The Oxford University Museum of Natural History (OUMNH) is now celebrated as one of the most important Gothic revival buildings of the nineteenth century. It is also a temple of science. Built ...between 1855 and 1860, the design of the museum building incorporated input from artists, scientists and cultural figures such as the writer, philosopher, art critic and polymath John Ruskin. The aim of the museum's founders was to teach science—and that the museum building itself should serve as a teaching tool. Geology played a key role in achieving this.
ZC4H2-associated rare disorder (ZARD) is caused by pathogenic variations in the ZC4H2 gene on the X chromosome. This gene codes for a zinc finger protein involved in neural development. ZARD is ...characterized by highly variable symptoms, potentially influenced by the sex of the individual.
The ZC4H2-Associated Rare Disorder Natural History Study is a prospective natural history study conducted among individuals with ZARD that consists of standardized interviews, developmental assessments, and neurological examinations conducted every six months for two years. In this article, we present data from baseline visits with 40 participants, the largest ZARD cohort studied thus far, focusing on genotype-phenotype correlations and sex differences. Fisher exact, maximum likelihood χ2, and Mann-Whitney tests were utilized.
Males tended to have maternally inherited ZC4H2 pathogenic variations, whereas females tended to have de novo variations (P < 0.001). Female participants were more likely to have contractures at birth (P < 0.01), arthrogryposis multiplex congenita (P < 0.001), spasticity on examination (P < 0.1), and lower limb muscle atrophy (P < 0.05). Male participants were more likely to have seizures (P < 0.1), intermittent pain (P < 0.01), severe vision impairment (P < 0.05), dysphagia for solids (P < 0.01), and generalized muscle atrophy (P < 0.05).
Our study suggests there is significant overlap in severity and range of symptoms between males and females, although several symptoms are more common in one sex than the other. Further analysis is needed to better understand how pathogenic variation type affects phenotype.
Pachycetus paulsonii, Pachycetus wardii, and Antaecetus aithai are middle Eocene archaeocete whales found in Europe, North America, and Africa, respectively. The three are placed in the new ...basilosaurid subfamily Pachycetinae. Antaecetus is a new genus known from Egypt and Morocco, and the only pachycetine known from a substantial postcranial skeleton. The skull of A. aithai described here resembles that of Saghacetus osiris in size, but lacks the narrowly constricted rostrum of Saghacetus. Antaecetus is smaller than Pachycetus and its teeth are more gracile. Upper premolars differ in having two rather than three accessory cusps flanking the principal cusp. Pachycetines differ from dorudontines in having elongated posterior thoracic and lumbar vertebrae like those of Basilosaurus, but differ from basilosaurines and from dorudontines in having conspicuously pachyosteosclerotic vertebrae with dense and thickly laminated cortical bone surrounding a cancellous core. Pachycetinae are also distinctive in having transverse processes on lumbar vertebrae nearly as long anteroposteriorly as the corresponding centrum. We infer from their pachyosteosclerotic vertebrae that pachycetines were probably sirenian-like slow swimmers living in shallow coastal seas and feeding on passing fish and mobile invertebrates.
Natural history collections provide an immense record of biodiversity on Earth. These repositories have traditionally been used to address fundamental questions in biogeography, systematics and ...conservation. However, they also hold the potential for studying evolution directly. While some of the best direct observations of evolution have come from long‐term field studies or from experimental studies in the laboratory, natural history collections are providing new insights into evolutionary change in natural populations. By comparing phenotypic and genotypic changes in populations through time, natural history collections provide a window into evolutionary processes. Recent studies utilizing this approach have revealed some dramatic instances of phenotypic change over short timescales in response to presumably strong selective pressures. In some instances, evolutionary change can be paired with environmental change, providing a context for potential selective forces. Moreover, in a few cases, the genetic basis of phenotypic change is well understood, allowing for insight into adaptive change at multiple levels. These kinds of studies open the door to a wide range of previously intractable questions by enabling the study of evolution through time, analogous to experimental studies in the laboratory, but amenable to a diversity of species over longer timescales in natural populations.