Decreased Patrolling Efficiency and Decreased ConA Hepatitis Severity in CXCR6-Deficient Mice by Frederic Geissmann (75)

“…The density of GFP⁺ cells in <i>cxcr6^gfp/+</i> and <i>cxcr6^gfp/gfp</i> mice (middle panel) was calculated from the intravital videos used in <a href="http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.0030113#pbio-0030113-g003" target="_blank">Figure 3</a> and the flow cytometry data in <a href="http://www.plosbiology.org/article/info:doi/10.1371/journal.pbio.0030113#pbio-0030113-g002" target="_blank">Figure 2</a>. …”

Observed decreases in capacity. by Robert L. Burdett (17364685)

Number of species that we predict will not change U.S. Shorebird Conservation Plan Risk Categories due to climate change (0), and the number that will have increased risk of extinc... by Hector Galbraith (636637)

NF/MNC injection at early time points post-MI decreases infarct size. by Ming-Yao Chang (700415)

Kaplan-Meier analyses of ABI decrease > 0.1-free survival in patients with a baseline ABI ≥ 0.9. by Szu-Chia Chen (284541)

Developmental regulation of the decrease in adhesion. by Marco Tarantola (102609)

Isotonic Glycerol and Sodium Hyaluronate Containing Artificial Tear Decreases Conjunctivochalasis after One and Three Months: A Self-Controlled, Unmasked Study by Huba J. Kiss (769411)

Subjects:

Acute myocardial infarction changes bone marrow cell composition and decreases endothelial differentiation capability. by Ming-Yao Chang (700415)

Rdh10a deficient embryos have decreased RA signaling. by Enrico D’Aniello (798447)

MES transiently decreases mitochondrial membrane potential. by Shingo Matsuyama (672132)

Comparative analysis of the decrease of conjunctivochalasis in various studies. by Huba J. Kiss (769411)

Subjects:

Aged blood factors decrease cellular responses associated with delayed gingival wound repair by María Paz Saldías (4430032)

“…To do that, we evaluated cell proliferation of both epithelial and connective tissue cells in gingival wounds and found decreased of Ki67 nuclear staining in old rats when compared to their young counterparts. …”

The G357S mutation decreases both activation and termination thresholds for SOICR. by Yingjie Liu (317210)

Decreased cell stiffness after dissociation of intercellular adhesion. by Kristina Seiffert-Sinha (627059)

“…The corresponding cross section height measurements show a height decrease by slightly less than 100 nm (from ∼10 nm to −100 nm in the encircled area; lower panel); the arrow in the AFM images points to an intact intercellular connection before cutting (<b>E1</b>) and the disappearance thereof after cutting (<b>E2</b>). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Modulating Molecular Chaperones Improves Mitochondrial Bioenergetics and Decreases the Inflammatory Transcriptome in Diabetic Sensory Neurons by Jiacheng Ma (1530640)

“…We have previously demonstrated that modulating molecular chaperones with KU-32, a novobiocin derivative, ameliorates physiologic and bioenergetic deficits of diabetic peripheral neuropathy (DPN). …”

Image_10_Topoisomerase 2B Decrease Results in Diastolic Dysfunction via p53 and Akt: A Novel Pathway.TIF by Rohit Moudgil (540119)