AI-Guided Data-Scarce Engineering of RfxCas13d to Create a Cell Selection Tool

Aviv Spinner, Ayush Noori, Debora Susan Marks, George Church, Lisa Maria Riedmayr

ICLRW 2025

/iclrw/2025/spinner2025iclrw-aiguided/

Abstract

CRISPR has revolutionized genetic engineering by providing straightforward tools for many kinds of genetic alterations. CRISPR-Cas13 is a programmable endonuclease that specifically targets and cleaves RNA. After activation by target cis-RNA binding, Cas13 also exhibits non-specific collateral trans-activity against nearby RNAs. In several conditions, this leads to apoptosis. Here, we propose to harness the collateral activity of RfxCas13d for selective induction of apoptosis in heterogeneous cell populations. We design and perform machine-guided engineering of RfxCas13d to increase collateral activity, with applications in highly specific cancer therapeutics.

PDF ICLRW OpenReview Semantic Scholar

Cite

Text

Spinner et al. "AI-Guided Data-Scarce Engineering of RfxCas13d to Create a Cell Selection Tool." ICLR 2025 Workshops: GEM, 2025.

Markdown

[Spinner et al. "AI-Guided Data-Scarce Engineering of RfxCas13d to Create a Cell Selection Tool." ICLR 2025 Workshops: GEM, 2025.](https://mlanthology.org/iclrw/2025/spinner2025iclrw-aiguided/)

BibTeX

@inproceedings{spinner2025iclrw-aiguided,
  title     = {{AI-Guided Data-Scarce Engineering of RfxCas13d to Create a Cell Selection Tool}},
  author    = {Spinner, Aviv and Noori, Ayush and Marks, Debora Susan and Church, George and Riedmayr, Lisa Maria},
  booktitle = {ICLR 2025 Workshops: GEM},
  year      = {2025},
  url       = {https://mlanthology.org/iclrw/2025/spinner2025iclrw-aiguided/}
}