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Alternative splicing is a regulated process by which eukaryotic genes may produce diverse biological products. Defects in the process typically affect cellular function and can lead to disease. Next-generation sequencing (NGS) technologies have been developed to detect alternative splicing events; however, the alternative splicing events detected by standard RNA-Seq may or may not be derived from full-length RNA. The SMARTer method provides full-length double-strand cDNA synthesis, and the resulting gene expression patterns correlate strongly with standard RNA-Seq. However, it also yields non-specific genomic DNA amplification. We improved the SMARTer method by employing a target-capture full-length double-strand cDNA sequencing method. High-fidelity, full-length cDNA is generated by the SMARTer method, followed by target-specific capture with exon probes. The expression pattern observed with this SMARTer Capture method was highly correlated with the results of the original SMARTer method. The number and accuracy of the detected splicing events were increased by eliminating non-specific genomic DNA amplification by the SMARTer Capture. Compared to the original SMARTer method, the SMARTer Capture provided 4-fold greater detection of alternative splicing events at the same read number, and it took less than 1/100 of read number to detect the same number of splicing events. ISO-1 molecular weight The percent splicing in index (PSI) of the SMARTer Capture is highly correlated with the PSI of the SMARTer. These results indicate that the SMARTer Capture represents an improvement of the SMARTer method to accurately characterize alternative splicing repertories in targeted genes without biases.We describe a transparency illusion that can be observed with an ordinary metal knife and fork. Placed in the correct configuration relative to the fork, the metal knife appears transparent, with some observers experiencing a bistable percept in which transparency alternates with reflective appearance. The effect is related to other illusory percepts that follow from careful placement of mirrored surfaces, but to our knowledge, it is unique in that the key feature of the illusion is how the mirrored surface (in this case, the knife) is perceived rather than how a mirror induces altered perception of other objects and surfaces. We describe conditions that do and do not affect the strength of the illusion and point out its connections to previously reported phenomena.

The COVID-19 pandemic led to a widespread socioeconomic shutdown, including medical facilities in many parts of the world. The purpose of this study was to assess the impact on neuroimaging utilisation at an academic medical centre in the United States caused by this shutdown.

Exam volumes from 1 February 2020 to 11 August 2020 were calculated based on patient location, including outpatient, inpatient and emergency, as well as modality type, including computed tomography and magnetic resonance imaging. 13 March 2020 was designated as the beginning of the shutdown period for the radiology department and 1 May 2020 was designated as the reopening date. The scan volumes during the pre-shutdown, shutdown and post-shutdown periods were compared using

-tests.

Overall, neuroimaging scan volumes declined significantly by 41% during the shutdown period and returned to 98% of the pre-shutdown period levels after the shutdown, with an estimated 3231 missed scans. Outpatient scan volumes were more greatly affected than inpatient scan volumes, while emergency scan volumes declined the least during the shutdown. In addition, the magnetic resonance imaging scan volumes declined to a greater degree than the computed tomography scan volumes during the shutdown.

The shutdown from the COVID-19 pandemic had a substantial but transient impact on neuroimaging utilisation overall, with variable magnitude depending on patient location and modality type.

The shutdown from the COVID-19 pandemic had a substantial but transient impact on neuroimaging utilisation overall, with variable magnitude depending on patient location and modality type.In the last few decades, research on lateralization has expanded our knowledge about the manifestation, development, and mechanisms of this fascinating feature of nervous systems. This has been possible not only thanks to human studies, but to the use of animal models and the introduction of ground-breaking techniques within this research field. However, recent studies have also demonstrated how complex this phenomenon is and highlighted that we still lack a complete understanding of brain and behavioural asymmetries. Here, I comment on two of the challenges presented by Ocklenburg and colleagues that research on lateralization has to face in the next future. I argue that, in order to improve our understanding of lateralization, we have to consider it as a dynamic and plastic characteristic, which is strongly influenced by both internal factors, such as an animal's motivation and emotional states, and external factors, including the physical environment and the social context.Conflict processing and interference control have been popular topics of research in the study of pathological brain aging. However, there remains much to be learned about how these cognitive processes are altered in the course of healthy brain aging. Moreover, few studies have combined multiple measures of interference control using factorial designs. The aim of this study was to determine the nature of age-related changes in behavioral and electroencephalographic correlates of interference control using a factorial combination of the Simon and flanker interference conditions. Data were collected from a group of younger and high-functioning older adults. Behavioral results indicated the presence of conflict interference effects in both groups, that both Simon and flanker conflict effects are increased in high-functioning older adults, that the two types of conflict interference interact superadditively, and that older adults are more susceptible to the superadditive costs of multiple conflict types. ERP analyses revealed that early perceptual and response-selection processes are differentially modulated by flanker and Simon conflict respectively, however, there was no evidence that these early processes were impaired in older adults. Later components of the ERP in the P3 time range mirrored behavioral results, reflecting the increased susceptibility to flanker and Simon conflict in older adults.

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