Strontium isoscape of sub-Saharan Africa allows tracing origins of victims of the transatlantic slave trade.

Strontium isotope (Sr/Sr) analysis with reference to strontium isotope landscapes (Sr isoscapes) allows reconstructing mobility and migration in archaeology, ecology, and forensics. However, despite the vast potential of research involving Sr/Sr analysis particularly in Africa, Sr isoscapes remain unavailable for the largest parts of the continent. Here, we measure the Sr/Sr ratios in 778 environmental samples from 24 African countries and combine this data with published data to model a bioavailable Sr isoscape for sub-Saharan Africa using random forest regression.

Microneedling-Associated Procedures to Enhance Facial Rejuvenation.

Microneedling, also referred to as percutaneous collagen induction therapy, uses small needles to create mechanical injury to the skin, stimulating the wound-healing cascade and new collagen formation. Compared with other skin resurfacing techniques, microneedling preserves the epidermis and is nonablative, therefore reducing inflammation, downtime, and risk of dyspigmentation. In addition to increasing collagen production in fibroblasts, microneedling also helps normalize cell function of keratinocytes and melanocytes and can be used to increase absorption of topical medications, growth factors, or deliver radiofrequency directly to the dermis.

A multi-channel light scattering instrument utilized for monitoring protein aggregation and liquid dense cluster formation.

Liquid-liquid phase separation (LLPS) phenomena have been observed as well as and came in focus of interdisciplinary research activities particularly aiming at understanding the physico-chemical pathways of LLPS and its functionality in recent years. Dynamic light scattering (DLS) has been proven to be a most efficient method to analyze macromolecular clustering in solutions and suspensions with diverse applications in life sciences, material science and biotechnology. For spatially and time-resolved investigations of LLPS, i.

Growing Protein Crystals with Distinct Dimensions Using Automated Crystallization Coupled with In Situ Dynamic Light Scattering.

The automated crystallization device is a patented technique especially developed for monitoring protein crystallization experiments with the aim to precisely maneuver the nucleation and crystal growth towards desired sizes of protein crystals. The controlled crystallization is based on sample investigation with in situ Dynamic Light Scattering (DLS) while all visual changes in the droplet are monitored online with the help of a microscope coupled to a CCD camera, thus enabling a full investigation of the protein droplet during all stages of crystallization. The use of in situ DLS measurements throughout the entire experiment allows a precise identification of the highly supersaturated protein solution transitioning to a new phase - the formation of crystal nuclei.