Patrick M McTernan
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Explore the profile of Patrick M McTernan including associated specialties, affiliations and a list of published articles.
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15
Citations
196
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Recent Articles
1.
Deville P, Dennis J, Warren O, Fontenot C, Messa G, Carter J, et al.
J Burn Care Res
. 2025 Jan;
PMID: 39820680
Adipose-derived stem cells (ADSCs) have an important role in the modulation of burned tissue repair through the release of paracrine factors that stimulate the wound healing response. In this study,...
2.
Siggins R, McTernan P, Simon L, Souza-Smith F, Molina P
Int J Mol Sci
. 2023 May;
24(10).
PMID: 37239997
Alcohol misuse, directly or indirectly as a result of its metabolism, negatively impacts most tissues, including four with critical roles in energy metabolism regulation: the liver, pancreas, adipose, and skeletal...
3.
McTernan P, Katz P, Porretta C, Welsh D, Siggins R
Biochem (Basel)
. 2022 Aug;
1(1):1-18.
PMID: 35937039
Intracellular reduction-oxidation (RedOx) status mediates a myriad of critical biological processes. Importantly, RedOx status regulates the differentiation of hematopoietic stem and progenitor cells (HSPCs), mesenchymal stromal cells (MSCs) and maturation...
4.
McTernan P, Siggins R, Catinis A, Amedee A, Simon L, Molina P
Biomolecules
. 2022 Jul;
12(7).
PMID: 35883501
Effective antiretroviral therapy (ART) has transitioned HIV to a chronic disease, with more than 50% of people living with HIV (PLWH) being over the age of 50. HIV targets activated...
5.
McTernan P, Levitt D, Welsh D, Simon L, Siggins R, Molina P
Front Immunol
. 2022 May;
13:839390.
PMID: 35634279
CD4 T cell differentiation to pro-inflammatory and immunosuppressive subsets depends on immunometabolism. Pro-inflammatory CD4 subsets rely on glycolysis, while immunosuppressive Treg cells require functional mitochondria for their differentiation and function....
6.
Wu C, McTernan P, Walter M, Adams M
Archaea
. 2015 Nov;
2015:912582.
PMID: 26543406
Hydrogen gas is a potential renewable alternative energy carrier that could be used in the future to help supplement humanity's growing energy needs. Unfortunately, current industrial methods for hydrogen production...
7.
Greene B, Wu C, McTernan P, Adams M, Dyer R
J Am Chem Soc
. 2015 Mar;
137(13):4558-66.
PMID: 25790178
The movement of protons and electrons is common to the synthesis of all chemical fuels such as H2. Hydrogenases, which catalyze the reversible reduction of protons, necessitate transport and reactivity...
8.
McTernan P, Chandrayan S, Wu C, Vaccaro B, Lancaster W, Adams M
Protein Eng Des Sel
. 2014 Dec;
28(1):1-8.
PMID: 25476267
The archaeon Pyrococcus furiosus grows optimally at 100°C by converting carbohydrates to acetate, carbon dioxide and hydrogen gas (H2), obtaining energy from a respiratory membrane-bound hydrogenase (MBH). This conserves energy...
9.
Chandrayan S, Wu C, McTernan P, Adams M
Protein Expr Purif
. 2014 Dec;
107:90-4.
PMID: 25462812
The cytoplasmic [NiFe]-hydrogenase I (SHI) of the hyperthermophile Pyrococcus furiosus evolves hydrogen gas (H2) from NADPH. It has been previously used for biohydrogen production from sugars using a mixture of...
10.
McTernan P, Chandrayan S, Wu C, Vaccaro B, Lancaster W, Yang Q, et al.
J Biol Chem
. 2014 May;
289(28):19364-72.
PMID: 24860091
The archaeon Pyrococcus furiosus grows optimally at 100 °C by converting carbohydrates to acetate, CO2, and H2, obtaining energy from a respiratory membrane-bound hydrogenase (MBH). This conserves energy by coupling...