expression of the Cotton NBS-LRR Gene GbaNA1 Enhances Verticillium Wilt Resistance in Arabidopsis
  21. A Verticillium dahliae Extracellular Cutinase Modulates Plant Immune Responses
  22. Soil Microbiomes Associated with Verticillium Wilt-Suppressive Broccoli and Chitin Amendments are Enriched with Potential Biocontrol Agents
  23. Comparative genomics reveals cotton‐specific virulence factors in flexible genomic regions in Verticillium dahliae and evidence of horizontal gene transfer from Fusarium
  24. A Review of Control Options and Externalities for Verticillium Wilts
  25. Short-Term Host Selection Pressure Has Little Effect on the Evolution of a Monoclonal Population of Verticillium dahliae Race 1
  26. A Framework for Optimizing Phytosanitary Thresholds in Seed Systems
  27. Verticillium dahliae transcription factor VdFTF1 regulates the expression of multiple secreted virulence factors and is required for full virulence in cotton
  28. Verticillium dahliae manipulates plant immunity by glycoside hydrolase 12 proteins in conjunction with carbohydrate-binding module 1
  29. Races of the Celery Pathogen Fusarium oxysporum f. sp. apii Are Polyphyletic
  30. Tomato immune receptor Ve1 recognizes surface-exposed co-localized N- and C-termini ofVerticillium dahliaeeffector Ave1
  31. Spatiotemporal Patterns in the Airborne Dispersal of Spinach Downy Mildew
  32. Vayg1 is required for microsclerotium formation and melanin production in Verticillium dahliae
  33. Detection and Quantification of Bremia lactucae by Spore Trapping and Quantitative PCR
  34. Season-Long Dynamics of Spinach Downy Mildew Determined by Spore Trapping and Disease Incidence
  35. Verticillium longisporum, the invisible threat to oilseed rape and other brassicaceous plant hosts
  36. Development and Deployment of Systems-Based Approaches for the Management of Soilborne Plant Pathogens
  37. Plasmolysis and Vital Staining Reveal Viable Oospores of Peronospora effusa in Spinach Seed Lots
  38. Nondefoliating and Defoliating Strains from Cotton Correlate with Races 1 and 2 of Verticillium dahliae
  39. Screening of Wild and Cultivated Capsicum Germplasm Reveals New Sources of Verticillium Wilt Resistance
  40. Host Range of Verticillium isaacii and Verticillium klebahnii from Artichoke, Spinach, and Lettuce
  41. Focus Issue Articles on Emerging and Re-Emerging Plant Diseases
  42. The Three Lineages of the Diploid Hybrid Verticillium longisporum Differ in Virulence and Pathogenicity
  43. Dynamics of Verticillium Species Microsclerotia in Field Soils in Response to Fumigation, Cropping Patterns, and Flooding
  44. Globally invading populations of the fungal plant pathogen V erticillium dahliae are dominated by multiple divergent lineages
  45. Frequency ofVerticilliumSpecies in Commercial Spinach Fields and Transmission ofV. dahliaefrom Spinach to Subsequent Lettuce Crops
  46. Coupling Spore Traps and Quantitative PCR Assays for Detection of the Downy Mildew Pathogens of Spinach ( Peronospora effusa ) and Beet ( P. schachtii )
  47. Maintenance of Sex-Related Genes and the Co-Occurrence of Both Mating Types in Verticillium dahliae
  48. Mycoparasitism of Phakopsora pachyrhizi, the soybean rust pathogen, by Simplicillium lanosoniveum
  49. A Model for Multiseasonal Spread of Verticillium Wilt of Lettuce
  50. Verticillium dahliae Race 2-Specific PCR Reveals a High Frequency of Race 2 Strains in Commercial Spinach Seed Lots and Delineates Race Structure
  51. Verticillium Systematics and Evolution: How Confusion Impedes Verticillium Wilt Management and How to Resolve It
  52. Clonal Expansion of Verticillium dahliae in Lettuce
  53. Comparative Pathogenicity, Biocontrol Efficacy, and Multilocus Sequence Typing of Verticillium nonalfalfae from the Invasive Ailanthus altissima and Other Hosts
  54. Distribution of Lettuce Big-Vein Incidence Under Three Irrigation Systems
  55. The heterothallic sugarbeet pathogen Cercospora beticola contains exon fragments of both MAT genes that are homogenized by concerted evolution
  56. Verticillium alfalfae and V . dahliae, Agents of Verticillium Wilt Diseases
  57. TIF film, substrates and nonfumigant soil disinfestation maintain fruit yields
  58. Identification and Differentiation of Verticillium Species and V. longisporum Lineages by Simplex and Multiplex PCR Assays
  59. Colonization of Spinach by Verticillium dahliae and Effects of Pathogen Localization on the Efficacy of Seed Treatments
  60. The Sclerotinia sclerotiorum Mating Type Locus (MAT) Contains a 3.6-kb Region That Is Inverted in Every Meiotic Generation
  61. Recent Developments on Strawberry Plant Collapse Problems in California Caused byFusariumandMacrophomina
  62. Sources of Verticillium dahliae Affecting Lettuce
  63. Verticillium Wilt of Spineless Safflower Caused by Verticillium dahliae in California
  64. Cylindrocladiella hahajimaensis, a new species of Cylindrocladiella transferred from Verticillium
  65. A Real-Time PCR Assay for Detection and Quantification of Verticillium dahliae in Spinach Seed
  66. Tomato immune receptor Ve1 recognizes effector of multiple fungal pathogens uncovered by genome and RNA sequencing
  67. Identification of Fungal Pathogenicity Genes by Agrobacterium tumefaciens-Mediated Transformation
  68. Phylogenetics and Taxonomy of the Fungal Vascular Wilt Pathogen Verticillium, with the Descriptions of Five New Species
  69. Population Biology of Fungal Plant Pathogens
  70. Analysis of Verticillium dahliae Suggests a Lack of Correlation Between Genotypic Diversity and Virulence Phenotypes
  71. Comparative Genomics Yields Insights into Niche Adaptation of Plant Vascular Wilt Pathogens
  72. Fifteen Years of Verticillium Wilt of Lettuce in America's Salad Bowl: A Tale of Immigration, Subjugation, and Abatement
  73. SSH reveals a linkage between a senescence-associated protease and Verticillium wilt symptom development in lettuce (Lactuca sativa)
  74. The inheritance of resistance to Verticillium wilt caused by race 1 isolates of Verticillium dahliae in the lettuce cultivar La Brillante
  75. Phenological and Phytochemical Changes Correlate with Differential Interactions of Verticillium dahliae with Broccoli and Cauliflower
  76. The Ascomycete Verticillium longisporum Is a Hybrid and a Plant Pathogen with an Expanded Host Range
  77. Identification of Pathogenicity-Related Genes in the Vascular Wilt Fungus Verticillium dahliae by Agrobacterium tumefaciens-Mediated T-DNA Insertional Mutagenesis
  78. Interactions Between Coniothyrium minitans and Sclerotinia minor Affect Biocontrol Efficacy of C. minitans
  79. Impact of Consumer-Driven Changes to Crop Production Practices on Lettuce Drop Caused by Sclerotinia sclerotiorum and S. minor
  80. A single recessive gene conferring short leaves in romaine × Latin type lettuce (Lactuca sativa L.) crosses, and its effect on plant morphology and resistance to lettuce drop caused by Sclerotinia minor Jagger
  81. Verticillium tricorpus causing lettuce wilt in Japan differs genetically from California lettuce isolates
  82. Molecular Variation Among Isolates of Verticillium dahliae and Polymerase Chain Reaction-Based Differentiation of Races
  83. Reduced efficacy of rovral and botran to control Sclerotinia minor in lettuce production in the Salinas Valley may be related to accelerated fungicide degradation in soil
  84. Population analyses of the vascular plant pathogen Verticillium dahliae detect recombination and transcontinental gene flow
  85. Permanent Genetic Resources added to Molecular Ecology Resources Database 1 May 2009-31 July 2009
  86. Mustard and Other Cover Crop Effects Vary on Lettuce Drop Caused by Sclerotinia minor and on Weeds
  87. Diversity, Pathogenicity, and Management of Verticillium Species
  88. Comparison of Crop Rotation for Verticillium Wilt Management and Effect on Pythium Species in Conventional and Organic Strawberry Production
  89. Biocontrol of Lettuce Drop Caused by Sclerotinia sclerotiorum and S. minor in Desert Agroecosystems
  90. Nonlinear colony extension of Sclerotinia minor and S. sclerotiorum
  91. Dose Response of Weed Seeds, Plant-Parasitic Nematodes, and Pathogens to Twelve Rates of Metam Sodium in a California Soil
  92. Effects of Soil Temperature, Moisture, and Burial Depths on Carpogenic Germination of Sclerotinia sclerotiorum and S. minor
  93. Colonization of Resistant and Susceptible Lettuce Cultivars by a Green Fluorescent Protein-Tagged Isolate of Verticillium dahliae
  94. Comparative Survival of Sclerotia of Sclerotinia minor and S. sclerotiorum
  95. Characterization of Verticillium dahliae and V. tricorpus Isolates from Lettuce and Artichoke
  96. Management of Soilborne Diseases in Strawberry Using Vegetable Rotations
  97. Lettuce Diseases
  98. Variation for Resistance to Verticillium Wilt in Lettuce ( Lactuca sativa L.)
  99. Dose response of weed seeds and soilborne pathogens to 1,3-D and chloropicrin
  100. Incubation of excised apothecia enhances ascus maturation of Sclerotinia sclerotiorum
  101. Characterization of Race-Specific Interactions Among Isolates of Verticillium dahliae Pathogenic on Lettuce
  102. Analyses of Lettuce Drop Incidence and Population Structure of Sclerotinia sclerotiorum and S. minor
  103. Phoma Basal Rot of Romaine Lettuce in California Caused by Phoma exigua : Occurrence, Characterization, and Control
  104. Spatial Analysis Based on Variance of Moving Window Averages
  105. Phylogenetic Analyses of Phytopathogenic Isolates of Verticillium spp.
  106. Dynamics of Lettuce Drop Incidence and Sclerotinia minor Inoculum Under Varied Crop Rotations
  107. Mutations in VMK1, a mitogen-activated protein kinase gene, affect microsclerotia formation and pathogenicity in Verticillium dahliae
  108. Comparative Analyses of Lettuce Drop Epidemics Caused by Sclerotinia minor and S. sclerotiorum
  109. Weedborne Reservoirs and Seed Transmission of Verticillium dahliae in Lettuce
  110. Analyses of the Relationships Between Lettuce Downy Mildew and Weather Variables Using Geographic Information System Techniques
  111. Host resistance stability to downy mildew in pearl millet and pathogenic variability in Sclerospora graminicola
  112. Identification of a locus controlling Verticillium disease symptom response in Arabidopsis thaliana
  113. Effects of Broccoli Rotation on Lettuce Drop Caused by Sclerotinia minor and on the Population Density of Sclerotia in Soil
  114. Tillage
  115. Introduction
  116. Lettuce, Diseases, Ecology, and Control
  117. The Internet-Based Fungal Pathogen Database: A Proposed Model
  118. Broccoli residues can control Verticillium wilt of cauliflower
  119. Several fungicides control powdery mildew in peppers
  120. Evaluation of Broccoli Residue Incorporation into Field Soil for Verticillium Wilt Control in Cauliflower
  121. Progress Toward Integrated Management Of Lettuce Drop
  122. Effects of Chitin and Chitosan on the Incidence and Severity of Fusarium Yellows of Celery
  123. Deep plowing exacerbates lettuce drop in Salinas Valley
  124. Verticillium wilt threatens coastal cauliflower crop
  125. Effects of Deep Plowing on the Distribution and Density of Sclerotinia minor Sclerotia and Lettuce Drop Incidence
  126. Development of Phenological Scales for Figs and Their Relative Susceptibilities to Endosepsis and Smut
  127. Saprotrophic ability of Diaporthe phaseolorum var. caulivora on host and non-host plants, and on abiotic substrates
  128. A re-evaluation of Fusarium moniliforme var. fici, the causal agent of fig endosepsis
  129. Introduction