CRISPR Adaptive Immunity

The bacterial and archaeal immune system that stores spacer sequences and uses CRISPR-associated proteins to recognize invasive nucleic acids.

Core metadata

ID: crispr_adaptive_immunity
Era: Modern
First known date: 1987 (exact)
Region: Japan and global microbiology research
Review status: source_checked
Maturity: established

Prerequisites

Dependents

Fields

Genome Editing / CRISPR-Cas

Field lanes

Genome Editing / CRISPR-Cas: Foundations

Node sources

A programmable dual-RNA-guided DNA endonuclease in adaptive bacterial immunity (Science / PubMed, 2012, primary_paper) • Supports: node, maturity
The Nobel Prize in Chemistry 2020 (Nobel Prize, 2020, museum) • Supports: node, maturity

Prerequisite edge evidence

Edge/source evidence summary:

Prerequisite edges: 3
Average edge confidence: 70%
Prerequisite sources: 3
expert_inference: 3

Prerequisite	Type	Confidence	Evidence level	Note	Sources
Microbiology (Early Observations) (microbiology_early_observations)	historical_predecessor	75%	expert_inference	Microbiology (Early Observations) is an earlier historical predecessor or foundation, not a one-to-one engineering dependency.	A programmable dual-RNA-guided DNA endonuclease in adaptive bacterial immunity (Science / PubMed, 2012, primary_paper) • Supports: node, maturity, edge
DNA Sequencing (dna_sequencing)	enabling	68%	expert_inference	DNA Sequencing provides a capability that enables this technology without being the only possible path.	A programmable dual-RNA-guided DNA endonuclease in adaptive bacterial immunity (Science / PubMed, 2012, primary_paper) • Supports: node, maturity, edge
Molecular Biology (molecular_biology)	enabling	68%	expert_inference	Molecular Biology provides a capability that enables this technology without being the only possible path.	A programmable dual-RNA-guided DNA endonuclease in adaptive bacterial immunity (Science / PubMed, 2012, primary_paper) • Supports: node, maturity, edge

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