Eastern Rainforest
88 million years of isolation. Alkaloid and terpenoid scaffolds found nowhere else on Earth.
Madagascar · Multi-Omics · Nagoya Compliant
Unlocking nature's
Unlocking nature's
intelligence.
12,000 endemic species. 88 million years of isolated evolution. The world's first specimen-level multi-omics database — built legally, at scale, and at the resolution biological AI requires.
12,000+
Endemic species
0.08%
Genomically characterised
8
Data layers per specimen
98%
Unscreened by pharma
12,000+
endemic vascular plant species
0.08%
with chromosome-level genomes sequenced
8
data layers per specimen
01 — The Island
160 million years of
isolated evolution.
Over 12,000 endemic vascular plant species have evolved in complete separation from mainland Africa — generating alkaloid and terpenoid scaffolds, biosynthetic gene clusters, and stress-tolerance mechanisms that exist nowhere else on Earth. Fewer than 10 have chromosome-level genomes in any public database.
Explore the ecoregions02 — The Platform
8 data layers.
One GUID.
Built for AI.
Every specimen linked at individual level — reference genomes, transcriptomics, metabolomics, phenotypic traits, soil chemistry, and germplasm. FAIR-compliant, AI-ready, and delivered with blockchain-verified provenance.
See the full data architecture03 — Provenance
The only legally
defensible pathway.
Every specimen carries blockchain-verified PIC/MAT provenance, registered with the ABS Clearing-House. EU Regulation 511/2014 compliant — the first access system with a fully auditable chain from field specimen to commercial licence.
How Nagoya compliance works04 — Who We Work With
Pharma. Agritech.
AI platforms.
Three industries. One dataset they cannot build themselves.
Pharma & Drug Discovery
Novel alkaloid scaffolds and biosynthetic gene clusters for AI-driven drug discovery.
Agritech & Crop Science
Stress-tolerance genes from the world's most extreme edaphic specialists.
AI & Foundation Models
8-layer multi-omics at specimen-level GUID linkage. Non-public. Non-replicable.
Madagascar's Seven Ecoregions
Seven distinct biochemical universes.
Distinct substrate chemistry, rainfall patterns, and millions of years of evolutionary isolation. Almost no biochemical overlap between them.
Spiny Desert
Extreme drought stress drove osmotic metabolites absent from every crop genome sequenced to date.
Limestone Karst
Micro-endemics in razor-edged tsingy. Phenolic arrays with no known analogues in global databases.
Ultramafic Substrates
Heavy-metal hyperaccumulators. Chelation chemistries built across millions of years of nickel exposure.
Western Dry Forest
Fire-adapted resins and bark-alkaloid reserves. Absent from any humid-forest genomic dataset.
Highlands & Plateau
Cold-adapted alkaloid pathways and UV-protective flavonoids. Absent from all lowland reference sets.
Sambirano Rainforest
The northern transition forest. Secondary metabolites from both humid and subhumid systems in one corridor.
The Extinction Clock
The window to build this dataset is closing.
63% of Madagascar's endemic plant species are already threatened with extinction. The primary driver is habitat loss — and it is accelerating. Species not collected before 2030 may not be collectable at all.
63%
of Madagascar's endemic plants are threatened with extinction
>90%
of IsoGentiX target species have zero public genomic data
2030
the collection deadline for many threatened biomes at current rates
<1%
of Madagascar's pharmacopeia screened for commercial potential
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Unlocking nature's intelligence.
Founding Partner positions are available across pharma, agritech, and AI. Domain exclusivity. First access. The competitive advantage that cannot be replicated.