| Description | iNeu™ is a neural progenitor cell derived from human iPSC. They are derived from a non-integrated induced pluripotent stem cell (iPSC) line under fully defined proprietary neural induction conditions. iNeu™ cells are polarized when plated in culture as a monolayer and express markers iNeu™ is a neural progenitor cell derived from human iPSC. They are derived from a non-integrated induced pluripotent stem cell (iPSC) line under fully defined proprietary neural induction conditions. iNeu™ cells are polarized when plated in culture as a monolayer and express markers such as Vimentin. We have verified that iNeu™ cells are pluripotent neural and glial progenitor cells, because they can be further differentiated into neural and glial cell types under specific in vitro serum-free/non-integrated reprogramming conditions.... Read More | Bacteroides is a group of promising candidates that has attracted major attentions from scientists as model organisms or community for the investigations of the intestinal microbiota field, due to their powerful adaption characteristics in the host and especially the underlying benefits. BacteroidesBacteroides is a group of promising candidates that has attracted major attentions from scientists as model organisms or community for the investigations of the intestinal microbiota field, due to their powerful adaption characteristics in the host and especially the underlying benefits. Bacteroides is a genus of Gram-negative, obligate anaerobic bacteria. Bacteroides species are non endospore-forming bacilli, and may be either motile or nonmotile, depending on the species. Bacteroides; order is the most abundant group of Gram-negative bacteria which flourish in the human intestine at high densities of 109-1011 CFU per gram of feces, and constitutes over 30 species which are more closely related than members in other bacteria orders. And, Bacteroides is considered as one of the major genera of the core microbiota module, of which species with relative abundance of over 1% refers to B. uniformis, B. vulgatus, B. caccae, and B. thetaiotaomicron. In addition to the unique physiological characteristics and the special ecological dynamics, Bacteroides species are under investigations for their underlying beneficial dialogues with the host. Bacteroides species to be considered as next-generation probiotics, and the application of which in prevention or intervention in dysbiosis of gut microbiota and the associated disorders requires further investigations in the modulatory mechanisms and safety evaluation. Bacteroides is one of the dominant contributors of SCFA among the intestinal commensals, mostly in the form of acetate and propionate. Accumulated acetate blocks the transportation of toxins between gut lumen and blood, while propionate is capable of inducing the apoptosis of human colon carcinoma cells, and thus avoids the formation of tumors. Moreover, Vitamin K, which is mainly synthesized by gut microbiota candidates such as Bacteroides, can help prevent or treat osteoporosis by increasing bone mineral density.... Read More | Creative Biolabs offers a range of recombinant cell lines for Immunotherapy discovery and development. | This product GTVCR-WQ39MR is an effective transcription system suitable for a variety of research, including the in vitro translation, self-amplifying mRNA studies and protein expression. The system was driven by the T7 promoter to efficiently generate mRNA with 30 nt poly(A) tail ecoding antibody This product GTVCR-WQ39MR is an effective transcription system suitable for a variety of research, including the in vitro translation, self-amplifying mRNA studies and protein expression. The system was driven by the T7 promoter to efficiently generate mRNA with 30 nt poly(A) tail ecoding antibody which targeting VEGFA. The vector contains the self-replicating Venezuelan equine encephalitis (VEE) virus RNA replicon, which resulting the mRNA expression at a high level.... Read More | Recombinant Norovirus GI.1 Virus-like Particles (NoV GI.1 VLPs) are produced in Baculovirus/Insect cell expression system, assembled with VP1 structure protein. VLP is mimicking the native 3D structure of viruses which can elicit strong immune responses. However, VLPs lack viral genomic material Recombinant Norovirus GI.1 Virus-like Particles (NoV GI.1 VLPs) are produced in Baculovirus/Insect cell expression system, assembled with VP1 structure protein. VLP is mimicking the native 3D structure of viruses which can elicit strong immune responses. However, VLPs lack viral genomic material which makes them non-infectious, unable to replicate and enhance the safety during manufacture and administration. NoV GI.1 VLPs can be used in the development of NoV GI.1 diagnostics and in vaccine development and R&D (including use as an immunogen).... Read More |