Xinchun Shen scite author profile

The calcium ion (Ca 2+ ) is a ubiquitous second messenger that is crucial for the regulation of a wide variety of cellular processes. The diverse transient signals transduced by Ca 2+ are mediated by intracellular Ca 2+ -binding proteins, also known as Ca 2+ sensors. A key obstacle to studying many Ca 2+ -sensing proteins is the difficulty in identifying the numerous downstream target interactions that respond to Ca 2+ -induced conformational changes. Among a number of Ca 2+ sensors in the eukaryotic cell, calmodulin (CaM) is the most widespread and the best studied. Employing the mRNA display technique, we have scanned the human proteome for CaM-binding proteins and have identified and characterized a large number of both known and previously uncharacterized proteins that interact with CaM in a Ca 2+ -dependent manner. The interactions of several identified proteins with Ca 2+ /CaM were confirmed by using pull-down assays and coimmunoprecipitation. Many of the CaM-binding proteins identified belong to protein families such as the DEAD/H box proteins, ribosomal proteins, proteasome 26S subunits, and deubiquitinating enzymes, suggesting the possible involvement of Ca 2+ /CaM in different signaling pathways. The selection method described herein could be used to identify the binding partners of other calcium sensors on the proteome-wide scale.

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Insulin-Like Growth Factor (IGF) Binding Protein 2 Functions Coordinately with Receptor Protein Tyrosine Phosphatase β and the IGF-I Receptor To Regulate IGF-I-Stimulated Signaling

Shen

Maile

et al. 2012

Molecular and Cellular Biology

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A novel pickering emulsion produced using soy protein-anthocyanin complex nanoparticles

et al. 2020

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Carotenoid supplementation and retinoic acid in immunoglobulin A regulation of the gut microbiota dysbiosis

Lyu

Wang

et al. 2018

Exp Biol Med (Maywood)

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Dysbiosis, a broad spectrum of imbalance of the gut microbiota, may progress to microbiota dysfunction. Dysbiosis is linked to some human diseases, such as inflammation-related disorders and metabolic syndromes. However, the underlying mechanisms of the pathogenesis of dysbiosis remain elusive. Recent findings suggest that the microbiome and gut immune responses, like immunoglobulin A production, play critical roles in the gut homeostasis and function, and the progression of dysbiosis. In the past two decades, much progress has been made in better understanding of production of immunoglobulin A and its association with commensal microbiota. The present minireview summarizes the recent findings in the gut microbiota dysbiosis and dysfunction of immunoglobulin A induced by the imbalance of pathogenic bacteria and commensal microbiota. We also propose the potentials of dietary carotenoids, such as β-carotene and astaxanthin, in the improvement of the gut immune system maturation and immunoglobulin A production, and the consequent promotion of the gut health. Impact statement The concept of carotenoid metabolism in the gut health has not been well established in the literature. Here, we review and discuss the roles of retinoic acid and carotenoids, including pro-vitamin A carotenoids and xanthophylls in the maturation of the gut immune system and IgA production. This is the first review article about the carotenoid supplements and the metabolites in the regulation of the gut microbiome. We hope this review would provide a new direction for the management of the gut microbiota dysbiosis by application of bioactive carotenoids and the metabolites.

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Xinchun Shen

Scanning the human proteome for calmodulin-binding proteins

Insulin-Like Growth Factor (IGF) Binding Protein 2 Functions Coordinately with Receptor Protein Tyrosine Phosphatase β and the IGF-I Receptor To Regulate IGF-I-Stimulated Signaling

A novel pickering emulsion produced using soy protein-anthocyanin complex nanoparticles

Carotenoid supplementation and retinoic acid in immunoglobulin A regulation of the gut microbiota dysbiosis

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