Project description:Skin homeostasis is guided by spatiotemporal regulation of gene expression, establishing each stage of keratinocyte differentiation. The current study presents transcriptomic and chromatin profiling for the proliferating (basal) and differentiated (suprabasal) cell populations derived from neonate mice (p0-p2) skin epidermis. This multi-omic approach will enable idenitification of cell specific epidermal cross-talk central to the equlibirum.
Project description:we analyzed the characteristics of the respiratory microbiome, which was collected from different sites and using different sampling methods.
Project description:Skin homeostasis is guided by spatiotemporal regulation of gene expression, establishing each stage of keratinocyte differentiation. The current study presents transcriptomic and chromatin profiling for the proliferating (basal) and differentiated (suprabasal) cell populations derived from neonate mice (p0-p2) skin epidermis. This multi-omic approach will enable idenitification of cell specific epidermal cross-talk central to the equlibirum.
Project description:Skin homeostasis is guided by spatiotemporal regulation of gene expression, establishing each stage of keratinocyte differentiation. The current study presents transcriptomic and chromatin profiling for the proliferating (basal) and differentiated (suprabasal) cell populations derived from neonate mice (p0-p2) skin epidermis. This multi-omic approach will enable idenitification of cell specific epidermal cross-talk central to the equlibirum.
Project description:The skin Microbiome stratifies Patients with CTCL into two subgroups. One subgroup has a balanced microbiome, while the other subgroups has a skin dybiosis with S. aureus outgrowth. This is accompanied by impaired TCR repertoire and poor clinical outcome.
Project description:The skin Microbiome stratifies Patients with CTCL into two subgroups. One subgroup has a balanced microbiome, while the other subgroups has a skin dybiosis with S. aureus outgrow. This is accompanied by impaired TCR repertoir and poor clinical outcome.
Project description:Little is known about the lung microbiome dynamics and host-microbiome interactions in relation to chronic obstructive pulmonary disease (COPD) exacerbations and in patient subgroups based on smoking status and disease severity. Here we performed a 16S ribosomal RNA survey on sputum microbiome from 16 healthy and 43 COPD subjects. For COPD subjects, a longitudinal sampling was performed from stable state to exacerbations, at two and six weeks post-exacerbations and at six months from first stable visit. Host sputum transcriptome were characterized for a subset of COPD patient samples.
