The Effect of Training, Compensation and Work Discipline on Job Satisfaction that Impacts Employee Performance PT. Astra Honda Motor

This study aims to determine the effect of training, compensation, and work discipline on job satisfaction that has an impact on the performance of employees of PT. Astra Honda Motor. This research uses a case study method with a quantitative research methodology that uses 200 respondents from PT. Astra Honda Motor in the Engineering Plant Division 1 to Plant 5, Purchasing Division (P & PC) Plant 2, Procurement Plant 2 Division, PPIC Plant 1 Division to Plant 5. In this study, the Likert scale was used to model the questionnaire. The statistical testing technique in this study is multiple linear regression and hypothesis testing using the SPSS series 22 program. Meanwhile for mahalanobise distance test, path analysis, and trimming use the Amos series 22 program.

Re-engineering Plant Phenylpropanoid Metabolism With the Aid of Synthetic Biosensors

Phenylpropanoids comprise a large class of specialized plant metabolites with many important applications, including pharmaceuticals, food nutrients, colorants, fragrances, and biofuels. Therefore, much effort has been devoted to manipulating their biosynthesis to produce high yields in a more controlled manner in microbial and plant systems. However, current strategies are prone to significant adverse effects due to pathway complexity, metabolic burden, and metabolite bioactivity, which still hinder the development of tailor-made phenylpropanoid biofactories. This gap could be addressed by the use of biosensors, which are molecular devices capable of sensing specific metabolites and triggering a desired response, as a way to sense the pathway’s metabolic status and dynamically regulate its flux based on specific signals. Here, we provide a brief overview of current research on synthetic biology and metabolic engineering approaches to control phenylpropanoid synthesis and phenylpropanoid-related biosensors, advocating for the use of biosensors and genetic circuits as a step forward in plant synthetic biology to develop autonomously-controlled phenylpropanoid-producing plant biofactories.

Science Forum: Vision, challenges and opportunities for a Plant Cell Atlas

With growing populations and pressing environmental problems, future economies will be increasingly plant-based. Now is the time to reimagine plant science as a critical component of fundamental science, agriculture, environmental stewardship, energy, technology and healthcare. This effort requires a conceptual and technological framework to identify and map all cell types, and to comprehensively annotate the localization and organization of molecules at cellular and tissue levels. This framework, called the Plant Cell Atlas (PCA), will be critical for understanding and engineering plant development, physiology and environmental responses. A workshop was convened to discuss the purpose and utility of such an initiative, resulting in a roadmap that acknowledges the current knowledge gaps and technical challenges, but also underscores how the PCA initiative can help to overcome them.

High Quality Light From Ardatov Light and Engineering Plant

The article briefly discusses the stages and trends in the development of manufacture and products of OJSC Ardatov Light and Engineering Plant, which has been producing lighting devices (LD) for various purposes for more than 70 years. New lighting devices, their design features and main parameters are presented.

The role of large industrial enterprises in the life of Sevastopol during the 1980s (on the example of Sevastopol instrument engineering plant “Parus”)

The subject of this research is the role of large industrial enterprises in the life of Sevastopol in the early 1980s on the example of Sevastopol instrument engineering plant “Paruso”, which in 1980 was renamed into Sevastopol instrument engineering plant named after V .I. Lenin. The authors substantiate the selection of this plant as an example and object of research by the fact that it was remarkable enterprises for Sevastopol and the entire instrument engineering industry of the Soviet Union. Based on the archival sources, the authors examine the particular episodes of activity of the plant that impacted the lives of the city and its residents. Attention is given to the activity of the plant on construction and exploitation of residential buildings and infrastructure facilities, as well as organization of children’s recreation. The authors also note the steps undertaken by the enterprise towards improving working conditions for the employees and activity of the Komsomol organization. The conclusion is made that the instrument engineering plant “Parus” has played a significant role in the life of Sevastopol, namely one of the districts in northern part: the enterprise was advancing and succeeding: created new jobs, expanded production range, and improved working conditions. The plant also contributed to the construction of new residential buildings and dormitories, kindergartens, stores, library, and infrastructure facilities, most of which in the northern part of Sevastopol exist up until today. Leaning on the archival sources, the authors claim that major attention was paid to children’s recreation, health promotion, and education.