231 research outputs found
In glacial environments beyond glacial terrains: Human eco-dynamics in late Pleistocene Mediterranean Iberia
The Iberian Peninsula south of the Ebro River enjoyed one of the mildest climates of Pleistocene Europe, but still experienced significant and rapid environmental shifts caused by global climate regimes. We examine the interplay between technological, social, and land-use dynamics as culturally mediated responses to climate change outside the periglacial zone. We combine information from excavated sites across eastern and southeastern Spain with systematic survey data from an intensive study area within this larger region to examine Upper Paleolithic behavioral adaptations to the environmental shifts of the late Pleistocene (late MIS-3 through MIS-2). We define indexes that serve as proxies for land-use strategies, technological specialization, and hunting practices. Variation in these indices across space and through time provides the basis for a model of Upper Paleolithic eco-dynamics. A consistent pattern of land-use, involving inland (and possibly coastal) base-camps and near-coastal hunting zones spanned the Mediterranean facade and was sufficiently flexible and resilient to environmental change to persist throughout the late Pleistocene
Epigenome-wide Association Study of Attention-Deficit/Hyperactivity Disorder Symptoms in Adults
BACKGROUND: Previous studies have reported associations between attention-deficit/hyperactivity disorder
symptoms and DNA methylation in children. We report the first epigenome-wide association study meta-analysis
of adult attention-deficit/hyperactivity disorder symptoms, based on peripheral blood DNA methylation (Infinium
HumanMethylation450K array) in three population-based adult cohorts.
METHODS: An epigenome-wide association study was performed in the Netherlands Twin Register (N = 2258, mean
age 37 years), Dunedin Multidisciplinary Health and Development Study (N = 800, age 38 years), and Environmental
Risk Longitudinal Twin Study (N = 1631, age 18 years), and results were combined through meta-analysis (total
sample size N = 4689). Region-based analyses accounting for the correlation between nearby methylation sites
were also performed.
RESULTS: One epigenome-wide signifi
A Negative Feedback Loop That Limits the Ectopic Activation of a Cell TypeâSpecific Sporulation Sigma Factor of Bacillus subtilis
Two highly similar RNA polymerase sigma subunits, ĎF and ĎG, govern the early and late phases of forespore-specific gene expression during spore differentiation in Bacillus subtilis. ĎF drives synthesis of ĎG but the latter only becomes active once engulfment of the forespore by the mother cell is completed, its levels rising quickly due to a positive feedback loop. The mechanisms that prevent premature or ectopic activation of ĎG while discriminating between ĎF and ĎG in the forespore are not fully comprehended. Here, we report that the substitution of an asparagine by a glutamic acid at position 45 of ĎG (N45E) strongly reduced binding by a previously characterized anti-sigma factor, CsfB (also known as Gin), in vitro, and increased the activity of ĎG in vivo. The N45E mutation caused the appearance of a sub-population of pre-divisional cells with strong activity of ĎG. CsfB is normally produced in the forespore, under ĎF control, but sigGN45E mutant cells also expressed csfB and did so in a ĎG-dependent manner, autonomously from ĎF. Thus, a negative feedback loop involving CsfB counteracts the positive feedback loop resulting from ectopic ĎG activity. N45 is invariant in the homologous position of ĎG orthologues, whereas its functional equivalent in ĎF proteins, E39, is highly conserved. While CsfB does not bind to wild-type ĎF, a E39N substitution in ĎF resulted in efficient binding of CsfB to ĎF. Moreover, under certain conditions, the E39N alteration strongly restrains the activity of ĎF in vivo, in a csfB-dependent manner, and the efficiency of sporulation. Therefore, a single amino residue, N45/E39, is sufficient for the ability of CsfB to discriminate between the two forespore-specific sigma factors in B. subtilis
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