Diabetic skin ulcers (DU) represent a major healthcare burden that is known to lead to amputations. It is estimated that 15–20% of all diabetics develop skin wounds across their lifespan. These include wounds caused by trauma and those caused by planned surgery. Notably, the 5-year mortality rate of DFU is higher than most cancers. Majority of these skin wounds are complicated, become chronic and are cared for by surgical and dermatological providers. It is estimated that only half of all diabetics with ulcerative skin wounds survive more than five years after their initial manifestation. The proposed work is inspired by the observation that single nucleotide variations (SNV) are important genetic factors that predispose an individual to diabetic complications. SNV are likely to engage in crosstalk with sequence-specific transcription factors and influence DNA methylation which could silence gene expression required for wound closure. Diabetic ulcer patient-based preliminary genotyping studies, identified greater than 17,000 SNV. Gene ontology analyses identified 53 SNV-containing genes relevant to wound epithelialization. NOTCH1 gene emerged as a major signaling hub associated with DU. Two NOTCH1 specific SNV, rs10870081 and rs34485221 (upstream of NOTCH1 transcription start site) were enriched in human diabetic wound-edge. The significance of SNV in wound closure remains unknown. The proposed work seeks to systematically study SNV and its association with diabetic wound closure in chronic wound patients. The combinatorial approach of collecting SNV, hypermethylation and healing trajectory data from the same patients from a longitudinal cohort study as proposed is likely to establish a new paradigm in the discipline of diabetic wound healing. Systematic patient-based genomic studies of DU are scanty and the proposed work is aimed at seeding a novel paradigm in wound healing research. The following specific aim is proposed: Aim 1. In patients with diabetic ulcer, identify SNV responsible for impaired wound closure. 1.1 Diabetes-dependent SNVs are associated with impaired wound closure. Loci affected by such SNV will be identified and tested for their significance in wound closure. 1.2 The functional significance of diabetes dependent SNV identified above, in the context of impaired wound closure, is determined by hypermethylation status of the corresponding loci.