Groenlanda confortabil pentru abcc11 gene Planare Înfricoșător vocal
ABCC11 Gene: Ear wax and no body odor
ABCC11 Gene: Ear wax and no body odor
Frontiers | Pharmacogenetics of human ABC transporter ABCC11: new insights into apocrine gland growth and metabolite secretion
Earwax, osmidrosis, and breast cancer: why does one SNP (538G>A) in the human ABC transporter ABCC11 gene determine earwax type? - Toyoda - 2009 - The FASEB Journal - Wiley Online Library
File:World map ABCC11 A Allele.svg - Wikimedia Commons
Vital Learning Center - Fun Fact! When you go to Korea, you have to bring your own deodorant. Why? Only 0.006 percent of the Korean population have the ABCC11 gene, which is
The Pharmacogenetics of Body Odor: As Easy as ABCC? - ScienceDirect
ABCC11 Gene - GeneCards | MRP8 Protein | MRP8 Antibody
Admixture with indigenous people helps local adaptation: admixture-enabled selection in Polynesians | BMC Ecology and Evolution | Full Text
ABCC11 - Wikipedia
ABCC11 Gene - GeneCards | MRP8 Protein | MRP8 Antibody
ABCC11 - Wikipedia
ABCC11 Gene - GeneCards | MRP8 Protein | MRP8 Antibody
Frontiers | Pharmacogenetics of human ABC transporter ABCC11: new insights into apocrine gland growth and metabolite secretion
Characterising private and shared signatures of positive selection in 37 Asian populations | European Journal of Human Genetics
Human Gene ABCC11 (uc010vgl.1)
Genes and Cultures | Notes on Intercultural Communication
ABCC11 Gene Makes Koreans Genetically Mutated? - Supari.in
A SNP in the ABCC11 gene is the determinant of human earwax type | Nature Genetics
A Functional ABCC11 Allele Is Essential in the Biochemical Formation of Human Axillary Odor - ScienceDirect
How do genes affect earwax?
Why the Chinese don't buy deodorant – Gene Expression
Japanese map of the earwax gene frequency: a nationwide collaborative study by Super Science High School Consortium | Journal of Human Genetics
ABCC11 - Wikipedia
Nutrients | Free Full-Text | Soy Isoflavone Genistein Inhibits an Axillary Osmidrosis Risk Factor ABCC11: In Vitro Screening and Fractional Approach for ABCC11-Inhibitory Activities in Plant Extracts and Dietary Flavonoids