Acquisition of a Zeiss LSM 900 confocal microscope with Airyscan 2 for an Imaging and Microscopy Core

购买配备 Airyscan 2 的 Zeiss LSM 900 共焦显微镜作为成像和显微镜核心

基本信息

批准号：
10632858
负责人：
SEAN M WILSON
金额：
$ 59.37万
依托单位：
LOMA LINDA UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
2023
资助国家：
美国
起止时间：
2023-05-15 至 2024-05-14
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/10632858
关键词：
Advisory Committees Applications Grants Award Cancer Biology Cardiovascular Physiology Cells Confocal Microscopy Contract Services Core Facility Development Dimensions Fluorescence Fluorescent Probes Funding Image Imaging technology In Situ Hybridization Institution Label Lasers Measures Medicine Microscope Microscopy Minor Morphology Neurobiology Neuroendocrinology Pregnancy Preparation Proteins Radiation Regenerative Medicine Research Research Personnel Research Project Grants Scanning Signal Transduction System Systems Integration Tissues Training Programs United States National Institutes of Health Universities cellular imaging confocal imaging experience health disparity instrument instrumentation interest light transmission mosaic multi-photon multidisciplinary operation programs protein expression real-time images reconstruction superresolution imaging

项目摘要

Research Summary This grant proposal seeks funding for a Zeiss LSM 900 laser scanning confocal microscope with Airyscan 2 for NIH funded investigators who use the Advanced Imaging and Microscopy Core Facility at Loma Linda University to perform both histochemical analyses and real-time imaging of cells and tissues. On the one hand, the system would be used to localize various proteins and cells using fluorescent labeling approaches, while on the other it would be used to examine the activity of living cells and tissues. These two imaging technologies are required as the NIH funded major and minor user group has diverse needs. Their research encompasses cardiovascular physiology, pregnancy, development, neurobiology, neuroendocrinology, cancer biology, radiation medicine, regenerative medicine, and health disparities, but all have common interests in measuring the spatial apposition between cells, changes in protein expression, localization of proteins within cells, and spatial and temporal sequences involved with cell signaling. The research record of the user group is excellent, representing some of the most successful investigators at the institution. The Zeiss LSM 900 confocal would support numerous NIH research grants and investigative programs across campus and training programs. The core facility has two shared-use confocal microscopes that are near or at their end of functional use. Acquisition of a Zeiss LSM 900 with a AiryScan 2 will solve this pressing issue and will enable funded researchers to continue their studies including cell signaling, in-situ hybridization, protein expression and localization, cell and tissue morphology, interactions between molecules and proteins, spatial reconstruction, spatial-temporal relationships, and subcellular transport. These questions require the ability to image single or multiple fluorescent probes in either fixed or live preparations. Based on the needs of the funded projects, a Zeiss LSM 900 confocal microscope is an ideal replacement instrument. The instrument has 2 high-sensitivity confocal channels for recording fluorescence; one for transmitted light (DIC) and has an Airyscan 2 unit for super-resolution imaging along with adaptive focusing capabilities and can perform mosaic tiling for multidimensional reconstruction. The Airyscan 2 will also allow for rapid confocal imaging for spatial and temporal recordings of cell signaling systems, which are key aspects to multiple awards. The Zeiss LSM 900 offers a fully integrated system available for the wide breadth of studies of the user group and will provide continuity with an existing multiphoton Zeiss 710 system. The institution recognizes the quality of the facility and user group and has strongly supported the facility for over a decade with full funding for staffing, supplies, and service contracts. The PI has considerable experience with confocal microscopy and will oversee the daily operation of the instrument and be part of a multidisciplinary internal advisory committee that oversees the core facility. The instrument will be housed in the existing AIM facility, providing continued contemporary instrumentation for this highly used shared-use imaging core.

研究摘要本拨款提案寻求为 Zeiss LSM 900 激光扫描共焦提供资金配备 Airyscan 2 的显微镜，供 NIH 资助的使用高级成像和显微镜核心的研究人员使用洛马琳达大学的设施可对细胞和细胞进行组织化学分析和实时成像组织。一方面，该系统将用于使用荧光定位各种蛋白质和细胞。标记方法，而另一方面它将用于检查活细胞和组织的活性。这两种成像技术是必需的，因为 NIH 资助的主要和次要用户群体具有不同的特征需要。他们的研究涵盖心血管生理学、妊娠、发育、神经生物学、神经内分泌学、癌症生物学、放射医学、再生医学和健康差异，但所有对测量细胞之间的空间排列、蛋白质表达的变化有共同的兴趣，细胞内蛋白质的定位，以及与细胞信号传导有关的空间和时间序列。这用户组的研究记录非常出色，代表了一些最成功的研究人员机构。 Zeiss LSM 900 共焦将支持众多 NIH 研究资助和调查整个校园的项目和培训项目。核心设施有两台共用的共焦显微镜接近或处于功能使用结束状态。购买带有 AiryScan 2 的 Zeiss LSM 900 将解决这个问题紧迫的问题将使受资助的研究人员能够继续他们的研究，包括细胞信号传导、原位杂交、蛋白质表达和定位、细胞和组织形态、分子间相互作用和蛋白质、空间重建、时空关系和亚细胞运输。这些问题需要能够对固定或活体制剂中的单个或多个荧光探针进行成像。基于根据资助项目的需要，Zeiss LSM 900 共焦显微镜是理想的替代仪器。仪器有2个高灵敏度共焦通道用于记录荧光；一种用于透射光 (DIC)，并具有用于超分辨率成像的 Airyscan 2 装置以及自适应对焦功能，并且可以执行马赛克平铺以进行多维重建。 Airyscan 2 还可以实现快速共焦用于细胞信号系统的空间和时间记录的成像，这是多个方面的关键方面奖项。 Zeiss LSM 900 提供了一个完全集成的系统，可用于广泛的研究用户组，并将提供与现有多光子蔡司 710 系统的连续性。该机构承认设施和用户群的质量，十多年来一直大力支持该设施为人员配备、用品和服务合同提供资金。 PI 在共聚焦方面拥有丰富的经验显微镜，将监督仪器的日常操作，并成为多学科内部的一部分监督核心设施的咨询委员会。该仪器将安装在现有的 AIM 设施中，为这个高度使用的共享成像核心提供持续的现代仪器。