Levantamiento y sistematización de los procesos en almacenes de barrio de la región del Maule

95 p.En las últimas décadas, las herramientas tecnológicas han permitido el crecimiento exponencial en negocios y ha ayudado a las PYMES (Pequeña y medianas empresas) a surgir en el mundo económico, ya que permiten organizar sus procesos y mejorar la toma de decisiones. Sin embargo, por diversos motivos, las microempresas no han logrado adaptar estas tecnologías en sus negocios, quedándose ajenas a este nuevo mundo. Los procesos de los almacenes de barrio se han visto perjudicados por la pandemia que nos ha afectado mundialmente, en la actualidad. Marcando de forma considerable el desarrollo de las actividades y tareas que se llevan a cabo en estos negocios. Además, el cambio de boleta de papel a boletas electrónicas que SII exige, les ha tomado mucho tiempo adaptarse a este nuevo cambio impuesto. En esta investigación, se realizó un estudio para determinar el funcionamiento de los procesos de los almacenes de barrios y un análisis para identificar cuáles son las herramientas tecnológicas que se utilizan en estos negocios, realizando un análisis a un total de 15 microempresas ubicadas entre Curicó, Los Niches y Llico, localidades de la Región del Maule Este estudio permitió levantar y sistematizar los procesos de estos negocios generando soluciones informáticas que permitan mejorar la toma de decisiones y funcionamiento de estas empresas, Los resultados arrojaron un déficit de conocimientos informáticos, problemas en actividades de venta, compra y sobre todo en control de inventario. Además de que este último tiempo, por temas de pandemia, algunos negocios debieron incluir el servicio de distribución de sus productos donde generaron retrasos en la entrega. // ABSTRACT: In recent decades, technological tools have allowed exponential growth in businesses and have helped SMEs to emerge in the economic world, since they allow to organize their processes and improve decision-making. However, for various reasons, microenterprises have not been able to adapt these technologies in their businesses, remaining outside this new world. The processes of the neighborhood cornerstore have been damaged by the pandemic that has affected us worldwide, as it is today. Significantly marking the development of the activities and tasks carried out in these businesses. In addition, the change from paper ticket to electronic ballot that SII requires has taken a long time to adapt to this new imposed change. In this research, a study was carried out to determine the operation of the neighborhood cornerstore processes and an analysis to identify the technological tools used in these businesses, performing an analysis on a total of 15 micro-enterprises located between Curicó, Los Niches and Llico, towns in the Maule’s Region. This study made it possible to raise and systematize the processes of these businesses, generating computer solutions that allow improving the decision-making and operation of these companies, The results showed a deficit of computer skills, problems in sales activities, purchase and especially in inventory control. In addition to the fact that this last time, due to pandemic issues, some businesses had to include the distribution service of their products where they generated delays in delivery

Brain dopamine transmission in health and Parkinson's disease: modulation of synaptic transmission and plasticity through volume transmission and dopamine heteroreceptors.

This perspective article provides observations supporting the view that nigro-striatal dopamine neurons and meso-limbic dopamine neurons mainly communicate through short distance volume transmission in the um range with dopamine diffusing into extrasynaptic and synaptic regions of glutamate and GABA synapses. Based on this communication it is discussed how volume transmission modulates synaptic glutamate transmission onto the D1R modulated direct and D2R modulated indirect GABA pathways of the dorsal striatum. Each nigro-striatal dopamine neuron was first calculated to form large numbers of neostriatal DA nerve terminals and then found to give rise to dense axonal arborizations spread over the neostriatum, from which dopamine is released. These neurons can through DA volume transmission directly influence not only the striatal GABA projection neurons but all the striatal cell types in parallel. It includes the GABA nerve cells forming the island-/striosome GABA pathway to the nigral dopamine cells, the striatal cholinergic interneurons and the striatal GABA interneurons. The dopamine modulation of the different striatal nerve cell types involves the five dopamine receptor subtypes, D1R to D5R receptors, and their formation of multiple extrasynaptic and synaptic dopamine homo and heteroreceptor complexes. These features of the nigro-striatal dopamine neuron to modulate in parallel the activity of practically all the striatal nerve cell types in the dorsal striatum, through the dopamine receptor complexes allows us to understand its unique and crucial fine-tuning of movements, which is lost in Parkinson's disease. Integration of striatal dopamine signals with other transmitter systems in the striatum mainly takes place via the receptor-receptor interactions in dopamine heteroreceptor complexes. Such molecular events also participate in the integration of volume transmission and synaptic transmission. Dopamine modulation of the glutamate synapses on the dorsal striato-pallidal GABA pathway involves D2R heteroreceptor complexes such as D2R-NMDAR, A2AR-D2R, and NTSR1-D2R heteroreceptor complexes. The dopamine modulation of glutamate synapses on the striato-entopeduncular/nigral pathway takes place mainly via D1R heteroreceptor complexes such as D1R-NMDAR, A2R-D1R, and D1R-D3R heteroreceptor complexes. Dopamine modulation of the island/striosome compartment of the dorsal striatum projecting to the nigral dopamine cells involve D4R-MOR heteroreceptor complexes. All these receptor-receptor interactions have relevance for Parkinson's disease and its treatment

Brain dopamine transmission in health and Parkinson's disease: modulation of synaptic transmission and plasticity through volume transmission and dopamine heteroreceptors.

This perspective article provides observations supporting the view that nigro-striatal dopamine neurons and meso-limbic dopamine neurons mainly communicate through short distance volume transmission in the um range with dopamine diffusing into extrasynaptic and synaptic regions of glutamate and GABA synapses. Based on this communication it is discussed how volume transmission modulates synaptic glutamate transmission onto the D1R modulated direct and D2R modulated indirect GABA pathways of the dorsal striatum. Each nigro-striatal dopamine neuron was first calculated to form large numbers of neostriatal DA nerve terminals and then found to give rise to dense axonal arborizations spread over the neostriatum, from which dopamine is released. These neurons can through DA volume transmission directly influence not only the striatal GABA projection neurons but all the striatal cell types in parallel. It includes the GABA nerve cells forming the island-/striosome GABA pathway to the nigral dopamine cells, the striatal cholinergic interneurons and the striatal GABA interneurons. The dopamine modulation of the different striatal nerve cell types involves the five dopamine receptor subtypes, D1R to D5R receptors, and their formation of multiple extrasynaptic and synaptic dopamine homo and heteroreceptor complexes. These features of the nigro-striatal dopamine neuron to modulate in parallel the activity of practically all the striatal nerve cell types in the dorsal striatum, through the dopamine receptor complexes allows us to understand its unique and crucial fine-tuning of movements, which is lost in Parkinson's disease. Integration of striatal dopamine signals with other transmitter systems in the striatum mainly takes place via the receptor-receptor interactions in dopamine heteroreceptor complexes. Such molecular events also participate in the integration of volume transmission and synaptic transmission. Dopamine modulation of the glutamate synapses on the dorsal striato-pallidal GABA pathway involves D2R heteroreceptor complexes such as D2R-NMDAR, A2AR-D2R, and NTSR1-D2R heteroreceptor complexes. The dopamine modulation of glutamate synapses on the striato-entopeduncular/nigral pathway takes place mainly via D1R heteroreceptor complexes such as D1R-NMDAR, A2R-D1R, and D1R-D3R heteroreceptor complexes. Dopamine modulation of the island/striosome compartment of the dorsal striatum projecting to the nigral dopamine cells involve D4R-MOR heteroreceptor complexes. All these receptor-receptor interactions have relevance for Parkinson's disease and its treatment

Brain dopamine transmission in health and Parkinson's disease: modulation of synaptic transmission and plasticity through volume transmission and dopamine heteroreceptors.

This perspective article provides observations supporting the view that nigro-striatal dopamine neurons and meso-limbic dopamine neurons mainly communicate through short distance volume transmission in the um range with dopamine diffusing into extrasynaptic and synaptic regions of glutamate and GABA synapses. Based on this communication it is discussed how volume transmission modulates synaptic glutamate transmission onto the D1R modulated direct and D2R modulated indirect GABA pathways of the dorsal striatum. Each nigro-striatal dopamine neuron was first calculated to form large numbers of neostriatal DA nerve terminals and then found to give rise to dense axonal arborizations spread over the neostriatum, from which dopamine is released. These neurons can through DA volume transmission directly influence not only the striatal GABA projection neurons but all the striatal cell types in parallel. It includes the GABA nerve cells forming the island-/striosome GABA pathway to the nigral dopamine cells, the striatal cholinergic interneurons and the striatal GABA interneurons. The dopamine modulation of the different striatal nerve cell types involves the five dopamine receptor subtypes, D1R to D5R receptors, and their formation of multiple extrasynaptic and synaptic dopamine homo and heteroreceptor complexes. These features of the nigro-striatal dopamine neuron to modulate in parallel the activity of practically all the striatal nerve cell types in the dorsal striatum, through the dopamine receptor complexes allows us to understand its unique and crucial fine-tuning of movements, which is lost in Parkinson's disease. Integration of striatal dopamine signals with other transmitter systems in the striatum mainly takes place via the receptor-receptor interactions in dopamine heteroreceptor complexes. Such molecular events also participate in the integration of volume transmission and synaptic transmission. Dopamine modulation of the glutamate synapses on the dorsal striato-pallidal GABA pathway involves D2R heteroreceptor complexes such as D2R-NMDAR, A2AR-D2R, and NTSR1-D2R heteroreceptor complexes. The dopamine modulation of glutamate synapses on the striato-entopeduncular/nigral pathway takes place mainly via D1R heteroreceptor complexes such as D1R-NMDAR, A2R-D1R, and D1R-D3R heteroreceptor complexes. Dopamine modulation of the island/striosome compartment of the dorsal striatum projecting to the nigral dopamine cells involve D4R-MOR heteroreceptor complexes. All these receptor-receptor interactions have relevance for Parkinson's disease and its treatment