Antibody-guided design and identification of CD25-binding small antibody mimetics using mammalian cell surface display.

Small antibody mimetics that contain high-affinity target-binding peptides can be lower cost alternatives to monoclonal antibodies (mAbs). We have recently developed a method to create small antibody mimetics called FLuctuation-regulated Affinity Proteins (FLAPs), which consist of a small protein scaffold with a structurally immobilized target-binding peptide. In this study, to further develop this method, we established a novel screening system for FLAPs called monoclonal antibody-guided peptide identification and engineering (MAGPIE), in which a mAb guides selection in two manners.

Sensory Lexicons and Formation Pathways of Off-Aromas in Dairy Ingredients: A Review.

Consumers are becoming increasingly aware of the health benefits of dairy ingredients. However, products fortified with dairy proteins are experiencing considerable aroma challenges. Practices to improve the flavor quality of dairy proteins require a comprehensive understanding of the nature and origins of off-aroma.

The Controlling Nutritional Status Score Serves as a Predictor of Short- and Long-Term Outcomes for Patients with Stage 2 or 3 Gastric Cancer: Analysis of a Multi-institutional Data Set.

Background: This study aimed to evaluate the predictive value of the preoperative Controlling Nutritional Status (CONUT) score, which comprehensively reflects protein and lipid metabolism as well as the immunocompetence among patients with stage 2 or 3 gastric cancer.

Methods: From a retrospective database of 3484 patients who underwent gastrectomy for gastric cancer at nine Japanese institutions between 2010 and 2014, data for 626 patients with stage 2 or 3 cancer were retrieved. The study evaluated the significance of the associations between the optimal CONUT score cutoff values with the prognosis and the incidence of postoperative complications.

Positive Feedback Genetic Circuit Incorporating a Constitutively Active Mutant Gal3 into Yeast GAL Induction System.

The GAL expression system is the most frequently used induction technique in the yeast Saccharomyces cerevisiae. Here we report a simple but powerful genetic circuit for use with the GAL induction system. Briefly, an artificial positive feedback circuit was incorporated into the GAL regulatory network.

Transplantation of the GAL regulon into G-protein signaling circuitry in yeast.

Here we present a successful transplantation of the GAL genetic regulatory circuitry into the G-protein signaling pathway in yeast. The GAL regulon represents a strictly regulated transcriptional mechanism that we have transplanted into yeast to create a highly robust induction system to assist the detection of on-off switching in G-protein signaling. In our system, we engineered yeast to drive the positive GAL regulatory gene in response to agonist-promoted G-protein signaling and to induce transcription of a green fluorescent protein (GFP) reporter gene under the control of the GAL structural gene promoter.