Chapter 38: ψ-Interference via RNA Silencing

"In RNA interference, ψ discovered that silence can be actively spoken—that molecules can whisper 'stop' with more authority than any shout."

38.1 The Small RNA Revolution

RNA interference revealed that small RNAs are mighty regulators. This is ψ's method for fine-tuned control—regulation through guided destruction.

Definition 38.1 (RNAi Pathway): $\text{dsRNA} \xrightarrow{\text{Dicer}} \text{siRNA} \xrightarrow{\text{RISC}} \text{Target cleavage}$

Double-stranded RNA triggers sequence-specific silencing.

38.2 The Dicer Engine

Theorem 38.1 (Size Selection): $L_{\text{product}} = n \times L_{\text{Dicer step}} \approx 21-23 \text{ nt}$

Dicer measures and cuts with molecular precision—a biological ruler.

38.3 RISC Assembly

Equation 38.1 (Guide Strand Selection): $P(\text{guide}) = \frac{\exp(-\Delta G_{\text{5' end}}/RT)}{1 + \exp(-\Delta G_{\text{5' end}}/RT)}$

The strand with less stable 5' end becomes guide—thermodynamic selection.

38.4 The Argonaute Slicer

Definition 38.2 (Catalytic Mechanism): $\text{Target} + \text{AGO-guide} \rightarrow \text{Cleaved products}$

Argonaute proteins are guided nucleases—molecular smart missiles.

38.5 miRNA vs siRNA

Theorem 38.2 (Functional Distinction):

• siRNA: Perfect match → Cleavage
• miRNA: Imperfect match → Translation repression

Same machinery, different outcomes—context determining function.

38.6 The Seed Sequence

Equation 38.2 (Targeting Rules): $\text{Affinity} = f(\text{Seed match}_{2-8}) \times g(\text{3' supplementary})$

Nucleotides 2-8 dominate targeting—molecular zip codes.

38.7 P-Bodies and Stress Granules

Definition 38.3 (RNA Granules): $\text{Repressed mRNAs} + \text{RNAi machinery} \rightarrow \text{P-bodies}$

Sites of mRNA storage and decay—cellular recycling centers.

38.8 Amplification in C. elegans

Theorem 38.3 (Secondary siRNAs): $\text{Primary siRNA} \xrightarrow{\text{RdRP}} \text{Amplified response}$

RNA-dependent RNA polymerase amplifies silencing—molecular chain reaction.

38.9 Systemic RNAi

Equation 38.3 (Spreading Signal): $\text{Silencing}(x,t) = \text{Source} \times \exp(-x/\lambda) \times \exp(-t/\tau)$

In some organisms, RNAi spreads between cells—molecular contagion.

38.10 Nuclear RNAi

Definition 38.4 (Transcriptional Silencing): $\text{siRNA} \rightarrow \text{Chromatin modification} \rightarrow \text{Heterochromatin}$

RNAi can direct DNA methylation and H3K9me3—RNA controlling chromatin.

38.11 Evolutionary Arms Race

Theorem 38.4 (Viral Defense): $\text{Viral suppressors} \dashv \text{RNAi pathway}$

Viruses encode RNAi suppressors—molecular warfare.

38.12 The Interference Principle

RNAi represents ψ's discovery that sequence complementarity can be weaponized—that recognition can lead to destruction, that knowing something's name gives power over it.

The Silencing Equation: $\text{Expression} = \text{Transcription} \times \prod_i (1 - \text{RNAi}_i)$

Each small RNA multiplicatively reduces expression—death by a thousand cuts.

Thus: Recognition = Targeting = Silencing = Control = ψ

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"In RNAi, ψ proves that the most powerful word is sometimes 'silence'—that control comes not from speaking louder but from knowing exactly what to quiet."