Publications by authors named "W Nellen"

The "gene scissors" CRISPR-Cas currently revolutionize the field of molecular biology with an enormous impact on society due to the broad application potentials in biomedicine, biotechnology and agriculture. We have developed simple CRISPR-Cas experiments that can serve to introduce pupils, students and non-scientists alike to the fascinating power of targeted gene editing. The experimental course is divided into two parts.

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Article Synopsis
  • The study focuses on the microprocessor complex in the amoeba Dictyostelium discoideum, composed of the proteins Dicer DrnB and RbdB, crucial for miRNA maturation.
  • Researchers found that DrnB and RbdB localize in the nucleoli, and DrnB's presence can rescue the miRNA phenotype in deletion strains, highlighting its importance in miRNA biogenesis.
  • The findings suggest a unique evolutionary model, showing similarities between plant and animal miRNA processing mechanisms, and emphasize the role of DrnB's nuclear localization signal in its function and interaction with other proteins.
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We identified the dsRNA binding protein RbdB as an essential component in miRNA processing in Dictyostelium discoideum. RbdB is a nuclear protein that accumulates, together with Dicer B, in nucleolar foci reminiscent of plant dicing bodies. Disruption of rbdB results in loss of miRNAs and accumulation of primary miRNAs.

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A group of homologous nucleic acid modification enzymes called Dnmt2, Trdmt1, Pmt1, DnmA, and Ehmet in different model organisms catalyze the transfer of a methyl group from the cofactor S-adenosyl-methionine (SAM) to the carbon-5 of cytosine residues. Originally considered as DNA MTases, these enzymes were shown to be tRNA methyltransferases about a decade ago. Between the presumed involvement in DNA modification-related epigenetics, and the recent foray into the RNA modification field, significant progress has characterized Dnmt2-related research.

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Dnmt2 enzymes are cytosine-5 methyltransferases that methylate C38 of several tRNAs. We report here that the activities of two Dnmt2 homologs, Pmt1 from Schizosaccharomyces pombe and DnmA from Dictyostelium discoideum, are strongly stimulated by prior queuosine (Q) modification of the substrate tRNA. In vivo tRNA methylation levels were stimulated by growth of cells in queuine-containing medium; in vitro Pmt1 activity was enhanced on Q-containing RNA; and queuine-stimulated in vivo methylation was abrogated by the absence of the enzyme that inserts queuine into tRNA, eukaryotic tRNA-guanine transglycosylase.

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