Insulin signaling regulates R2 retrotransposon expression to orchestrate transgenerational rDNA copy number maintenance.

Preserving a large number of essential yet highly unstable ribosomal DNA (rDNA) repeats is critical for the germline to perpetuate the genome through generations. Spontaneous rDNA loss must be countered by rDNA copy number (CN) expansion. Germline rDNA CN expansion is best understood in Drosophila melanogaster, which relies on unequal sister chromatid exchange (USCE) initiated by DNA breaks at rDNA.

Autophagy is required for mammary tumor recurrence by promoting dormant tumor cell survival following therapy.

Background: Mortality from breast cancer is principally due to tumor recurrence. Recurrent breast cancers arise from the pool of residual tumor cells, termed minimal residual disease, that survive treatment and may exist in a dormant state for 20 years or more following treatment of the primary tumor. As recurrent breast cancer is typically incurable, understanding the mechanisms underlying dormant tumor cell survival is a critical priority in breast cancer research.

Insulin signaling regulates R2 retrotransposon expression to orchestrate transgenerational rDNA copy number maintenance.

Preserving a large number of essential yet highly unstable ribosomal DNA (rDNA) repeats is critical for the germline to perpetuate the genome through generations. Spontaneous rDNA loss must be countered by rDNA copy number (CN) expansion. Germline rDNA CN expansion is best understood in , which relies on unequal sister chromatid exchange (USCE) initiated by DNA breaks at rDNA.

Emergent dynamics of adult stem cell lineages from single nucleus and single cell RNA-Seq of testes.

Proper differentiation of sperm from germline stem cells, essential for production of the next generation, requires dramatic changes in gene expression that drive remodeling of almost all cellular components, from chromatin to organelles to cell shape itself. Here, we provide a single nucleus and single cell RNA-seq resource covering all of spermatogenesis in starting from in-depth analysis of adult testis single nucleus RNA-seq (snRNA-seq) data from the Fly Cell Atlas (FCA) study. With over 44,000 nuclei and 6000 cells analyzed, the data provide identification of rare cell types, mapping of intermediate steps in differentiation, and the potential to identify new factors impacting fertility or controlling differentiation of germline and supporting somatic cells.

Stem cell niche signaling goes both ways.

Stem cell niches are well-characterized factories of signaling information, but niche cells themselves also rely on their neighbors for fate maintenance. In this issue of Developmental Cell, Herrera et al. reveal bi-directional communication between Drosophila testis niche "hub" cells and somatic cyst stem cells.

Molding immortality from a plastic germline.

Germ cells are uniquely capable of maintaining cellular immortality, allowing them to give rise to new individuals in generation after generation. Recent studies have identified that the germline state is plastic, with frequent interconversion between germline differentiation states and across the germline/soma border. Therefore, features that grant germline immortality must be inducible, with other cells undergoing some form of rejuvenation to a germline state.

Planarian stem cells specify fate yet retain potency during the cell cycle.

Planarian whole-body regeneration is enabled by stem cells called neoblasts. At least some neoblasts are individually pluripotent. Neoblasts are also heterogeneous, with subpopulations of specialized neoblasts having different specified fates.

Acoel regeneration mechanisms indicate an ancient role for muscle in regenerative patterning.

Positional information is required for animal regeneration, yet how it is harbored in adult tissues is poorly understood. In planarians, positional control genes (PCGs) control regeneration outcomes and are regionally expressed predominately in the musculature. Acoels are early diverging bilaterally symmetric animals, having separated from other bilaterians > 550 million years ago.

The pea aphid uses a version of the terminal system during oviparous, but not viviparous, development.

Background: In most species of aphid, female nymphs develop into either sexual or asexual adults depending on the length of the photoperiod to which their mothers were exposed. The progeny of these sexual and asexual females, in turn, develop in dramatically different ways. The fertilized oocytes of sexual females begin embryogenesis after being deposited on leaves (oviparous development) while the oocytes of asexual females complete embryogenesis within the mother (viviparous development).

Regulated payments for living kidney donation: an empirical assessment of the ethical concerns.

Background: Although regulated payments to encourage living kidney donation could reduce morbidity and mortality among patients waiting for a kidney transplant, doing so raises several ethical concerns.

Objective: To determine the extent to which the 3 main concerns with paying kidney donors might manifest if a regulated market were created.

Design: Cross-sectional study of participants' willingness to donate a kidney in 12 scenarios.