McKenzie, Matthew, Chiotis, Maria, Pinkert, Carl A., Trounce, Ian A.
The large number of extant Muridae species provides the opportunity of investigating functional limits of nuclear/mitochondrial respiratory chain (RC) subunit interactions by introducing...
McKenzie, Matthew, Chiotis, Maria, Pinkert, Carl A., Trounce, Ian A.
The large number of extant Muridae species provides the opportunity of investigating functional limits of nuclear/mitochondrial respiratory chain (RC) subunit interactions by introducing...
McKenzie, Matthew, Chiotis, Maria, Pinkert, Carl A., Trounce, Ian A.
The large number of extant Muridae species provides the opportunity of investigating functional limits of nuclear/mitochondrial respiratory chain (RC) subunit interactions by introducing...
Rodent xenocybrid models of mitochondral DNA disease (2002)
Typescript (photocopy) Includes bibliographical references (leaves 169-187)
Production of homoplasmic xenomitochondrial mice
McKenzie, Matthew, Trounce, Ian A., Cassar, Carolyn A., Pinkert, Carl A.
The unique features of mtDNA, together with the lack of a wide range of mouse cell mtDNA mutants, have hampered the creation of mtDNA mutant mice. To overcome these barriers mitochondrial defects...
Production of homoplasmic xenomitochondrial mice
McKenzie, Matthew, Trounce, Ian A., Cassar, Carolyn A., Pinkert, Carl A.
The unique features of mtDNA, together with the lack of a wide range of mouse cell mtDNA mutants, have hampered the creation of mtDNA mutant mice. To overcome these barriers mitochondrial defects...
Lazarou, Michael, McKenzie, Matthew, Ohtake, Akira, Thorburn, David R., Ryan, Michael T.
Complex I of the respiratory chain is composed of at least 45 subunits that assemble together at the mitochondrial inner membrane. Defects in human complex I result in energy generation disorders and...
Mutation of C20orf7 Disrupts Complex I Assembly and Causes Lethal Neonatal Mitochondrial Disease
Sugiana, Canny, Pagliarini, David J., McKenzie, Matthew, Kirby, Denise M., Salemi, Renato, Abu-Amero, Khaled K., ...
Complex I (NADH:ubiquinone oxidoreductase) is the first and largest multimeric complex of the mitochondrial respiratory chain. Human complex I comprises seven subunits encoded by mitochondrial DNA...