Name three types of RNA
mRNA (messenger RNA)
encodes proteins
tRNA (transport RNA)
acts as adaptor between mRNA and AA
rRNA (ribosomal RNA)
forms ribosome
others:
snRNA (small nuclear RNA)
has functions in various nuclear processes
snoRNA (small nucleolar RNA)
facilitates chemical modifications of RNA
miRNA (micro RNA)
regulates gene expression
siRNA (small interfering RNA)
silences gene expression
lncRNA (long non-coding RNA)
What is miRNA?
How is it produced?
How does it work?
= key regulator to gene expression
can potentially regulate hundrets of genes
pivotal rol in many diseases
-> used as biomarker and therapeutic target
Origin:
during transcription of DNA to mRNA, also production of pri-miRNA
processed by enzyme Drosha to pre-miRNA
transported from nucleus to cytosol
processed by Dicer enzyme to miRNA duplex
Mode of Action:
duplex miRNA consists of
mature strand
incorperated into RNA induced silencing complex (RISC)
-> guides RISC to target mRNA with complementary sequences in their 3' untranslated regions (UTRs)
-> leading to translational repression or degradation of the target mRNA
passenger strand
degraded
What is RNA interference (RNAi)?
= vital part of imune response to e.g. viruses
involved in maintaing DNA methylation
requires siRNAs
allows gene silencing in genome wide scale
great potential for tageted therapy
improved method -> CRISPR Cas
What is CRIPR Cas?
= precise gene-editing technology
usage of natural defense mechanism against viruses found in bacteria and archea
Process:
Cas9 forms complex with gRNA
-> guide RNA = specifically designed to match target seq
complex bindes to target sequence
Cas protein cuts the DNA double-strand, allowing changes in the DNA
e.g adding a sequence
repair with the cell’s natural repair mechanism
What is ceRNA?
What is a ceRNA model?
= competing endogenous RNA
= group of non-coding RNAs (miRNA, lncRNA, circRNA)
contains miRNA binding sites
influences the expression of target mRNAs by taking miRNAs from their original targets
-> competing for shared miRNA
ceRNA models
= visiualization of how changes in the expression of miRNA targets alter the number of unbound miRNAs and lead to observable changes in miRNA activity
What are the issues with conditional mutual information?
What is an alternative?
= mutual information under a specific condition
can only be computed for one triplet at a time
p-values are combined with Fisher’s method
-> loss of power
random permutation of gene expression vectors needed to infer an empirical p-value
even an fast implementaion does not allow genome wide inference
Alternative: sensitvity correlation
What are the challenges of sensitivity correlation?
significance
combinatorial effects of miRNA
How does the “null model” model scor values?
(sensitivity correlation)
null hypothesis:
condition Z has no influence on A and B
-> scor = 0
Improvement:
extend idea to multiple miRNAs
gain information among signifcant interactions
better p-values than meta-analyses
more degrees of freedom
needs to consider
gene-miRNA
gene-gene
miRNA-miRNA
improved significance
What is SPONGE?
= Sparse Partial correlation ON Gene Expression
-> tool for reporting significant ceRNA interactions (and other) efficiently on a genome-wide scale
How to make sure that the interaction calculated by SPONGE are actually caused by miRNA regulation?
Repeat analysis considering the “wrong” miRNAs
-> ceRNA networt reveals biomarkers
How can ceRNA activity be studied?
use single-sample enrichment scores for studying ceRNA activity with spongeEffect
-> takes thought of Gene Set Enrichment Analysis (GSEA) method
spongeEffect scores show ceRNA and miRNA regulatory activity in individual samples
-> scores are predictive of breast cancer subtypes and robust against batch effects
-> can be used as biomarkers
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