Mesoporous Trap of Molecular Sieves via Water-Selective Capture for Stable Perovskite Quantum Dots | ACS Sustainable Chemistry & Engineering
How evolution shapes enzyme selectivity – lessons from aminoacyl‐tRNA synthetases and other amino acid utilizing enzymes - Tawfik - 2020 - The FEBS Journal - Wiley Online Library
Jeltsch (SPP1129) | Epigenetics - Research in Germany
Double-sieving-defective aminoacyl-tRNA synthetase causes protein mistranslation and affects cellular physiology and development | Nature Communications
Figure 5.5 from Revisiting the 'Double-Sieve Model' for editing mechanism in aaRSs | Semantic Scholar
Evidence for the double-sieve editing mechanism in protein synthesis. Steric exclusion of isoleucine by valyl-tRNA synthetases | Biochemistry
Fluoride removal from water by using micron zirconia/zeolite molecular sieve: Characterization and mechanism - ScienceDirect
Mechanism of chiral proofreading during translation of the genetic code | eLife
M-CSA Mechanism and Catalytic Site Atlas
Double-sieving-defective aminoacyl-tRNA synthetase causes protein mistranslation and affects cellular physiology and development | Nature Communications
Titanosilicate Epoxidation Catalysts: A Review of Challenges and Opportunities - Smeets - 2022 - ChemCatChem - Wiley Online Library
Structural Basis for Double-Sieve Discrimination of L-Valine from L-Isoleucine and L-Threonine by the Complex of tRNAVal and Valyl-tRNA Synthetase: Cell
Size-selective molecular recognition based on a confined DNA molecular sieve using cavity-tunable framework nucleic acids | Nature Communications
Severe oxidative stress induces protein mistranslation through impairment of an aminoacyl-tRNA synthetase editing site | PNAS
Structural Basis for Double-Sieve Discrimination of L-Valine from L-Isoleucine and L-Threonine by the Complex of tRNAVal and Valyl-tRNA Synthetase: Cell