Transform CRISPR performance with instant, digitized cleavage activity insights.
Researchers are often left in the dark about their CRISPR experiment’s true efficiency. Accurately assessing on-target cleavage activity can be painfully slow and resource-intensive. Relying on post-experiment analysis makes it difficult to rapidly fine-tune your strategy and achieve optimal editing outcomes on a tight timeline.
Do you have additional workflow challenges you’d like to overcome? Learn more below.
Detect CRISPR-Cas cleavage activity in real-time with our highly-sensitive CRISPR Analytics Platform™. This label-free system directly translates cleavage activity into actionable data, bypassing the need for traditional amplification methods and providing immediate feedback. Researchers can now optimize CRISPR designs efficiently before investing in costly cell-based assays.
Discover how real-time cleavage activity insights empowered researchers to dramatically improve experimental outcomes. Our case study reveals how the CRISPR Analytics Platform™ helped one customer identify the most efficient Cas9 protein among multiple vendors, while enabling another to validate gRNA designs for transgenic mosquito development, accelerating critical research.
Maximize your CRISPR potential by leveraging analytics to:
Our cutting-edge CRISPR-Chip™ Biosensor combines the sensitivity of a graphene-based field-effect transistor with the specificity of CRISPR by immobilizing Cas proteins onto the graphene layer.
The sensitivity of graphene’s conductivity to biomolecular recognition on its surface endows the platform with the unique capacity to quantitatively assess binding interactions or cleavage reactions in real time. Together, these elements deliver actionable insights, empowering your CRISPR-Cas biochemistry investigations with unparalleled accuracy and efficiency.
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