Add to ORKGDouble-stranded RNA-binding proteins are key elements in the intracellular localization of mRNA and its local translation. Staufen is a double-stranded RNA binding protein involved in the localised translation of specific mRNAs during Drosophila early development and neuronal cell fate. The human homologue Staufen1 forms RNA-containing complexes that include proteins involved in translation and motor proteins to allow their movement within the cell, but the mechanism underlying translation repression in these complexes is poorly understood. Here we show that human Staufen1-containing complexes contain essential elements of the gene silencing apparatus, like Ago1-3 proteins, and we describe a set of miRNAs specifically associated to complexe...
miRNAs are known to regulate many aspects of neurodevelopment. They participate at different stages ...
This is the final version. Available from Life Science Alliance via the DOI in this recordDuring mRN...
Summary: Faithful cellular differentiation requires temporally precise activation of gene expression...
<div><p>Double-stranded RNA-binding proteins are key elements in the intracellular localization of m...
Double-stranded RNA-binding proteins are key elements in the intracellular localization of mRNA and ...
The dsRNA-binding protein Staufen was the first RNA-binding protein proven to play a role in RNA loc...
microRnA-mediated gene regulation is important in many physiological processes. Here we explore the ...
While most miRNA knockouts exhibit only subtle defects, a handful of miRNAs are pro-foundly required...
The morphology and number of dendritic spines have been associated with learning and memory. Abnorma...
During mRNA localization, RNA-binding proteins interact with specific structured mRNA localization m...
Staufen (Stau) is a double-stranded RNA-binding protein (dsRBP) originally identified as an mRNA tra...
SummaryRNA-binding proteins play crucial roles in directing RNA translation to neuronal synapses. St...
SummaryThe cellular mechanisms that regulate self-renewal versus differentiation of mammalian somati...
Transcription factors and microRNAs (miRNAs) are two important classesof trans-regulators indifferen...
Mammalian Staufen2 (Stau2) is a member of the double-stranded RNA-binding protein family. Its expres...
miRNAs are known to regulate many aspects of neurodevelopment. They participate at different stages ...
This is the final version. Available from Life Science Alliance via the DOI in this recordDuring mRN...
Summary: Faithful cellular differentiation requires temporally precise activation of gene expression...
<div><p>Double-stranded RNA-binding proteins are key elements in the intracellular localization of m...
Double-stranded RNA-binding proteins are key elements in the intracellular localization of mRNA and ...
The dsRNA-binding protein Staufen was the first RNA-binding protein proven to play a role in RNA loc...
microRnA-mediated gene regulation is important in many physiological processes. Here we explore the ...
While most miRNA knockouts exhibit only subtle defects, a handful of miRNAs are pro-foundly required...
The morphology and number of dendritic spines have been associated with learning and memory. Abnorma...
During mRNA localization, RNA-binding proteins interact with specific structured mRNA localization m...
Staufen (Stau) is a double-stranded RNA-binding protein (dsRBP) originally identified as an mRNA tra...
SummaryRNA-binding proteins play crucial roles in directing RNA translation to neuronal synapses. St...
SummaryThe cellular mechanisms that regulate self-renewal versus differentiation of mammalian somati...
Transcription factors and microRNAs (miRNAs) are two important classesof trans-regulators indifferen...
Mammalian Staufen2 (Stau2) is a member of the double-stranded RNA-binding protein family. Its expres...
miRNAs are known to regulate many aspects of neurodevelopment. They participate at different stages ...
This is the final version. Available from Life Science Alliance via the DOI in this recordDuring mRN...
Summary: Faithful cellular differentiation requires temporally precise activation of gene expression...