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The purpose of Amendment 2 (two) is to omit clause FAR 52.219-6 that was inadvertently included in Amendment 1 (one) from the solicitation and to remove any associated small business set-aside provisions. All other terms and conditions remain unchanged. Please see Attachment 9 - Amendment 0002 and Attachment 2 – Terms and Conditions_revised . Attachment 8 - AMENDMENT 1 Q&A - is attached. This amendment addresses questions and answers related to this solicitation. The U.S. Department of Health and Human Services (HHS), National Institutes of Health (NIH), National Cancer Institute (NCI) Center for Cancer Research (CCR), Laboratory of Cancer Biology and Genetics (LCBG), CCR Microscopy Core requires one (1) new, commercially available, Zeiss Lattice SIM5 super-resolution light microscope. The National Cancer Institute is the principal federal agency for cancer research and training. It leads, conducts, and supports cancer research to advance scientific knowledge and improve cancer prevention, detection, diagnosis, and survivorship. The Center for Cancer Research (CCR) is the largest division of the NCI's intramural research program with both basic and clinical research groups exploring the cutting edge of cancer research involving a wide spectrum of biological and biomedical problems that range from visualizing and understanding the structure of genes and proteins and developing novel assays to detect and potentially treat patients. The CCR Microscopy Core, the main microscopy core in the CCR, serves the imaging needs of a wide range of NCI researchers studying the cell biology of cancer. The core facility has five high-quality research-grade instruments, including confocal, multi-photon and super-resolution microscopes, to apply to the numerous research projects from the over 45 labs/branches within NCI, that use the Core annually. To satisfy the demands for super-resolution fluorescence microscopy, the CCR Microscopy Core requests a new Zeiss Lattice SIM5 structured illumination super-resolution microscope. Structured illumination super-resolution microscopy is an established method for acquiring high resolution images of biological samples and is in high demand from NCI researchers. The demand arises from the need to understand the molecular interactions of cellular proteins and the gene expression profiles of tumor cells. Super-resolution microscopy provides researchers the ability to visualize these molecular interactions within cells, and the newest SIM technology available from the requested Zeiss Latice SIM5 microscope will allow researchers to image these interactions in live cells. Thus, providing this cutting-edge technology to NCI researchers to apply to their cancer research projects and further improve our understanding of the cell biology of cancer. The CCR Microscopy Core requires a new Zeiss Lattice SIM5 super-resolution microscope that shall include a high-speed lattice SIM5 scanner, dual high-sensitivity sCMOS cameras with Duol…
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