Statistical analysis supports pervasive RNA subcellular localization and alternative 3' UTR regulation.

Targeted low-throughput studies have previously identified subcellular RNA localization as necessary for cellular functions including polarization, and translocation. Furthermore, these studies link localization to RNA isoform expression, especially 3' Untranslated Region (UTR) regulation. The recent introduction of genome-wide spatial transcriptomics techniques enables the potential to test if subcellular localization is regulated in situ pervasively.

Cryo-EM and antisense targeting of the 28-kDa frameshift stimulation element from the SARS-CoV-2 RNA genome.

Drug discovery campaigns against COVID-19 are beginning to target the SARS-CoV-2 RNA genome. The highly conserved frameshift stimulation element (FSE), required for balanced expression of viral proteins, is a particularly attractive SARS-CoV-2 RNA target. Here we present a 6.

Injectable supramolecular polymer-nanoparticle hydrogels enhance human mesenchymal stem cell delivery.

Stem cell therapies have emerged as promising treatments for injuries and diseases in regenerative medicine. Yet, delivering stem cells therapeutically can be complicated by invasive administration techniques, heterogeneity in the injection media, and/or poor cell retention at the injection site. Despite these issues, traditional administration protocols using bolus injections in a saline solution or surgical implants of cell-laden hydrogels have highlighted the promise of cell administration as a treatment strategy.

A Novel On-Chip Method for Differential Extraction of Sperm in Forensic Cases.

One out of every six American women has been the victim of a sexual assault in their lifetime. However, the DNA casework backlog continues to increase outpacing the nation's capacity since DNA evidence processing in sexual assault casework remains a bottleneck due to laborious and time-consuming differential extraction of victim's and perpetrator's cells. Additionally, a significant amount (60-90%) of male DNA evidence may be lost with existing procedures.

Dynamic control of biomolecular activity using electrical interfaces.

The development of novel interfaces between electronic devices and biological systems is a rapidly evolving research area that may lead to new insights into biological behavior, clinical diagnostics and therapeutic treatments. Full electrical integration into biological networks will require bioactuators which can translate an electrical pulse into a specific biochemical signal the system can understand. One approach has been the use of electrostatic fields near the surface of an electrode to locally alter the ionic and electrostatic environment within an ionic double layer.