Studies | Unique Samples per Visibility Status | Public Samples per Data Type | Users | Jobs |
---|---|---|---|---|
public: 753 private: 171 sandbox: 2,587 submitted to EBI: 838 |
public: 391,239 private: 115,579 sandbox: 539,801 submitted to EBI: 307,807 submitted to EBI (prep): 364,171 |
16S: 360,572 18S: 11,992 ITS: 14,645 Metagenomic: 64,696 Full Length Operon: 803 Metatranscriptomic: 11,764 Metabolomic: 407 Genome Isolate: 1,131 |
13,016 | 756,660 |
Group B Streptococcus (GBS) in the vaginal tract is associated with increased risk of adverse pregnancy outcomes. GBS colonization is transient in nature, likely reflecting contributions of pathogen determinants, interactions with commensal flora, and host factors, making this environment particularly challenging to understand. Zinc deficiency is a global concern largely associated with preterm birth but the impact of zinc deficiency on vaginal health has not been studied. Here we use a murine model of GBS vaginal colonization to assess the role of dietary zinc deficiency on GBS burden and impacts on the vaginal microbiome. We show vaginal community turnover during GBS colonization that is driven by computationally predictable changes in key taxa. We identified that Akkermansia muciniphila impacts GBS murine colonization and is associated with birth outcome in a human cohort. These findings reveal the importance and complexity of zinc availability and host microbiome to GBS vaginal persistence.