The trehalose 6-phosphate phosphatase family in plants.

Trehalose 6-phosphate (Tre6P), the intermediate of trehalose biosynthesis, is an essential signalling metabolite linking plant growth and development to carbon metabolism. While recent work has focused predominantly on the enzymes that produce Tre6P, little is known about the proteins that catalyse its degradation, the trehalose 6-phosphate phosphatases (TPPs). Often occurring in large protein families, TPPs exhibit cell-, tissue- and developmental stage-specific expression patterns, suggesting important regulatory functions in controlling local levels of Tre6P and trehalose as well as Tre6P signalling.

Temperature Sensing in Plants.

Temperature is a key environmental cue that influences the distribution and behavior of plants globally. Understanding how plants sense temperature and integrate this information into their development is important to determine how plants adapt to climate change and to apply this knowledge to the breeding of climate-resilient crops. The mechanisms of temperature perception in eukaryotes are only just beginning to be understood, with multiple molecular phenomena with inherent temperature dependencies, such as RNA melting, phytochrome dark reversion, and protein phase change, being exploited by nature to create thermosensory signaling networks.

Plant cell cultures as heterologous bio-factories for secondary metabolite production.

Synthetic biology has been developing rapidly in the last decade and is attracting increasing attention from many plant biologists. The production of high-value plant-specific secondary metabolites is, however, limited mostly to microbes. This is potentially problematic because of incorrect post-translational modification of proteins and differences in protein micro-compartmentalization, substrate availability, chaperone availability, product toxicity, and cytochrome p450 reductase enzymes.

From Affinity to Proximity Techniques to Investigate Protein Complexes in Plants.

The study of protein-protein interactions (PPIs) is fundamental in understanding the unique role of proteins within cells and their contribution to complex biological systems. While the toolkit to study PPIs has grown immensely in mammalian and unicellular eukaryote systems over recent years, application of these techniques in plants remains under-utilized. Affinity purification coupled to mass spectrometry (AP-MS) and proximity labeling coupled to mass spectrometry (PL-MS) are two powerful techniques that have significantly enhanced our understanding of PPIs.

Two mitochondrial phosphatases, PP2c63 and Sal2, are required for posttranslational regulation of the TCA cycle in Arabidopsis.

Protein phosphorylation is a well-established post-translational mechanism that regulates protein functions and metabolic pathways. It is known that several plant mitochondrial proteins are phosphorylated in a reversible manner. However, the identities of the protein kinases/phosphatases involved in this mechanism and their roles in the regulation of the tricarboxylic acid (TCA) cycle remain unclear.

Cold sensitivity of mitochondrial ATP synthase restricts oxidative phosphorylation in Arabidopsis thaliana.

The combined action of the electron transport chain (ETC) and ATP synthase is essential in determining energy efficiency in plants, and so is important for cellular biosynthesis, growth and development. Owing to the sessile nature of plants, mitochondria must operate over a wide temperature range in the environment, necessitating a broad temperature tolerance of their biochemical reactions. We investigated the temperature response of mitochondrial respiratory processes in isolated mitochondria and intact plants of Arabidopsis thaliana and considered the effect of instantaneous responses to temperature and acclimation responses to low temperatures.

Isolation of Mitochondria from Model and Crop Plants.

The ability to isolate intact and functional mitochondria has greatly deepened our understanding of mitochondrial structure and function. With the advancement of molecular biology techniques and progression into omics-based research over recent decades, mitochondrial research has shifted from crop species such as wheat, pea, and potato to genetically sequenced models such as Arabidopsis thaliana and rice. Although there are many attributes that make model species particularly appealing for plant research, they are often less than ideal for conducting biochemical investigations and as such, considerable modification to mitochondrial isolation methods has been made.

Effect of early nutritional deprivation and diet on translocation of bacteria from the gastrointestinal tract in the newborn rat.

The gastrointestinal (GI) barrier function is immature in the preterm neonate and might thus facilitate translocation of enteric bacteria and gut-derived septicemia. Circumstantial evidence suggests that bacterial uptake from the intestine may be further enhanced by an alteration of the host nutritional status. To test this hypothesis, neonatal rats were fed normal or restricted amounts of either breast milk or of a rat milk-simulated formula for 3-5 d.

[Traumatic embolization of the middle cerebral artery].

A 3 mm metallic particle, which had blasted during grinding operation, shot into the neck of a nine year old boy, penetrated into the common carotid artery and embolized the right middle cerebral artery. There had been no neurological symptoms until four days after the injury. Suddenly, a mild left side hemiparesis occurred with accentuation of the arm.

[Ingestion of caustic substances in childhood].

Patients who ingest caustic substances continue to pose difficult problems in diagnosis and management. Flexible fiberoptic endoscopy and radiological studies have helped to assess the extent of damage caused by corrosives. A number of non surgical techniques are available for therapy, mainly corticosteroids and antibiotics.