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

“…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)

“…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)

“…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)

“…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. …”

Increased data compression and variability with decreasing spot TD intensity by Xujing Wang (21247)

Su(H) and RBPJ AOS variants decrease DNA binding. by Ellen K. Gagliani (11478756)

Sudachitin decreases osteoclastogenesis induced by RANKL in cultures of osteoclast precursors. by Yoko Ohyama (4775400)

Aβ42 increases the level of tau in the cytosol and decreases the level of microtubule-bound tau. by Kanae Ando (1951501)

Poly (I:C) decreases HIV-1 replication in PBMCs. by Christiane Rollenhage (762318)

AICAR-activated AMPK decreased SREBP-2 protein levels. by Shudong Liu (733425)

Decreased natTregs observed in the lungs in the absence of TLR2. by Amanda McBride (421742)

Data_Sheet_5_Decreased default mode network functional connectivity with visual processing regions as potential biomarkers for delayed neurocognitive recovery: A resting-state fMRI study and machine-learning analysis.ZIP by Zhaoshun Jiang (7478243)

“…The algorithm performance was evaluated by a permutation test.</p>Results<p>We found significantly decreased DMN connectivity with the brain regions involved in visual processing in DNR patients than in non-DNR patients. …”

Mfsd2a KO mice have decreased liver TG with normal liver metabolism. by Justin H. Berger (297156)

The utility of Hmp for NO• consumption and tolerance decreases with increased NO• delivery rate. by Jonathan L. Robinson (409406)

53BP1 protein abundance decreases upon irradiation. by Yiheng Hu (648082)

The monoterpene 1,8-cineole decreased parasitemia levels in vitro. by Edgleyson C. dos Santos (12536575)

Decreasing bioavailable copper in vivo modulates tumor vessel dimensions. by Andrew Crowe (450839)

PGRN decreased Dectin-2 expression on the surface of macrophages and neutrophils. by Jiayu Liu (3951515)

Hepatic steatosis was dramatically decreased in CD44KO(HFD). by Hong Soon Kang (386679)

The rate of lariat formation is decreased two-fold by isoginkgetin treatment. by Jesse M. Gray (527662)

“…<p>(<b>A</b>) Genome-wide expression of 5′ splice sites, 3′ splice sites, and introns are increased relative to exons upon treatment of HeLa cells with isoginkgetin (30 µM, 18 hours), based on total RNA-Seq (dUTP method <a href="http://www.plosone.org/article/info:doi/10.1371/journal.pone.0089673#pone.0089673-Parkhomchuk1" target="_blank">[18]</a>, Illumina). …”