Aloysius Wong scite author profile

Nitric oxide (NO) is a gaseous reactive oxygen species (ROS) that has evolved as a signaling hormone in many physiological processes in animals. In plants it has been demonstrated to be a crucial regulator of development, acting as a signaling molecule present at each step of the plant life cycle. NO has also been implicated as a signal in biotic and abiotic responses of plants to the environment. Remarkably, despite this plethora of effects and functional relationships, the fundamental knowledge of NO production, sensing, and transduction in plants remains largely unknown or inadequately characterized. In this review we cover the current understanding of NO production, perception, and action in different physiological scenarios. We especially address the issues of enzymatic and chemical generation of NO in plants, NO sensing and downstream signaling, namely the putative cGMP and Ca(2+) pathways, ion-channel activity modulation, gene expression regulation, and the interface with other ROS, which can have a profound effect on both NO accumulation and function. We also focus on the importance of NO in cell-cell communication during developmental processes and sexual reproduction, namely in pollen tube guidance and embryo sac fertilization, pathogen defense, and responses to abiotic stress.

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Assessing the Risk of Probiotic Dietary Supplements in the Context of Antibiotic Resistance

Zheng

et al. 2017

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Probiotic bacteria are known to harbor intrinsic and mobile genetic elements that confer resistance to a wide variety of antibiotics. Their high amounts in dietary supplements can establish a reservoir of antibiotic resistant genes in the human gut. These resistant genes can be transferred to pathogens that share the same intestinal habitat thus resulting in serious clinical ramifications. While antibiotic resistance of probiotic bacteria from food, human and animal sources have been well-documented, the resistant profiles of probiotics from dietary supplements have only been recently studied. These products are consumed with increasing regularity due to their health claims that include the improvement of intestinal health and immune response as well as prevention of acute and antibiotic-associated diarrhea and cancer; but, a comprehensive risk assessment on the spread of resistant genes to human health is lacking. Here, we highlight recent reports of antibiotic resistance of probiotic bacteria isolated from dietary supplements, and propose complementary strategies that can shed light on the risks of consuming such products in the context of a global widespread of antibiotic resistance. In concomitant with a broader screening of antibiotic resistance in probiotic supplements is the use of computational simulations, live imaging and functional genomics to harvest knowledge on the evolutionary behavior, adaptations and dynamics of probiotics studied in conditions that best represent the human gut including in the presence of antibiotics. The underlying goal is to enable the health benefits of probiotics to be exploited in a responsible manner and with minimal risk to human health.

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The Arabidopsis thaliana K⁺‐uptake permease 7 (AtKUP7) contains a functional cytosolic adenylate cyclase catalytic centre

2015

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a b s t r a c tAdenylate cyclases (ACs) catalyse the formation of the second messenger cyclic adenosine 3 0 ,5 0 -monophosphate (cAMP) from adenosine 5 0 -triphosphate (ATP). Although cAMP is increasingly recognised as an important signalling molecule in higher plants, ACs have remained somewhat elusive. Here we used a search motif derived from experimentally tested guanylyl cyclases (GCs), substituted the residues essential for substrate specificity and identified the Arabidopsis thaliana K + -uptake permease 7 (AtKUP7) as one of several candidate ACs. Firstly, we show that a recombinant N-terminal, cytosolic domain of AtKUP7 1-100 is able to complement the AC-deficient mutant cyaA in Escherichia coli and thus restoring the fermentation of lactose, and secondly, we demonstrate with both enzyme immunoassays and mass spectrometry that a recombinant AtKUP7 1-100 generates cAMP in vitro.

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The brassinosteroid receptor BRI1 can generate cGMP enabling cGMP‐dependent downstream signaling

et al. 2017

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The brassinosteroid receptor brassinosteroid insensitive 1 (BRI1) is a member of the leucine-rich repeat receptor-like kinase family. The intracellular kinase domain of BRI1 is an active kinase and also encapsulates a guanylate cyclase catalytic centre. Using liquid chromatography tandem mass spectrometry, we confirmed that the recombinant cytoplasmic domain of BRI1 generates pmol amounts of cGMP per μg protein with a preference for magnesium over manganese as a co-factor. Importantly, a functional BRI1 kinase is essential for optimal cGMP generation. Therefore, the guanylate cyclase activity of BRI1 is modulated by the kinase while cGMP, the product of the guanylate cyclase, in turn inhibits BRI1 kinase activity. Furthermore, we show using Arabidopsis root cell cultures that cGMP rapidly potentiates phosphorylation of the downstream substrate brassinosteroid signaling kinase 1 (BSK1). Taken together, our results suggest that cGMP acts as a modulator that enhances downstream signaling while dampening signal generation from the receptor.

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Aloysius Wong

Nitric Oxide: A Multitasked Signaling Gas in Plants

Assessing the Risk of Probiotic Dietary Supplements in the Context of Antibiotic Resistance

The Arabidopsis thaliana K⁺‐uptake permease 7 (AtKUP7) contains a functional cytosolic adenylate cyclase catalytic centre

The brassinosteroid receptor BRI1 can generate cGMP enabling cGMP‐dependent downstream signaling

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Aloysius Wong

Nitric Oxide: A Multitasked Signaling Gas in Plants

Assessing the Risk of Probiotic Dietary Supplements in the Context of Antibiotic Resistance

The Arabidopsis thaliana K+‐uptake permease 7 (AtKUP7) contains a functional cytosolic adenylate cyclase catalytic centre

The brassinosteroid receptor BRI1 can generate cGMP enabling cGMP‐dependent downstream signaling

Contact Info

Product

Resources

About

The Arabidopsis thaliana K⁺‐uptake permease 7 (AtKUP7) contains a functional cytosolic adenylate cyclase catalytic centre