Identification of genomic regions associated with Beet curly top virus resistance in the sugar beet double haploid line, KDH4-9.
Characterization of the resistance protein Rz2 and its interaction with the avirulence protein triple gene block I from beet necrotic yellow vein virus.
Strategies for successful management of Cercospora leaf spot and emerging foliar diseases in sugar beet.
The sugarbeet phyllosphere harbors bacteria capable of inhibiting Cercospora beticola, the causal agent of Cercospora leaf spot.
Leaf shape and size are highly heritable in sugar beet breeding populations and may be a valuable source of diversity for improving resiliency in changing climates.
Decoding the biotrophic phase of Cercospora beticola through functional characterization of effectors.
The de novo sequencing, assembly, annotation, gene expression, and public database housing genomic dataset sequences for the sugar beet root maggot Tetanops myopaeformis, TmSBRM_v1.0.
Virus Yellows resistant/tolerant varieties for sustainable sugar beet production, when seed treatments are banned.
Genomic regions responsible for rhizomania resistance in a mutagenic sugar beet line identified through graded-pool sequencing and transcriptome analysis.
Identification of genomic regions associated with Beet curly top virus resistance in the sugar beet double haploid line, KDH4-9.
Exploring the origin and phylogeny of Cercospora beticola resistance gene BvCR4 in geographically diverse populations of wild sea beet (Beta vulgaris subsp. maritima).
Identification and characterization of Cercospora beticola effector candidates associated with adaptation to the sugarbeet resistance gene BvCr4.
Identification and characterization of beet necrotic yellow vein virus-derived small RNAs from sugarbeet by high-throughput sequencing.
Extreme-phenotype GWAS identified genomic variation associated with resistance to Aphanomyces root rot in sugar beet.
Seasonal spore production, germination and fungicide resistance shifts of Cercospora beticola in commercial sugar beet fields.
Characterization of Cercospora beticola populations to support integrated Cercospora leaf spot management approaches in Michigan.
Whole genome sequencing reveals population structure of Cercospora beticola to resistant sugar beet cultivars in Germany.
Incorporating disease onset indicators for Cercospora leaf spot risk modeling and fungicide application management.
Response of sugar beet cultivars to Beet curly top virus infection: virus accumulation and transcriptome assay.
Characterization of Beta vulgaris Alphanecrovirus-1, a putative Alphanecrovirus identified in sugar beet.
Effective and economic management of C. beticola using timely fungicide applications and host resistance.
Tank-mix partners selectively enhance DMI fungicides in controlling Cercospora leaf spot and impact the genetic diversity of a Cercospora beticola population.
How to model sugar beet to face next decade’s challenges in sugar production – a perspective from breeding.
Beet curly top virus strain specific interactions with sugar beet genotypes reveal potential role of viral small non-coding RNAs (sncRNAs) and small peptides during early infection.
Bacterial phyllosphere communities diverge upon invasion of the Cercospora leaf spot (CLS) pathogen in CLS resistant and susceptible sugar beet.
High throughput sequencing-aided molecular characterization of resistance-breaking variants of Beet necrotic yellow vein virus in the United States.
Standard area diagram development for Fusarium oxysporum symptom and disease progression rating in Beta vulgaris.
