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Currently, off-target effects of CRISPRi are minimal, and show a reduced response and sensitivity to single-base mismatches. [44] Importantly, when non-specific effects do inevitably occur they are reversible, time-dependent, and less damaging than DNA editing, making them effective alternatives that can limit the off-target burden when possible.
Antisense oligonucleotides can be used to target a specific, complementary (coding or non-coding) RNA. If binding takes place this hybrid can be degraded by the enzyme RNase H. [12] RNase H is an enzyme that hydrolyzes RNA, and when used in an antisense oligonucleotide application results in 80-95% down-regulation of mRNA expression. [6]
An example of this is the repurposing of the antimineralocorticoid and diuretic spironolactone, which was found to produce feminization and gynecomastia as side effects, for use as an antiandrogen in the treatment of androgen-dependent conditions like acne and hirsutism in women. [1] Metformin also causes off-target activity. [citation needed]
Gapmer antisense oligonucleotides (ASOs) have the potential to cause unintended, off-target effects. These off-target effects are produced when the gapmer binds to mRNA with a sufficient degree of complementarity to the target mRNA, blocking or down-regulating the translation of unintended proteins. [12] The functional consequences of gapmer ...
It appears that these effects are sequence-specific; as in most cases, if a Morpholino is associated with non-target effects, the 4-base mismatch Morpholino will not trigger these effects. A cause for concern in the use of Morpholinos is the potential for "off-target" effects.
Antagomirs, also known as anti-miRs, are a class of chemically engineered oligonucleotides designed to silence endogenous microRNAs (also known as miRNAs or miRs). [1] [2] [3] Antagomirs are a kind of antisense oligonucleotide, as their sequence is complementary to their specific miRNA target. Their structure has modifications so as to make ...
Antisense therapy is a form of treatment that uses antisense oligonucleotides (ASOs) to target messenger RNA (mRNA). ASOs are capable of altering mRNA expression through a variety of mechanisms, including ribonuclease H mediated decay of the pre-mRNA, direct steric blockage, and exon content modulation through splicing site binding on pre-mRNA. [1]
Other variations, therefore, employ three or four oligonucleotides, two of which may be non-mutagenic oligonucleotides that cover two convenient restriction sites and generate a fragment that can be digested and ligated into a plasmid, whereas the mutagenic oligonucleotide may be complementary to a location within that fragment well away from ...