| back 1 - E2/E3 enzyme for protein quality control (targets orphan
proteins, ribosomes)
- Client selection uses ubiquitin
binding + cofactor (NAP1L1)
- Initial ubiquitin on client → ↑
UBE2O binding → multi-mono-ubiquitylation (feed-forward)
- NAP1L1 acts as adaptor to recruit specific clients
- Has
SH3-like ubiquitin-binding domain for client recognition
- Autoinhibited → activated upon client/ubiquitin binding
(multivalency drives selection)
|
| back 2 - Degrades polyubiquitylated proteins (ATP-dependent)
- Steps: recognition → deubiquitylation → unfolding →
translocation → degradation
- Needs unstructured region to
initiate degradation
- Processive: fully degrades once
committed
- Regulated (DUBs, ubiquitin chains, phosphorylation)
to ensure specificity + control
|
| back 3 - Genome-wide CRISPR screen → finds regulators of cell
density–controlled growth
- Key hit: TRAF3 (normally inhibits
NF-κB signaling)
- Loss of TRAF3 → activates noncanonical
NF-κB
- Activates innate immune signaling → continued
proliferation at high density
- Bypasses normal controls
(independent of YAP/TAZ + CDK inhibitors)
- Mechanism:
prevents entry into quiescence
|
| back 4 - Technique: sequences ribosome-protected mRNA fragments → shows
where ribosomes sit on transcripts
- Provides codon-level
resolution of translation
- Measures:
- Translation
efficiency of genes
- Ribosome density along mRNAs
- Start/stop sites, pausing, frameshifting
- Allows genome-wide view of protein synthesis
- Reveals
new regulatory features: upstream ORFs, alternative initiation,
translational control
|