Part of the Life Sciences Commons

Works by Isabel Olivera in Life Sciences

2021

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

2020

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

2019

Oomycete Metabarcoding Reveals the Presence of Lagenidium spp. in Phytotelmata, Paula Leoro-Garzon, Andrew J. Gonedes, Isabel Olivera, Aurelien Tartar
Aurelien Tartar

Oomycete Metabarcoding Reveals the Presence of Lagenidium spp. in Phytotelmata, Paula Leoro-Garzon, Andrew J. Gonedes, Isabel Olivera, Aurelien Tartar
Biology Faculty Articles

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2016

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

PDF