助力空间生物学发展
可剪切荧光探针 (CFP™)
CFP这种独家的化学技术采用可切割的酪胺荧光基团,显著提高了检测灵敏度,确保了可靠的信号放大和检测循环。
简化操作流程
在多重靶标检测实验中,您可以使用已经经过您验证的抗体,无需对现有抗体进行修饰,并且专门为FFPE组织进行了优化。CFP技术可以让您在科研,转化,乃至临床研究中使用相同克隆的抗体。
轻松实现空间生物学自动化
Aligned with the CFP chemistry, we deliver an innovative high-throughput platform, offering researchers an end-to-end, true walk away solution for spatial biology.
源星技术
Spatomics以其专有的高效CFP试剂为科研学者提供独特的价值。这一创新系统在良好的保持组织样本完整性的前提下,生成全面的空间背景数据,详细揭示亚细胞结构水平上分子间的相互作用。
Spatomics’ initial uses involve leveraging advanced chemistry and a user-friendly platform to enable a few to 100+ protein targets in situ analysis, using off the shelf antibodies.
Spatomics的技术提供了研究复杂组织微环境所需的敏感性、拓展了抗体的选择性,并且提了升试剂的易用性。
Click on the markers to display
FFPE mouse brain stained with CFP assay
公司新闻
Spatomcis will exhibit AACR 2026 in San Diego
Spatomics will exhibit AACR 2026, and our team is excited to connect with the spatial biology community in San Diego. Please stop by our booth #531 to find out how
ZEISS Highlights Collaboration with Spatomics on Multiplex Immunofluorescence
Guilford, CT – October 2025 — We’re excited to share that ZEISS Microscopy has officially announced support for multiple multiplex immunofluorescence (mIF) chemistries — including the Spatomics CFP™ cleavable tyramide system
NIH and Spatomics Co-author Study in Cell Reports Medicine
Guilford, CT. – October 13, 2025. AbTCR T Cells Targeting GPC2 Show Potent Efficacy Against Low-Antigen Neuroblastoma. A recent study published in Cell Reports Medicine highlights a collaborative effort between
Our Partners
