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NOA-GAPMER™
NOA-NMD™
NOA-Switch™
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Splice
to discover
Splice
to understand
Deciphering the complexity of the transcriptome to illuminate cell physiology and disease pathology.
Our Products
NOA-Switch™
Transcript
switching
Antisense OligoNucleotides for switching target transcript to an alternate splice-isoform
Modulation of specific splice event
Transcript-specific switching
Phenotype-based validation of targets
Pathway-centric and gene-family options
Covers major types of splicing patterns
Example Paper
PTBP1-Mediated Alternative Splicing Regulates the Inflammatory Secretome and the Pro-tumorigenic Effects of Senescent Cells
Georgilis
et al
. 2018.
Cancer Cell
NOA-GAPmer™
Transcript
knock-down
Antisense OligoNucleotides for target transcript knockdown
Induction of RNase H degradation
Transcript-specific knockdown
Phenotype-based validation of targets
Pathway-centric and gene-family options
Overcomes off-target issues (e.g. siRNA)
Example Paper
Gapmer, siRNA, SSO and their effects on transcript knockdown efficiency
Bin Muzakar
et al
. 2021.
Manuscript in preparation
NOA-NMD™
Transcript
knock-down
Antisense OligoNucleotides for target transcript knockdown
Induction of Nonsense-Mediated Decay (NMD)
Transcript-specific knockdown
Phenotype-based validation of targets
Pathway-centric and gene-family options
Overcomes off-target issues (e.g. siRNA)
Example Paper
MYC regulates the core pre-mRNA splicing machinery as an essential step in lymphomagenesis
Koh
et al
. 2015.
Nature
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NOA-Switch™
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NOA-GAPmer™
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NOA-NMD™
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Antisense OligoNucleotides
>
%
Transcriptome coverage