@article{ART003060101},
author={SAFARKHANI MOEIN and Saeb Mohammad Reza and Lee Jeong-Hwan and HUH YUN SUK and Rabiee Navid},
title={Carbon-based nanomaterials for CRISPR/Cas delivery: a perspective on the design approach},
journal={Carbon Letters},
issn={1976-4251},
year={2024},
volume={34},
number={1},
pages={387-397},
doi={10.1007/s42823-023-00655-4}
TY - JOUR
AU - SAFARKHANI MOEIN
AU - Saeb Mohammad Reza
AU - Lee Jeong-Hwan
AU - HUH YUN SUK
AU - Rabiee Navid
TI - Carbon-based nanomaterials for CRISPR/Cas delivery: a perspective on the design approach
JO - Carbon Letters
PY - 2024
VL - 34
IS - 1
PB - Korean Carbon Society
SP - 387
EP - 397
SN - 1976-4251
AB - This perspective article delves into the evolving landscape of non-viral vectors for efficient CRISPR delivery, addressing the challenges associated with viral vectors and highlighting the potential of carbon-based nanomaterials as promising alternatives. The article underscores the importance of design strategies in enhancing the interactions between CRISPR components and carbon-based nanomaterials. Various design approaches are explored, including the incorporation of modified nanoparticles between carbonic layers and the creation of unique morphologies to facilitate optimal CRISPR interactions. Specific case studies are presented to exemplify the effectiveness of carbon-based nanomaterials in CRISPR delivery. This perspective sheds light on the dynamic field of non-viral CRISPR delivery vectors, emphasizing the significance of design strategies and showcasing the promising outcomes achieved through the utilization of carbon-based nanomaterials. The provided insights contribute to the ongoing efforts to develop efficient and safe methods for gene delivery and therapy.
KW - Carbon-based nanomaterials CRISPR Gene delivery Non-viral vector
DO - 10.1007/s42823-023-00655-4
ER -
SAFARKHANI MOEIN, Saeb Mohammad Reza, Lee Jeong-Hwan, HUH YUN SUK and Rabiee Navid. (2024). Carbon-based nanomaterials for CRISPR/Cas delivery: a perspective on the design approach. Carbon Letters, 34(1), 387-397.
SAFARKHANI MOEIN, Saeb Mohammad Reza, Lee Jeong-Hwan, HUH YUN SUK and Rabiee Navid. 2024, "Carbon-based nanomaterials for CRISPR/Cas delivery: a perspective on the design approach", Carbon Letters, vol.34, no.1 pp.387-397. Available from: doi:10.1007/s42823-023-00655-4
SAFARKHANI MOEIN, Saeb Mohammad Reza, Lee Jeong-Hwan, HUH YUN SUK, Rabiee Navid "Carbon-based nanomaterials for CRISPR/Cas delivery: a perspective on the design approach" Carbon Letters 34.1 pp.387-397 (2024) : 387.
SAFARKHANI MOEIN, Saeb Mohammad Reza, Lee Jeong-Hwan, HUH YUN SUK, Rabiee Navid. Carbon-based nanomaterials for CRISPR/Cas delivery: a perspective on the design approach. 2024; 34(1), 387-397. Available from: doi:10.1007/s42823-023-00655-4
SAFARKHANI MOEIN, Saeb Mohammad Reza, Lee Jeong-Hwan, HUH YUN SUK and Rabiee Navid. "Carbon-based nanomaterials for CRISPR/Cas delivery: a perspective on the design approach" Carbon Letters 34, no.1 (2024) : 387-397.doi: 10.1007/s42823-023-00655-4
SAFARKHANI MOEIN; Saeb Mohammad Reza; Lee Jeong-Hwan; HUH YUN SUK; Rabiee Navid. Carbon-based nanomaterials for CRISPR/Cas delivery: a perspective on the design approach. Carbon Letters, 34(1), 387-397. doi: 10.1007/s42823-023-00655-4
SAFARKHANI MOEIN; Saeb Mohammad Reza; Lee Jeong-Hwan; HUH YUN SUK; Rabiee Navid. Carbon-based nanomaterials for CRISPR/Cas delivery: a perspective on the design approach. Carbon Letters. 2024; 34(1) 387-397. doi: 10.1007/s42823-023-00655-4
SAFARKHANI MOEIN, Saeb Mohammad Reza, Lee Jeong-Hwan, HUH YUN SUK, Rabiee Navid. Carbon-based nanomaterials for CRISPR/Cas delivery: a perspective on the design approach. 2024; 34(1), 387-397. Available from: doi:10.1007/s42823-023-00655-4
SAFARKHANI MOEIN, Saeb Mohammad Reza, Lee Jeong-Hwan, HUH YUN SUK and Rabiee Navid. "Carbon-based nanomaterials for CRISPR/Cas delivery: a perspective on the design approach" Carbon Letters 34, no.1 (2024) : 387-397.doi: 10.1007/s42823-023-00655-4