Comparative Proteomics Reveals the Difference in Root Cold Resistance between Vitis. riparia × V. labrusca and Cabernet Sauvignon in Response to Freezing Temperature

Abstract: Grapevines, bearing fruit containing large amounts of bioactive metabolites that offer health benefits, are widely cultivated around the world. However, the cold damage incurred when grown outside in extremely low temperatures during the overwintering stage limits the expansion of production. Although the morphological, biochemical, and molecular levels in different Vitis species exposed to different temperatures have been investigated, differential expression of proteins in roots is still limited. Here, the r… Show more

“…Protein phosphatases, key enzymes in carbohydrate metabolism, and LEA proteins are all involved in stress responses ( De Rosa et al 2022 ; Xu et al 2020 ). To identify differentially expressed proteins (DEPs) in response to cold stress, comparative proteomic analysis was conducted in grapevine roots, and a total of 25 DEPs covering stress response, metabolism, energy, bio-signaling, and translation were identified to respond to freezing stress ( Chen et al 2022b ). Hence, proteomic analysis enables researchers to uncover cold-responsive proteins.…”

Advances in understanding cold tolerance in grapevine

“…Protein phosphatases, key enzymes in carbohydrate metabolism, and LEA proteins are all involved in stress responses ( De Rosa et al 2022 ; Xu et al 2020 ). To identify differentially expressed proteins (DEPs) in response to cold stress, comparative proteomic analysis was conducted in grapevine roots, and a total of 25 DEPs covering stress response, metabolism, energy, bio-signaling, and translation were identified to respond to freezing stress ( Chen et al 2022b ). Hence, proteomic analysis enables researchers to uncover cold-responsive proteins.…”

Advances in understanding cold tolerance in grapevine