Glycoside Hydrolases Family 20 (GH20) Represent Putative Virulence Factors That Are Shared by Animal Pathogenic Oomycetes, but Are Absent in Phytopathogens, Isabel Olivera, Katrina Fins, Sara Rodriguez, Sumayyah K. Abiff, Jaime Tartar, Aurelien Tartar
Jaime Tartar

Glycoside Hydrolases Family 20 (GH20) Represent Putative Virulence Factors That Are Shared by Animal Pathogenic Oomycetes, but Are Absent in Phytopathogens, Isabel Olivera, Katrina Fins, Sara Rodriguez, Sumayyah K. Abiff, Jaime Tartar, Aurelien Tartar
Jaime Tartar

Glycoside Hydrolases Family 20 (GH20) Represent Putative Virulence Factors That Are Shared by Animal Pathogenic Oomycetes, but Are Absent in Phytopathogens, Isabel Olivera, Katrina Fins, Sara Rodriguez, Sumayyah K. Abiff, Jaime Tartar, Aurelien Tartar
Jaime Tartar

Glycoside Hydrolases Family 20 (GH20) Represent Putative Virulence Factors That Are Shared by Animal Pathogenic Oomycetes, but Are Absent in Phytopathogens, Isabel Olivera, Katrina Fins, Sara Rodriguez, Sumayyah K. Abiff, Jaime Tartar, Aurelien Tartar
Aurelien Tartar

Biosorption of Metal Ions by Neochloris minuta and Neochloris alveolaris Alga Grown in Bristol and Nitrogen Depleted Media, Sara Rodriguez, Katrina Fins, Dimitri Giarikos
Dimitri Giarikos

Glycoside Hydrolases Family 20 (GH20) Represent Putative Virulence Factors That Are Shared by Animal Pathogenic Oomycetes, but Are Absent in Phytopathogens, Isabel Olivera, Katrina Fins, Sara Rodriguez, Sumayyah K. Abiff, Jaime Tartar, Aurelien Tartar
Biology Faculty Articles

Biosorption of Metal Ions by Neochloris minuta and Neochloris alveolaris Alga Grown in Bristol and Nitrogen Depleted Media, Sara Rodriguez, Katrina Fins, Dimitri Giarikos
Chemistry and Physics Faculty Proceedings, Presentations, Speeches, Lectures