| Description | Akkermansia is a genus in the phylum Verrucomicrobia; Bacteria with the type species Akkermansia muciniphila. Among the next-generation beneficial microbes that have been identified, Akkermansia muciniphila is a promising candidate. Akkermansia muciniphila is a strict anaerobe recently isolated fromAkkermansia is a genus in the phylum Verrucomicrobia; Bacteria with the type species Akkermansia muciniphila. Among the next-generation beneficial microbes that have been identified, Akkermansia muciniphila is a promising candidate. Akkermansia muciniphila is a strict anaerobe recently isolated from human faeces and uses the mucin as thesole sources of carbon and nitrogen elements. Due to this unique function and its high universality and richness in almost all life stages, Akkermansia muciniphila opened new avenues for the application in next-generation therapeutic probiotic. It is a bacterium of oval shape, non-motile and Gram-negative andforms no endospores and widely distributed in the intestines of human and animals. Akkermansia muciniphila is one of the normal gutsymbionts throughout our life. Currently, a large number of researches on Akkermansia muciniphila mainly focused on explaining its relationship with diseases. It promises to be a therapeutic target in the microbiota-related diseases, such as colitis, metabolic syndrome, immune diseases and cancer. Preliminary human datasuggest oral administration of Akkermansia muciniphila safe, butits effect needs to be further verified in more human clinical trials in the near future.... Read More | Creative Biolabs Human iPSC-Sensory Neuron Progenitors are derived from integration-free iPSCs and have been differentiated to neurons using small molecules. We offer a fully optimized cell culture system including tailored Sensory Maintenance Medium and coating reagents to promote the viability andCreative Biolabs Human iPSC-Sensory Neuron Progenitors are derived from integration-free iPSCs and have been differentiated to neurons using small molecules. We offer a fully optimized cell culture system including tailored Sensory Maintenance Medium and coating reagents to promote the viability and maturation of sensory neurons for endpoint assays on glass or plastic.
Our iPSC-derived sensory neurons express several voltage-gated sodium ion channels and transient receptor potential (TRP) ion channels that play a key role in nociception. These include sodium ion channels Nav1.7 and the DRG-specific, TTX-resistant channels, Nav1.8 and Nav1.9 as well as the temperature-sensitive, TRPV1 and TRPM8, and TRPA1, a sensor of pungency, bitterness and cold.
Creative Biolabs iPSC-Derived Sensory Neuron Progenitors are available in large batch sizes for reliable and consistent results in high-throughput screening assays. The cells are also suitable for investigating disorders of the peripheral nervous system and chronic pain as well as drug targets for pain relief.... Read More | This product GTTS-WK14445MR is a type of mRNA having 120 nt poly(A) tail and modified with Cap 0 & Pseudo-UTP. It ecodes the AK124399 protein. This product can be used in CD1C-CD141- dendritic cell-related researches. | Parabacteroides is a Gram-negative, anaerobic, non-spore-forming genus from the family Tannerellaceae. Currently, the genus Parabacteroides includes eight valid species with standing in nomenclature. The species Parabacteroides faecis and Parabacteroides johnsonii; faeces and Parabacteroides Parabacteroides is a Gram-negative, anaerobic, non-spore-forming genus from the family Tannerellaceae. Currently, the genus Parabacteroides includes eight valid species with standing in nomenclature. The species Parabacteroides faecis and Parabacteroides johnsonii; faeces and Parabacteroides gordonii; blood were all isolated for the first time in humans. Of all the species, Parabacteroides distasonis is the reference type strain for the genus Parabacteroides. To date, Parabacteroides distasonis has been shown to have beneficial effects on colorectal cancer. Multiple researchers have identified that levels of Parabacteroides distasonis in stool are inversely correlated to the presence of intestinal tumors. The evidence for the potential anti-inflammatory effects of Parabacteroides distasonis in colorectal cancer is further supported by the inverse correlation between Parabacteroides distasonis levels and IL-1β production in the gut, suggesting that Parabacteroides distasonis has anti-tumorigenic and anti-inflammatory potential in colorectal cancer patients. Further potential benefits of Parabacteroides distasonis have been identified, particularly in relation to obesity. In addition, several studies have suggested that Parabacteroides distasonis may play a role in various forms of autoimmunity.... Read More | The product SIRGT34137WQ-LNA is a type of small interfering RNA (siRNA) that targets NFE2L3 gene and regulates the expression of gene. The siRNA interferes with the expression of NFE2L3 gene with complementary nucleotide sequences by degrading mRNA after transcription, preventing translation. The The product SIRGT34137WQ-LNA is a type of small interfering RNA (siRNA) that targets NFE2L3 gene and regulates the expression of gene. The siRNA interferes with the expression of NFE2L3 gene with complementary nucleotide sequences by degrading mRNA after transcription, preventing translation. The siRNA is systematically modified with the synthetic RNA-like high affinity nucleotide analogue, Locked Nucleic Acid (LNA), to improve its bio-stability, specificity and efficiency. It has potential applications in RNA interference (RNAi) and gene therapy development.... Read More |