Your search keyword '"Bussey KC"' showing total 2 results

1. New Tools for Hop Cytogenomics: Identification of Tandem Repeat Families from Long-Read Sequences of Humulus lupulus

Author

Aquino, Bussey Kc, Hank W. Bass, Lauren G. Lopes, Taylan Morcol, Katherine A. Easterling, Paul D. Matthews, and Nicholi J. Pitra

Subjects

Genome evolution, Humulus lupulus, Tandem repeat, Evolutionary biology, food and beverages, Sequence assembly, Biology, Humulus, biology.organism_classification, Genome, Dot plot (statistics), Hop (networking)

Abstract

Hop (Humulus lupulus L.) is known for its use as a bittering agent in beer and has a rich history of cultivation, beginning in Europe and now spanning the globe. There are five wild varieties worldwide, which may have been introgressed with cultivated varieties. As a dioecious species, its obligate outcrossing, non-Mendelian inheritance, and genomic structural variability have confounded directed breeding efforts. Consequently, understanding genome evolution in Humulus represents a considerable challenge, requiring additional resources, including integrated genome maps. In order to facilitate cytogenetic investigations into the transmission genetics of hop, we report here the identification and characterization of 17 new and distinct tandem repeat sequence families. A tandem repeat discovery pipeline was developed using k-mer filtering and dot plot analysis of PacBio long-read sequences from the hop cultivar Apollo. We produced oligonucleotide FISH probes from conserved regions of HuluTR120 and HulTR225 and demonstrated their utility to stain meiotic chromosomes from wild hop, var. neomexicanus. The HuluTR225 FISH probe hybridized to several loci per nucleus and exhibited irregular, non-Mendelian transmission in male meiocytes of wild hop. Collectively, these tandem repeat sequence families not only represent unique and valuable new cytogenetic reagents but also have the capacity to inform genome assembly efforts and support comparative genomic analyses.

Published

2020

2. Identification of tandem repeat families from long-read sequences of Humulus lupulus.

Author

Easterling KA, Pitra NJ, Morcol TB, Aquino JR, Lopes LG, Bussey KC, Matthews PD, and Bass HW

Subjects

Genotype, In Situ Hybridization, Fluorescence methods, Phylogeny, Plant Breeding, Proof of Concept Study, Genome, Plant, Genomics methods, Humulus genetics, Tandem Repeat Sequences genetics

Abstract

Hop (Humulus lupulus L.) is known for its use as a bittering agent in beer and has a rich history of cultivation, beginning in Europe and now spanning the globe. There are five wild varieties worldwide, which may have been introgressed with cultivated varieties. As a dioecious species, its obligate outcrossing, non-Mendelian inheritance, and genomic structural variability have confounded directed breeding efforts. Consequently, understanding the hop genome represents a considerable challenge, requiring additional resources. In order to facilitate investigations into the transmission genetics of hop, we report here a tandem repeat discovery pipeline developed using k-mer filtering and dot plot analysis of PacBio long-read sequences from the hop cultivar Apollo. From this we identified 17 new and distinct tandem repeat sequence families, which represent candidates for FISH probe development. For two of these candidates, HuluTR120 and HuluTR225, we produced oligonucleotide FISH probes from conserved regions of and demonstrated their utility by staining meiotic chromosomes from wild hop, var. neomexicanus to address, for example, questions about hop transmission genetics. Collectively, these tandem repeat sequence families represent new resources suitable for development of additional cytogenomic tools for hop research., Competing Interests: The funder, Hopsteiner, provided support in the form of full or partial salaries for authors KAE, NJP, TBM, and PDM. We confirm that this commercial affiliation does not alter our adherence to all PLOS ONE policies on sharing data and materials.

Published

2020