Sebastien Ribrioux scite author profile

Cell surface N-glycoproteins provide a key interface of cells to their environment and therapeutic entry points for drug and biomarker discovery. Their comprehensive description denotes therefore a formidable challenge. The β-cells of the pancreas play a crucial role in blood glucose homeostasis, and disruption of their function contributes to diabetes. By combining cell surface and whole cell capturing technologies with high-throughput quantitative proteomic analysis, we report on the identification of a total of 956 unique N-glycoproteins from mouse MIN6 β-cells and human islets. Three-hundred-forty-nine of these proteins encompass potential surface N-glycoproteins and include orphan G-protein-coupled receptors, novel proteases, receptor protein kinases, and phosphatases. Interestingly, stimulation of MIN6 β-cells with glucose and the hormone GLP1, known stimulators of insulin secretion, causes significant changes in surface N-glycoproteome expression. Taken together, this β-cell N-glycoproteome resource provides a comprehensive view on the composition of β-cell surface proteins and expands the scope of signaling systems potentially involved in mediating responses of β-cells to various forms of (patho)physiologic stress and the extent of dynamic remodeling of surface N-glycoprotein expression associated with metabolic and hormonal stimulation. Moreover, it provides a foundation for the development of diabetes medicines that target or are derived from the β-cell surface N-glycoproteome.

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Bioinformatics prediction of overlapping frameshifted translation products in mammalian transcripts

Ribrioux

Brüngger

Baumgarten

et al. 2008

BMC Genomics

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Background: Exceptionally, a single nucleotide sequence can be translated in vivo in two different frames to yield distinct proteins. In the case of the G-protein alpha subunit XL-alpha-s transcript, a frameshifted open reading frame (ORF) in exon 1 is translated to yield a structurally distinct protein called Alex, which plays a role in platelet aggregation and neurological processes. We carried out a novel bioinformatics screen for other possible dual-frame translated sequences, based on comparative genomics.

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Use of nanogold- and fluorescent-labeled antibody Fv fragments in immunocytochemistry.

Ribrioux

Kleymann

Haase

et al. 1996

J Histochem Cytochem.

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Recombinant antibody fragments are emerging as a versatile tool in both basic research and medical therapy. We describe the procedures for direct labeling of engineered antibody fragments (Fv) with fluorescein or nanogold and their use in fluorescence and immunoelectron microscopy, respectively. The Fv fragments were produced in Escherichia coli, purified by one-step Strep tag affinity chromatography, chemically labeled with the marker, and employed in microscopy to localize epitopes on the membrane protein bacteriorhodopsin in purple membranes of Halobacterium halobium and the cytochrome c oxidase of Paracoccus denitrificans. In both cases, methods involving directly labeled antibody fragments show results identical to those in which antibodies or Fv fragments are detected by a secondarily labeled conjugate. The multifunctional design of the recombinant Fv fragments, however, offers more all-around applications in immunocytochemistry. The directly labeled Fv fragments, half the size of an Fab fragment, are at the molecular level the smallest antibody fragments yet described for visualization of biomolecules in microscopy.

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Considerations for Optimization of High-Throughput Sequencing Bioinformatics Pipelines for Virus Detection

Lambert

Braxton

Charlebois

et al. 2018

Viruses

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High-throughput sequencing (HTS) has demonstrated capabilities for broad virus detection based upon discovery of known and novel viruses in a variety of samples, including clinical, environmental, and biological. An important goal for HTS applications in biologics is to establish parameter settings that can afford adequate sensitivity at an acceptable computational cost (computation time, computer memory, storage, expense or/and efficiency), at critical steps in the bioinformatics pipeline, including initial data quality assessment, trimming/cleaning, and assembly (to reduce data volume and increase likelihood of appropriate sequence identification). Additionally, the quality and reliability of the results depend on the availability of a complete and curated viral database for obtaining accurate results; selection of sequence alignment programs and their configuration, that retains specificity for broad virus detection with reduced false-positive signals; removal of host sequences without loss of endogenous viral sequences of interest; and use of a meaningful reporting format, which can retain critical information of the analysis for presentation of readily interpretable data and actionable results. Furthermore, after alignment, both automated and manual evaluation may be needed to verify the results and help assign a potential risk level to residual, unmapped reads. We hope that the collective considerations discussed in this paper aid toward optimization of data analysis pipelines for virus detection by HTS.

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Feedstock and Biocatalyst Optimization Starts with an Integrated Genome Data Management Platform

Bausch

Ribrioux

Macko

et al. 2013

Industrial Biotechnology

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