Raiding nature's genetic toolbox for UV-C resistance by functional metagenomics.

As we assess the habitability of other worlds, we are limited by being able to only study terrestrial life adapted to terrestrial conditions. The environments found on Earth, though tremendously diverse, do not approach the multitude of potentially habitable environments beyond Earth, and so limited terrestrial adaptive capabilities tell us little about the fundamental biochemical boundaries of life. One approach to this problem is to use experimental laboratory evolution to adapt microbes to these novel environmental conditions.

Silver(I)-Mediated 2D DNA Nanostructures.

Structural DNA nanotechnology enables the self-organization of matter at the nanometer scale, but approaches to expand the inorganic and electrical functionality of these scaffolds remain limited. Developments in nucleic acid metallics have enabled the incorporation of site-specific metal ions in DNA duplexes and provide a means of functionalizing the double helix with atomistic precision. Here a class of 2D DNA nanostructures that incorporate the cytosine-Ag-cytosine (dC:Ag:dC) base pair as a chemical trigger for self-assembly is described.

Building Synthetic Cells─From the Technology Infrastructure to Cellular Entities.

The construction of a living organism is a compelling vision. Despite the astonishing technologies developed to modify living cells, building a functioning cell "from scratch" has yet to be accomplished. The pursuit of this goal alone has─and will─yield scientific insights affecting fields as diverse as cell biology, biotechnology, medicine, and astrobiology.

A Qualitative Study of How Hospice Workers Cope With Their Level of Exposure to Death.

Objective: To identify whether hospice workers hold unique and theoretically-informative perspectives about death, especially as they relate to terror management processes.

Method: Twelve hospice workers from two hospices in Tucson, Arizona, United States, participated in semi-structured interviews. Interview and analytic practices were guided by Grounded Theory (Glaser & Strauss, 1967).

Heterobimetallic Base Pair Programming in Designer 3D DNA Crystals.

Metal-mediated DNA (mmDNA) presents a pathway toward engineering bioinorganic and electronic behavior into DNA devices. Many chemical and biophysical forces drive the programmable chelation of metals between pyrimidine base pairs. Here, we developed a crystallographic method using the three-dimensional (3D) DNA tensegrity triangle motif to capture single- and multi-metal binding modes across granular changes to environmental pH using anomalous scattering.