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Paper Details

Resident microbes shape the vaginal epithelial glycan landscape.
Sci Transl Med
3
2023
BV, BV cells, Bacterial vaginosis, Epithelial cells, carbohydrates, cultured VK2 vaginal epithelial cells, epithelial gene, galactose, glycosyl hydrolase enzymes, human, normal vaginal epithelial cells, primary epithelial cells, sialylated, vaginal epithelial, vaginal epithelial cells, women
Author NameAffiliation
Sara Brin RosenthalCenter for Computational Biology and Bioinformatics, university of california san diego
Sara Brin RosenthalCenter for Computational Biology and Bioinformatics, university of california san diego
Kathleen M FischUniversity of California San Diego (university of california san diego)
Kathleen M FischCenter for Computational Biology and Bioinformatics, university of california san diego
Kathleen M FischUniversity of California San Diego (university of california san diego)
Kathleen M FischCenter for Computational Biology and Bioinformatics, university of california san diego
Jeffrey F PeipertIndiana University School of Medicine
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