Podcasts about suberin

Biochemistry offers path to help reduce huge losses in potato industryUniversity of Nevada, Reno researcher using biotechnology to identify solutions.

This week, hosts Scott Walters and Ariel Frame are joined by PhD candidate in the department of Biology, Jessica Sinka. Jessica studies plant biochemistry with a focus on the role of a super molecule called "suberin" in potatoes during wound healing. We learn how potato scabs form, some interesting lab techniques, Jessica's favourite potato recipe, and some great advise for grads.  Recorded on June 13, 2023 Produced by Amalie Hutchinson Theme song provided by https://freebeats.io/ Produced by White Hot.

Massive losses in the United States' number one vegetable crop, potatoes, aren't only due to pests or drought, they're due to damage in the handling and storage.

Rýžové rostlinky se sázejí do vody. Vadí jim ale sucho i záplavy. Nejnovější studie univerzity v Riverside v Kalifornii detailně popisuje, jak jejím kořenům při nedostatku nebo nadbytku vody pomáhá látka zvaná suberin.Všechny díly podcastu Laboratoř můžete pohodlně poslouchat v mobilní aplikaci mujRozhlas pro Android a iOS nebo na webu mujRozhlas.cz.

Plants have evolved the capability to convert atmospheric CO2 into biopolymers and therefore represent distributed systems for carbon removal that are highly scalable. Wolfgang Busch, Ph.D., Associate Professor Plant Molecular and Cellular Biology Laboratory, Salk Institute, explains the possibilities of efficient carbon storage in plants. Series: "Exploring Ethics" [Science] [Show ID: 33883]

Plants have evolved the capability to convert atmospheric CO2 into biopolymers and therefore represent distributed systems for carbon removal that are highly scalable. Wolfgang Busch, Ph.D., Associate Professor Plant Molecular and Cellular Biology Laboratory, Salk Institute, explains the possibilities of efficient carbon storage in plants. Series: "Exploring Ethics" [Science] [Show ID: 33883]

Plants have evolved the capability to convert atmospheric CO2 into biopolymers and therefore represent distributed systems for carbon removal that are highly scalable. Wolfgang Busch, Ph.D., Associate Professor Plant Molecular and Cellular Biology Laboratory, Salk Institute, explains the possibilities of efficient carbon storage in plants. Series: "Exploring Ethics" [Science] [Show ID: 33883]

Plants have evolved the capability to convert atmospheric CO2 into biopolymers and therefore represent distributed systems for carbon removal that are highly scalable. Wolfgang Busch, Ph.D., Associate Professor Plant Molecular and Cellular Biology Laboratory, Salk Institute, explains the possibilities of efficient carbon storage in plants. Series: "Exploring Ethics" [Science] [Show ID: 33883]