SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2767657316> ?p ?o ?g. }

Showing items 1 to 100 of ±207 with 100 items per page.

W2767657316 endingPage "217" @default.
W2767657316 startingPage "208" @default.
W2767657316 abstract "The past two decades have witnessed remarkable advances in oxidative stress research, particularly in the context of ischemic brain injury. Oxidative stress in ischemic tissues compromises the integrity of the genome, resulting in DNA lesions, cell death in neurons, glial cells, and vascular cells, and impairments in neurological recovery after stroke. As DNA is particularly vulnerable to oxidative attack, cells have evolved the ability to induce multiple DNA repair mechanisms, including base excision repair (BER), nucleotide excision repair (NER) and non-homogenous endpoint jointing (NHEJ). Defective DNA repair is tightly correlated with worse neurological outcomes after stroke, whereas upregulation of DNA repair enzymes, such as APE1, OGG1, and XRCC1, improves long-term functional recovery following stroke. Indeed, DNA damage and repair are now known to play critical roles in fundamental aspects of stroke recovery, such as neurogenesis, white matter recovery, and neurovascular unit remodeling. Several DNA repair enzymes are essential for comprehensive neural repair mechanisms after stroke, including Polβ and NEIL3 for neurogenesis, APE1 for white matter repair, Gadd45b for axonal regeneration, and DNA-PKs for neurovascular remodeling. This review discusses the emerging role of DNA damage and repair in functional recovery after stroke and highlights the contribution of DNA repair to regenerative elements after stroke. This article is part of the Special Issue entitled ‘Cerebral Ischemia’." @default.
W2767657316 created "2017-11-17" @default.
W2767657316 creator A5000540211 @default.
W2767657316 creator A5002792067 @default.
W2767657316 creator A5023550499 @default.
W2767657316 creator A5024468354 @default.
W2767657316 creator A5024814904 @default.
W2767657316 creator A5026465918 @default.
W2767657316 creator A5050378035 @default.
W2767657316 creator A5082857859 @default.
W2767657316 date "2018-05-01" @default.
W2767657316 modified "2023-10-16" @default.
W2767657316 title "Oxidative stress and DNA damage after cerebral ischemia: Potential therapeutic targets to repair the genome and improve stroke recovery" @default.
W2767657316 cites W103899784 @default.
W2767657316 cites W1182948736 @default.
W2767657316 cites W1540016451 @default.
W2767657316 cites W1540368925 @default.
W2767657316 cites W1631527540 @default.
W2767657316 cites W1750541493 @default.
W2767657316 cites W1893055997 @default.
W2767657316 cites W1898795990 @default.
W2767657316 cites W1899774277 @default.
W2767657316 cites W1904207040 @default.
W2767657316 cites W1965514945 @default.
W2767657316 cites W1965918852 @default.
W2767657316 cites W1965962387 @default.
W2767657316 cites W1968170156 @default.
W2767657316 cites W1969942783 @default.
W2767657316 cites W1972134841 @default.
W2767657316 cites W1972157709 @default.
W2767657316 cites W1973511453 @default.
W2767657316 cites W1977202835 @default.
W2767657316 cites W1981075890 @default.
W2767657316 cites W1982870856 @default.
W2767657316 cites W1987197699 @default.
W2767657316 cites W1990545206 @default.
W2767657316 cites W1990711278 @default.
W2767657316 cites W1992565982 @default.
W2767657316 cites W2000559850 @default.
W2767657316 cites W2004487946 @default.
W2767657316 cites W2004906982 @default.
W2767657316 cites W2004933597 @default.
W2767657316 cites W2006806309 @default.
W2767657316 cites W2007131458 @default.
W2767657316 cites W2010444615 @default.
W2767657316 cites W2015159147 @default.
W2767657316 cites W2018282625 @default.
W2767657316 cites W2026750622 @default.
W2767657316 cites W2036743679 @default.
W2767657316 cites W2041152662 @default.
W2767657316 cites W2041388197 @default.
W2767657316 cites W2043777424 @default.
W2767657316 cites W2043895957 @default.
W2767657316 cites W2045584680 @default.
W2767657316 cites W2051617804 @default.
W2767657316 cites W2052874642 @default.
W2767657316 cites W2059149287 @default.
W2767657316 cites W2061060103 @default.
W2767657316 cites W2061217198 @default.
W2767657316 cites W2061764665 @default.
W2767657316 cites W2062169197 @default.
W2767657316 cites W2062171951 @default.
W2767657316 cites W2063840507 @default.
W2767657316 cites W2064708316 @default.
W2767657316 cites W2071765140 @default.
W2767657316 cites W2073193446 @default.
W2767657316 cites W2077795079 @default.
W2767657316 cites W2077953899 @default.
W2767657316 cites W2087482542 @default.
W2767657316 cites W2091334650 @default.
W2767657316 cites W2091712620 @default.
W2767657316 cites W2092447788 @default.
W2767657316 cites W2093901484 @default.
W2767657316 cites W2096509702 @default.
W2767657316 cites W2112466667 @default.
W2767657316 cites W2112528865 @default.
W2767657316 cites W2113912029 @default.
W2767657316 cites W2129075695 @default.
W2767657316 cites W2129561523 @default.
W2767657316 cites W2134729461 @default.
W2767657316 cites W2135553932 @default.
W2767657316 cites W2146741358 @default.
W2767657316 cites W2149912948 @default.
W2767657316 cites W2153628517 @default.
W2767657316 cites W2155477484 @default.
W2767657316 cites W2161048718 @default.
W2767657316 cites W2164906342 @default.
W2767657316 cites W2166577272 @default.
W2767657316 cites W2220848620 @default.
W2767657316 cites W2228927093 @default.
W2767657316 cites W2292004117 @default.
W2767657316 cites W2336345979 @default.
W2767657316 cites W2376485786 @default.
W2767657316 cites W2413615017 @default.
W2767657316 cites W2460933928 @default.
W2767657316 cites W2474433744 @default.
W2767657316 cites W2520005058 @default.
W2767657316 cites W2529744299 @default.