Cdk5 Deficiency Affects Early Steps of Neuronal Maturation and Alters Dendritic Structure by Sebastian Jessberger (269496)

Fig 5 - by Giulia Comunale (11570819)

Port-sourced PM₁₀ (μg/m³) attributable deaths/100,000 population at the 2017 Barcelona neighbourhood level. by Natalie Mueller (3406370)

Data processing and analysis steps. by Alexandra V. Kulinkina (5335058)

Effects of S100A6 on CayBP/SIP-mediated β –catenin degradation. by Xiaoxuan Ning (334218)

“…<p>(A) Co-immunoprecipitation assay showed that truncated mutant CacyBP/SIPΔS100 bind both Skp1 and Siah1, suggesting S100A6 did not affect the formation of Siah1-CacyBP/SIP-Skp1 unbiquitin ligase complex. …”

Reduced cellular glucose uptake in response to insulin and decreased expression of a mitochondrial ETC complex subunit in <i>ALAS1</i>-knockdown C2C12 myocytes. by Shinichi Saitoh (4794345)

Geometric mean anti-<i>Na</i>-GST-1 IgG subclass levels over time. by David J. Diemert (8135568)

Dose- and time-dependent effect of IL-13, IL-4, and TGF-β1 on benzamil-sensitive <i>I</i>_sc and TEER in HBECs. by Anusree Sasidharan (19226521)

Juvenile demyelination induces a loss of functional autapses. by Sara Hijazi (21656615)

“…<i>Lower panel</i>. Example trace showing a failure in autaptic response. Scale: 100 pA, 5 ms. …”

Average step length and frequency (± SEM) per 5% of the distance during normal and 3, 4, and 5 kg assisted 60 m sprints for men and women. by Roland van den Tillaar (6407390)

Mean survival proportions (to 28 d) for each incision metric score as rated by examiners at 7 d for all treatments combined. by April S. Cameron (8622711)

Deficiency of CRL4^CRBN promotes the destruction of BK channel α subunit. by Tianyu Song (4797417)

Metformin inhibits glutaminase activity in a dose dependent manner: from 17.5% at 10 mM up to 68% at 100 mM (A) (* p<0.05). by M. Mar Díaz-Herrero (646639)

Growth kinetics of the spheroids in the microfluidic device. by Sreerupa Sarkar (9628788)

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. …”

An example of three consecutive accretive growth steps. by Nol Chindapol (103374)

The T-type channel antagonist Ni²⁺ decreases adult turtle motoneuron excitability. by Martha Canto-Bustos (634777)