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  • 1.
    Michel, M.
    et al.
    Karolinska Institute, Sweden.
    Benítez-Buelga, C.
    Karolinska Institute, Sweden; CSIC Instituto de Investigaciones Biomédicas Alberto Sols, Spain.
    Calvo, P. A.
    CISC-UAM Centro de Biología Molecular, Spain.
    Hanna, B. M. F.
    Karolinska Institute, Sweden.
    Mortusewicz, O.
    Karolinska Institute, Sweden.
    Masuyer, G.
    University of Bath, United Kingdom.
    Davies, J.
    Stockholm University, Sweden.
    Wallner, O.
    Karolinska Institute, Sweden.
    Sanjiv, K.
    Karolinska Institute, Sweden.
    Albers, J. J.
    Karolinska Institute, Sweden.
    Castañeda-Zegarra, S.
    Karolinska Institute, Sweden; NTNU Norwegian University of Science and Technology, Norway.
    Jemth, A. -S
    Karolinska Institute, Sweden.
    Visnes, T.
    SINTEF, Norway.
    Sastre-Perona, A.
    Hospital La Paz Institute for Health Research, Spain.
    Danda, A. N.
    Homan, E. J.
    Marimuthu, K.
    Zhenjun, Z.
    Chi, C. N.
    Uppsala University, Sweden.
    Sarno, A.
    SINTEF, Norway.
    Wiita, E.
    von Nicolai, C.
    Komor, A. J.
    Leibniz Institute for Natural Product Research and Infection Biology, Germany.
    Rajagopal, V.
    Müller, S.
    Hank, E. C.
    Varga, M.
    Scaletti, E. R.
    University of Sheffield, United Kingdom.
    Pandey, M.
    Karsten, S.
    Haslene-Hox, H.
    Loevenich, S.
    Marttila, P.
    Rasti, A.
    Mamonov, K.
    Ortis, F.
    Schömberg, F.
    Friedrich Schiller University Jena, Germany.
    Loseva, O.
    Stewart, J.
    D'Arcy-Evans, N.
    Koolmeister, T.
    Henriksson, M.
    Michel, Dana
    RISE Research Institutes of Sweden, Bioeconomy and Health, Chemical Process and Pharmaceutical Development.
    de Ory, A.
    Stockholm University, Sweden.
    Acero, L.
    Calvete, O.
    Spanish National Cancer Research Centre, Spain.
    Scobie, M.
    Hertweck, C.
    Friedrich-Schiller University Jena, Germany.
    Vilotijevic, I.
    Kalderén, C.
    Osorio, A.
    Centro de Investigación Biomédica en Red de Enfermedades Raras, Spain.
    Perona, R.
    Stolz, A.
    University Frankfurt, Germany.
    Stenmark, P.
    Berglund, U. W.
    de Vega, M.
    Helleday, T.
    Small-molecule activation of OGG1 increases oxidative DNA damage repair by gaining a new function2022In: Science, ISSN 0036-8075, E-ISSN 1095-9203, Vol. 376, no 6600, p. 1471-1476Article in journal (Refereed)
    Abstract [en]

    Oxidative DNA damage is recognized by 8-oxoguanine (8-oxoG) DNA glycosylase 1 (OGG1), which excises 8-oxoG, leaving a substrate for apurinic endonuclease 1 (APE1) and initiating repair. Here, we describe a small molecule (TH10785) that interacts with the phenylalanine-319 and glycine-42 amino acids of OGG1, increases the enzyme activity 10-fold, and generates a previously undescribed b,d-lyase enzymatic function. TH10785 controls the catalytic activity mediated by a nitrogen base within its molecular structure. In cells, TH10785 increases OGG1 recruitment to and repair of oxidative DNA damage. This alters the repair process, which no longer requires APE1 but instead is dependent on polynucleotide kinase phosphatase (PNKP1) activity. The increased repair of oxidative DNA lesions with a small molecule may have therapeutic applications in various diseases and aging. © 2022 The Authors, some rights reserved; exclusive licensee American Association for the Advancement of Science. No claim to original U.S. Government Works

  • 2.
    Scheller, E. L.
    et al.
    California Institute of Technology, USA; Massachusetts Institute of Technology, USA.
    Siljeström, Sandra
    RISE Research Institutes of Sweden, Materials and Production, Product Realisation Methodology.
    Zorzano, Maria-Paz
    Instituto Nacional de Tecnica Aeroespacial, Spain.
    Aqueous alteration processes in Jezero crater, Mars—implications for organic geochemistry2022In: Science, ISSN 0036-8075, E-ISSN 1095-9203, Vol. 378, no 6624, p. 1105-1110Article in journal (Refereed)
    Abstract [en]

    The Perseverance rover landed in Jezero crater, Mars, in February 2021. We used the Scanning Habitable Environments with Raman and Luminescence for Organics and Chemicals (SHERLOC) instrument to perform deep-ultraviolet Raman and fluorescence spectroscopy of three rocks within the crater. We identify evidence for two distinct ancient aqueous environments at different times. Reactions with liquid water formed carbonates in an olivine-rich igneous rock. A sulfate-perchlorate mixture is present in the rocks, which probably formed by later modifications of the rocks by brine. Fluorescence signatures consistent with aromatic organic compounds occur throughout these rocks and are preserved in minerals related to both aqueous environments. 

  • 3.
    Siljeström, Sandra
    RISE, SP – Sveriges Tekniska Forskningsinstitut, SP Sveriges tekniska forskningsinstitut, SP – Sveriges Tekniska Forskningsinstitut / Funktionella material (KMf).
    A reduced organic carbon component in martian basalts2012In: Science, ISSN 0036-8075, E-ISSN 1095-9203, Vol. 337, no 6091, p. 212-215Article in journal (Refereed)
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