Molecular identity crisis: environmental DNA metabarcoding meets traditional taxonomy-assessing biodiversity and freshwater mussel populations (Unionidae) in Alabama.

The use of environmental DNA (eDNA) to assess aquatic biodiversity is a growing field with great potential for monitoring and managing threatened species, like freshwater mussel (Unionidae) populations. Freshwater mussels are globally imperiled and serve essential roles in aquatic systems as a food source and as a natural water filter making their management essential for ecosystem health. Unfortunately, mussel populations are often understudied, and challenges exist to accurately and efficiently describe the full suite of species present.

Temozolomide Induces Senescence and Repression of DNA Repair Pathways in Glioblastoma Cells via Activation of ATR-CHK1, p21, and NF-κB.

The DNA-methylating drug temozolomide, which induces cell death through apoptosis, is used for the treatment of malignant glioma. Here, we investigate the mechanisms underlying the ability of temozolomide to induce senescence in glioblastoma cells. Temozolomide-induced senescence was triggered by the specific DNA lesion O-methylguanine (OMeG) and characterized by arrest of cells in the G-M phase.

The effects of haptic input on biomechanical and neurophysiological parameters of walking: A scoping review.

Walking is an important component of daily life requiring sensorimotor integration to be successful. Adding haptic input via light touch or anchors has been shown to improve standing balance; however, the effect of adding haptic input on walking is not clear. This scoping review systematically summarizes the current evidence regarding the addition of haptic input on walking in adults.

Induced IL-10 splice altering approach to antiviral drug discovery.

Ebola virus causes an acute hemorrhagic fever lethal in primates and rodents. The contribution of host immune factors to pathogenesis has yet to be determined and may reveal efficacious targets for potential treatment. In this study, we show that the interleukin (IL)-10 signaling pathway modulates Ebola pathogenesis.

Alternative splice forms of CTLA-4 induced by antisense mediated splice-switching influences autoimmune diabetes susceptibility in NOD mice.

Activated and regulatory T cells express the negative co-stimulatory molecule cytotoxic T-lymphocyte-associated antigen-4 (CTLA-4) that binds B7 on antigen-presenting cells to mediate cellular responses. Single nucleotide polymorphisms in the CTLA-4 gene have been found to affect alternative splicing and are linked to autoimmune disease susceptibility or resistance. Increased expression of a soluble splice form (sCTLA-4), lacking the transmembrane domain encoded by exon 3, has been shown to accelerate autoimmune pathology.

Five-step process for screening antisense compounds for efficacy: gene target IL-12Rb2.

Antisense technologies are widely used for the inhibition of gene expression. Although traditionally the AUG start codon of the open reading frame is targeted to disrupt ribosome assembly and initiation, an emerging approach is targeting sequences to disrupt pre-mRNA splicing. The primary advantage to using this approach is a positive read-out for an antisense effect through detection of a novel splice product, but additional benefit can be found in generating a novel splice product with altered functional properties.

Task-specific measures of balance efficacy, anxiety, and stability and their relationship to clinical balance performance.

The main objective of this research was to investigate the effects of postural threat on performance of three clinical balance tests. Thirty-one healthy young adults performed quiet stance, maximal reach, and one-leg stance tasks at two levels of postural threat, which was modified through the use of a hydraulic lift. Increased postural threat significantly affected postural control measures for both simple and dynamic balance tests.