GLP-1R (Glucagon-like peptide-1 receptor) has long been a prominent target in the field of diabetes. It is a hormone primarily produced by L cells in the intestine and belongs to the incretin family. Agonists of its receptor reduce appetite and food intake, thereby lowering blood sugar levels, which has garnered considerable attention worldwide.…
GLP-1R (Glucagon-like peptide-1 receptor) has long been a prominent target in the field of diabetes. It is a hormone primarily produced by L cells in the intestine and belongs to the incretin family. Agonists of its receptor reduce appetite and food intake, thereby lowering blood sugar levels, which has garnered considerable attention worldwide. Today, we present a case study on the independent development of nanobodies targeting GLP-1R by NBLST.
Nano Body Life Sciences and Technology - NBLST : A Case Study on the Development of Nanobodies Targeting the Spike Protein of the Novel Coronavirus, Sharing the Process, Results, and Applications of this Nanobody. The development process of this case study comprises six key stages: immunization of alpacas, construction of phage display…
Nano Body Life Sciences and Technology - NBLST : A Case Study on the Development of Nanobodies Targeting the Spike Protein of the Novel Coronavirus, Sharing the Process, Results, and Applications of this Nanobody. The development process of this case study comprises six key stages: immunization of alpacas, construction of phage display libraries, screening and identification of positive monoclonal nanobody-expressing microbes via phage surface display, recombinant expression, purification, and testing of positive monoclonal nanobodies, identification of antibody binding sites, and neutralizing antibody detection
Directed immobilization technology is a method that utilizes specific techniques and materials to immobilize target molecules or substances at predetermined locations or on designated carriers. This technique finds wide-ranging applications in various fields including biomedicine, materials science, and environmental monitoring. In research…
Directed immobilization technology is a method that utilizes specific techniques and materials to immobilize target molecules or substances at predetermined locations or on designated carriers. This technique finds wide-ranging applications in various fields including biomedicine, materials science, and environmental monitoring. In research experiments across these domains, directed immobilization technology effectively enhances detection efficiency while reducing workload and research costs. As an efficient research strategy, it is widely adopted and extensively researched across scientific disciplines.
Targeted Protein Degradation (TPD) technology has rapidly evolved over the past two decades as a method to disrupt protein function. The aim of this technology is to selectively degrade specific proteins, thereby modulating cellular processes and signaling pathways.
Nanobodies are regarded as promising strategies and tools in both targeted detection and clinical treatment fields. However, research on targeted detection and clinical treatment of Helicobacter pylori (HP) primarily focuses on peptides, single-chain antibodies (scFv), yolk antibodies, and monoclonal antibodies. Despite their high affinity, good…
Nanobodies are regarded as promising strategies and tools in both targeted detection and clinical treatment fields. However, research on targeted detection and clinical treatment of Helicobacter pylori (HP) primarily focuses on peptides, single-chain antibodies (scFv), yolk antibodies, and monoclonal antibodies. Despite their high affinity, good stability, low immunogenicity, small molecular size, and ease of modification, there have been no significant reports on the development of effective nanobody drugs for targeting Helicobacter pylori.