Long-term biological effects of air ions and D.C. electric fields on Namru mice: Second year report

E. W. Kellogg; M. G. Yost; E. J. Reed; S. H. Madin

doi:10.1007/bf02189658

Long-term biological effects of air ions and D.C. electric fields on Namru mice: First year report

International Journal of Biometeorology ◽

10.1007/bf02189657 ◽

1985 ◽

Vol 29 (3) ◽

pp. 253-268 ◽

Cited By ~ 9

Author(s):

E. W. Kellogg ◽

M. G. Yost ◽

E. J. Reed ◽

A. P. Krueger

Keyword(s):

Electric Fields ◽

Biological Effects ◽

First Year ◽

Air Ions

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Electric fields, small air ions and biological effects

International Journal of Biometeorology ◽

10.1007/bf01555399 ◽

1978 ◽

Vol 22 (3) ◽

pp. 202-212 ◽

Cited By ~ 14

Author(s):

A. P. Krueger ◽

A. E. Strubbe ◽

M. G. Yost ◽

E. J. Reed

Keyword(s):

Electric Fields ◽

Biological Effects ◽

Air Ions

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Long-term Effects of Triazol Growth Regulators on Stem Elongation of Rhododendron and Kalmia

HortScience ◽

10.21273/hortsci.32.3.436e ◽

1997 ◽

Vol 32 (3) ◽

pp. 436E-436

Author(s):

Martin P.N. Gent

Keyword(s):

Dose Response ◽

Growth Regulator ◽

Stem Elongation ◽

Spray Application ◽

Long Term Effects ◽

Potted Plants ◽

Response Coefficient ◽

Wide Range ◽

Second Year

The persistence of effects of paclobutrazol or uniconazol on stem elongation was determined for several years after large-leaf Rhododendron and Kalmia latifolia were treated with a single-spray application of these triazol growth-regulator chemicals. Potted plants were treated in the second year from propagation, and transplanted into the field in the following spring. The elongation of stems was measured in the year of application and in the following 2 to 4 years. Treatments with a wide range of doses were applied in 1991, 1992, or 1995. For all except the most-dilute applications, stem elongation was retarded in the year following application. At the highest doses, stem growth was inhibited 2 years following application. The results could be explained by a model of growth regulator action that assumed stem elongation was inversely related to amount of growth regulator applied. The dose response coefficient for paclobutrazol was less than that for uniconazol. The dose that inhibited stem elongation one-half as much as a saturating dose was about 0.5 and 0.05 mg/plant, for paclobutrazol and uniconazol, respectively. The dose response coefficient decreased exponentially with time after application, with an exponential time constant of about 2/year. The model predicted a dose of growth regulator that inhibited 0.9 of stem elongation immediately after application would continue to inhibit 0.5 of stem elongation in the following year.

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The mechanistic role of thymoquinone in Parkinson's disease: focus on neuroprotection in pre-clinical studies

Current Molecular Pharmacology ◽

10.2174/1874467214666210105140944 ◽

2021 ◽

Vol 14 ◽

Author(s):

Mohammad Najim Uddin ◽

Mohammad Injamul Hoq ◽

Israt Jahan ◽

Shafayet Ahmed Siddiqui ◽

Chayan Dhar Clinton ◽

...

Keyword(s):

Parkinson’S Disease ◽

Parkinson's Disease ◽

Clinical Studies ◽

Nigella Sativa ◽

Biological Effects ◽

Neuroprotective Activity ◽

Substantia Nigra Pars Compacta ◽

Movement Difficulties

: Thymoquinone (TQ) is one of the leading phytochemicals, which is abundantly found in Nigella sativa L. seeds. TQ exhibited various biological effects such as antioxidant, anti-inflammatory, antimicrobial, and anti-tumoral in several pre-clinical studies. Parkinson's disease (PD) is a long-term neurodegenerative disease with movement difficulties, and the common feature of neurodegeneration in PD patients is caused by dopaminergic neural damage in the substantia nigra pars compacta. The neuroprotective activity of TQ has been studied in various neurological disorders. TQ-mediated neuroprotection against PD yet to be reported in a single frame; therefore, this review is intended to narrate the potentiality of TQ in the therapy of PD. TQ has been shown to protect against neurotoxins via amelioration of neuroinflammation, oxidative stress, apoptosis, thereby protects neurodegeneration in PD models. TQ could be an emerging therapeutic intervention in PD management, but mechanistic studies have been remained to be investigated to clarify its neuroprotective role.

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Effects of Manganese Porphyrins on Cellular Sulfur Metabolism

Molecules ◽

10.3390/molecules25040980 ◽

2020 ◽

Vol 25 (4) ◽

pp. 980 ◽

Cited By ~ 3

Author(s):

Kenneth R. Olson ◽

Yan Gao ◽

Andrea K. Steiger ◽

Michael D. Pluth ◽

Charles R. Tessier ◽

...

Keyword(s):

Ascorbic Acid ◽

Biological Effects ◽

Sulfur Metabolism ◽

Hek293 Cells ◽

Redox Cycle ◽

Major Site ◽

Manganese Porphyrins ◽

Short And Long Term ◽

H2s Production

Manganese porphyrins (MnPs), MnTE-2-PyP5+, MnTnHex-2-PyP5+ and MnTnBuOE-2-PyP5+, are superoxide dismutase (SOD) mimetics and form a redox cycle between O2 and reductants, including ascorbic acid, ultimately producing hydrogen peroxide (H2O2). We previously found that MnPs oxidize hydrogen sulfide (H2S) to polysulfides (PS; H2Sn, n = 2–6) in buffer. Here, we examine the effects of MnPs for 24 h on H2S metabolism and PS production in HEK293, A549, HT29 and bone marrow derived stem cells (BMDSC) using H2S (AzMC, MeRho-AZ) and PS (SSP4) fluorophores. All MnPs decreased intracellular H2S production and increased intracellular PS. H2S metabolism and PS production were unaffected by cellular O2 (5% versus 21% O2), H2O2 or ascorbic acid. We observed with confocal microscopy that mitochondria are a major site of H2S production in HEK293 cells and that MnPs decrease mitochondrial H2S production and increase PS in what appeared to be nucleoli and cytosolic fibrillary elements. This supports a role for MnPs in the metabolism of H2S to PS, the latter serving as both short- and long-term antioxidants, and suggests that some of the biological effects of MnPs may be attributable to sulfur metabolism.

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Long-Term Water Quality and Biological Effects of Alum Treatment of Lake Morey, Vermont

Lake and Reservoir Management ◽

10.1080/07438149909354115 ◽

1999 ◽

Vol 15 (3) ◽

pp. 173-184 ◽

Cited By ~ 24

Author(s):

Eric Smeltzer ◽

Richard A. Kirn ◽

Steven Fiske

Keyword(s):

Water Quality ◽

Biological Effects ◽

Alum Treatment

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Use of TEOM monitors for continuous long-term sampling of ambient particles for analysis of constituents and biological effects

Air Quality Atmosphere & Health ◽

10.1007/s11869-018-0638-5 ◽

2018 ◽

Vol 12 (2) ◽

pp. 161-171 ◽

Cited By ~ 4

Author(s):

Ali Reza Nosratabadi ◽

Pål Graff ◽

Helen Karlsson ◽

Anders G. Ljungman ◽

Per Leanderson

Keyword(s):

Biological Effects ◽

Ambient Particles

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Corrigendum to “The biological effects of long-term exposure of human bronchial epithelial cells to total particulate matter from a candidate modified-risk tobacco product” published in Toxicology in Vitro, Volume 50, August 2018, Pages 95–108

Toxicology in Vitro ◽

10.1016/j.tiv.2019.01.011 ◽

2019 ◽

Vol 56 ◽

pp. 194-195

Author(s):

Marco van der Toorn ◽

Alain Sewer ◽

Diego Marescotti ◽

Stephanie Johne ◽

Karin Baumer ◽

...

Keyword(s):

Particulate Matter ◽

Epithelial Cells ◽

Biological Effects ◽

Tobacco Product ◽

Bronchial Epithelial Cells ◽

Human Bronchial Epithelial Cells ◽

Total Particulate Matter ◽

Bronchial Epithelial

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Investigation Systems to Study the Biological Effects of Weak Physiological Electric Fields

The Physiology of Bioelectricity in Development, Tissue Regeneration and Cancer ◽

10.1201/b10799-7 ◽

2016 ◽

pp. 31-52

Keyword(s):

Electric Fields ◽

Biological Effects

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Effects of Long-Term Hydrogen Intervention on Plasma Metabolites and Gut Microbiome of Rats in Health Status

10.21203/rs.3.rs-770433/v1 ◽

2021 ◽

Author(s):

Fei Xie ◽

Xue Jiang ◽

Yang Yi ◽

Zi-Jia Liu ◽

Chen Ma ◽

...

Keyword(s):

Health Status ◽

Gut Microbiota ◽

Biological Effects ◽

Enrichment Analysis ◽

The Body ◽

Plasma Metabolites ◽

Control Group ◽

Pathway Enrichment Analysis ◽

Rrna Gene

Abstract The potential for preventive and therapeutic applications of H2 have now been confirmed in various disease. However, the effects of H2 on health status have not been fully elucidated. Our previous study reported changes in the body weight and 13 serum biochemical parameters during the six-month hydrogen intervention. To obtain a more comprehensive understanding of the effects of long-term hydrogen consumption, the plasma metabolome and gut microbiota were investigated in this study. Compared with the control group, 14 and 10 differential metabolites (DMs) were identified in hydrogen-rich water (HRW) and hydrogen inhalation (HI) group, respectively. Pathway enrichment analysis showed that HRW intake mainly affected starch and sucrose metabolism, and DMs in HI group were mainly enriched in arginine biosynthesis. 16S rRNA gene sequencing showed that HRW intake induced significant changes in the structure of gut microbiota, while no marked bacterial community differences was observed in HI group. HRW intake mainly induced significant increase in the abundance of Lactobacillus, Ruminococcus, Clostridium XI, and decrease in Bacteroides. HI mainly induced decreased abundances of Blautia and Paraprevotella. The results of this study provide basic data for further research on hydrogen medicine. Determination of the effects of hydrogen intervention on microbiota profiles could also shed light on identification of mechanism underlying the biological effects of molecular hydrogen.

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