Uta Fuchs scite author profile

MicroRNAs (miRNAs) are small noncoding regulatory RNAs that reduce stability and/or translation of fully or partially sequence-complementary target mRNAs. In order to identify miRNAs and to assess their expression patterns, we sequenced over 250 small RNA libraries from 26 different organ systems and cell types of human and rodents that were enriched in neuronal as well as normal and malignant hematopoietic cells and tissues. We present expression profiles derived from clone count data and provide computational tools for their analysis. Unexpectedly, a relatively small set of miRNAs, many of which are ubiquitously expressed, account for most of the differences in miRNA profiles between cell lineages and tissues. This broad survey also provides detailed and accurate information about mature sequences, precursors, genome locations, maturation processes, inferred transcriptional units, and conservation patterns. We also propose a subclassification scheme for miRNAs for assisting future experimental and computational functional analyses.

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Insights from the genome of the biotrophic fungal plant pathogen Ustilago maydis

Kämper

Kahmann

Bölker

et al. 2006

Nature

1,073

1,263

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Hoxa9 and Meis1 Are Key Targets for MLL-ENL-Mediated Cellular Immortalization

Zeisig

Milne

García-Cuéllar

et al. 2004

Molecular and Cellular Biology

306

319

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Conditional oncogenes provide a powerful tool for studying early events in transformation. Here we applied this approach to dissect the mechanism of leukemic transformation by MLL fusion proteins. MLL, located at 11q23, is rearranged in a variety of human acute lymphoid and myeloid leukemias. Our goals were to determine if MLL-induced growth transformation is reversible, to characterize the effect of MLL fusion protein expression on cell proliferation, differentiation, and survival in physiologically relevant cells, and finally to identify genes regulated by MLL fusion that are important for transformation.

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Killing of leukemic cells with a BCR/ABL fusion gene by RNA interference (RNAi)

et al. 2002

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Short 21-mer double-stranded RNA (dsRNA) molecules have recently been employed for the sequence-specific silencing of endogenous human genes. This mechanism, called RNA interference (RNAi), is extremely potent and requires only a few dsRNA molecules per cell to silence homologous gene mRNA expression. We used dsRNA targeting the M-BCR/ABL fusion site to kill leukemic cells with such a rearrangement. Transfection of dsRNA specific for the M-BCR/ABL fusion mRNA into K562 cells depleted the corresponding mRNA and the M-BCR/ ABL oncoprotein. This was demonstrated by real-time quantitative PCR and Western blots. The BCR/ABL knockdown was accompanied by strong induction of apoptotic cell death. Leukemic cells without BCR/ABL rearrangement were not killed by M-BCR/ABL-dsRNA. In addition, to corroborate the extraordinary sequence specificity of RNAi, we designed another RNA oligo matching the M-BCR/ABL fusion site but having two point mutations within its central region. We show that these two point mutations abolished both p210 reduction and induction of apoptosis in K562 cells. Finally, we compared leukemic cell killing by RNAi to that caused by the ABL kinase tyrosine inhibitor, STI 571, Imatinib. For full induction of apoptosis, dsRNA targeting M-BCR/ ABL required 24 h more than Imatinib. This may be caused by the relatively long half-life of the BCR/ABL oncoprotein, which is not targeted by the RNAi mechanism, but is affected by STI 571. When we applied ds M-BCR/ABL RNA and STI 571 in combination, we did not observe a further increase in the induction of apoptosis. Nevertheless, these data may open a field for further studies towards gene-therapeutic approaches using RNA interference to kill tumor cells with specific genetic abnormalities.

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Uta Fuchs

A Mammalian microRNA Expression Atlas Based on Small RNA Library Sequencing

Insights from the genome of the biotrophic fungal plant pathogen Ustilago maydis

Hoxa9 and Meis1 Are Key Targets for MLL-ENL-Mediated Cellular Immortalization

Killing of leukemic cells with a BCR/ABL fusion gene by RNA interference (RNAi)

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