The Strategic Shuffle: Ethnic Geography, the Internal Security Apparatus, and Elections in Kenya

For autocrats facing elections, officers in the internal security apparatus play a crucial role by engaging in coercion on behalf of the incumbent. Yet reliance on these officers introduces a principal‐agent problem: Officers can shirk from the autocrat’s demands. To solve this problem, autocrats strategically post officers to different areas based on an area’s importance to the election and the expected loyalty of an individual officer, which is a function of the officer’s expected benefits from the president winning reelection. Using a data set of 8,000 local security appointments within Kenya in the 1990s, one of the first of its kind for any autocracy, I find that the president’s coethnic officers were sent to, and the opposition’s coethnic officers were kept away from, swing areas. This article demonstrates how state institutions from a country’s previous authoritarian regime can persist despite the introduction of multi‐party elections and thus prevent full democratization.Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/136510/1/ajps12279_am.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/136510/2/ajps12279.pd

Evolution of Multidrug Resistance during Staphylococcus aureus Infection Involves Mutation of the Essential Two Component Regulator WalKR

Antimicrobial resistance in Staphylococcus aureus is a major public health threat, compounded by emergence of strains with resistance to vancomycin and daptomycin, both last line antimicrobials. Here we have performed high throughput DNA sequencing and comparative genomics for five clinical pairs of vancomycin-susceptible (VSSA) and vancomycin-intermediate ST239 S. aureus (VISA); each pair isolated before and after vancomycin treatment failure. These comparisons revealed a frequent pattern of mutation among the VISA strains within the essential walKR two-component regulatory locus involved in control of cell wall metabolism. We then conducted bi-directional allelic exchange experiments in our clinical VSSA and VISA strains and showed that single nucleotide substitutions within either walK or walR lead to co-resistance to vancomycin and daptomycin, and caused the typical cell wall thickening observed in resistant clinical isolates. Ion Torrent genome sequencing confirmed no additional regulatory mutations had been introduced into either the walR or walK VISA mutants during the allelic exchange process. However, two potential compensatory mutations were detected within putative transport genes for the walK mutant. The minimal genetic changes in either walK or walR also attenuated virulence, reduced biofilm formation, and led to consistent transcriptional changes that suggest an important role for this regulator in control of central metabolism. This study highlights the dramatic impacts of single mutations that arise during persistent S. aureus infections and demonstrates the role played by walKR to increase drug resistance, control metabolism and alter the virulence potential of this pathogen

Potential of microbial protein from hydrogen for preventing mass starvation in catastrophic scenarios

Human civilization\u27s food production system is currently unprepared for catastrophes that would reduce global food production by 10% or more, such as nuclear winter, supervolcanic eruptions or asteroid impacts. Alternative foods that do not require much or any sunlight have been proposed as a more cost-effective solution than increasing food stockpiles, given the long duration of many global catastrophic risks (GCRs) that could hamper conventional agriculture for 5 to 10 years. Microbial food from single cell protein (SCP) produced via hydrogen from both gasification and electrolysis is analyzed in this study as alternative food for the most severe food shock scenario: a sun-blocking catastrophe. Capital costs, resource requirements and ramp up rates are quantified to determine its viability. Potential bottlenecks to fast deployment of the technology are reviewed. The ramp up speed of food production for 24/7 construction of the facilities over 6 years is estimated to be lower than other alternatives (3-10% of the global protein requirements could be fulfilled at end of first year), but the nutritional quality of the microbial protein is higher than for most other alternative foods for catastrophes. Results suggest that investment in SCP ramp up should be limited to the production capacity that is needed to fulfill only the minimum recommended protein requirements of humanity during the catastrophe. Further research is needed into more uncertain concerns such as transferability of labor and equipment production. This could help reduce the negative impact of potential food-related GCRs