Project description:Human pelvic girdle, especially the ilium is considered an evolutionary novelty. To understand the genetic architecute behind the formation of this structure, we conducted single cell multiomics across developmental stages.

Project description:Human pelvic girdle, especially the ilium is considered an evolutionary novelty. To understand the genetic architecute behind the formation of this structure, we conducted single cell multiomics across developmental stages.

Project description:single-cell multiomics data for the developing human pelvic girdle [Multiomics]

Project description:26 limb-girdle muscular dystrophy patients from Latvia and 34 patients from Lithuania with clinical symptoms of limb-girdle muscular dystrophies, along with 204 healthy unrelated controls were genotyped for 96 most frequent known limb-girdle muscular dystrophies causing mutations for the region, using VeraCode GoldenGate system. More information can be found in article Robust genotyping tool for autosomal recessive type of limb-girdle muscular dystrophies in BMC Musculoskeletal Disorders by I. Inashkina et al.

Project description:Spatial Multiomics Reveals Metabolic Reprogramming and Calcification Characteristics of Diabetic Macroangiopathy [Spatial Transcriptomics]

Project description:These samples are part of a study to provide a spatially resolved single-cell multiomics map of human trophoblast differentiation in early pregnancy. Here we profiled with 10x Visium Spatial transcriptomics of the entire maternal-fetal interface including the myometrium, allowing us to resolve the full trajectory of trophoblast differentiation.

Project description:The progress made in directed differentiation of stem cells has shown that understanding human pancreas development can provide cues for generating unlimited amounts of insulin-producing beta cells for transplantation therapy in diabetes. However, current differentiation protocols have not been successful in reproducibly generating functional human beta cells in vitro, partly due to incomplete understanding of human pancreas development. Here, we present detailed transcriptomic analysis of the various cell types of the developing human pancreas, including their spatial gene patterns. We integrated single cell RNA sequencing with spatial transcriptomics at multiple developmental timepoints and revealed distinct temporal-spatial gene cascades in the developing human pancreas.

Project description:Spatial transcriptomics profiling of the developing mouse embryo

Project description:Single cell transcriptomic and spatial landscapes of the developing human pancreas - spatial transcriptomics

Project description:Spatial Multiomics Reveals Metabolic Reprogramming and Calcification Characteristics of Diabetic Macroangiopathy