essenger RNA (mRNA) is one of the key factors that regulate cellular functions and is actively involved in numerous activities in the intracellular milieu.1 The dynamic alteration of specific mRNA at a particular time or location in cells usually implies significant changes of cellular condition.2 Aberrant mRNA dynamics is as-sociated with developmental and pathologi-cal abnormalities, suchas interruptedembry-onic development3 and cellular apoptosis.4 The dynamics of mRNA expression is a blue-print of cancer progress from benign to malignant stages.5 The mRNA expression signature of a given neuron reflects its devel
The brain develops from a relatively small number of neural stem cells whose highly regulated divisi...
Neurons are morphologically complex cells that rely on the compartmentalization of protein expressio...
Diverse cell types in the central nervous system (CNS) are generated by a relatively small pool of n...
The defining characteristic of neural stem cells (NSCs) is their ability to multiply through symmetr...
Almost every cell in any organism contains the same genomic content. Different cell types, however, ...
The progressive maturation and functional plasticity of the nervous system in health and disease inv...
Posttranscriptional gene regulation is of great importance for a range of cellular functions. The ac...
SummarySomatic stem cells contribute to tissue ontogenesis, homeostasis, and regeneration through se...
Somatic stem cells contribute to tissue ontogenesis, homeostasis, and regeneration through sequentia...
Neuronal morphogenesis, integration into circuits, and remodeling of synaptic connections occur in t...
Modifications of mRNAs can have a profound effect on cellular function and differentiation. In this ...
The complexity and cellular diversity of the adult brain arises from the proliferation and different...
The mammalian brain is made up of billions of neurons and supporting cells (glial cells), intricatel...
In neurons, translation of a message RNA can occur metres away from its transcriptional origin and i...
In neurons, translation of a message RNA can occur metres away from its transcriptional origin and i...
The brain develops from a relatively small number of neural stem cells whose highly regulated divisi...
Neurons are morphologically complex cells that rely on the compartmentalization of protein expressio...
Diverse cell types in the central nervous system (CNS) are generated by a relatively small pool of n...
The defining characteristic of neural stem cells (NSCs) is their ability to multiply through symmetr...
Almost every cell in any organism contains the same genomic content. Different cell types, however, ...
The progressive maturation and functional plasticity of the nervous system in health and disease inv...
Posttranscriptional gene regulation is of great importance for a range of cellular functions. The ac...
SummarySomatic stem cells contribute to tissue ontogenesis, homeostasis, and regeneration through se...
Somatic stem cells contribute to tissue ontogenesis, homeostasis, and regeneration through sequentia...
Neuronal morphogenesis, integration into circuits, and remodeling of synaptic connections occur in t...
Modifications of mRNAs can have a profound effect on cellular function and differentiation. In this ...
The complexity and cellular diversity of the adult brain arises from the proliferation and different...
The mammalian brain is made up of billions of neurons and supporting cells (glial cells), intricatel...
In neurons, translation of a message RNA can occur metres away from its transcriptional origin and i...
In neurons, translation of a message RNA can occur metres away from its transcriptional origin and i...
The brain develops from a relatively small number of neural stem cells whose highly regulated divisi...
Neurons are morphologically complex cells that rely on the compartmentalization of protein expressio...
Diverse cell types in the central nervous system (CNS) are generated by a relatively small pool of n...
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