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Items: 1 to 20 of 101

1.

Regulated membrane remodeling by Mic60 controls formation of mitochondrial crista junctions.

Hessenberger M, Zerbes RM, Rampelt H, Kunz S, Xavier AH, Purfürst B, Lilie H, Pfanner N, van der Laan M, Daumke O.

Nat Commun. 2017 May 31;8:15258. doi: 10.1038/ncomms15258.

2.

Functional mapping of yeast genomes by saturated transposition.

Michel AH, Hatakeyama R, Kimmig P, Arter M, Peter M, Matos J, De Virgilio C, Kornmann B.

Elife. 2017 May 8;6. pii: e23570. doi: 10.7554/eLife.23570.

3.

Electron microscopy for ultrastructural analysis and protein localization in Saccharomyces cerevisiae.

Frankl A, Mari M, Reggiori F.

Microb Cell. 2015 Oct 12;2(11):412-428. doi: 10.15698/mic2015.11.237. Review.

4.

The MICOS component Mic60 displays a conserved membrane-bending activity that is necessary for normal cristae morphology.

Tarasenko D, Barbot M, Jans DC, Kroppen B, Sadowski B, Heim G, Möbius W, Jakobs S, Meinecke M.

J Cell Biol. 2017 Apr 3;216(4):889-899. doi: 10.1083/jcb.201609046. Epub 2017 Mar 2.

PMID:
28254827
5.

An evidence based hypothesis on the existence of two pathways of mitochondrial crista formation.

Harner ME, Unger AK, Geerts WJ, Mari M, Izawa T, Stenger M, Geimer S, Reggiori F, Westermann B, Neupert W.

Elife. 2016 Nov 16;5. pii: e18853. doi: 10.7554/eLife.18853.

6.

Desmin and αB-crystallin interplay in the maintenance of mitochondrial homeostasis and cardiomyocyte survival.

Diokmetzidou A, Soumaka E, Kloukina I, Tsikitis M, Makridakis M, Varela A, Davos CH, Georgopoulos S, Anesti V, Vlahou A, Capetanaki Y.

J Cell Sci. 2016 Oct 15;129(20):3705-3720. Epub 2016 Aug 26.

7.

Mitochondrial hepato-encephalopathy due to deficiency of QIL1/MIC13 (C19orf70), a MICOS complex subunit.

Zeharia A, Friedman JR, Tobar A, Saada A, Konen O, Fellig Y, Shaag A, Nunnari J, Elpeleg O.

Eur J Hum Genet. 2016 Dec;24(12):1778-1782. doi: 10.1038/ejhg.2016.83. Epub 2016 Aug 3.

PMID:
27485409
8.

Mic13 Is Essential for Formation of Crista Junctions in Mammalian Cells.

Anand R, Strecker V, Urbach J, Wittig I, Reichert AS.

PLoS One. 2016 Aug 1;11(8):e0160258. doi: 10.1371/journal.pone.0160258. eCollection 2016.

9.

Disrupted in schizophrenia 1 (DISC1) is a constituent of the mammalian mitochondrial contact site and cristae organizing system (MICOS) complex, and is essential for oxidative phosphorylation.

Piñero-Martos E, Ortega-Vila B, Pol-Fuster J, Cisneros-Barroso E, Ruiz-Guerra L, Medina-Dols A, Heine-Suñer D, Lladó J, Olmos G, Vives-Bauzà C.

Hum Mol Genet. 2016 Oct 1;25(19):4157-4169. doi: 10.1093/hmg/ddw250. Epub 2016 Jul 27.

PMID:
27466199
10.

Chemogenetic E-MAP in Saccharomyces cerevisiae for Identification of Membrane Transporters Operating Lipid Flip Flop.

Vazquez HM, Vionnet C, Roubaty C, Mallela SK, Schneiter R, Conzelmann A.

PLoS Genet. 2016 Jul 27;12(7):e1006160. doi: 10.1371/journal.pgen.1006160. eCollection 2016 Jul.

11.

FATE1 antagonizes calcium- and drug-induced apoptosis by uncoupling ER and mitochondria.

Doghman-Bouguerra M, Granatiero V, Sbiera S, Sbiera I, Lacas-Gervais S, Brau F, Fassnacht M, Rizzuto R, Lalli E.

EMBO Rep. 2016 Sep;17(9):1264-80. doi: 10.15252/embr.201541504. Epub 2016 Jul 11.

PMID:
27402544
12.

SLC25A46 is required for mitochondrial lipid homeostasis and cristae maintenance and is responsible for Leigh syndrome.

Janer A, Prudent J, Paupe V, Fahiminiya S, Majewski J, Sgarioto N, Des Rosiers C, Forest A, Lin ZY, Gingras AC, Mitchell G, McBride HM, Shoubridge EA.

EMBO Mol Med. 2016 Sep 1;8(9):1019-38. doi: 10.15252/emmm.201506159. Print 2016 Sep.

13.

Endoplasmic reticulum stress and calcium imbalance are involved in cadmium-induced lipid aberrancy in Saccharomyces cerevisiae.

Rajakumar S, Bhanupriya N, Ravi C, Nachiappan V.

Cell Stress Chaperones. 2016 Sep;21(5):895-906. doi: 10.1007/s12192-016-0714-4. Epub 2016 Jun 25.

14.

Yeast Vps13 promotes mitochondrial function and is localized at membrane contact sites.

Park JS, Thorsness MK, Policastro R, McGoldrick LL, Hollingsworth NM, Thorsness PE, Neiman AM.

Mol Biol Cell. 2016 Aug 1;27(15):2435-49. doi: 10.1091/mbc.E16-02-0112. Epub 2016 Jun 8.

15.

The TRAPP Subunit Trs130p Interacts with the GAP Gyp6p to Mediate Ypt6p Dynamics at the Late Golgi.

Brunet S, Saint-Dic D, Milev MP, Nilsson T, Sacher M.

Front Cell Dev Biol. 2016 May 24;4:48. doi: 10.3389/fcell.2016.00048. eCollection 2016.

16.

The Secret Life of Tethers: The Role of Tethering Factors in SNARE Complex Regulation.

Dubuke ML, Munson M.

Front Cell Dev Biol. 2016 May 9;4:42. doi: 10.3389/fcell.2016.00042. eCollection 2016. Review.

17.

MICOS and phospholipid transfer by Ups2-Mdm35 organize membrane lipid synthesis in mitochondria.

Aaltonen MJ, Friedman JR, Osman C, Salin B, di Rago JP, Nunnari J, Langer T, Tatsuta T.

J Cell Biol. 2016 Jun 6;213(5):525-34. doi: 10.1083/jcb.201602007. Epub 2016 May 30.

18.

Ste24p Mediates Proteolysis of Both Isoprenylated and Non-prenylated Oligopeptides.

Hildebrandt ER, Arachea BT, Wiener MC, Schmidt WK.

J Biol Chem. 2016 Jul 1;291(27):14185-98. doi: 10.1074/jbc.M116.718197. Epub 2016 Apr 29.

19.

The evolution of MICOS: Ancestral and derived functions and interactions.

Muñoz-Gómez SA, Slamovits CH, Dacks JB, Wideman JG.

Commun Integr Biol. 2015 Oct 12;8(6):e1094593. doi: 10.1080/19420889.2015.1094593. eCollection 2015 Nov-Dec.

20.

Mic60/mitofilin overexpression alters mitochondrial dynamics and attenuates vulnerability of dopaminergic cells to dopamine and rotenone.

Van Laar VS, Berman SB, Hastings TG.

Neurobiol Dis. 2016 Jul;91:247-61. doi: 10.1016/j.nbd.2016.03.015. Epub 2016 Mar 19.

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