Comparison of the results of the three settings of the BeWith schema on real and randomized UCEC data. by Phuong Dao (2227129)

LTP modulates steady-state inactivation of A-type K⁺ currents. by Sung-Cherl Jung (261358)

“…Scale bars, 200 pA, 50 ms. The A-current available for activation at −60 mV was significantly decreased only in the neurons receiving paired stimulation 10 min after conditioning stimulation (a red arrow). …”

The coefficients of the stiffness model according to condition levels of anchor points and a trend line of the coefficients. by Jihun Kim (10091)

Expression of proteins associated with AD is altered by eIF4A inhibition. by Andrew Bottley (361376)

“…Significant differences (p≤0.05 by t-test) are indicated by asterisks. <b>C</b>. Secreted A-beta levels in the medium of 9×10⁵ SH-SY5Y cells were assayed by ELISA 24 hours following treatment with 10 µM hippuristanol (+), demonstrating a modest but reproducible decrease in comparison to control cells (−). …”

Time of thrombin in free and bound states within AA, AP, and wild-type junctions. by Michael A. Kelley (13804062)

Blockade of PKCγ and PKC/Mζ with isozyme-specific pseudosubstrate inhibitors abolishes prenatal cocaine exposure induced increase and decrease in synaptic membrane associated GRASP... by Kalindi Bakshi (343243)

Trust levels before and after the COVID-19 pandemic (n = 10,000). by Alain Abi-Rizk (8549358)

Data_Sheet_1_Multidimensional Approach for Investigating the Effects of an Antibiotic–Probiotic Combination on the Equine Hindgut Ecosystem and Microbial Fibrolysis.pdf by Axelle Collinet (10432082)

Amino acids eigenvector centrality values mapped on the protein structure of the following Spike variants: a) Omicron₁; b) Wild Type; c) Delta. by Ugo Lomoio (16624608)

Polymorphism in Cu₂ZnSnS₄ and New Off-Stoichiometric Crystal Structure Types by Christopher J. Bosson (4589107)

“…In both cases, the defects probably do not form a single complex due to their large number. Above the order–disorder phase transition the two CZTS phases generally converge to a single phase. …”

Polymorphism in Cu₂ZnSnS₄ and New Off-Stoichiometric Crystal Structure Types by Christopher J. Bosson (4589107)

“…In both cases, the defects probably do not form a single complex due to their large number. Above the order–disorder phase transition the two CZTS phases generally converge to a single phase. …”

Polymorphism in Cu₂ZnSnS₄ and New Off-Stoichiometric Crystal Structure Types by Christopher J. Bosson (4589107)

“…In both cases, the defects probably do not form a single complex due to their large number. Above the order–disorder phase transition the two CZTS phases generally converge to a single phase. …”

Polymorphism in Cu₂ZnSnS₄ and New Off-Stoichiometric Crystal Structure Types by Christopher J. Bosson (4589107)

“…In both cases, the defects probably do not form a single complex due to their large number. Above the order–disorder phase transition the two CZTS phases generally converge to a single phase. …”

Polymorphism in Cu₂ZnSnS₄ and New Off-Stoichiometric Crystal Structure Types by Christopher J. Bosson (4589107)

“…In both cases, the defects probably do not form a single complex due to their large number. Above the order–disorder phase transition the two CZTS phases generally converge to a single phase. …”

Polymorphism in Cu₂ZnSnS₄ and New Off-Stoichiometric Crystal Structure Types by Christopher J. Bosson (4589107)

“…In both cases, the defects probably do not form a single complex due to their large number. Above the order–disorder phase transition the two CZTS phases generally converge to a single phase. …”

Polymorphism in Cu₂ZnSnS₄ and New Off-Stoichiometric Crystal Structure Types by Christopher J. Bosson (4589107)

“…In both cases, the defects probably do not form a single complex due to their large number. Above the order–disorder phase transition the two CZTS phases generally converge to a single phase. …”

Polymorphism in Cu₂ZnSnS₄ and New Off-Stoichiometric Crystal Structure Types by Christopher J. Bosson (4589107)

“…In both cases, the defects probably do not form a single complex due to their large number. Above the order–disorder phase transition the two CZTS phases generally converge to a single phase. …”

Polymorphism in Cu₂ZnSnS₄ and New Off-Stoichiometric Crystal Structure Types by Christopher J. Bosson (4589107)

“…In both cases, the defects probably do not form a single complex due to their large number. Above the order–disorder phase transition the two CZTS phases generally converge to a single phase. …”

Polymorphism in Cu₂ZnSnS₄ and New Off-Stoichiometric Crystal Structure Types by Christopher J. Bosson (4589107)

“…In both cases, the defects probably do not form a single complex due to their large number. Above the order–disorder phase transition the two CZTS phases generally converge to a single phase. …”

Polymorphism in Cu₂ZnSnS₄ and New Off-Stoichiometric Crystal Structure Types by Christopher J. Bosson (4589107)

“…In both cases, the defects probably do not form a single complex due to their large number. Above the order–disorder phase transition the two CZTS phases generally converge to a single phase. …”