https://www.selleckchem.com/products/ono-7300243.html coli O157H7 with a robust efficacy (95%) in 5 min and provides excellent linear detection (10-107 CFU/mL), with a detection limit of 2 CFU/mL. This study offered new insights into DNA-directed synthesis of nanomaterials with excellent biosensing and antibiotic applications.CRISPR-Cas12a (Cpf1) trans-cleaves ssDNA and this feature has been widely harnessed for nucleic acid detection. Herein, we introduce a new type of Cas12a reporter, G-triplex (G3), and a highly sensitive biosensor termed G-CRISPR. We proved that Cas12a trans-cleaves G3 structures in about 10 min and G3 can serve as an excellent reporter based on the cleavage-induced high-order structure disruption. G3 reporter improves the analytical sensitivity up to 20 folds, enabling the detection of unamplified and amplified DNA as low as 50 pmol and 0.1 amol (one copy/reaction), respectively. G-CRISPR has been utilized for the analysis of 27 PCR-amplified patient samples with HPV infection risk based on both fluorescence and lateral flow assays, resulting in 100% concordance between the two. In comparison with the clinical results, it achieved overall specificity and sensitivity of 100% and 94.7%, respectively. These results suggest that G-CRISPR can serve as a rapid, sensitive, and reliable biosensor, and could further expand the CRISPR toolbox in biomedical diagnostics.We present a new class of derivatives of noscapine, 1,3-diynyl-noscapinoids of an antitussive plant alkaloid, noscapine based on our in silico efforts that binds tubulin and displays anticancer activity against a panel of breast cancer cells. Structure-activity analyses pointed the C-9 position of the isoquinoline ring which was modified by coupling of 1,3-diynyl structural motifs to rationally design and screened a series of novel 1,3-diynyl-noscapinoids (20-22) with robust binding affinity with tubulin. The selected 1,3-diynyl-noscapinoids, 20-22 revealed improved predicted binding energy