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Protein prenylation is believed to be catalyzed by three heterodimeric enzymes: FTase, GGTase1 and GGTase2. Here we report the identification of a previously unknown human prenyltransferase complex consisting of an orphan prenyltransferase α-subunit, PTAR1, and the catalytic β-subunit of GGTase2, RabGGTB. This enzyme, which we named GGTase3, geranylgeranylates FBXL2 to allow its localization at cell membranes, where this ubiquitin ligase mediates the polyubiquitylation of membrane-anchored proteins. In cells, FBXL2 is specifically recognized by GGTase3 despite having a typical carboxy-terminal CaaX prenylation motif that is predicted to be recognized by GGTase1. Our crystal structure analysis of the full-length GGTase3–FBXL2–SKP1 complex reveals an extensive multivalent interface specifically formed between the leucine-rich repeat domain of FBXL2 and PTAR1, which unmasks the structural basis of the substrate-enzyme specificity. By uncovering a missing prenyltransferase and its unique mode of substrate recognition, our findings call for a revision of the ‘prenylation code’.

Purpose of Review The purpose of this review is to investigate the current use and effectiveness of active surveillance (AS) for clinical low-risk prostate cancer (PCa) in men considered to be “high-risk” based on the factors of race, genetics, healthcare access, and socioeconomic status. Recent Findings Advances in molecular biomarkers and imaging have improved the detection, risk stratification, and treatment of PCa. Still, overdiagnosis and overtreatment of indolent disease remain a concern. AS is therefore the preferred option for clinical low-risk disease. Yet, because of the variability in PCa presentation based on the aforementioned environmental and genetic factors, the question remains: Is active surveillance a safe option for everyone? Summary Provider hesitancy should not necessarily exclude high-risk men from participating in AS. Rather, clinicians should employ shared decision-making, sound clinical judgment, and stringent follow-up in order to effectively counsel AS candidates and optimize AS-related outcomes in “high-risk” individuals.

Carbon-Fibre-Reinforced Polymers (CFRPs) have seen a steady rise in modern industrial applications due to their high strength-to-weight ratio and corrosion resistance. However, their potential is being hindered by delamination which is induced on them during machining operations. This has led to the adoption of new and innovative techniques like cryogenic-assisted machining which could potentially help reduce delamination. This study is aimed at investigating the effect of cryogenic conditions on achieving better hole quality with reduced delamination. In this paper, the numerical analysis of the drilling of CFRP composites is presented. Drilling tests were performed experimentally for validation purposes. The effects of cooling conditions and their subsequent effect on the thrust force and delamination were evaluated using ABAQUS/CAE. The numerical models and experimental results both demonstrated a significant reduction in the delamination factor in CFRP under cryogenic drilling conditions.

Background: Debate over the optimal age at time of surgery for treatment of brachial plexus birth injury (BPBI) remains controversial, and there exists geographical variation in surgical preference for age at time of surgery. The objective of this review was to analyze trends in age and geography in brachial plexus microsurgery for treatment of brachial plexus birth injury (BPBI) over time. Methods: Review of the literature in this study was conducted according to the Preferred Reporting Items for Systematic Reviews and Meta-Analysis (PRISMA) guidelines. PubMed, Cochrane, Web of Science, and the Cumulative Index to Nursing and Allied Health Literature (CINAHL) databases were searched. Results: Pediatric patients undergoing brachial plexus microsurgery described in published reports before 2011 had a mean of 7.15 [+ or -] 6.56 months of age, while pediatric patients undergoing brachial plexus microsurgery surgery described in published reports after 2011 had a mean of 11.23 [+ or -] 9.76 months of age (p<0.05). The mean age at surgery was lower in publications from Asian countries (6.29 months) than in publications from North America (11.34 months; p < 0.05). Conclusions: Age at time of microsurgery for treatment of BPBI is increasing, with mean age at surgeries occurring in and after 2011 being 4 months higher than thos occuring before 2011. The mean age at surgery was about 5 months higher in North American publications than in Asian publications.

Among all renewable energy sources, solar power is one of the major sources which contributes for pollution control and protection of environment. For a number of decades, technologies for utilizing the solar power have been the area of research and development. In the current research, thermal performance parameters of multi-gap V-roughness with staggered elements of a solar air heater (SAH) are experimentally investigated. The artificial neural network (ANN) is also utilized for predicting the thermal performance parameters of SAH. Experiments were executed in a rectangular channel with one roughened side at the top exposed to a uniform heat flux. A significant rise in thermal efficiency performance was reported under a predefined range of Reynolds number (Re) from 3000 to 14000 with an optimized value of relative roughness pitch ratio ( P / e ) and relative staggered rib length ( w / g ) as 12 and 1, respectively. The maximum thermal efficiency was attained in the range from 42.15 to 87.02% under considered Reynolds numbers for optimum value of P / e as 12 and w / g as 1. A multilayered perceptron (MLP) feed-forward ANN trained by the Broyden–Fletcher–Goldfarb–Shanno (BFGS) algorithm was utilized to predict the thermal efficiency ( η th ), friction ( f ), and Nusselt number (Nu). The thermal performance parameters such as P / e , w / g , Re, and temperature at the inlet, outlet, and plate were the critical input parameters/signals used in the ANN method. The optimum ANN arrangement/structure to predict the Nu, f , and η th demonstrate higher accurateness in assessing the performance characteristics of SAH by attaining the root mean squared error (RMSE) in prediction and the Pearson coefficient of association ( R 2 ) of 1.591 and 0.994; 0.0012 and 0.851; and 0.025 and 0.981, respectively. The prediction profile plots of the ANN demonstrate the influence of various input parameters on the thermal performance parameters.

In work-from-home (WFH) situation due to coronavirus (COVID-19) pandemic, the handheld device (HHD) users work in awkward postures for longer hours because of unavailability of ergonomically designed workstations. This problem results in different type of musculoskeletal disorders (MSDs) among the HHD users. An integrated multi-criteria decision-making approach was offered for identifying the risk level of MSDs among HHD users. A case example implemented the proposed approach in which, firstly, the best-worst method (BWM) technique was used to prioritize and determine the relative importance (weightage) of the risk factors. The weightages of the risk factors further used to rank the seven alternatives (HHD users) using Vlse Kriterijumska Optimizacija Kompromisno Resenje (VIKOR) technique. The outcomes of the BWM investigation showed that the three most significant risk factors responsible for MSDs are duration of working, poor working posture and un-ergonomic design. The outcome of the VIKOR technique exhibited that computer professionals were at the highest risk among all users. The risk factor priority must be used for designing a working strategy for the WFH situation which will help to mitigate the risks of MSDs.

Solar power is one of the main sources of renewable energy which helps for protecting the environmental and reducing pollution. Technologies and systems for utilizing solar power are the area of research and development for a number of decades. In a solar air heater (SAH), use of fabricated irregularities on its wide face is an effective technique to augment heat discharge for flowing air with a moderate rise in frictional conduct. The necessary conditions for building an effective roughness design are to pick roughness patterns and its geometrical factors such that they may govern the nature of fluid flow with a rise in the heat discharge and lowering pumping losses. Continuous efforts are being carried out by various researchers to optimize the roughness parameters that deliver high heat release rates with low cost of pressure penalty or better thermo-hydraulic performance parameter (THPP). The researchers dominantly studied V-shaped of roughness design because of its better performance characteristics. The main intent of the present paper is to appraise or compile the influence of various V-shaped rib roughness on the thermal behavior of SAH. The outcomes of different V-designed rib roughness in terms of Nusselt number ( Nu ), and friction factor ( f ), statistical correlations established related to geometrical parameters and THPP are summarized. A comparative study using different V-designed ribs are also discussed to guide the future research and improvements.

In work-from-home (WFH) situation due to coronavirus (COVID-19) pandemic, the handheld device (HHD) users work in awkward postures for longer hours because of unavailability of ergonomically designed workstations. This problem results in different type of musculoskeletal disorders (MSDs) among the HHD users. An integrated multi-criteria decision-making approach was offered for identifying the risk level of MSDs among HHD users. A case example implemented the proposed approach in which, firstly, the best–worst method (BWM) technique was used to prioritize and determine the relative importance (weightage) of the risk factors. The weightages of the risk factors further used to rank the seven alternatives (HHD users) using Vlse Kriterijumska Optimizacija Kompromisno Resenje (VIKOR) technique. The outcomes of the BWM investigation showed that the three most significant risk factors responsible for MSDs are duration of working, poor working posture and un-ergonomic design. The outcome of the VIKOR technique exhibited that computer professionals were at the highest risk among all users. The risk factor priority must be used for designing a working strategy for the WFH situation which will help to mitigate the risks of MSDs.

PurposeThe COVID-19 pandemic is spreading in India and different parts of the world. The outbreak delivered not only the condition of dying from infection but also forced people (especially office workers and students) to perform all working (office work, classes, assignments, etc.) and non-working activities (leisure activities such as social media, gaming, etc.) at home using handheld devices (HHDs). In this situation, HHD usage for longer durations is mainly responsible for work-related health issues. Therefore, the paper aims to explore HHD usage patterns and musculoskeletal disorders (MSDs) amongst HHD users during homestay and the impact of individual and HHD usage–related factors on MSDs.Design/methodology/approachFrom different states of India, 651 people (especially HHD users from universities and industries) were sampled by using systematic cluster random sampling. In addition, an online questionnaire was used to collect data on the prevalence and risk factors of MSDs. Finally, mean comparisons and chi-square analysis was used to analyse the collected data.FindingsThe prevalence rate of MSDs was higher in upper body parts as compared to the lower body parts. The association of gender with MSDs in various body parts was substantial. The time spent on various working and non-working activities using HHDs was significantly associated with MSDs in upper body parts.Practical implicationsHomestay work may be used as an alternative working arrangement, and the risk factors that have the most significant impact on the health of HHD users may be identified by organizations. The findings suggest the proper use of HHDs as per their essential need with intermediate recreational activities.Originality/valueIt is observed that the musculoskeletal health of office workers and university students is a cause for concern during homestay. The current study provides the prevalence of MSDs experienced by HHD users and the association of individual and HHD usage factors with MSDs.