Project description:Unlike bacteria, mammalian cells need to complete DNA replication before segregating their chromosomes for the maintenance of genome integrity. Thus, cells have evolved efficient pathways to restore stalled and/or collapsed replication forks during S-phase, and when necessary, also to delay cell cycle progression to ensure replication completion. However, strong evidence shows that cells can proceed to mitosis with incompletely replicated DNA when under mild replication stress (RS) conditions. Consequently, the incompletely replicated genomic gaps form, predominantly at common fragile site regions, where the converging fork-like DNA structures accumulate. These branched structures pose a severe threat to the faithful disjunction of chromosomes as they physically interlink the partially duplicated sister chromatids. In this review, we provide an overview discussing how cells respond and deal with the under-replicated DNA structures that escape from the S/G2 surveillance system. We also focus on recent research of a mitotic break-induced replication pathway (also known as mitotic DNA repair synthesis), which has been proposed to operate during prophase in an attempt to finish DNA synthesis at the under-replicated genomic regions. Finally, we discuss recent data on how mild RS may cause chromosome instability and mutations that accelerate cancer genome evolution.

Project description:Segregating signal from noise is one of the most fundamental problems shared by all biological and human-engineered sensory systems. In echolocating bats that search for small objects such as tiny insects in the presence of large obstacles (e.g., vegetation), this task can pose serious challenges as the echoes reflected from the background might be several times louder than the desired signal. Bats' ability to adjust their sensing, specifically their echolocation signal and sequence design has been deeply studied. In this study, we show that in addition to adjusting their sensing, bats also use movement in order to segregate desired echoes from background noise. Bats responded to an acoustically echoic background by adjusting their angle of attack. Specifically, the bats in our experiment used movement and not adaptation of sensory acquisition in order to overcome a sensory challenge. They approached the target at a smaller angle of attack, which results in weaker echoes from the background as was also confirmed by measuring the echoes of the setup from the bat's point of view. Our study demonstrates the importance of movement in active sensing.

Project description:Mucormycosis has recently been recognized as a severe complication of COVID-19 with high fatality rates. We report a fatal case of COVID-19 associated mucormycosis (CAM) in a non-diabetic immunocompromised patient, who was first misdiagnosed and treated for COVID-19 associated aspergillosis (CAPA). The risk factors and initial clinical presentation of CAPA and CAM are similar, but CAM has a more aggressive course and CAPA and CAM are treated differently. Dedicated diagnostic workup is essential to ensure early treatment of CAM with surgical debridement and targeted antifungal therapy.

Project description:DNA Damage Tolerance (DDT) mechanisms help dealing with unrepaired DNA lesions that block replication and challenge genome integrity. Previous in vitro studies showed that the bacterial replicase is able to re-prime downstream of a DNA lesion, leaving behind a single-stranded DNA gap. The question remains of what happens to this gap in vivo. Following the insertion of a single lesion in the chromosome of a living cell, we showed that this gap is mostly filled in by Homology Directed Gap Repair in a RecA dependent manner. When cells fail to repair this gap, or when homologous recombination is impaired, cells are still able to divide, leading to the loss of the damaged chromatid, suggesting that bacteria lack a stringent cell division checkpoint mechanism. Hence, at the expense of losing one chromatid, cell survival and proliferation are ensured.

Project description:Esophageal atresia and tracheoesophageal fistula (EA/TEF) are major congenital malformations affecting 1:3500 live births. Current research efforts are focused on understanding the etiology of these defects. We describe well-known animal models, human syndromes, and associations involving EA/TEF, indicating its etiologically heterogeneous nature. Recent advances in genotyping technology and in knowledge of human genetic variation will improve clinical counseling on etiologic factors. This review provides a clinical summary of environmental and genetic factors involved in EA/TEF.

Project description:Childhood anti-N-methyl-d-aspartate receptor (NMDA-R) antibody encephalitis is a well-recognized autoimmune encephalitis presenting typically with a combination of varied movement disorders, seizures, mutism, behavioral and sleep disturbances, and autonomic changes. Monosymptomatic or incomplete forms of the disorder are rare, but have recently been reported. Here, we describe 2 children with nonparaneoplastic anti-NMDA-R encephalitis with partial presentation in the form of movement disorder and minor behavioral changes.

Project description:PurposeMedical students may take a year off during medical school (a "gap year") to strengthen their applications for competitive specialties such as radiation oncology. This can incur significant financial and opportunity costs. We sought to understand the prevalence, nature, and funding of gap years undertaken by radiation oncology applicants.Methods and materialsAn anonymous survey was emailed to all applicants to a single radiation oncology program from 2015 to 2017. Survey questions assessed gap year utilization, funding, motivations, and perceptions. Separately, all 2017 Electronic Residency Application Service (n = 176) applications to this program were reviewed for reference.ResultsThe 2017 cohort had a response rate of 69% (n = 121), with an overall response rate of 39% (n = 194) for applicants between 2015 to 2017. Of non-MD/PhD respondents, 33% (n = 53) reported taking a gap year. The main reason for a gap year (68%) was to produce more publications, and 50% of all respondents viewed a gap year as "important" or "very important" for matching in radiation oncology. Twenty-eight students (53%) reported using personal loans, savings, or family support to cover gap year expenses. Most who took a gap year (83%) viewed funding as "difficult" or "extremely difficult" to obtain. Fewer publications before gap year and more dedicated research time were significant predictors of undertaking a gap year, whereas sex, marital status, dependent status, and financial aid were not significant.ConclusionsResearch productivity is commonly perceived as important for matching in radiation oncology, leading many applicants to take gap years, which are usually supported by personal financial resources. We did not identify statistically significant socioeconomic disparities between applicants that took a gap year and those who did not. However, further study is warranted to determine whether pressure to take a gap year, particularly in the absence of readily available funding sources, deters some potential applicants from pursuing radiation oncology altogether.

Project description:Real-time tracking of a waveform frequency content is essential for detection and analysis of fast rare events in communications, radar, radio astronomy, spectroscopy, sensing etc. This requires a method that can provide real-time spectrum analysis (RT-SA) of high-speed waveforms in a continuous and gap-free fashion. Digital signal processing is inefficient to perform RT-SA over instantaneous frequency bandwidths above the sub-GHz range and/or to track spectral changes faster than a few microseconds. Analog dispersion-induced frequency-to-time mapping enables RT-SA of short isolated pulse-like signals but cannot be extended to continuous waveforms. Here, we propose a universal analog processing approach for time-mapping a gap-free spectrogram -the prime method for dynamic frequency analysis- of an incoming arbitrary waveform, based on a simple sampling and dispersive delay scheme. In experiments, the spectrograms of GHz-bandwidth microwave signals are captured at a speed of ~5×109 Fourier transforms per second, allowing to intercept nanosecond-duration frequency transients in real time. This method opens new opportunities for dynamic frequency analysis and processing of high-speed waveforms.

Project description:Foundation year doctors (FYDs) write most hospital discharge communication, although they have minimal training in this skill. Poor quality discharge summaries increase the risk of adverse events and rehospitalisation. With a multidisciplinary team approach, we developed a list of "golden rules" for good discharge communication. Against these standards, we analysed the quality of electronic inpatient discharge documentation (eIDD) sent over two months from OUH Trust. We found one third of eIDDs were missing details of the discharging doctor. In 68%, changes to medications were not documented clearly and follow-up was not completed in 40%. To improve this suboptimal state, we implemented interactive teaching sessions for FYDs, designed an e-learning module, and suggested software changes to the current electronic discharge proforma. Early re-audit one month after the first teaching sessions did not demonstrate any significant improvement. However, re-auditing after twelve months is planned. Through data collection and discussion with key stakeholders, we have identified standards for discharge communication. We developed interventions to help the trust achieve these standards, aiming to enhance patient safety in the peri-discharge period. While discharge communication is delegated to less-experienced team members, they should receive clear guidance and training.

Project description:Tree-fall gaps are small-scale disturbances whose formation, colonization, and role in forest dynamics are well documented, but whose effects on animal ecology are still greatly overlooked, except for studies comparing species richness of gaps 6+ months old to that in the closed canopy. Other factors associated with the invasion of fresh tree-fall gaps such as animal breeding adaptations have been largely neglected. I studied the immediate (within hours and days) arrival of the poison frog Dendrobates tinctorius in new tree-fall gaps to examine the dynamics of their invasion in relation to tadpole rearing. I found that rearing sites are occupied sooner and tadpoles deposited at higher rates in fresh gaps than in the closed forest, but that the rate of cannibalism is also much greater in the former. This suggests that invading new tree-fall gaps can be the best parental decision when parents arrive early because they get access to fresh, high-quality resources, but it could be to the detriment of the offspring if parents arrive late, because of overcrowding and cannibalism. These results highlight the importance of studying the earliest stages of invasions in order to have a better understanding of the composition of communities in disturbed ecosystems at later successional stages.