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Thomas Preiss

Showing results (51-60 of 92) with videos related to

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Nature Protocols|July 22, 2022
Selective footprinting of 40S and 80S ribosome subpopulations (Sel-TCP-seq) to study translation and its controlSusan Wagner, Jonathan Bohlen, Anna Herrmannova, et al.
G3 (Bethesda, Md.)|July 30, 2013
Yeast hEST1A/B (SMG5/6)-like proteins contribute to environment-sensing adaptive gene expression responsesXianning Lai, Traude Beilharz, Wei-Chun Au, et al.
Methods in Enzymology|October 10, 2007
Methods to analyze microRNA-mediated control of mRNA translationJennifer L Clancy, Marco Nousch, David T Humphreys, et al.
Plos One|June 17, 2010
Neuronal microRNA deregulation in response to Alzheimer's disease amyloid-betaNicole Schonrock, Yazi D Ke, David Humphreys, et al.
Molecular Cell|September 29, 2009
Drosophila miR2 primarily targets the m7GpppN cap structure for translational repressionAgnieszka Zdanowicz, Rolf Thermann, Joanna Kowalska, et al.
The Plant Cell|January 8, 2017
Transcriptome-Wide Mapping of RNA 5-Methylcytosine in Arabidopsis mRNAs and Noncoding RNAsRakesh David, Alice Burgess, Brian Parker, et al.
Molecular Cell|April 17, 2007
A network of multiple regulatory layers shapes gene expression in fission yeastDaniel H Lackner, Traude H Beilharz, Samuel Marguerat, et al.
Molecular & Cellular Proteomics : MCP|January 7, 2010
Global phosphoproteomics identifies a major role for AKT and 14-3-3 in regulating EDC3Mark Larance, Alexander F Rowland, Kyle L Hoehn, et al.
Life Science Alliance|July 10, 2024
Substrate diversity of NSUN enzymes and links of 5-methylcytosine to mRNA translation and turnoverMarco Guarnacci, Pei-Hong Zhang, Madhu Kanchi, et al.
Plos Genetics|May 5, 2011
A sustained dietary change increases epigenetic variation in isogenic miceCheryl C Y Li, Jennifer E Cropley, Mark J Cowley, et al.
Pageof 10

Showing results (51-60 of 92) with videos related to

Sort By:
Pageof 10
Nature Protocols|July 22, 2022
Selective footprinting of 40S and 80S ribosome subpopulations (Sel-TCP-seq) to study translation and its controlSusan Wagner, Jonathan Bohlen, Anna Herrmannova, et al.
G3 (Bethesda, Md.)|July 30, 2013
Yeast hEST1A/B (SMG5/6)-like proteins contribute to environment-sensing adaptive gene expression responsesXianning Lai, Traude Beilharz, Wei-Chun Au, et al.
Methods in Enzymology|October 10, 2007
Methods to analyze microRNA-mediated control of mRNA translationJennifer L Clancy, Marco Nousch, David T Humphreys, et al.
Plos One|June 17, 2010
Neuronal microRNA deregulation in response to Alzheimer's disease amyloid-betaNicole Schonrock, Yazi D Ke, David Humphreys, et al.
Molecular Cell|September 29, 2009
Drosophila miR2 primarily targets the m7GpppN cap structure for translational repressionAgnieszka Zdanowicz, Rolf Thermann, Joanna Kowalska, et al.
The Plant Cell|January 8, 2017
Transcriptome-Wide Mapping of RNA 5-Methylcytosine in Arabidopsis mRNAs and Noncoding RNAsRakesh David, Alice Burgess, Brian Parker, et al.
Molecular Cell|April 17, 2007
A network of multiple regulatory layers shapes gene expression in fission yeastDaniel H Lackner, Traude H Beilharz, Samuel Marguerat, et al.
Molecular & Cellular Proteomics : MCP|January 7, 2010
Global phosphoproteomics identifies a major role for AKT and 14-3-3 in regulating EDC3Mark Larance, Alexander F Rowland, Kyle L Hoehn, et al.
Life Science Alliance|July 10, 2024
Substrate diversity of NSUN enzymes and links of 5-methylcytosine to mRNA translation and turnoverMarco Guarnacci, Pei-Hong Zhang, Madhu Kanchi, et al.
Plos Genetics|May 5, 2011
A sustained dietary change increases epigenetic variation in isogenic miceCheryl C Y Li, Jennifer E Cropley, Mark J Cowley, et al.
Pageof 10