Casey M Platnich
Overview
Explore the profile of Casey M Platnich including associated specialties, affiliations and a list of published articles.
Author names and details appear as published. Due to indexing inconsistencies, multiple individuals may share a name, and a single author may have variations. MedLuna displays this data as publicly available, without modification or verification
Snapshot
Snapshot
Articles
10
Citations
66
Followers
0
Related Specialties
Related Specialties
Top 10 Co-Authors
Top 10 Co-Authors
Published In
Published In
Affiliations
Affiliations
Soon will be listed here.
Recent Articles
1.
Islas P, Platnich C, Gidi Y, Karimi R, Ginot L, Saliba D, et al.
Adv Mater
. 2024 Jul;
36(36):e2403477.
PMID: 39049795
DNA nanotechnology has revolutionized the ability to position matter at the nanoscale, but the preparation of DNA-based architectures remains laborious. To facilitate the formation of custom structures, a fully automated...
2.
Dore M, Rafique M, Yang T, Zorman M, Platnich C, Xu P, et al.
Nat Commun
. 2024 May;
15(1):4384.
PMID: 38782917
Biopolymers such as nucleic acids and proteins exhibit dynamic backbone folding, wherein site-specific intramolecular interactions determine overall structure. Proteins then hierarchically assemble into supramolecular polymers such as microtubules, that are...
3.
Platnich C, Earle M, Keyser U
J Am Chem Soc
. 2024 May;
146(19):12919-12924.
PMID: 38691627
RNA is a key biochemical marker, yet its chemical instability and complex secondary structure hamper its integration into DNA nanotechnology-based sensing platforms. Relying on the denaturation of the native RNA...
4.
Cox L, Bai C, Platnich C, Rizzuto F
Biomacromolecules
. 2024 Apr;
25(5):3163-3168.
PMID: 38651279
Studies have shown that poly(adenine) DNA and RNA strands protonate at a low pH to form self-associating duplexes; however, the nanoscopic morphology of these structures is unclear. Here, we use...
5.
Zheng F, Alawami M, Zhu J, Platnich C, Sha J, Keyser U, et al.
Nano Lett
. 2023 Nov;
23(23):11145-11151.
PMID: 38033205
Nanopore analysis relies on ensemble averaging of translocation signals obtained from numerous molecules, requiring a relatively high sample concentration and a long turnaround time from the sample to results. The...
6.
Doricchi A, Platnich C, Gimpel A, Horn F, Earle M, Lanzavecchia G, et al.
ACS Nano
. 2022 Oct;
16(11):17552-17571.
PMID: 36256971
With the total amount of worldwide data skyrocketing, the global data storage demand is predicted to grow to 1.75 × 10 GB by 2025. Traditional storage methods have difficulties keeping...
7.
Rizzuto F, Platnich C, Luo X, Shen Y, Dore M, Lachance-Brais C, et al.
Nat Chem
. 2021 Aug;
13(9):843-849.
PMID: 34373598
Biochemical networks interconnect, grow and evolve to express new properties as different chemical pathways are selected during a continuous cycle of energy consumption and transformation. In contrast, synthetic systems that...
8.
Platnich C, Rizzuto F, Cosa G, Sleiman H
Chem Soc Rev
. 2020 Jun;
49(13):4220-4233.
PMID: 32538403
Single molecules can now be visualised with unprecedented precision. As the resolution of single-molecule experiments improves, so too does the breadth, quantity and quality of information that can be extracted...
9.
Platnich C, Hariri A, Sleiman H, Cosa G
Acc Chem Res
. 2019 Nov;
52(11):3199-3210.
PMID: 31675207
DNA nanotechnology relies on the molecular recognition properties of DNA to produce complex architectures through self-assembly. The resulting DNA nanostructures allow scientists to organize functional materials at the nanoscale and...
10.
Platnich C, Hariri A, Rahbani J, Gordon J, Sleiman H, Cosa G
ACS Nano
. 2018 Nov;
12(12):12836-12846.
PMID: 30485067
Dynamic wireframe DNA structures have gained significant attention in recent years, with research aimed toward using these architectures for sensing and encapsulation applications. For these assemblies to reach their full...