Cancer Research UK London Research Institute, Clare Hall Laboratories, South Mimms EN6 3LD, United Kingdom.
Genomics Proteomics Bioinformatics. 2013 Feb;11(1):2-7. doi: 10.1016/j.gpb.2012.12.001. Epub 2012 Dec 21.
I completed my medical studies at the Karolinska Institute in Stockholm but have always been devoted to basic research. My longstanding interest is to understand fundamental DNA repair mechanisms in the fields of cancer therapy, inherited human genetic disorders and ancient DNA. I initially measured DNA decay, including rates of base loss and cytosine deamination. I have discovered several important DNA repair proteins and determined their mechanisms of action. The discovery of uracil-DNA glycosylase defined a new category of repair enzymes with each specialized for different types of DNA damage. The base excision repair pathway was first reconstituted with human proteins in my group. Cell-free analysis for mammalian nucleotide excision repair of DNA was also developed in my laboratory. I found multiple distinct DNA ligases in mammalian cells, and led the first genetic and biochemical work on DNA ligases I, III and IV. I discovered the mammalian exonucleases DNase III (TREX1) and IV (FEN1). Interestingly, expression of TREX1 was altered in some human autoimmune diseases. I also showed that the mutagenic DNA adduct O(6)-methylguanine (O(6)mG) is repaired without removing the guanine from DNA, identifying a surprising mechanism by which the methyl group is transferred to a residue in the repair protein itself. A further novel process of DNA repair discovered by my research group is the action of AlkB as an iron-dependent enzyme carrying out oxidative demethylation.
我在斯德哥尔摩的卡罗林斯卡学院完成了医学研究,但一直致力于基础研究。我长期以来的兴趣是理解癌症治疗、遗传性人类遗传疾病和古 DNA 领域的基本 DNA 修复机制。我最初测量了 DNA 的衰减,包括碱基损失和胞嘧啶脱氨的速率。我发现了几种重要的 DNA 修复蛋白,并确定了它们的作用机制。尿嘧啶-DNA 糖基化酶的发现定义了一类新的修复酶,每种酶都专门针对不同类型的 DNA 损伤。我们小组首次用人类蛋白重建了碱基切除修复途径。在我的实验室中也开发了哺乳动物核苷酸切除修复的无细胞分析。我在哺乳动物细胞中发现了多个不同的 DNA 连接酶,并率先对 DNA 连接酶 I、III 和 IV 进行了遗传和生化研究。我发现了哺乳动物的核酸外切酶 DNase III(TREX1)和 IV(FEN1)。有趣的是,TREX1 的表达在一些人类自身免疫性疾病中发生了改变。我还表明,诱变 DNA 加合物 O(6)-甲基鸟嘌呤(O(6)mG)在不将鸟嘌呤从 DNA 中去除的情况下得到修复,确定了一种甲基转移到修复蛋白自身残基的惊人机制。我的研究小组发现的另一种新的 DNA 修复过程是 AlkB 作为一种铁依赖性酶进行氧化去甲基化的作用。