Bhattacharya, S.

Cas12a (Cpf1) is a class 2 CRISPR-Cas effector protein with RNA-guided DNA endonuclease activity widely used for genome editing. While its DNA cleavage and target recognition mechanisms have been studied extensively, the possibility of auxiliary enzymatic functions remains underexplored. Here, I report that Acidaminococcus sp. Cas12a (AsCas12a) possesses intrinsic ATPase activity, despite lacking canonical nucleotide-binding or hydrolysis motifs. Using a radiometric thin-layer chromatography (TLC) assay, I demonstrate that AsCas12a hydrolyzes ATP in a concentration and time-dependent manner. Importantly, this activity occurs independently of DNA cofactors, as neither single-stranded nor double-stranded DNA influenced the rate or extent of ATP hydrolysis. Bioinformatic analyses using NsitePred and SwissDock identified potential ATP-binding residues with predicted favorable binding energies. This preliminary finding uncovers a previously unrecognized biochemical property of AsCas12a and raises questions regarding the physiological role of this ATPase activity in CRISPR function.