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- Chemistry (2)
- Bacteriophage (1)
- Biological Crystallography (1)
- Cell growth (1)
- Chemical grafting (1)
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- Chemistry, Cellular Science, Molecular Biology (1)
- Included guests (1)
- M13 thin films (1)
- Monothiol glutaredoxin family (1)
- Nanogrooves (1)
- Photoreactivity (1)
- Porous material (1)
- Reaction mechanisms (1)
- Semiclassical theories and applications (1)
- Specific chemical reactions (1)
- Yeast glutaredoxin 3 (Grx3) (1)
Articles 1 - 4 of 4
Full-Text Articles in Chemistry
Oriented Cell Growth On Self-Assembled Bacteriophage M13 Thin Films, Jianhua Rong, L. Andrew Lee, Kai Li, Brandon Harp, Charlene M. Mello, Zhongwei Niu, Qian Wang
Oriented Cell Growth On Self-Assembled Bacteriophage M13 Thin Films, Jianhua Rong, L. Andrew Lee, Kai Li, Brandon Harp, Charlene M. Mello, Zhongwei Niu, Qian Wang
Faculty Publications
Fibrillar M13 bacteriophages were used as basic building blocks to generate thin films with aligned nanogrooves, which, upon chemical grafting with RGD peptides, guide cell alignment and orient the cell outgrowth along defined directions.
Structure Of The Thioredoxin-Like Domain Of Yeast Glutaredoxin 3, Lydia M. Gibson, Nin N. Dingra, Caryn E. Outten, Lukasz Lebioda
Structure Of The Thioredoxin-Like Domain Of Yeast Glutaredoxin 3, Lydia M. Gibson, Nin N. Dingra, Caryn E. Outten, Lukasz Lebioda
Faculty Publications
Yeast glutaredoxin 3 (Grx3) is a cytosolic protein that regulates the activity of the iron-responsive transcriptional activator Aft1. This member of the monothiol glutaredoxin family contains a thioredoxin-like domain and a glutaredoxin-like domain, which both possess a monothiol active site. The crystal structure of the thioredoxin-like domain has been determined at 1.5 Å resolution and represents the first published structure of this domain for the monothiol glutaredoxin family. The loop containing the signature motif WAxxC is partially disordered, indicating a greater degree of flexibility in this region compared with classical dithiol thioredoxins with a WCGPC active-site motif.
Stable Long-Time Semiclassical Description Of Zero-Point Energy In High-Dimensional Molecular Systems, Sophya Garashchuk, Vitaly A. Rassolov
Stable Long-Time Semiclassical Description Of Zero-Point Energy In High-Dimensional Molecular Systems, Sophya Garashchuk, Vitaly A. Rassolov
Faculty Publications
Semiclassical implementation of the quantum trajectory formalism [J. Chem. Phys. 120, 1181 (2004)] is further developed to give a stable long-time description of zero-point energy in anharmonic systems of high dimensionality. The method is based on a numerically cheap linearized quantum force approach; stabilizing terms compensating for the linearization errors are added into the time-evolution equations for the classical and nonclassical components of the momentum operator. The wave function normalization and energy are rigorously conserved. Numerical tests are performed for model systems of up to 40 degrees of freedom.
Manipulating The Cavity Of A Porous Material Changes The Photoreactivity Of Included Guests, Mahender B. Dewal, Yuewen Xu, Jun Yang, Fiaz Mohammed, Mark D. Smith, Linda S. Shimizu
Manipulating The Cavity Of A Porous Material Changes The Photoreactivity Of Included Guests, Mahender B. Dewal, Yuewen Xu, Jun Yang, Fiaz Mohammed, Mark D. Smith, Linda S. Shimizu
Faculty Publications
Changing an ether to a ketone within the framework of a bis-urea macrocycle has little effect on the supramolecular assembly of this building block into porous crystals but introduces a triplet sensitizer into the framework that dramatically alters the photochemical reactions of included guests.