Outputs (153)

The influence of molecular Hydrogen therapies in managing the symptoms of acute and chronic COVID-19 (2022)
Journal Article
Russell, G., Thomas, A., Nenov, A., & Hancock, J. (2022). The influence of molecular Hydrogen therapies in managing the symptoms of acute and chronic COVID-19. Medical Research Archives, 10(9), https://doi.org/10.18103/mra.v10i9.3036

Coronavirus Infectious Disease 2019 (COVID-19) is caused by the Severe Acute Respiratory Syndrome Coronavirus-2 (SARS CoV-2) that emerged as a novel pathogen of global concern in the latter stages of 2019. COVID-19 is a highly contagio... Read More about The influence of molecular Hydrogen therapies in managing the symptoms of acute and chronic COVID-19.

The indirect impact of COVID-19 on the life of animals (2022)
Digital Artefact
Rana, M., Rouse, R., Craig, T. J., Macdonald, H., & Hancock, J. T. (2022). The indirect impact of COVID-19 on the life of animals. [website]

The COVID-19 pandemic is an ongoing major health crisis that is the result of the SARS-CoV-2 virus. The virus was first identified in Wuhan, China during December 2019; many patients were initially reported with pneumonia and later the cause was foun... Read More about The indirect impact of COVID-19 on the life of animals.

Chemical priming enhances plant tolerance to salt stress (2022)
Journal Article
Zulfiqar, F., Nafees, M., Chen, J., Darras, A., Ferrante, A., Hancock, J. T., …Siddique, K. H. (2022). Chemical priming enhances plant tolerance to salt stress. Frontiers in Plant Science, 13, 946922. https://doi.org/10.3389/fpls.2022.946922

Salt stress severely limits the productivity of crop plants worldwide and its detrimental effects are aggravated by climate change. Due to a significant world population growth, agriculture has expanded to marginal and salinized regions, which usuall... Read More about Chemical priming enhances plant tolerance to salt stress.

Phytochrome B enhances seed germination tolerance to high temperature by reducing S-nitrosylation of HFR1 (2022)
Journal Article
Ying, S., Yang, W., Li, P., Hu, Y., Lu, S., Zhou, Y., …Hu, X. (2022). Phytochrome B enhances seed germination tolerance to high temperature by reducing S-nitrosylation of HFR1. EMBO Reports, Article e54371. https://doi.org/10.15252/embr.202154371

Light and ambient high temperature (HT) have opposite effects on seed germination. Light induces seed germination through activating the photoreceptor phytochrome B (phyB), resulting in the stabilization of the transcription factor HFR1, which in tur... Read More about Phytochrome B enhances seed germination tolerance to high temperature by reducing S-nitrosylation of HFR1.

Editorial for special issue: “Production and role of molecular hydrogen in plants” (2022)
Journal Article
Hancock, J. T. (2022). Editorial for special issue: “Production and role of molecular hydrogen in plants”. Plants, 11(15), e2047. https://doi.org/10.3390/plants11152047

There seems little doubt that hydrogen gas (molecular hydrogen: H2) has significant effects on biological systems, including on plants. H2 can be administered as a gas, but more commonly is applied to plants as a solution which has been bubbled with... Read More about Editorial for special issue: “Production and role of molecular hydrogen in plants”.

Do SNPs in glutathione S-transferase-omega allow predictions of the susceptibility of vertebrates to SARS-CoV-2? (2022)
Journal Article
Hancock, J. T., Veal, D., Craig, T. J., & Rouse, R. C. (2022). Do SNPs in glutathione S-transferase-omega allow predictions of the susceptibility of vertebrates to SARS-CoV-2?. Reactive Oxygen Species, 12, c14–c29. https://doi.org/10.20455/ros.2022.c805

Infection with the SARS-Cov-2 virus causes COVID-19 in humans, and is the cause of the pandemic around the world in 2020 and on. However, some animals have been found to be susceptible to the virus too. This has included the non-human primates, dogs,... Read More about Do SNPs in glutathione S-transferase-omega allow predictions of the susceptibility of vertebrates to SARS-CoV-2?.

A brief history of Oxygen: 250 years on (2022)
Journal Article
Hancock, J. (2022). A brief history of Oxygen: 250 years on. Oxygen, 2(1), 31-39. https://doi.org/10.3390/oxygen2010004

Although there has been some controversy surrounding exactly when oxygen was first discov-ered, it is likely that that accolade should go to Carl Wilhelm Scheele, who isolated oxygen in 1772, or even a year earlier. Others since then have been given... Read More about A brief history of Oxygen: 250 years on.

Nitric oxide-releasing nanomaterials: From basic research to potential biotechnological applications in agriculture (2022)
Journal Article
Seabra, A. B., Silveira, N. M., Ribeiro, R. V., Pieretti, J. C., Barroso, J. B., Corpas, F. J., …Oliveira, H. C. (2022). Nitric oxide-releasing nanomaterials: From basic research to potential biotechnological applications in agriculture. New Phytologist, 234(4), 1119-1125. https://doi.org/10.1111/nph.18073

Nitric oxide (NO) is a multifunctional gaseous signal that modulates the growth, development and stress tolerance of higher plants. NO donors have been used to boost plant endogenous NO levels and to activate NO-related responses, but this strategy i... Read More about Nitric oxide-releasing nanomaterials: From basic research to potential biotechnological applications in agriculture.

Molecular hydrogen as medicine: An assessment of administration methods (2021)
Journal Article
Russell, G., Nenov, A., Kisher, H., & Hancock, J. T. (2021). Molecular hydrogen as medicine: An assessment of administration methods. Hydrogen, 2(4), 444-460. https://doi.org/10.3390/hydrogen2040025

Since the late 18th century, molecular hydrogen (H2) has been shown to be well tolerated, firstly in animals, and then in humans. However, although research into the beneficial effects of molecular hydrogen in both plant and mammalian physiology is g... Read More about Molecular hydrogen as medicine: An assessment of administration methods.

Molecular hydrogen: Is this a viable new treatment for plants in the UK? (2021)
Journal Article
Hancock, J. T., LeBaron, T. W., May, J., Thomas, A., & Russell, G. (2021). Molecular hydrogen: Is this a viable new treatment for plants in the UK?. Plants, 10(11), Article 2270

Despite being trialed in other regions of the world, the use of molecular hydrogen (H2) for enhanced plant growth and postharvest storage of crops has yet to be widely accepted in the UK. The evidence continues to grow that treatment of plants and pl... Read More about Molecular hydrogen: Is this a viable new treatment for plants in the UK?.