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W4200213661 abstract "We have used chromosome engineering to replace native centromeric DNA with different test sequences at native centromeres in two different strains of the fission yeast Schizosaccharomyces pombe and have discovered that A + T rich DNA, whether synthetic or of bacterial origin, will function as a centromere in this species. Using genome size as a surrogate for the inverse of effective population size (Ne) we also show that the relative A + T content of centromeric DNA scales with Ne across 43 animal, fungal and yeast (Opisthokonta) species. This suggests that in most of these species the A + T content of the centromeric DNA is determined by a balance between selection and mutation. Combining the experimental results and the evolutionary analyses allows us to conclude that A + T rich DNA of almost any sequence will function as a centromere in most Opisthokonta species. The fact that many G/C to A/T substitutions are unlikely to be selected against may contribute to the rapid evolution of centromeric DNA. We also show that a neo-centromere sequence is not simply a weak version of native centromeric DNA and suggest that neo-centromeres require factors either for their propagation or establishment in addition to those required by native centromeres." @default.
W4200213661 created "2021-12-31" @default.
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W4200213661 date "2021-12-20" @default.
W4200213661 modified "2023-09-27" @default.
W4200213661 title "Mutation and selection explain why many eukaryotic centromeric DNA sequences are often A + T rich" @default.
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W4200213661 cites W1861303592 @default.
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W4200213661 cites W1885658787 @default.
W4200213661 cites W1891316607 @default.
W4200213661 cites W1917235046 @default.
W4200213661 cites W1969978677 @default.
W4200213661 cites W1979827497 @default.
W4200213661 cites W1980585800 @default.
W4200213661 cites W1981521972 @default.
W4200213661 cites W1981715050 @default.
W4200213661 cites W1982052327 @default.
W4200213661 cites W1983642572 @default.
W4200213661 cites W1988714210 @default.
W4200213661 cites W1995967793 @default.
W4200213661 cites W2014200281 @default.
W4200213661 cites W2016461532 @default.
W4200213661 cites W2019196984 @default.
W4200213661 cites W2027338353 @default.
W4200213661 cites W2029034653 @default.
W4200213661 cites W2029234227 @default.
W4200213661 cites W2041125125 @default.
W4200213661 cites W2042812035 @default.
W4200213661 cites W2042967115 @default.
W4200213661 cites W2048026547 @default.
W4200213661 cites W2056322543 @default.
W4200213661 cites W2067361082 @default.
W4200213661 cites W2067459265 @default.
W4200213661 cites W2068625350 @default.
W4200213661 cites W2070122527 @default.
W4200213661 cites W2073911144 @default.
W4200213661 cites W2076095878 @default.
W4200213661 cites W2082259010 @default.
W4200213661 cites W2088164618 @default.
W4200213661 cites W2091470727 @default.
W4200213661 cites W2097908786 @default.
W4200213661 cites W2100916752 @default.
W4200213661 cites W2111913614 @default.
W4200213661 cites W2114025873 @default.
W4200213661 cites W2116897226 @default.
W4200213661 cites W2118737272 @default.
W4200213661 cites W2124017626 @default.
W4200213661 cites W2124951053 @default.
W4200213661 cites W2130696033 @default.
W4200213661 cites W2133280569 @default.
W4200213661 cites W2148734328 @default.
W4200213661 cites W2157848631 @default.
W4200213661 cites W2163386331 @default.
W4200213661 cites W2172056867 @default.
W4200213661 cites W2172186191 @default.
W4200213661 cites W2261646506 @default.
W4200213661 cites W2314809986 @default.
W4200213661 cites W2586543556 @default.
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W4200213661 cites W2732481151 @default.
W4200213661 cites W2741012700 @default.
W4200213661 cites W2765226046 @default.
W4200213661 cites W2801711428 @default.
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W4200213661 cites W2963890628 @default.
W4200213661 cites W2978728166 @default.
W4200213661 cites W2979715961 @default.
W4200213661 cites W2986313074 @default.
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W4200213661 cites W3096512916 @default.
W4200213661 cites W3104105287 @default.
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W4200213661 doi "https://doi.org/10.1093/nar/gkab1219" @default.
W4200213661 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34928384" @default.
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