000None0JC-1 mitochondrial membrane potential assay is a fluorescence-based method to track the behavior of mitochondria. Mitochondrial membrane potential (MMP) is an important parameter of mitochondrial function that has been used as an indicator of cell apoptosis. Several cell membrane permeable fluorescent dyes, such as rhodamine-123 (Rh-123), 3, 3′-dihexyloxacarbocyanine iodide (DiOC6), 5,5’,6,6’-tetrachloro-1,1’,3,3’-tetraethylbenzimi-dazolylcarbocyanine iodide (JC-1), tetramethyl rhodamine methyl and ethyl esters (TMRM and TMRE), are currently available to measure changes in MMP.assaymembranemitochondrialpotentialhttps://www.creative-bioarray.com/support/jc-1-mitochondrial-membrane-potential-assay.htm2023-10-27 08:09:31002023-10-27 08:09:311303www.creative-bioarray.combiogpsusersmitochondrial membrane potential assayplugincreativebioarray/profile/21217/creativebioarrayHannah Colepubliciframehumanmouseratfruitflynematodezebrafishthale-cressfrogpigmitochondrial membrane potential assay000None0 Bacillus is a genus of Gram-positive, rod-shaped bacteria, a member of the phylum Bacillota, with 266 named species. Bacillus species are used in many medical, pharmaceutical, agricultural, and industrial processes that take advantage of their wide range of physiologic characteristics and their ability to produce a host of enzymes, antibiotics, and other metabolites. They are poised to become the preferred hosts for the production of many new and improved products as we move through the genomic and proteomic era. https://microbiosci.creative-biogene.com/bacillus-genome-editing-service.htmlbacilluseditinggenomeBacillus Genome Editing2023-11-28 08:08:39002023-11-28 08:08:391308Bacillus Genome EditingbiogpsusersBacillus Genome Editingplugincreativebiogene/profile/20554/creativebiogeneWendy Wilsonpubliciframehumanmouseratfruitflynematodezebrafishthale-cressfrogpigBacillus Genome Editing000None0 Primary cells refers to the cells that are directly isolated from living tissues. They can be cultured in an artificial environment and established for growth in vitro. Primary cells can be isolated from most tissues and organs, such as brain, colon, bone, blood vessel, heart, epithelium, connective tissue, muscle tissue and nervous tissue. However, there are differences in growth rate, isolation method and culture difficulty among different primary cells. https://cell.creative-bioarray.com/primary-cell-isolation-and-culture-services.htmlcellisolationprimaryPrimary Cell Isolation2023-11-28 08:21:36002023-11-28 08:21:361315Primary Cell IsolationbiogpsusersPrimary Cell Isolationplugincreativebioarray/profile/21217/creativebioarrayHannah Colepubliciframehumanmouseratfruitflynematodezebrafishthale-cressfrogpigPrimary Cell Isolation000None0 The test is based on various molecular biology tools, including polymerase chain reaction (PCR), methylation-specific PCR, in situ hybridization, semi-quantitative and quantitative PCR for mRNA and miRNA expression analysis, western blotting, and mutation analysis. It can be used to study the cancer biology of various ocular malignancies, glaucoma and corneal pathogens.ocularpathologyhttps://www.histobiolab.com/ocular-pathology-services.html2023-12-28 09:28:03002023-12-28 09:28:031322www.histobiolab.combiogpsusersOcular Pathologyplugincreativebioarray/profile/21217/creativebioarrayHannah Colepubliciframehumanmouseratfruitflynematodezebrafishthale-cressfrogpigOcular Pathology000None0 Creative Biogene is a leading biotechnology company offering the best Bacillus subtilis genome editing services. With years of experience and expertise in microbial genome editing, our talented scientists will work closely with you to provide any help in Bacillus subtilis genome editing services.bacilluseditinggenomesubtilishttps://microbiosci.creative-biogene.com/bacillus-subtilis-genome-editing-service.html2023-12-28 09:32:09002023-12-28 09:32:091327microbiosci.creative-biogene.combiogpsusersBacillus subtilis Genome Editingplugincreativebiogene/profile/20554/creativebiogeneWendy Wilsonpubliciframehumanmouseratfruitflynematodezebrafishthale-cressfrogpigBacillus subtilis Genome Editing000None0 Epithelial cells are arranged in tightly packed layers that line the surfaces and cavities of tissues and organs throughout the body. It covers rang skins, respiratory tracts( nasal cavity and lungs ), alimentary tracts(oral cavity, stomach, intestines ), urogenital tract (kidney, vesicae, uterus and epididymis ), from all anacrine glnads (pancreas, gallbladder, mammary gland, salivary glands, lacrimal gland, sweat gland and etc. ), even some immune system organ (like thymus gland ).airwaycellsepithelialhumansmallhttps://www.creative-bioarray.com/filter/epithelial-cell-and-media-11.html2024-01-29 09:59:26002024-01-29 09:59:261334www.creative-bioarray.combiogpsusersHuman Small Airway Epithelial Cellsplugincreativebioarray/profile/21217/creativebioarrayHannah Colepubliciframehumanmouseratfruitflynematodezebrafishthale-cressfrogpigHuman Small Airway Epithelial Cells000None0Creative Biogene’s experienced scientists will provide researchers with a reliable, affordable, and fast knock-in cell line generation service, which includes gRNA/donor DNA construction, PCR sequencing, and engineered cell line generation. Our mammalian cell lines with long-term gene editing can be one of the most effective tools in your research or drug discovery program. ismutationofpointthewhathttps://www.creative-biogene.com/Services/Stable-Knock-in-Cell-Line-Generation/Point-Mutation-Cell-Line-Generation.html2024-01-29 10:03:31002024-01-29 10:03:311339www.creative-biogene.combiogpsuserswhat is the point of mutationplugincreativebiogene/profile/20554/creativebiogeneWendy Wilsonpubliciframeratfruitflynematodethale-cressfrogpigWhat is the point of mutation000None0CRISPR/Cas9 PlatformCB, a professional gene-editing technology services company, has extensive experience in the application of CRISPR/Cas gene-editing technology and has successfully knocked out/knocked specific genes in >300 mice. We guarantee to provide you with at least 2 Founder mice or 3 F1 mice and complete them within 3-5 monthsrosa26https://www.creative-biogene.com/crispr-cas9/service/rosa26-knockin-mouse.html2024-01-29 10:04:58002024-01-29 10:04:581341www.creative-biogene.combiogpsusersrosa26plugincreativebiogene/profile/20554/creativebiogeneWendy Wilsonpubliciframehumanmouseratfruitflynematodezebrafishthale-cressfrogpigrosa26000None0 Mouse Microgliamicrogliamousehttps://www.creative-bioarray.com/filter/microglia-cell-and-media-18.html2024-02-28 09:25:17002024-02-28 09:25:171346www.creative-bioarray.combiogpsusersMouse Microgliaplugincreativebioarray/profile/21217/creativebioarrayHannah Colepubliciframehumanmouseratfruitflynematodezebrafishthale-cressfrogpigMouse Microglia000None0 Mast cells are immune cells of the myeloid lineage and are present in connective tissues throughout the body. The activation and degranulation of mast cells significantly modulate many aspects of physiological and pathological conditions in a variety of settings. With respect to normal physiological functions, mast cells are known to regulate angiogenesis, vasodilation, vascular homeostasis, innate and adaptive immune responses. On the other hand, mast cells have also been implicated in the pathophysiology of many diseases, including allergy, asthma, gastrointestinal disorders, cardiovascular diseases and various malignancies. cellhumanlinemasthttps://www.creative-bioarray.com/filter/mast-cells-96.html2024-05-30 07:26:00002024-05-30 07:26:001372www.creative-bioarray.combiogpsusersHuman Mast Cell Lineplugincreativebioarray/profile/21217/creativebioarrayHannah Colepubliciframehumanmouseratfruitflynematodezebrafishthale-cressfrogpigHuman Mast Cell Line