Spectroscopic characterization of wild-type and p.R163C αB-crystallin: CD, FTIR and Raman analysis. by Aref Baharvand (21713886)

Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency-0 by Jonathan J. Carmouche (71816)

“…<p><b>Copyright information:</b></p><p>Taken from "Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency"</p><p>Environmental Health Perspectives 2005;113(6):749-755.…”

Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency-7 by Jonathan J. Carmouche (71816)

“…<p><b>Copyright information:</b></p><p>Taken from "Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency"</p><p>Environmental Health Perspectives 2005;113(6):749-755.…”

Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency-4 by Jonathan J. Carmouche (71816)

“…<p><b>Copyright information:</b></p><p>Taken from "Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency"</p><p>Environmental Health Perspectives 2005;113(6):749-755.…”

Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency-6 by Jonathan J. Carmouche (71816)

“…<p><b>Copyright information:</b></p><p>Taken from "Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency"</p><p>Environmental Health Perspectives 2005;113(6):749-755.…”

Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency-3 by Jonathan J. Carmouche (71816)

“…<p><b>Copyright information:</b></p><p>Taken from "Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency"</p><p>Environmental Health Perspectives 2005;113(6):749-755.…”

Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency-5 by Jonathan J. Carmouche (71816)

“…<p><b>Copyright information:</b></p><p>Taken from "Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency"</p><p>Environmental Health Perspectives 2005;113(6):749-755.…”

Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency-2 by Jonathan J. Carmouche (71816)

“…<p><b>Copyright information:</b></p><p>Taken from "Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency"</p><p>Environmental Health Perspectives 2005;113(6):749-755.…”

Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency-1 by Jonathan J. Carmouche (71816)

“…<p><b>Copyright information:</b></p><p>Taken from "Lead Exposure Inhibits Fracture Healing and Is Associated with Increased Chondrogenesis, Delay in Cartilage Mineralization, and a Decrease in Osteoprogenitor Frequency"</p><p>Environmental Health Perspectives 2005;113(6):749-755.…”

Maximal decrease in the weight of male mice during 3 weeks after infection with influenza. by Ekaterina A. Litvinova (366790)

Projected decrease in annual incident diabetes at 10% SSB consumption reduction in subgroups of California. by Tekeshe A. Mekonnen (456035)

Decrease in optical density of <i>gerP</i> mutants in L-alanine and inosine. by Katherine A. Carr (259428)

“…a<p>Spores were incubated in 0.5 mM L-alanine and 1 mM inosine. ∼65% decrease in OD₆₀₀ represents ∼100% germination. …”

S1 Data - by Stefan Partelow (8416011)

Magnification X2 of Fig 4A. by Huan W. Yang (19746645)

“…<i>intracellularis</i> infection. In this study, we investigated the nuclear factor-<b>κ</b>B (NF-κB)-regulated immune response against infection of a clinical strain Dkp23 and a live-attenuated Enterisol vaccine strain in PK-15 cells. …”

Design of a RSSCA system for agriculture. by Ngoc-Hai Vu (22290844)

“…<div><p>Agricultural land is increasingly under pressure from expanding solar energy infrastructure, leading to a growing conflict between food and energy production. …”

Table_1_What have we learned from a case of convalescent plasma treatment in a two-time kidney transplant recipient COVID-19 patient? A case report from the perspective of viral lo... by Fabian Aldunate (3935021)

“…In addition, we found evidence of an increase in antibody titers after transfusion, accompanied by a decrease in the levels of several cytokines responsible for cytokine storm.…”

Image_1_What have we learned from a case of convalescent plasma treatment in a two-time kidney transplant recipient COVID-19 patient? A case report from the perspective of viral lo... by Fabian Aldunate (3935021)

“…In addition, we found evidence of an increase in antibody titers after transfusion, accompanied by a decrease in the levels of several cytokines responsible for cytokine storm.…”

ERK activity of lung epithelial cysts in Fig 2A. by Hisako Takigawa-Imamura (3175320)

“…ERK activity exhibited an increase dependent on the curvature of the epithelial tissue, which gradually decreased with the progression of development. We then constructed a computational model that incorporates curvature-dependent growth to predict its impact on branch formation. …”

S100A4 inhibits cell proliferation by interfering with the S100A1-RAGE V domain - Fig 2 by Md. Imran Khan (4853302)

“…The cross peaks, which exhibited decreased intensity, are boxed in green. (B) Ribbon diagram showing the structure of S100A1—decreasing residues are labeled on the structure in green.…”

Model to explain how a decrease in hnRNP A1/A2 proteins reduces transcription elongation of P-TEFb-dependent genes but stimulates expression of P-TEFb-independent genes. by Bruno Lemieux (744770)

“…A reduction in the levels of nuclear hnRNP A1/A2 proteins (panel B) would prevent the efficient release of P-TEFb from 7SK, eliciting promoter-proximal pausing of RNA polymerase II on P-TEFb-dependent genes, and a decrease in their expression. …”