Ubiquitination is a prevalent post-translation modification system that is involved in almost
all aspects of eukaryotic biology. It involves the attachment of ubiquitin, a small, highly …

Plants are unable to physically escape environmental constraints and have, therefore,
evolved a range of molecular and physiological mechanisms to maximize survival in an ever …

G-protein signaling and ubiquitin-dependent degradation are both involved in grain
development in rice, but how these pathways are coordinated in regulating this process is …

High temperature induces stomatal opening; however, uncontrolled stomatal opening is
dangerous for plants in response to high temperature. We identified a high-temperature …

Ubiquitination is a critical post‐translational protein modification that has been implicated in
diverse cellular processes, including abiotic stress responses, in plants. In the present study …

Salinity is a deleterious abiotic stress factor that affects growth, productivity, and physiology
of crop plants. Strategies for improving salinity tolerance in plants are critical for crop …

Plants are sessile and unable to avoid environmental stresses, such as drought, high
temperature, and high salinity, which often limit the overall plant growth. Plants have evolved …

Rice tolerance to salinity stress involves diverse and complementary mechanisms, such as
the regulation of genome expression, activation of specific ion-transport systems to manage …

Abstract RING (Really Interesting New Gene) finger proteins play crucial roles in abiotic
stress responses in plants. We report the RING finger E3 ligase gene, an Oryza sativa salt …

Main conclusion A rice gene (OsSIRP2) encoding the RING Ub E3 ligase was highly
induced under salinity stress and physically interacted with a transketolase (OsTKL1) …