| 학회 | 한국화학공학회 |
| 학술대회 | 2019년 봄 (04/24 ~ 04/26, 제주국제컨벤션센터) |
| 권호 | 25권 1호, p.330 |
| 발표분야 | 생물화공(Biochemical Engineering) |
| 제목 | Massively parallel biophysical analysis of a CRISPR-Cas complex on repurposed next generation sequencing chips |
| 초록 | Bacterial CRISPR-Cas systems recognize foreign DNA via complementary base pairing with an RNA-guided nucleoprotein complex. Although off-target DNA binding has been reported, a quantitative description of sequence-dependent DNA binding and nuclease activation remains elusive. Here, we describe a chip-hybridized affinity mapping platform (CHAMP) that repurposes modern next-generation sequencing chips to directly measure the interactions between proteins and ~107 unique DNA sequences. Using CHAMP, we interrogate DNA recognition by a Type I-E CRISPR/Cas (Cascade) complex and the Cas3 nuclease. These results show that Cascade is sensitive to an extended protospacer adjacent motif (PAM). Analysis of mutated target sequences reveals a surprising three-nucleotide periodicity in Cascade-DNA interactions. The identity of the PAM and the PAM-proximal nucleotides control Cas3 recruitment, providing an additional DNA-guided proofreading mechanism. These findings are used to develop a model for the biophysical constraints governing off-target DNA binding and provide a framework for high-throughput, quantitative analysis of protein-DNA interactions. |
| 저자 | 정철희 |
| 소속 | 고려대 |
| 키워드 | 생물화학공학 |
| VOD | VOD 보기 |
| 원문파일 | 초록 보기 |
