Frederick, MD
Core Facility
The FNLCR Molecular Histopathology Laboratory (MHL) provides comprehensive veterinary pathology support for animal health monitoring, biomarker discovery and validation, drug development, genomics, and proteomics on a cost recovered basis. The MHL is organized into multiple Read More...
ROCKVILLE, MD
Collaborative
Trans NIH Facility
The Specimen Resource Locator (SRL) is a biospecimen resource database designed to help researchers locate resources that may have the samples needed for their investigational use. This publicly searchable database includes information about biospecimen banks Read More...
Bethesda, MD
Collaborative
The National Clinical Trials Network Biospecimen Banks (NCTN) receive, store, and distribute human cancer biospecimens collected on NCTN clinical trials. NCTN Biobanks provide cancer researchers with quality, well-annotated biospecimens and associated clinical information. The NCTN Read More...
Frederick, MD
Core Facility
Collaborative
Trans NIH Facility
The Statistical Consulting & Scientific Programming Group provides a wide array of statistical-consulting services to the scientific community at the NCI and the Frederick National Laboratory for Cancer Research (FNLCR). The consulting statisticians collaborate with scientists Read More...
Bethesda, MD
Core Facility
Collaborative
The CCR Collaborative Bioinformatics Resource (CCBR) is a centrally-funded resource group which provides a mechanism for CCR researchers to obtain many different types of bioinformatics assistance to further their research goals. The group has expertise Read More...
Frederick, MD
Core Facility
The Genomics Technology Laboratory is an integrated, high-throughput molecular biology laboratory focusing on the development of genetics and genomics technologies, data analysis, and information management tools, in support of CCR Investigators. The laboratory develops integrated Read More...
Bethesda, MD
Core Facility
Collaborative
LCBG Microscopy Core Facility offers imaging technologies and training. The facility has established instrumentation for for 2D and 3D imaging of both fixed and living specimens. Equipment include: Zeiss AxioObserver.Z1 epifluorescent microscope, Zeiss AxioScan. Read More...
Frederick, Maryland
Core Facility
Mutation Detection:: For PCR and Sanger sequencing both testing and bioinformatics interpretation are conducted. This method is currently being used in patients with chronic granulomatous disease (CGD), WHIM syndrome, and other autoimmune disorders. Because Sanger Read More...
Bethesda, MD
Core Facility
Collaborative
Established Technologies: CellMiner – Comprehensive molecular data on the NCI-60 cancer cell lines, including: Multiple microarray platforms measuring gene expression, Gene transcript level z score determination from 5 microarray platforms, aCGH DNA copy number, MicroRNA expression and Read More...
Frederick, MD
Collaborative
The Advanced Biomedical Computational Sciences (ABCS) group provides technology development, scientific consultation, collaboration and training, research, software development, and high-performance computing support. ABCS encompasses specialized groups focusing on machine learning applied to the interpretation of 2 Read More...
Bethesda, MD
Trans NIH Facility
The NIH Biowulf Cluster provides researchers with a world-class system to assist in solving complex biomedical problems as diverse as gene variation in worldwide human populations, deep learning to model protein structures, and PET brain Read More...
Rockville, MD
Collaborative
We are a bioinformatics team within the Center for Biomedical Informatics and Information Technology’s (CBIIT’s) Cancer Informatics Branch (CIB)—soon to be referred to as the Informatics and Data Science (IDS) Program. Headed Read More...
Web Page
The Genomics Laboratory (formerly Laboratory of Molecular Technology) is an integrated, high-throughput molecular biology laboratory focusing on the development of genetics and genomics technologies, together with associated laboratory automation systems, data analysis, and information management Read More...
Web Page
Employing spatial biology techniques enables acquisition of transcript and protein data from intact tissue sections, and in turn, spatial distribution information and cellular interaction patterns are revealed.