Ageless Beauty

已验证

Genes & Beauty -- Reshaping the Science of Beauty with Computing

Health and longevity are the foundation; beauty is the growth engine. How your genes affect your beauty--collagen loss rate, photoaging sensitivity, hair loss risk, pigmentation tendency--is not vague "genetic destiny" but quantifiable percentile ranking. The same WGS data supports both health/longevity interpretation and beauty interpretation.

Beauty Seekers

Understand how your genes affect your beauty--which aesthetic treatments have good expected outcomes, which need caution

Aesthetic Clinics / Brands

Evaluate gene-level precision aesthetics and anti-aging peptide screening capabilities

Investors / Peers

Evaluate the differentiation barriers and market potential of the "Genes & Beauty" sector

Understand "Genes & Beauty" in 5 Minutes

Your beauty code is written in your genes--we can read it

1

Your skin aging speed is 60% determined by genes--MMP1 gene variant carriers lose collagen 40% faster than average

2

MC1R gene doesn't just determine red hair--its variants make you more sensitive to UV photoaging, with higher pigmentation risk after laser treatment

3

Androgenetic alopecia (AGA) is quantifiable--AR gene CAG repeat number + 5 risk loci = your hair loss probability

4

Collagen isn't just "take a supplement"--your COL1A1/COL3A1 genotype determines synthesis efficiency, different genotypes need different supplementation strategies

5

Trillions of microorganisms live on your skin surface--their composition is co-regulated by your HLA genotype and skin barrier gene (FLG)

6

DiVo doesn't sell skincare products--we compute causal maps combining your genotype, microbiome composition, and skin phenotype

7

High hairline ≠ hair loss--congenital high hairline areas simply have no hair follicles, drugs are ineffective. Follicle induction is the first "from-scratch" technology--using a five-factor combination to restart follicle morphogenesis on follicle-free skin

Causal Map

Genotype×Skin Phenotype+Microbiome+Follicle Induction=Beauty Solution

The same WGS data supports both health/longevity interpretation and beauty interpretation--marginal cost approaches zero.

Genotype × Aesthetic Phenotype Interaction Map

How your genes affect skin, hair, and aging

Gene LocusMetabolic PathwayAesthetic ImpactMechanism
MMP1/MMP3/MMP9Matrix MetalloproteinaseCollagen degradation rateMMP1 is the primary degrader of type I collagen; MMP1 promoter 1G/2G polymorphism affects expression level, 2G/2G type accelerates collagen loss by 30-40%
MC1RMelanocortin 1 ReceptorPhotoaging sensitivity + PigmentationMC1R R151C/R160Q/D294H variants weaken UV-induced melanin synthesis protection, accelerating photoaging, 2-3x pigmentation risk after laser
AR (CAG repeat)Androgen ReceptorAGA riskMales with CAG repeat ≤20 have significantly elevated AGA risk; combined with rs9296269 and 4 other risk loci, hair loss probability can be quantified
COL1A1/COL3A1Collagen SynthesisSkin support structure maintenanceCOL1A1 rs1800012 Sp1 binding site variant affects type I collagen transcription efficiency; COL3A1 variants affect skin elasticity
FLGFilaggrinSkin barrier functionFLG nonsense mutations (2282del4/R501X) cause filaggrin deficiency, fragile skin barrier, 2x increase in transepidermal water loss
SIRT1/SIRT6Sirtuin deacetylaseCore anti-aging regulationSIRT1 regulates p53/FOXO/NF-κB anti-aging pathways; SIRT6 maintains telomeric heterochromatin stability--both are anti-aging drug targets
WNT10B/SHH/NOGGINFollicle morphogenesis signalingFollicle induction potentialWNT10B is the master switch for follicle genesis, SHH initiates epithelial-mesenchymal interaction, Noggin antagonizes BMP to permit follicle formation--these three determine hairline position during embryogenesis and can be reactivated in adulthood
已验证科学基础坚固,已有实战验证数据

Of the four Ageless Beauty pipelines, the core computing engines of Pipeline A (PRS), Pipeline B (peptide screening), and Pipeline C (microbiome) are verified. Pipeline D (follicle induction) has a verified core engine, but the engineering design of the five-factor combination is still exploratory. Aesthetic Phenotype PRS is a risk assessment tool, not a diagnosis. Current GWAS data is predominantly European; targets with insufficient East Asian coverage are clearly marked "needs validation".

✓ What We Can Do

  • GWAS-based polygenic risk scoring for aesthetic targets (Pipeline A verified)
  • Protein 3D structure prediction + Pro-Prime stability + BoltzGen all-atom design + ProteinMPNN sequence design (Pipeline B verified)
  • 16S/ITS microbiome analysis (DADA2+MGnify) + host gene cross-mining (Pipeline C verified)
  • Chinese population calibration (GVM + NyuWa + WBBC)
  • B2B2C model--computing backbone for aesthetic/anti-aging institutions, not direct-to-consumer
  • Follicle induction five-factor structure prediction + engineering design (Pipeline D exploratory), IP licensing (ARM model)

✗ What We Don't Do

  • No clinical diagnosis--GBP is risk assessment, not dermatological diagnosis
  • No skincare product recommendations--we output causal maps, not product ads
  • No sequencing--we do computational analysis, samples provided by partners
  • No "gene editing for beauty"--gene editing is for genetic disease treatment, not aesthetics
  • No wet-lab experiments (follicle induction factor expression/purification/animal experiments delegated to partners)
  • Targets with insufficient East Asian GWAS coverage are marked "needs validation"
  • Follicle induction efficacy on human skin has not been validated by any team--this is frontier exploration

Glossary

Abbr.Full NameTranslationExplanation
PRSPolygenic Risk ScorePolygenic Risk ScoreAggregates small effects from multiple gene loci to quantify the overall genetic risk for a phenotype
MMPMatrix MetalloproteinaseMatrix MetalloproteinaseEnzyme family that degrades extracellular matrix (including collagen), a core driver of skin aging
MC1RMelanocortin 1 ReceptorMelanocortin 1 ReceptorRegulates melanin synthesis; variants cause light sensitivity and increased pigmentation risk
AGAAndrogenetic AlopeciaAndrogenetic AlopeciaThe most common hair loss type, co-regulated by AR gene and polygenic loci
GBPGenetic Beauty ProfileGenetic Beauty ProfilePersonalized "gene -> beauty" digital profile based on genomic data
FLGFilaggrinFilaggrinKey skin barrier protein; mutations cause fragile barrier and transepidermal water loss
SirtuinSirtuin familySirtuin familyNAD+-dependent protein deacetylases regulating aging, metabolism, and inflammation
Follicle InductionHair Follicle NeogenesisCreating new follicles on follicle-free skinUsing WNT10B and other five factors to restart embryonic follicle morphogenesis--from scratch, not repair