Add to ORKGAbstract: Recent research data reveal complex, network-based interactions between mobile elements and regulatory systems of eukaryotic cells. In this article, we focus on regulatory interactions between Alu elements and micro RNAs (miRNAs). Our results show that the majority of the Alu sequences inserted in 3’UTRs of analyzed human genes carry strong potential target sites for at least 53 different miRNAs. Thus, 3’UTR-located Alu elements may play the role of mobile regulatory modules that supply binding sites for miRNA regulation. Their abundance and ability to distribute a set of certain miRNA target sites may have an important role in establishment, extension, network organization, and, as we suppose – in the regulation and environment-d...
Animal miRNAs are a large class of small regulatory RNAs that are known to directly and negatively r...
Micro-RNA (miRNA or miR) regulates at least 60% of the genes in the human genome through their targe...
Micro-RNA (miRNA or miR) regulates at least 60% of the genes in the human genome through their targe...
Recent research data reveal complex, network-based interactions between mobile elements and regulato...
Recent research data reveal complex, network-based interactions between mobile elements and regulato...
Motivation: The massive spread of repetitive elements in the human genome presents a substantial cha...
Abstract Background Despite many studies on the biogenesis, molecular structure and biological funct...
p53 is a transcription factor that governs numerous stress response pathways within the cell. Mainta...
Repetitive Alu and Alu-related elements are present in primates, tree shrews (Scandentia), and roden...
Repetitive Alu and Alu-related elements are present in primates, tree shrews (Scandentia), and roden...
This paper connects Alu repeats, the most abundant repetitive elements in the human genome and micro...
This paper connects Alu repeats, the most abundant repetitive elements in the human genome and micro...
<div><p>MicroRNAs (miRNAs) are small RNA molecules that play important roles in gene regulation and ...
MicroRNAs (miRNAs) are small RNA molecules that play important roles in gene regulation and translat...
Abstract Background The primate-specific Alu elements, which originated 65 million years ago, exist ...
Animal miRNAs are a large class of small regulatory RNAs that are known to directly and negatively r...
Micro-RNA (miRNA or miR) regulates at least 60% of the genes in the human genome through their targe...
Micro-RNA (miRNA or miR) regulates at least 60% of the genes in the human genome through their targe...
Recent research data reveal complex, network-based interactions between mobile elements and regulato...
Recent research data reveal complex, network-based interactions between mobile elements and regulato...
Motivation: The massive spread of repetitive elements in the human genome presents a substantial cha...
Abstract Background Despite many studies on the biogenesis, molecular structure and biological funct...
p53 is a transcription factor that governs numerous stress response pathways within the cell. Mainta...
Repetitive Alu and Alu-related elements are present in primates, tree shrews (Scandentia), and roden...
Repetitive Alu and Alu-related elements are present in primates, tree shrews (Scandentia), and roden...
This paper connects Alu repeats, the most abundant repetitive elements in the human genome and micro...
This paper connects Alu repeats, the most abundant repetitive elements in the human genome and micro...
<div><p>MicroRNAs (miRNAs) are small RNA molecules that play important roles in gene regulation and ...
MicroRNAs (miRNAs) are small RNA molecules that play important roles in gene regulation and translat...
Abstract Background The primate-specific Alu elements, which originated 65 million years ago, exist ...
Animal miRNAs are a large class of small regulatory RNAs that are known to directly and negatively r...
Micro-RNA (miRNA or miR) regulates at least 60% of the genes in the human genome through their targe...
Micro-RNA (miRNA or miR) regulates at least 60% of the genes in the human genome through their targe...