Epigenome-wide analysis of DNA-methylation signatures following climate-related disasters.

Wenzhong Huang; Rongbin Xu; Yao Wu; Zhengyu Yang; Zhoufeng Ye; Ee Ming Wong; Melissa C Southey; John L Hopper; Michael J Abramson; Shanshan Li; Shuai Li; Yuming Guo

Journal article

Epigenome-wide analysis of DNA-methylation signatures following climate-related disasters.

Wenzhong Huang, Rongbin Xu, Yao Wu, Zhengyu Yang, Zhoufeng Ye, Ee Ming Wong, Melissa C Southey, John L Hopper, Michael J Abramson, Shanshan Li, Shuai Li, Yuming Guo

BMC Med | Published : 2026

DOI: 10.1186/s12916-026-04868-y

Open access

Abstract

BACKGROUND: Floods and tropical cyclones (TCs), two of the most frequent and costliest climate-related disasters worldwide, have been linked to sustained health risks extending beyond acute hazards. However, evidence on the underlying epigenetic mechanisms remains scarce. We aimed to characterize DNA methylation patterns associated with exposure to floods and TCs of varying intensities. METHODS: We collected peripheral blood samples from 479 women (132 twin pairs and 215 of their sisters) across Australia. Blood-derived DNA methylation profiles were assessed using the Illumina HumanMethylation450 BeadChip array. Daily flood and TC exposure data for the 6 years preceding each blood draw were ..

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