Fig 5 - by Tiequan Niu (9927917)

Effect of 5-HT depletion via pCPA on incentive. by Yukiko Hori (299784)

Mean values for the five pricing models on emotions and use intention. by Regina Wittstock-Lang (14614988)

TNF-α inhibited A549 cell viability, increased paracellular permeability, HIF-1α expression and decreased VASP expression. by Mengjie Tang (602523)

Fig 5 - by Mestewat Simeon (19233200)

S5 Fig - by Cynthia Alsayyah (18452506)

“…**<i>P</i> < 0.05 (one-way analysis of variance (ANOVA)). More than 100 cells per sample were analyzed. Note the significant decrease in tubular mitochondria upon inactivation of <i>CTP1</i> in all conditions, including TEF-<i>OLE1</i>. …”

Cognitive mechanisms for inferring the meaning of novel signals during symbolisation - Fig 5 by Justin Sulik (4768296)

The radial water maze latency [s (mean ± SEM)] and number of errors (mean ± SEM) of proton irradiated and control rats on Day 1 and Day 2. by Michael T. Williams (357796)

Plot of mean simulated power with 95 percentile (2.5 & 97.5%) for select DNAm differences. by Jacquelyn Y. Taylor (6386456)

Differences in abundance of non-lipid molecules in liver of <i>Fmo5</i>^<i>-/-</i> and WT mice. by Ian R. Phillips (5074121)

“…Red dots are non-lipids that are significantly increased or decreased in <i>Fmo5</i>^<i>-/-</i> mice with a -log₁₀ <i>q</i> above 1.301 (<i>q</i> <0.05) (grey line). …”

ALS Variants of Annexin A11’s Proline-Rich Domain Impair Its S100A6-Mediated Fibril Dissolution by Aman Shihora (16529668)

“…These findings indicate a slower fibril-to-monomer exchange for these ALS variants, resulting in a decreased level of S100A6-mediated fibril dissolution. …”

25OHD₃ increases expression of TRPV5 in the kidneys of CYP27B1^-/- mice with CKD. by Noelia Torremadé (3687523)

A Yoga Strengthening Program Designed to Minimize the Knee Adduction Moment for Women with Knee Osteoarthritis: A Proof-Of-Principle Cohort Study by Elora C. Brenneman (795723)

“…A secondary objective was to determine whether the program could improve mobility and fitness, and decrease peak KAM during gait. …”

Exploration of the connected interface (S100A1/MDM2) section in MDM2. by Deepu Dowarha (5673440)

Subjects:

Parrotfish Teeth: Stiff Biominerals Whose Microstructure Makes Them Tough and Abrasion-Resistant To Bite Stony Corals by Matthew A. Marcus (115744)

“…To investigate how their teeth endure the associated contact stresses, we examine the chemical composition, nano- and microscale structure, and the mechanical properties of the steephead parrotfish <i>Chlorurus microrhinos</i> tooth. Its enameloid is a fluorapatite (Ca₅(PO₄)₃F) biomineral with outstanding mechanical characteristics: the mean elastic modulus is 124 GPa, and the mean hardness near the biting surface is 7.3 GPa, making this one of the stiffest and hardest biominerals measured; the mean indentation yield strength is above 6 GPa, and the mean fracture toughness is ∼2.5 MPa·m^1/2, relatively high for a highly mineralized material. …”

Parrotfish Teeth: Stiff Biominerals Whose Microstructure Makes Them Tough and Abrasion-Resistant To Bite Stony Corals by Matthew A. Marcus (115744)

“…To investigate how their teeth endure the associated contact stresses, we examine the chemical composition, nano- and microscale structure, and the mechanical properties of the steephead parrotfish <i>Chlorurus microrhinos</i> tooth. Its enameloid is a fluorapatite (Ca₅(PO₄)₃F) biomineral with outstanding mechanical characteristics: the mean elastic modulus is 124 GPa, and the mean hardness near the biting surface is 7.3 GPa, making this one of the stiffest and hardest biominerals measured; the mean indentation yield strength is above 6 GPa, and the mean fracture toughness is ∼2.5 MPa·m^1/2, relatively high for a highly mineralized material. …”

Parrotfish Teeth: Stiff Biominerals Whose Microstructure Makes Them Tough and Abrasion-Resistant To Bite Stony Corals by Matthew A. Marcus (115744)

“…To investigate how their teeth endure the associated contact stresses, we examine the chemical composition, nano- and microscale structure, and the mechanical properties of the steephead parrotfish <i>Chlorurus microrhinos</i> tooth. Its enameloid is a fluorapatite (Ca₅(PO₄)₃F) biomineral with outstanding mechanical characteristics: the mean elastic modulus is 124 GPa, and the mean hardness near the biting surface is 7.3 GPa, making this one of the stiffest and hardest biominerals measured; the mean indentation yield strength is above 6 GPa, and the mean fracture toughness is ∼2.5 MPa·m^1/2, relatively high for a highly mineralized material. …”

Parrotfish Teeth: Stiff Biominerals Whose Microstructure Makes Them Tough and Abrasion-Resistant To Bite Stony Corals by Matthew A. Marcus (115744)

“…To investigate how their teeth endure the associated contact stresses, we examine the chemical composition, nano- and microscale structure, and the mechanical properties of the steephead parrotfish <i>Chlorurus microrhinos</i> tooth. Its enameloid is a fluorapatite (Ca₅(PO₄)₃F) biomineral with outstanding mechanical characteristics: the mean elastic modulus is 124 GPa, and the mean hardness near the biting surface is 7.3 GPa, making this one of the stiffest and hardest biominerals measured; the mean indentation yield strength is above 6 GPa, and the mean fracture toughness is ∼2.5 MPa·m^1/2, relatively high for a highly mineralized material. …”

The phosphorylation of Mas receptor and its induced-effects in <i>hGRK4</i> <i>γ</i> WT and 142V transgenic mice. by Lin Chen (54305)

ALK^wt–ABT199 interactions. by Richard Junior Zapata Dongo (17912565)