Plants have evolved to cope with changing environmental conditions. One way plants
achieve this is through post-translational modification of target proteins by ubiquitination and …

Plants adapt to heterogeneous soil conditions by altering their root architecture. For example,
roots branch when in contact with water by using the hydropatterning response. We report …

SUMO (Small Ubiquitin-like Modifier) conjugation onto target proteins has emerged as a
very influential class of protein modification systems. SUMO1/2 double mutant plants are …

One set of genes encoding diverse groups of transcription factors that interact with the Z-box
(ATACGTGT; a potential Z-DNA forming sequence) is called ZBFs (Z-box Binding Factors). …

Conjugation of SUMO (Small Ubiquitin‐like Modifier) protein to cellular targets is emerging
as a very influential protein modification system. Once covalently bound, SUMO conjugation …

Post‐translational modifications (PTMs) play a critical role in regulating plant growth and
development through the modulation of protein functionality and its interaction with its partners. …

Plants respond rapidly to sudden environmental cues, often responding prior to changes in
the hormone levels that coordinate these responses. How this is achieved is not fully …

Efficient elimination of the editing machinery remains a challenge in plant biotechnology after
genome editing to minimize the probability of off-target mutations, but it is also important to …

SUMO proteases are encoded by a large gene family in rice and are a potential source of
specificity within the SUMO system that is responding to different environmental cues. We …

The versatility of mitogen-activated protein kinases (MAPKs) in translating exogenous and
endogenous stimuli into appropriate cellular responses depends on its substrate specificity. In …