Leaf abaxial and adaxial surfaces differentially affect the interaction of Botrytis cinerea across several eudicots
Caseys, Celine, Muhich, Anna Jo, Vega, Josue, Ahmed, Maha, Hopper, Aleshia, Kelly, David, Kim, Sydney, Madrone, Matisse, Plaziak, Taylor, Wang, Melissa, Kliebenstein, Daniel J
Published in The Plant journal : for cell and molecular biology (04.10.2024)
Published in The Plant journal : for cell and molecular biology (04.10.2024)
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Journal Article
Abstract 6169: High throughput in-situ spatial sequencing of proteins and RNA in FFPE tissue
Lawson, Michael, Ishitsuka, Yuji, Pawlowski, Andrew, Hong, Zhenmin, Koh, Jake, Gouin, Kenneth, Ing, Nathan, Que, Richard, Youn, Yeoan, Ding, Sara, Facchini, Tony, Costello, Ryan, Nelson, Katelyn, Stover, Jamie, Lee, Howon, Duggal, Sarthak, Plaziak, Taylor, Cameron, Kaitlin, Abdu, Mimi, Witters, Daan, Fabani, Martin, Glezer, Eli
Published in Cancer research (Chicago, Ill.) (22.03.2024)
Published in Cancer research (Chicago, Ill.) (22.03.2024)
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Journal Article
Data from: Leaf abaxial and adaxial surfaces differentially affect the interaction of Botrytis cinerea across several eudicots
Caseys, Celine, Muhich, Anna Jo, Vega, Josue, Ahmed, Maha, Hopper, Aleshia, Kelly, David, Kim, Sydney, Madrone, Matisse, Plaziak, Taylor, Wang, Melissa, Kliebenstein, Daniel
Year of Publication 08.10.2024
Year of Publication 08.10.2024
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Leaf abaxial and adaxial surfaces differentially affect plant-fungal pathogen interactions
Caseys, Celine, Muhich, Anna Jo, Vega, Josue, Ahmed, Maha, Hopper, Aleshia, Kelly, David, Kim, Sydney, Madrone, Matisse, Taylor Plaziak, Wang, Melissa, Kliebenstein, Dan
Published in bioRxiv (15.02.2024)
Published in bioRxiv (15.02.2024)
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