Most eukaryotes employ a variety of mechanisms to defend the integrity of their genome by recognizing and silencing parasitic mobile nucleic acids.However,recent studies have shown that genomic DNA undergoes extensive...Most eukaryotes employ a variety of mechanisms to defend the integrity of their genome by recognizing and silencing parasitic mobile nucleic acids.However,recent studies have shown that genomic DNA undergoes extensive rearrangements,including DNA elimination,fragmentation,and unscrambling,during the sexual reproduction of ciliated protozoa.Non-coding RNAs have been identified to program and regulate genome rearrangement events.In Paramecium and Tetrahymena,scan RNAs(scnRNAs)are produced from micronuclei and transported to vegetative macronuclei,in which scnRNA elicits the elimination of cognate genomic DNA.In contrast,Piwi-interacting RNAs(piRNAs)in Oxytricha enable the retention of genomic DNA that exhibits sequence complementarity in macronuclei.An RNA interference(RNAi)-like mechanism has been found to direct these genomic rearrangements.Furthermore,in Oxytricha,maternal RNA templates can guide the unscrambling process of genomic DNA.The non-coding RNA-directed genome rearrangements may have profound evolutionary implications,for example,eliciting the multigenerational inheritance of acquired adaptive traits.展开更多
Some two hundred and forty members of the Chinese worm community gathered together for the 3rd Chinese Caeno- rhabditis elegans meeting at School of Life Sciences, Uni- versity of Science and Technology of China.
基金supported by grants from the National Basic Research Program of China(2011CBA01103)the National Natural Science Foundation of China(31171254)the Fundamental Research Funds for Central Universities(WK2060190018)
文摘Most eukaryotes employ a variety of mechanisms to defend the integrity of their genome by recognizing and silencing parasitic mobile nucleic acids.However,recent studies have shown that genomic DNA undergoes extensive rearrangements,including DNA elimination,fragmentation,and unscrambling,during the sexual reproduction of ciliated protozoa.Non-coding RNAs have been identified to program and regulate genome rearrangement events.In Paramecium and Tetrahymena,scan RNAs(scnRNAs)are produced from micronuclei and transported to vegetative macronuclei,in which scnRNA elicits the elimination of cognate genomic DNA.In contrast,Piwi-interacting RNAs(piRNAs)in Oxytricha enable the retention of genomic DNA that exhibits sequence complementarity in macronuclei.An RNA interference(RNAi)-like mechanism has been found to direct these genomic rearrangements.Furthermore,in Oxytricha,maternal RNA templates can guide the unscrambling process of genomic DNA.The non-coding RNA-directed genome rearrangements may have profound evolutionary implications,for example,eliciting the multigenerational inheritance of acquired adaptive traits.
文摘Some two hundred and forty members of the Chinese worm community gathered together for the 3rd Chinese Caeno- rhabditis elegans meeting at School of Life Sciences, Uni- versity of Science and Technology of China.
