[{"rating_data": {"avg_stars": 0, "total": 0, "avg": 0}, "options": null, "popularity": 0, "description": " Creative Biogene offers state-of-the-art microbial community analysis services. The microbial community analysis offer the opportunity to discover the information on the entire set of microorganisms (bacteria, yeasts, fungi, algae, etc.) present in a given sample. And improve the microbial diversity studies for environmental (e.g. food, water and soil) and other microbial samples (e.g. gut microbiome or skin microbiome).\n\nhttps://microbiosci.creative-biogene.com/microbial-community-analysis.html", "tags": ["analysis", "community", "microbial"], "url": "Microbial Community Analysis", "lastmodified": "2023-11-28 08:17:28", "usage_data": {"layouts": 0, "users": 0}, "created": "2023-11-28 08:17:28", "id": 1312, "shortUrl": "Microbial Community Analysis", "role_permission": ["biogpsusers"], "short_description": "Microbial Community Analysis", "in": "plugin", "owner": {"username": "creativebiogene", "url": "/profile/20554/creativebiogene", "name": "Wendy Wilson"}, "permission_style": "public", "type": "iframe", "species": ["human", "mouse", "rat", "fruitfly", "nematode", "zebrafish", "thale-cress", "frog", "pig"], "name": "Microbial Community Analysis"}, {"rating_data": {"avg_stars": 0, "total": 0, "avg": 0}, "options": null, "popularity": 0, "description": " Creative Biogene utilizes homologous recombination, site-specific recombination and CRISPR technology to generate custom genome-editing strains. CRISPR-Cas is a technology that has dramatically changed the way genomes are edited. Alternative strategies for CRISPR-Cas mediated microbial genome editing include Scarless Cas9 assisted recombineering.", "tags": ["editing", "genome", "methods", "microbial"], "url": "https://microbiosci.creative-biogene.com/microbial-genome-editing-methods.html", "lastmodified": "2023-12-28 09:30:28", "usage_data": {"layouts": 0, "users": 0}, "created": "2023-12-28 09:30:27", "id": 1324, "shortUrl": "microbiosci.creative-biogene.com", "role_permission": ["biogpsusers"], "short_description": "Microbial Genome Editing Methods", "in": "plugin", "owner": {"username": "creativebiogene", "url": "/profile/20554/creativebiogene", "name": "Wendy Wilson"}, "permission_style": "public", "type": "iframe", "species": ["human", "mouse", "rat", "fruitfly", "nematode", "zebrafish", "thale-cress", "frog", "pig"], "name": "Microbial Genome Editing Methods"}, {"rating_data": {"avg_stars": 0, "total": 0, "avg": 0}, "options": null, "popularity": 0, "description": " AAV Antibodies\nThree categories of antibodies for the detection of adeno-associated viruses (AAV).\n\nAAV capsid protein antibodies that specifically react with denatured AAV capsid proteins and thereby recognize the linear epitopes of the viral capsids.\n\nAAV particle antibodies that specifically react with intact AAV particles, i.e. empty and full capsids and thereby recognize a conformational epitope of the assembled capsids of certain serotypes.\n\nAnti-AAV Replicase protein antibodies that react with selected Rep (replicase) proteins in human AAV-infected cells.\n\nAmerigo scientific provides high-quality antibodies which are from professional and well-selected antibody manufacturers all over the world.\n", "tags": ["antibodies", "cdna", "elisa", "vectors"], "url": "https://www.amerigoscientific.com/antibodies.html", "lastmodified": "2024-01-19 03:14:13", "usage_data": {"layouts": 0, "users": 0}, "created": "2024-01-19 03:14:13", "id": 1329, "shortUrl": "www.amerigoscientific.com", "role_permission": ["biogpsusers"], "short_description": "The high specificity and sensitivity of antibodies are unique advantages in biomedical research applications. ", "in": "plugin", "owner": {"username": "amerigoscientific", "url": "/profile/21343/amerigoscientific", "name": "amerigoscientific"}, "permission_style": "public", "type": "iframe", "species": ["human", "mouse", "rat", "fruitfly", "nematode", "zebrafish", "thale-cress", "frog", "pig"], "name": "AAV Antibodies"}, {"rating_data": {"avg_stars": 0, "total": 0, "avg": 0}, "options": null, "popularity": 0, "description": "3D cell culture has been widely applied in differentiation studies, drug discovery, cancer research, gene and protein expression studies, and cellular physiological studies. Amerigo Scientific offers a variety of simple and high-performance 3D cell culture systems, such as ready to use solid scaffold-based bioreactors, scaffold-free culture plates to produce highly standardized cell spheres, microfluidic chips with high compatibility, and 3D adipocyte micro-physiological systems. Each 3D cell culture system comes with a unique set of advantages that can be selected depending on the desired research. ", "tags": ["3d", "cell"], "url": "https://www.amerigoscientific.com/3d-cell-culture-systems.html", "lastmodified": "2024-01-19 03:24:51", "usage_data": {"layouts": 0, "users": 0}, "created": "2024-01-19 03:24:51", "id": 1331, "shortUrl": "www.amerigoscientific.com", "role_permission": ["biogpsusers"], "short_description": "3D cell culture provides an artificially created micro-environment for optimal cell growth, differentiation and function.", "in": "plugin", "owner": {"username": "amerigoscientific", "url": "/profile/21343/amerigoscientific", "name": "amerigoscientific"}, "permission_style": "public", "type": "iframe", "species": ["human", "mouse", "rat", "fruitfly", "nematode", "zebrafish", "thale-cress", "frog", "pig"], "name": "3D Cell Culture Systems"}, {"rating_data": {"avg_stars": 0, "total": 0, "avg": 0}, "options": null, "popularity": 0, "description": " With many years of experience and in-depth knowledge, Creative Bioarray can use fluorescence in situ hybridization (FISH) to confirm the integration of transgenes and determine their chromosome band location. We guarantee the speed, quality and cost of our service.", "tags": ["mapping", "transgene"], "url": "https://www.creative-bioarray.com/Services/transgene-mapping.htm", "lastmodified": "2024-03-28 09:16:21", "usage_data": {"layouts": 0, "users": 0}, "created": "2024-03-28 09:16:21", "id": 1355, "shortUrl": "www.creative-bioarray.com", "role_permission": ["biogpsusers"], "short_description": "Transgene Mapping", "in": "plugin", "owner": {"username": "creativebioarray", "url": "/profile/21217/creativebioarray", "name": "Hannah Cole"}, "permission_style": "public", "type": "iframe", "species": ["human", "mouse", "rat", "fruitfly", "nematode", "zebrafish", "thale-cress", "frog", "pig"], "name": "Transgene Mapping"}, {"rating_data": {"avg_stars": 0, "total": 0, "avg": 0}, "options": null, "popularity": 0, "description": " https://www.creative-bioarray.com/filter/myeloid-cells-100.html", "tags": ["cells", "human", "myeloid"], "url": "https://www.creative-bioarray.com/filter/myeloid-cells-100.html", "lastmodified": "2024-02-28 09:23:50", "usage_data": {"layouts": 0, "users": 0}, "created": "2024-02-28 09:23:50", "id": 1343, "shortUrl": "www.creative-bioarray.com", "role_permission": ["biogpsusers"], "short_description": "Human Myeloid Cells", "in": "plugin", "owner": {"username": "creativebioarray", "url": "/profile/21217/creativebioarray", "name": "Hannah Cole"}, "permission_style": "public", "type": "iframe", "species": ["human", "mouse", "rat", "fruitfly", "nematode", "zebrafish", "thale-cress", "frog", "pig"], "name": "Human Myeloid Cells"}, {"rating_data": {"avg_stars": 0, "total": 0, "avg": 0}, "options": null, "popularity": 0, "description": " crispri and crispra", "tags": ["and", "crispra", "crispri"], "url": "https://www.creative-biogene.com/crispr-cas9/service/crispra-stable-cell-lines.html", "lastmodified": "2024-02-28 09:26:26", "usage_data": {"layouts": 0, "users": 0}, "created": "2024-02-28 09:26:26", "id": 1348, "shortUrl": "www.creative-biogene.com", "role_permission": ["biogpsusers"], "short_description": "crispri and crispra", "in": "plugin", "owner": {"username": "creativebiogene", "url": "/profile/20554/creativebiogene", "name": "Wendy Wilson"}, "permission_style": "public", "type": "iframe", "species": ["human", "mouse", "rat", "fruitfly", "nematode", "zebrafish", "thale-cress", "frog", "pig"], "name": "crispri and crispra"}, {"rating_data": {"avg_stars": 0, "total": 0, "avg": 0}, "options": null, "popularity": 0, "description": "vlps", "tags": ["vlps"], "url": "https://www.creative-biogene.com/services/virus-like-particles-vlps-service.html", "lastmodified": "2024-02-28 09:28:20", "usage_data": {"layouts": 0, "users": 0}, "created": "2024-02-28 09:28:19", "id": 1350, "shortUrl": "www.creative-biogene.com", "role_permission": ["biogpsusers"], "short_description": "vlps", "in": "plugin", "owner": {"username": "creativebiogene", "url": "/profile/20554/creativebiogene", "name": "Wendy Wilson"}, "permission_style": "public", "type": "iframe", "species": ["human", "mouse", "rat", "fruitfly", "nematode", "zebrafish", "thale-cress", "frog", "pig"], "name": "vlps"}, {"rating_data": {"avg_stars": 0, "total": 0, "avg": 0}, "options": null, "popularity": 0, "description": " microRNA mimics are double-stranded miRNA-like RNA that are designed to copy the functionality of mature endogenous miRNA upon transfection. Once these RNA fragments are introduced into cells, the miRNA mimics can bind specifically to the targeted gene. The result is posttranscriptional repression or more specifically translational inhibition of the gene. miR-mimics will act in a gene-specific fashion allowing for \"miRNA-targeting\" and \"miRNA-gain-of-function\" methods that are presently primarily used as exogenous tools to study gene function by targeting mRNA through miRNA-like actions in mammalian cells.\n\n", "tags": ["mimic", "mirna"], "url": "https://www.creative-biogene.com/products/mirna-mimics.html", "lastmodified": "2024-05-30 07:48:35", "usage_data": {"layouts": 0, "users": 0}, "created": "2024-05-30 07:48:35", "id": 1379, "shortUrl": "www.creative-biogene.com", "role_permission": ["biogpsusers"], "short_description": "mirna mimic", "in": "plugin", "owner": {"username": "creativebiogene", "url": "/profile/20554/creativebiogene", "name": "Wendy Wilson"}, "permission_style": "public", "type": "iframe", "species": ["human", "mouse", "rat", "fruitfly", "nematode", "zebrafish", "thale-cress", "frog", "pig"], "name": "mirna mimic"}, {"rating_data": {"avg_stars": 0, "total": 0, "avg": 0}, "options": null, "popularity": 0, "description": " Transfection alters the genetic makeup of eukaryotic cells by introducing foreign nucleic acids, including DNA, RNA, and small noncoding RNAs such as siRNA, shRNA, and miRNA. Stable transfection results in sustained, long-term expression, whereas expression is eventually lost following transient transfection as the host cell replicates. Scientists apply stable transfection to long-term and large-scale genetic and pharmacological studies. Transient transfection can be used for short-term studies, such as studying the effects of gene knock-in or knock-down.\n\n", "tags": ["reagents", "transfection"], "url": "https://www.creative-biogene.com/products/transfection-reagents.html", "lastmodified": "2024-05-30 07:49:42", "usage_data": {"layouts": 0, "users": 0}, "created": "2024-05-30 07:49:42", "id": 1381, "shortUrl": "www.creative-biogene.com", "role_permission": ["biogpsusers"], "short_description": "transfection reagents", "in": "plugin", "owner": {"username": "creativebiogene", "url": "/profile/20554/creativebiogene", "name": "Wendy Wilson"}, "permission_style": "public", "type": "iframe", "species": ["human", "mouse", "rat", "fruitfly", "nematode", "zebrafish", "thale-cress", "frog", "pig"], "name": "transfection reagents"}]