Passage 7: Nucleic Acids
A recent study has identified a novel long non-coding RNA (lncRNA) that plays
a crucial role in the regulation of gene expression during embryonic development.
This lncRNA, named EMBRYONIC REGULATOR 1 (ER1), is highly conserved across
vertebrate species and is expressed specifically in the developing nervous system.
ER1 is a 2.5 kb transcript that is polyadenylated but does not contain any open
reading frames (ORFs) longer than 100 codons. Structural analysis of ER1 using
chemical probing methods has revealed a complex secondary structure with
multiple stem-loops and pseudoknots. These structural elements are critical for
ER1’s function, as mutations that disrupt the secondary structure result in a loss of
regulatory activity.
Functional studies have shown that ER1 acts as a scaffold for chromatin modifying
complexes, specifically the Polycomb Repressive Complex 2 (PRC2). ER1 binds to
PRC2 through a conserved 150 nt region located at its 3’ end, which folds into a
distinct stem-loop structure. This interaction recruits PRC2 to specific genomic
loci, resulting in the trimethylation of histone H3 lysine 27 (H3K27me3) and the
repression of target gene expression.
Notably, ER1 appears to regulate the expression of genes involved in neuronal
differentiation and patterning. Knockdown of ER1 in zebrafish embryos using
morpholino antisense oligonucleotides results in severe defects in brain
development, including a reduction in the size of the forebrain and midbrain
regions. RNA-seq analysis of ER1-depleted embryos has identified several key
neuronal transcription factors as potential targets of ER1-mediated repression.
To further investigate the mechanism of ER1 function, researchers have employed
CRISPR-Cas9 technology to generate a series of deletion mutants in mouse
embryonic stem cells (mESCs). By removing specific regions of the ER1 locus
and assessing the effects on PRC2 recruitment and target gene expression, they
have been able to map functional domains within the lncRNA. These studies have
revealed that, in addition to the PRC2-binding region, ER1 contains a 5’ domain that
is required for its localization to chromatin.
Based on the known functions of lncRNAs and the information provided in the
passage, which of the following mechanisms is least likely to be involved in ER1’s
regulation of neuronal transcription factors?
A) ER1 could act as a decoy, sequestering transcription factors away from their targets
B) ER1 could serve as a scaffold for the assembly of transcriptional activator
complexes
C) ER1 could guide chromatin modifying enzymes to specific genomic loci
D) ER1 could enhance the degradation of neuronal transcription factor mRNAs
Correct Answer: D
While lncRNAs have been shown to regulate gene expression through various
mechanisms, including acting as decoys, scaffolds, and guides, they are not
typically involved in enhancing the degradation of target mRNAs. This function is
more commonly associated with microRNAs.
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