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Difference between revisions of "Recent O2k-Publications"

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{{#ask:[[Category:Publications]] [[Instrument and method::Oxygraph-2k]] [[Additional label::2022-10]] OR [[Additional label::2022-11]]
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Revision as of 12:27, 2 November 2022

                



Recent O2k-Publications

Mitochondria and Cell Research - the Oroboros Ecosystem
 YearReference
Quast 2022 Basic Res Cardiol2022Quast C, Kober F, Becker K, Zweck E, Hoffe J, Jacoby C, Flocke V, Gyamfi-Poku I, Keyser F, Piayda K, Erkens R, Niepmann S, Adam M, Baldus S, Zimmer S, Nickenig G, Grandoch M, Bönner F, Kelm M, Flögel U (2022) Multiparametric MRI identifies subtle adaptations for demarcation of disease transition in murine aortic valve stenosis. https://doi.org/10.1007/s00395-022-00936-5
Kluckova 2022 Hemasphere2022Kluckova K, Clear AJ, D'Avola A, Rassenti LZ, Kipps TJ, Gribben JG, Riches JC (2022) B-cell receptor signaling induced metabolic alterations in chronic lymphocytic leukemia can be partially bypassed by TP53 abnormalities. https://doi.org/10.1097/hs9.0000000000000722
Felix 2022 Chemosphere2022FĂ©lix L, Carreira P, Peixoto F (2022) Effects of chronic exposure of naturally weathered microplastics on oxidative stress level, behaviour, and mitochondrial function of adult zebrafish (Danio rerio). https://doi.org/10.1016/j.chemosphere.2022.136895
Soares 2022 Geroscience2022Soares RN, Ramirez-Perez FI, Cabral-Amador FJ, Morales-Quinones M, Foote CA, Ghiarone T, Sharma N, Power G, Smith JA, Rector RS, Martinez-Lemus LA, Padilla J, Manrique-Acevedo C (2022) SGLT2 inhibition attenuates arterial dysfunction and decreases vascular F-actin content and expression of proteins associated with oxidative stress in aged mice. https://doi.org/10.1007/s11357-022-00563-x
Wang 2022 Redox Biol2022Wang P, Cui Y, Liu Y, Li Z, Bai H, Zhao Y, Chang YZ (2022) Mitochondrial ferritin alleviates apoptosis by enhancing mitochondrial bioenergetics and stimulating glucose metabolism in cerebral ischemia reperfusion. https://doi.org/10.1016/j.redox.2022.102475
Mihajlovic 2022 Int J Mol Sci2022Mihajlovic M, Vinken M (2022) Mitochondria as the target of hepatotoxicity and drug-induced liver injury: molecular mechanisms and detection methods. https://doi.org/10.3390/ijms23063315
Brun 2022 Plant Direct2022Brun A, Smokvarska M, Wei L, Chay S, Curie C, Mari S (2022) MCO1 and MCO3, two putative ascorbate oxidases with ferroxidase activity, new candidates for the regulation of apoplastic iron excess in Arabidopsis. https://doi.org/10.1002/pld3.463
Garcia-Roche 2022 J Dairy Sci2022García-Roche M, Talmón D, Cañibe G, Astessiano AL, Mendoza A, Quijano C, Cassina A, Carriquiry M (2022) Differential hepatic mitochondrial function and gluconeogenic gene expression in 2 Holstein strains in a pasture-based system. https://doi.org/10.3168/jds.2021-21358
Xu 2022 Sci Adv2022Xu H, Ahn B, Van Remmen H (2022) Impact of aging and oxidative stress on specific components of excitation contraction coupling in regulating force generation. https://doi.org/10.1126/sciadv.add7377
Salyers 2022 JVS Vasc Sci2022Salyers ZR, Mariani V, Balestrieri N, Kumar RA, Vugman NA, Thome T, Villani KR, Berceli SA, Scali ST, Vasilakos G, Ryan TE (2022) S100A8 and S100A9 are elevated in chronically threatened ischemic limb muscle and induce ischemic mitochondrial pathology in mice. https://doi.org/10.1016/j.jvssci.2022.03.003
Neupane 2022 Commun Biol2022Neupane N, Rajendran J, Kvist J, Harjuhaahto S, Hu B, Kinnunen V, Yang Y, Nieminen AI, Tyynismaa H (2022) Inter-organellar and systemic responses to impaired mitochondrial matrix protein import in skeletal muscle. https://doi.org/10.1038/s42003-022-04034-z
Copperi 2022 Commun Biol2022Copperi F, Schleis I, Roumain M, Muccioli GG, Casola S, Klingenspor M, Pfeifer A, Gnad T (2022) EBI2 is a negative modulator of brown adipose tissue energy expenditure in mice and human brown adipocytes. https://doi.org/10.1038/s42003-022-03201-6
Munro 2022 Mitochondrion2022Munro D, RodrĂ­guez E, Blier PU (2022) The longest-lived metazoan, Arctica islandica, exhibits high mitochondrial H2O2 removal capacities. https://doi.org/10.1016/j.mito.2022.11.005
Sarabhai 2022 Diabetologia2022Sarabhai T, Mastrototaro L, Kahl S, Bönhof GJ, Jonuscheit M, Bobrov P, Katsuyama H, Guthoff R, Wolkersdorfer M, Herder C, Meuth SG, Dreyer S, Roden M (2022) Hyperbaric oxygen rapidly improves tissue-specific insulin sensitivity and mitochondrial capacity in humans with type 2 diabetes: a randomised placebo-controlled crossover trial. https://doi.org/10.1007/s00125-022-05797-0
Tremmel 2022 Sci Rep2022Tremmel DM, Sackett SD, Feeney AK, Mitchell SA, Schaid MD, Polyak E, Chlebeck PJ, Gupta S, Kimple ME, Fernandez LA, Odorico JS (2022) A human pancreatic ECM hydrogel optimized for 3-D modeling of the islet microenvironment. https://doi.org/10.1038/s41598-022-11085-z
Cho 2022 BMC Med2022Cho J, Johnson BD, Watt KD, Niven AS, Yeo D, Kim CH (2022) Exercise training attenuates pulmonary inflammation and mitochondrial dysfunction in a mouse model of high-fat high-carbohydrate-induced NAFLD. https://doi.org/10.1186/s12916-022-02629-1
Bina 2022 Mol Cell Biochem2022BĂźnă AM, Aburel OM, Avram VF, Lelcu T, Lința AV, Chiriac DV, Mocanu AG, Bernad E, Borza C, Craina ML, Popa ZL, Muntean DM, Crețu OM (2022) Impairment of mitochondrial respiration in platelets and placentas: a pilot study in preeclamptic pregnancies. https://doi.org/10.1007/s11010-022-04415-2
Risiglione 2022 Life (Basel)2022Risiglione P, Cubisino SAM, Lipari CLR, De Pinto V, Messina A, MagrÏ A (2022) α-Synuclein A53T promotes mitochondrial proton gradient dissipation and depletion of the organelle respiratory reserve in a neuroblastoma cell line. https://doi.org/10.3390/life12060894
Pedersen 2022 Nat Commun2022Pedersen JS, Rygg MO, ChrĂžis K, Sustarsic EG, Gerhart-Hines Z, Wever Albrechtsen NJ, Serizawa RR, Kristiansen VB, Basse AL, Boilesen AEB, Olsen BH, Hansen T, Gluud LL, Madsbad S, Larsen S, Bendtsen F, Dela F (2022) Influence of NAFLD and bariatric surgery on hepatic and adipose tissue mitochondrial biogenesis and respiration. https://doi.org/10.1038/s41467-022-30629-5
Spagnuolo 2022 Mol Neurobiol2022Spagnuolo MS, Mazzoli A, Nazzaro M, Troise AD, Gatto C, Tonini C, Colardo M, Segatto M, Scaloni A, Pallottini V, Iossa S, Cigliano L (2022) Long-lasting Impact of sugar intake on neurotrophins and neurotransmitters from adolescence to young adulthood in rat frontal cortex. https://doi.org/10.1007/s12035-022-03115-8
Vizuete 2022 J Neuroinflammation2022Vizuete AFK, Fróes F, Seady M, Zanotto C, Bobermin LD, Roginski AC, Wajner M, Quincozes-Santos A, Gonçalves CA (2022) Early effects of LPS-induced neuroinflammation on the rat hippocampal glycolytic pathway. https://doi.org/10.1186/s12974-022-02612-w
Petry 2022 Antioxidants (Basel)2022Petry SF, Römer A, Rawat D, Brunner L, Lerch N, Zhou M, Grewal R, Sharifpanah F, Sauer H, Eckert GP, Linn T (2022) Loss and recovery of glutaredoxin 5 is inducible by diet in a murine model of diabesity and mediated by free fatty acids in vitro. https://doi.org/10.3390/antiox11040788
Sleda 2022 mBio2022Sleda MA, Li ZH, Behera R, Baierna B, Li C, Jumpathong J, Malwal SR, Kawamukai M, Oldfield E, Moreno SNJ (2022) The heptaprenyl diphosphate synthase (Coq1) is the target of a lipophilic bisphosphonate that protects mice against toxoplasma gondii infection. https://doi.org/10.1128/mbio.01966-22
Penniman 2022 J Cachexia Sarcopenia Muscle2022Penniman CM, Bhardwaj G, Nowers CJ, Brown CU, Junck TL, Boyer CK, Jena J, Fuqua JD, Lira VA, O'Neill BT (2022) Loss of FoxOs in muscle increases strength and mitochondrial function during aging. https://doi.org/10.1002/jcsm.13124
Dias 2022 Free Radic Biol Med2022Dias C, Lourenço CF, Laranjinha J, Ledo A (2022) Modulation of oxidative neurometabolism in ischemia/reperfusion by nitrite. https://doi.org/10.1016/j.freeradbiomed.2022.11.021
Weiss 2022 J Cell Mol Med2022Weiss SL, Zhang D, Farooqi S, Wallace DC (2022) Sodium butyrate reverses lipopolysaccharide-induced mitochondrial dysfunction in lymphoblasts. https://doi.org/10.1111/jcmm.17342
Op den Kamp 2022 Mol Metab2022Op den Kamp YJM, Gemmink A, de Ligt M, Dautzenberg B, Kornips E, Jorgensen JA, Schaart G, Esterline R, Pava DA, Hoeks J, Schrauwen-Hinderling VB, Kersten S, Havekes B, Koves TR, Muoio DM, Hesselink MKC, Oscarsson J, Phielix E, Schrauwen P (2022) Effects of SGLT2 inhibitor dapagliflozin in patients with type 2 diabetes on skeletal muscle cellular metabolism. https://doi.org/10.1016/j.molmet.2022.101620
Gentile 2022 FASEB J2022Gentile A, Magnacca N, de Matteis R, Moreno M, Cioffi F, Giacco A, Lanni A, de Lange P, Senese R, Goglia F, Silvestri E, Lombardi A (2022) Ablation of uncoupling protein 3 affects interrelated factors leading to lipolysis and insulin resistance in visceral white adipose tissue. https://doi.org/10.1096/fj.202101816rr
Fernandez-Vizarra 2022 Cell Metab2022Fernåndez-Vizarra E, López-Calcerrada S, Sierra-Magro A, Pérez-Pérez R, Formosa LE, Hock DH, Illescas M, Peñas A, Brischigliaro M, Ding S, Fearnley IM, Tzoulis C, Pitceathly RDS, Arenas J, Martín MA, Stroud DA, Zeviani M, Ryan MT, Ugalde C (2022) Two independent respiratory chains adapt OXPHOS performance to glycolytic switch. https://doi.org/10.1016/j.cmet.2022.09.005
Dobrowolski 2022 Mol Genet Metab2022Dobrowolski SF, Phua YL, Sudano C, Spridik K, Zinn PO, Wang Y, Bharathi S, Vockley J, Goetzman E (2022) Comparative metabolomics in the Pahenu2 classical PKU mouse identifies cerebral energy pathway disruption and oxidative stress. https://doi.org/10.1016/j.ymgme.2022.03.004
Kataura 2022 Dev Cell2022Kataura T, Sedlackova L, Otten EG, Kumari R, Shapira D, Scialo F, Stefanatos R, Ishikawa KI, Kelly G, Seranova E, Sun C, Maetzel D, Kenneth N, Trushin S, Zhang T, Trushina E, Bascom CC, Tasseff R, Isfort RJ, Oblong JE, Miwa S, Lazarou M, Jaenisch R, Imoto M, Saiki S, Papamichos-Chronakis M, Manjithaya R, Maddocks ODK, Sanz A, Sarkar S, Korolchuk VI (2022) Autophagy promotes cell survival by maintaining NAD levels. https://doi.org/10.1016/j.devcel.2022.10.008
Tang 2022 Sci China Life Sci2022Tang G, Ma C, Li L, Zhang S, Li F, Wu J, Yin Y, Zhu Q, Liang Y, Wang R, Huang H, Zhao TJ, Yang H, Li P, Chen FJ (2022) PITPNC1 promotes the thermogenesis of brown adipose tissue under acute cold exposure. https://doi.org/10.1007/s11427-022-2157-y
Alexander 2022 Cardiovasc Drugs Ther2022Alexander ED, Aldridge JL, Burleson TS, Frasier CR (2022) Teriflunomide treatment exacerbates cardiac ischemia reperfusion injury in isolated rat hearts. https://doi.org/10.1007/s10557-022-07341-z
Delfinis 2022 JCI Insight2022Delfinis LJ, Bellissimo CA, Gandhi S, DiBenedetto SN, Garibotti MC, Thuhan AK, Tsitkanou S, Rosa-Caldwell ME, Rahman FA, Cheng AJ, Wiggs MP, Schlattner U, Quadrilatero J, Greene NP, Perry CG (2022) Muscle weakness precedes atrophy during cancer cachexia and is linked to muscle-specific mitochondrial stress. https://doi.org/10.1172/jci.insight.155147
Vacurova 2022 Nat Commun2022Vacurova E, Trnovska J, Svoboda P, Skop V, Novosadova V, Reguera DP, PetrezselyovĂĄ S, Piavaux B, Endaya B, Spoutil F, Zudova D, Stursa J, Melcova M, Bielcikova Z, Werner L, Prochazka J, Sedlacek R, Huttl M, Hubackova SS, Haluzik M, Neuzil J (2022) Mitochondrially targeted tamoxifen alleviates markers of obesity and type 2 diabetes mellitus in mice. https://doi.org/10.1038/s41467-022-29486-z
Roy 2022 Am J Pathol2022Roy N, Alencastro F, Roseman BA, Wilson SR, Delgado ER, May MC, Bhushan B, Bello FM, Jurczak MJ, Shiva S, Locker J, Gingras S, Duncan AW (2022) Dysregulation of lipid and glucose homeostasis in hepatocyte-specific SLC25A34 knockout mice. https://doi.org/10.1016/j.ajpath.2022.06.002
Graham 2022 Physiol Rep2022Graham ZA, DeBerry JJ, Cardozo CP, Bamman MM (2022) SS-31 does not prevent or reduce muscle atrophy 7 days after a 65 kdyne contusion spinal cord injury in young male mice. https://doi.org/10.14814/phy2.15266
Leibold 2022 PLoS One2022Leibold S, Bagivalu Lakshminarasimha A, Gremse F, Hammerschmidt M, Michel M (2022) Long-term obesogenic diet leads to metabolic phenotypes which are not exacerbated by catch-up growth in zebrafish. https://doi.org/10.1371/journal.pone.0267933
Babylon 2022 Int J Mol Sci2022Babylon L, Schmitt F, Franke Y, Hubert T, Eckert GP (2022) Effects of combining biofactors on bioenergetic parameters, AÎČ levels and survival in Alzheimer model organisms. https://doi.org/10.3390/ijms23158670
Hansen 2022 Magn Reson Med2022Hansen K, Hansen ESS, Jespersen NRV, BĂžtker HE, Pedersen M, Wang T, Laustsen C (2022) Hyperpolarized 13C MRI reveals large changes in pyruvate metabolism during digestion in snakes. https://doi.org/10.1002/mrm.29239
Fuertes-Agudo 2022 Antioxidants (Basel)2022Fuertes-Agudo M, Luque-TĂ©var M, Cucarella C, Brea R, BoscĂĄ L, Quintana-Cabrera R, MartĂ­n-Sanz P, Casado M (2022) COX-2 expression in hepatocytes improves mitochondrial function after hepatic ischemia-reperfusion injury.
Yu 2023 Biochim Biophys Acta Bioenerg2022Yu L, Fink BD, Som R, Rauckhorst AJ, Taylor EB, Sivitz WI (2022) Metabolic clearance of oxaloacetate and mitochondrial complex II respiration: Divergent control in skeletal muscle and brown adipose tissue. https://doi.org/10.1016/j.bbabio.2022.148930
Fedorov 2022 Naunyn Schmiedebergs Arch Pharmacol2022Fedorov A, Lehto A, Klein J (2022) Inhibition of mitochondrial respiration by general anesthetic drugs. https://doi.org/10.1007/s00210-022-02338-9
Broome 2022 Redox Biol2022Broome SC, Pham T, Braakhuis AJ, Narang R, Wang HW, Hickey AJR, Mitchell CJ, Merry TL (2022) MitoQ supplementation augments acute exercise-induced increases in muscle PGC1α mRNA and improves training-induced increases in peak power independent of mitochondrial content and function in untrained middle-aged men. https://doi.org/10.1016/j.redox.2022.102341
Zhang 2022 Int J Mol Sci2022Zhang A, Gupte AA, Chatterjee S, Li S, Ayala AG, Miles BJ, Hamilton DJ (2022) Enhanced succinate oxidation with mitochondrial complex II reactive oxygen species generation in human prostate cancer. https://doi.org/10.3390/ijms232012168
Froment 2022 Hum Reprod2022Froment P, Plotton I, Giulivi C, Fabre S, Khoueiry R, Mourad NI, Horman S, Ramé C, Rouillon C, Grandhaye J, Bigot Y, Chevaleyre C, Le Guevel R, Mallegol P, Andriantsitohaina R, Guerif F, Tamburini J, Viollet B, Foretz M, Dupont J (2022) At the crossroads of fertility and metabolism: the importance of AMPK-dependent signaling in female infertility associated with hyperandrogenism. https://doi.org/10.1093/humrep/deac067
Hamann 2022 J Fungi (Basel)2022Hamann A, Osiewacz HD, Teichert I (2022) Sordaria macrospora sterile mutant pro34 is impaired in respiratory complex I assembly. https://doi.org/10.3390/jof8101015
Niemann 2022 Biology (Basel)2022Niemann B, Pan R, Issa H, Simm A, Schulz R, Rohrbach S (2022) AMPK activation is indispensable for the protective effects of caloric restriction on left ventricular function in postinfarct myocardium. https://doi.org/10.3390/biology11030448
Desjardins 2022 Proc Natl Acad Sci U S A2022Desjardins EM, Smith BK, Day EA, Ducommun S, Sanders MJ, Nederveen JP, Ford RJ, Pinkosky SL, Townsend LK, Gutgesell RM, Lu R, Sakamoto K, Steinberg GR (2022) The phosphorylation of AMPKÎČ1 is critical for increasing autophagy and maintaining mitochondrial homeostasis in response to fatty acids. https://doi.org/10.1073/pnas.2119824119
Takada 2022 Proc Natl Acad Sci U S A2022Takada S, Maekawa S, Furihata T, Kakutani N, Setoyama D, Ueda K, Nambu H, Hagiwara H, Handa H, Fumoto Y, Hata S, Masunaga T, Fukushima A, Yokota T, Kang D, Kinugawa S, Sabe H (2022) Succinyl-CoA-based energy metabolism dysfunction in chronic heart failure. Proc Natl Acad Sci U S A 119: e2203628119.
Gupta 2022 PNAS Nexus2022Gupta R, Rhee KY, Beagle SD, Chawla R, Perdomo N, Lockless SW, Lele PP (2022) Indole modulates cooperative protein-protein interactions in the flagellar motor. https://doi.org/10.1093/pnasnexus/pgac035
Gutierrez 2022 Cell Rep Med2022Gutierrez AD, Gao Z, Hamidi V, Zhu L, Saint Andre KB, Riggs K, Ruscheinsky M, Wang H, Yu Y, Miller C 3rd, Vasquez H, Taegtmeyer H, Kolonin MG (2022) Anti-diabetic effects of GLP1 analogs are mediated by thermogenic interleukin-6 signaling in adipocytes. https://doi.org/10.1016/j.xcrm.2022.100813
Peugnet 2022 Antioxidants (Basel)2022Peugnet V, Chwastyniak M, Mulder P, Lancel S, Bultot L, Fourny N, Renguet E, Bugger H, Beseme O, Loyens A, Heyse W, Richard V, Amouyel P, Bertrand L, Pinet F, Dubois-Deruy E (2022) Mitochondrial-targeted therapies require mitophagy to prevent oxidative stress induced by SOD2 inactivation in hypertrophied cardiomyocytes. https://doi.org/10.3390/antiox11040723
Bresciani 2022 J Hepatol2022Bresciani N, Demagny H, Lemos V, Pontanari F, Li X, Sun Y, Li H, Perino A, Auwerx J, Schoonjans K (2022) The Slc25a47 locus is a novel determinant of hepatic mitochondrial function implicated in liver fibrosis. https://doi.org/10.1016/j.jhep.2022.05.040
Sautchuk 2022 Bone Rep2022Sautchuk R Jr, Eliseev RA (2022) Cell energy metabolism and bone formation. https://doi.org/10.1016/j.bonr.2022.101594
Cossin-Sevrin 2022 J Exp Biol2022Cossin-Sevrin N, Hsu BY, Marciau C, Viblanc VA, Ruuskanen S, Stier A (2022) Effect of prenatal glucocorticoids and thyroid hormones on developmental plasticity of mitochondrial aerobic metabolism, growth and survival: an experimental test in wild great tits. https://doi.org/10.1242/jeb.243414
Dieter 2022 Int J Mol Sci2022Dieter F, Esselun C, Eckert GP (2022) Redox active α-lipoic acid differentially improves mitochondrial dysfunction in a cellular model of Alzheimer and its control cells. https://doi.org/10.3390/ijms23169186
Della Noce 2022 J Biol Chem2022Della Noce B, Martins da Silva R, de Carvalho Uhl MV, Konnai S, Ohashi K, Calixto C, Arcanjo A, de Abreu LA, de Carvalho SS, da Silva Vaz I Jr, Logullo C (2022) Redox imbalance induces remodeling of glucose metabolism in Rhipicephalus microplus embryonic cell line. https://doi.org/10.1016/j.jbc.2022.101599
Saraiva 2022 Pathogens2022Saraiva FMS, Cosentino-Gomes D, Inacio JDF, Almeida-Amaral EE, Louzada-Neto O, Rossini A, Nogueira NP, Meyer-Fernandes JR, Paes MC (2022) Hypoxia effects on Trypanosoma cruzi epimastigotes proliferation, differentiation, and energy metabolism. https://doi.org/10.3390/pathogens11080897
Dawson 2022 FASEB J2022Dawson NJ, Scott GR (2022) Adaptive increases in respiratory capacity and O2 affinity of subsarcolemmal mitochondria from skeletal muscle of high-altitude deer mice. https://doi.org/10.1096/fj.202200219r
Melin 2022 JHEP Rep2022Melin N, Yarahmadov T, Sanchez-Taltavull D, Birrer FE, Brodie TM, Petit B, Felser A, Nuoffer JM, Montani M, Vozenin MC, Herrmann E, Candinas D, Aebersold DM, Stroka D (2022) A new mouse model of radiation-induced liver disease reveals mitochondrial dysfunction as an underlying fibrotic stimulus. https://doi.org/10.1016/j.jhepr.2022.100508
Meszaros 2022 EBioMedicine2022Meszaros AT, Hofmann J, Buch ML, Cardini B, Dunzendorfer-Matt T, Nardin F, Blumer MJ, Fodor M, Hermann M, Zelger B, Otarashvili G, Schartner M, Weissenbacher A, Oberhuber R, Resch T, Troppmair J, Öfner D, Zoller H, Tilg H, Gnaiger E, Hautz T, Schneeberger S (2022) Mitochondrial respiration during normothermic liver machine perfusion predicts clinical outcome. https://doi.org/10.1016/j.ebiom.2022.104311
Erdem 2022 Nat Commun2022Erdem A, Marin S, Pereira-Martins DA, Geugien M, Cunningham A, Pruis MG, WeinhÀuser I, Gerding A, Bakker BM, Wierenga ATJ, Rego EM, Huls G, Cascante M, Schuringa JJ (2022) Inhibition of the succinyl dehydrogenase complex in acute myeloid leukemia leads to a lactate-fuelled respiratory metabolic vulnerability. https://doi.org/10.1038/s41467-022-29639-0
Quemeneur 2022 Sci Rep2022Quéméneur JB, Danion M, Cabon J, Collet S, Zambonino-Infante JL, Salin K (2022) The relationships between growth rate and mitochondrial metabolism varies over time. https://doi.org/10.1038/s41598-022-20428-9
Salazar-Petres 2022 Biol Reprod2022Salazar-Petres E, Pereira-Carvalho D, Lopez-Tello J, Sferruzzi-Perri AN (2022) Placental structure, function, and mitochondrial phenotype relate to fetal size in each fetal sex in mice†. https://doi.org/10.1093/biolre/ioac056
Neu 2022 BMJ Open2022Neu C, Skitek K, Kissler H, Baumbach P, Settmacher U, Esper Treml R, Coldewey SM (2022) Body composition, mitochondrial oxygen metabolism and metabolome of patients with obesity before and after bariatric surgery (COMMITMENT): protocol for a monocentric prospective cohort study. https://doi.org/10.1136/bmjopen-2022-062592
Scrima 2022 Stem Cell Res Ther2022Scrima R, Agriesti F, Pacelli C, Piccoli C, Pucci P, Amoresano A, Cela O, Nappi L, Tataranni T, Mori G, Formisano P, Capitanio N (2022) Myoglobin expression by alternative transcript in different mesenchymal stem cells compartments. https://doi.org/10.1186/s13287-022-02880-6
Formiga-Jr 2022 J Vis Exp2022Formiga-Jr MA, Camacho-Pereira J (2022) Assessing mitochondrial function in sciatic nerve by high-resolution respirometry. https://doi.org/10.3791/63690
Mas-Bargues 2022 Antioxidants (Basel)2022Mas-Bargues C, GarcĂ­a-DomĂ­nguez E, BorrĂĄs C (2022) Recent approaches to determine static and dynamic redox state-related parameters. https://doi.org/10.3390/antiox11050864
Ceja-Galicia 2022 Antioxidants (Basel)2022Ceja-Galicia ZA, GarcĂ­a-Arroyo FE, Aparicio-Trejo OE, El-Hafidi M, Gonzaga-SĂĄnchez G, LeĂłn-Contreras JC, HernĂĄndez-Pando R, Guevara-Cruz M, Tovar AR, Rojas-Morales P, Aranda-Rivera AK, SĂĄnchez-Lozada LG, Tapia E, Pedraza-Chaverri J (2022) Therapeutic effect of curcumin on 5/6Nx hypertriglyceridemia: association with the improvement of renal mitochondrial ÎČ-oxidation and lipid metabolism in kidney and liver. https://doi.org/10.3390/antiox11112195
Beaulant 2022 J Hepatol2022Beaulant A, Dia M, Pillot B, Chauvin MA, Ji-Cao J, Durand C, Bendridi N, Chanon S, Vieille-Marchiset A, Da Silva CC, Patouraux S, Anty R, Iannelli A, Tran A, Gual P, Vidal H, Gomez L, Paillard M, Rieusset J (2022) Endoplasmic reticulum-mitochondria miscommunication is an early and causal trigger of hepatic insulin resistance and steatosis. https://doi.org/10.1016/j.jhep.2022.03.017
Mendes 2022 Mitochondrion2022Mendes D, Peixoto F, Oliveira MM, Andrade PB, Videira RA (2022) Mitochondria research and neurodegenerative diseases: On the track to understanding the biological world of high complexity. https://doi.org/10.1016/j.mito.2022.05.001
Cano-Sanchez 2022 PLoS Negl Trop Dis2022Cano-Sanchez M, Ben-Hassen K, Louis OP, Dantin F, Gueye P, Roques F, Mehdaoui H, Resiere D, Neviere R (2022) Bothrops lanceolatus snake venom impairs mitochondrial respiration and induces DNA release in human heart preparation. https://doi.org/10.1371/journal.pntd.0010523
Lieder 2022 J Cardiovasc Pharmacol Ther2022Lieder HR, TĂŒller P, Braczko F, Zandi A, Kamler M, Thielmann M, Heusch G, Kleinbongard P (2022) Bioassays of humoral cardioprotective factors released by remote ischemic conditioning in patients undergoing coronary artery bypass surgery. https://doi.org/10.1177/10742484221097273
Donnarumma 2022 Nat Commun2022Donnarumma E, Kohlhaas M, Vimont E, Kornobis E, Chaze T, Gianetto QG, Matondo M, Moya-Nilges M, Maack C, Wai T (2022) Mitochondrial Fission Process 1 controls inner membrane integrity and protects against heart failure. https://doi.org/10.1038/s41467-022-34316-3
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