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  • 1.
    Gorospe, Choco Michael
    et al.
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Carvalho, Gustavo
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Herrera Curbelo, Alicia
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Marchhart, Lisa
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Mendes, Isabela
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Niedźwiecka, Katarzyna
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik. Institute of Biochemistry and Biophysics, Polish Academy of Sciences, Warsaw, Poland.
    Wanrooij, Paulina H.
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Mitochondrial membrane potential acts as a retrograde signal to regulate cell cycle progression2023Inngår i: Life Science Alliance, E-ISSN 2575-1077, Vol. 6, nr 12, artikkel-id e202302091Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    Mitochondria are central to numerous metabolic pathways whereby mitochondrial dysfunction has a profound impact and can manifest in disease. The consequences of mitochondrial dysfunction can be ameliorated by adaptive responses that rely on crosstalk from the mitochondria to the rest of the cell. Such mito-cellular signalling slows cell cycle progression in mitochondrial DNA-deficient (ρ0) Saccharomyces cerevisiae cells, but the initial trigger of the response has not been thoroughly studied. Here, we show that decreased mitochondrial membrane potential (ΔΨm) acts as the initial signal of mitochondrial stress that delays G1-to-S phase transition in both ρ0 and control cells containing mtDNA. Accordingly, experimentally increasing ΔΨm was sufficient to restore timely cell cycle progression in ρ0 cells. In contrast, cellular levels of oxidative stress did not correlate with the G1-to-S delay. Restored G1-to-S transition in ρ0 cells with a recovered ΔΨm is likely attributable to larger cell size, whereas the timing of G1/S transcription remained delayed. The identification of ΔΨm as a regulator of cell cycle progression may have implications for disease states involving mitochondrial dysfunction.

    Fulltekst (pdf)
    fulltext
  • 2.
    Gorospe, Choco Michael
    et al.
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Repolês, Bruno Marçal
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Wanrooij, Paulina H.
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Determination of the ribonucleotide content of mtDNA using alkaline gels2023Inngår i: Mitochondrial DNA: methods and protocols / [ed] Thomas J. Nicholls; Jay P. Uhler; Maria Falkenberg, New York: Humana Press, 2023, Vol. 2615, s. 293-314Kapittel i bok, del av antologi (Fagfellevurdert)
    Abstract [en]

    Impaired mitochondrial DNA (mtDNA) maintenance, due to, e.g., defects in the replication machinery or an insufficient dNTP supply, underlies a number of mitochondrial disorders. The normal process of mtDNA replication leads to the incorporation of multiple single ribonucleotides (rNMPs) per mtDNA molecule. Given that embedded rNMPs alter the stability and properties of the DNA, they may have consequences for mtDNA maintenance and thereby for mitochondrial disease. They also serve as a readout of the intramitochondrial NTP/dNTP ratios. In this chapter, we describe a method for the determination of mtDNA rNMP content using alkaline gel electrophoresis and Southern blotting. This procedure is suited for the analysis of mtDNA in total genomic DNA preparations as well as in purified form. Moreover, it can be performed using equipment found in most biomedical laboratories, allows the simultaneous analysis of 10-20 samples depending on the gel system employed, and can be modified for the analysis of other mtDNA modifications.

  • 3.
    Repolês, Bruno Marçal
    et al.
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Gorospe, Choco Michael
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Tran, Phong
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Nilsson, Anna Karin
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    Wanrooij, Paulina H.
    Umeå universitet, Medicinska fakulteten, Institutionen för medicinsk kemi och biofysik.
    The integrity and assay performance of tissue mitochondrial DNA is considerably affected by choice of isolation method2021Inngår i: Mitochondrion (Amsterdam. Print), ISSN 1567-7249, E-ISSN 1872-8278, Vol. 61, s. 179-187Artikkel i tidsskrift (Fagfellevurdert)
    Abstract [en]

    The integrity of mitochondrial DNA (mtDNA) isolated from solid tissues is critical for analyses such as long-range PCR, but is typically assessed under conditions that fail to provide information on the individual mtDNA strands. Using denaturing gel electrophoresis, we show that commonly-used isolation procedures generate mtDNA containing several single-strand breaks per strand. Through systematic comparison of DNA isolation methods, we identify a procedure yielding the highest integrity of mtDNA that we demonstrate displays improved performance in downstream assays. Our results highlight the importance of isolation method choice, and serve as a resource to researchers requiring high-quality mtDNA from solid tissues.

    Fulltekst (pdf)
    fulltext
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