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Chapter 53: Nuclear Import and Collapse Filtering

"At the nuclear pore, ψ maintains the ultimate cellular border—a selective gateway that reads molecular passports, allowing only authorized proteins into the genome's inner sanctum."

53.1 The Nuclear Gateway

Nuclear import represents ψ's most sophisticated transport system—a selective barrier that maintains nuclear-cytoplasmic compartmentalization while allowing regulated exchange of thousands of different proteins.

Definition 53.1 (Nuclear Pore Complex): NPC={120 MDa,30 different Nups,8-fold symmetry}\text{NPC} = \{120 \text{ MDa}, \sim 30 \text{ different Nups}, 8\text{-fold symmetry}\}

Massive protein complex spanning nuclear envelope.

53.2 The Permeability Barrier

Theorem 53.1 (Size Exclusion): Passive diffusion limit40 kDa\text{Passive diffusion limit} \approx 40 \text{ kDa} Active transport25 MDa\text{Active transport} \leq 25 \text{ MDa}

Selective permeability based on size.

53.3 Nuclear Localization Signals

Equation 53.1 (Classic NLS): Monopartite:K(K/R)X(K/R)\text{Monopartite}: \text{K(K/R)X(K/R)} Bipartite:(K/R)2X1012(K/R)3\text{Bipartite}: \text{(K/R)}_2\text{X}_{10-12}\text{(K/R)}_3

Basic residue clusters recognized.

53.4 Importin Recognition

Definition 53.2 (Adapter System): Importin-α+NLSComplex\text{Importin-}\alpha + \text{NLS} \rightarrow \text{Complex} Complex+Importin-βTransport complex\text{Complex} + \text{Importin-}\beta \rightarrow \text{Transport complex}

Modular recognition system.

53.5 The RanGTP Gradient

Theorem 53.2 (Directional Transport): [RanGTP]nucleus>>[RanGTP]cytoplasm[\text{RanGTP}]_{\text{nucleus}} >> [\text{RanGTP}]_{\text{cytoplasm}}

Chemical gradient driving directionality.

53.6 FG-Nup Interactions

Equation 53.2 (Translocation): ktransport[FG-binding sites]×Affinityk_{\text{transport}} \propto \text{[FG-binding sites]} \times \text{Affinity}

Phenylalanine-glycine repeats as stepping stones.

53.7 The Transport Cycle

Definition 53.3 (Import Steps):

  1. Cargo-importin binding (cytoplasm)
  2. NPC docking and translocation
  3. RanGTP binding (nucleus)
  4. Cargo release
  5. Importin recycling

Cyclic process consuming RanGTP.

53.8 Importin-β Superfamily

Theorem 53.3 (Multiple Pathways): Importin-β family>20|\text{Importin-}\beta\text{ family}| > 20

Different importins for different cargoes.

53.9 Regulated Import

Equation 53.3 (Signal Masking): Phosphorylation near NLSKdimportin\text{Phosphorylation near NLS} \rightarrow \downarrow K_d^{\text{importin}}

Post-translational control of import.

53.10 The Selective Phase Model

Definition 53.4 (FG-Phase): FG domainsLiquid-liquid phase\text{FG domains} \rightarrow \text{Liquid-liquid phase}

Selective phase allowing receptor passage.

53.11 Nuclear Export

Theorem 53.4 (Reverse Transport): NES+CRM1+RanGTPExport\text{NES} + \text{CRM1} + \text{RanGTP} \rightarrow \text{Export}

Leucine-rich signals for nuclear exit.

53.12 The Filtering Principle

Nuclear import embodies ψ's principle of selective permeability—maintaining compartment identity through molecular recognition while enabling regulated exchange of information.

The Import Equation: ψnuclear=I[ψcytoplasmic]×Θ(NLS)×f(RanGTP)\psi_{\text{nuclear}} = \mathcal{I}[\psi_{\text{cytoplasmic}}] \times \Theta(\text{NLS}) \times f(\text{RanGTP})

Conditional transport maintaining nuclear identity.

Thus: Import = Selection = Control = Identity = ψ

"At the nuclear pore, ψ creates the ultimate checkpoint—reading molecular credentials, allowing only authorized proteins near the genetic material. The NPC is not just a hole but a smart gate, maintaining the sanctity of the nucleus while enabling necessary communication."