Research on sports reform in the network era based on educational psychology in the context of the COVID-19.

Introduction: In the context of the continuous progress of the "Internet+" era and the exceptionally severe outbreak of the Covid-19, online education confronts many challenges and also brings unlimited development opportunities. Methods: In this paper, taking six universities with sports majors in Chongqing as the research objects, we analyze the current situation and problems of the development and construction of online education resources for sports in colleges and universities by browsing the official websites of colleges and universities, investigating the cooperation between colleges and universities and Massive Open Online Course (MOOC), and conducting a questionnaire survey on students. Results: The results show that it is necessary to innovate the traditional inefficient classroom teaching model based on the values of adapting to the characteristics of the "Internet+" era and learning advanced teaching rules, thus optimizing teaching effectiveness and fostering students' independent learning, thinking and innovation. Discussion: We investigated students' online learning habits, their experience of using online education platform and the difficulties they encountered in the process, based on which two issues were raised: learning needs and learning experience.

Adrenergic stimulation regulates Na(+)/Ca(2+)Exchanger expression in rat cardiac myocytes.

The Na/Ca exchanger protein encoded by the NCX1 gene provides the predominant mechanism for calcium efflux during cardiac relaxation. Because beta -adrenergic stimulation increases expression of Ca(2+)channels (Ca(2+)influx) in cardiac myocytes, we tested the hypothesis that isoproterenol would concomitantly augment expression of NCX1. Four hour treatment of neonatal myocytes with isoproterenol significantly increased NCX1 gene and protein expression, and increased the rate of transcript initiation. Alpha-adrenergic stimulation significantly decreases NCX1 mRNA levels. Calcium transient measurements revealed that for cells that had been pretreated with isoproterenol there was a faster relaxation rate of the Ca(2+)transient in the presence of thapsigargin, indicating an enhanced rate of intracellular Ca(2+)removal. We conclude that effectors that increase calcium channel expression in neonatal myocytes also augments NCX1 gene and protein expression over a similar time course, and that this is due to enhanced NCX1 transcription. The regulation of expression of NCX1 by adrenergic pathways may play an important role in regulation of excitation-contraction coupling in cardiac myocytes.

Regulation of DHP receptor expression by elements in the 5'-flanking sequence.

The alpha(1)-subunit of the cardiac/vascular Ca(2+) channel, which is the dihydropyridine (DHP)-binding site (the DHP receptor), provides the pore structure for Ca(2+) entry. It contains the binding sites for multiple classes of drugs collectively known as Ca(2+) antagonists. As an initial step toward understanding the mechanisms controlling transcription of the rat cardiac alpha(1C)-subunit gene, we have cloned a 2.3-kb fragment containing the 5'-flanking sequences and identified the alpha(1C)-subunit gene transcription start site. The rat alpha(1C)-subunit gene promoter belongs to the TATA-less class of such basal elements. Using deletion analysis of alpha(1C)-subunit promoter-luciferase reporter gene constructs, we have characterized the transcriptional modulating activity of the 5'-flanking region and conducted transient transfections in cultured neonatal rat cardiac ventricular myocytes and vascular smooth muscle cells. Sequence scanning identified several potential regulatory elements, including five consensus sequences for the cardiac-specific transcription factor Nkx2.5, an AP-1 site, a cAMP response element, and a hormone response element. Transient transfection experiments with the promoter-luciferase reporter fusion gene demonstrate that the 2-kb 5'-flanking region confers tissue specificity and hormone responsiveness to expression of the Ca(2+) channel alpha(1C)-subunit gene. Electrophoretic mobility shift assays identified a region of the alpha(1C)-subunit gene promoter that can bind transcription factors and appears to be important for gene expression.

Effects of AF64A on gene expression of choline acetyltransferase (ChAT) in the septo-hippocampal pathway and striatum in vivo.

AF64A (ethylcholine mustard aziridinium ion) was stereotaxically administered bilaterally (1 nmol/side) into rat lateral cerebral ventricles. Choline acetyltransferase (ChAT) activity and ChAT mRNA levels were measured at predetermined time points in the septo-hippocampal pathway and striatum, both well identified as rich in cholinergic neurons. AF64A caused a rapid but transient increase in ChAT mRNA (167%, P < 0.05) and ChAT activity (164%, P < 0.01) in the septum. By day 7 post treatment, there was a significant decrease in ChAT mRNA (42.5% of control, P < 0.05) in the septum although the ChAT activity still stayed high. This decreased ChAT mRNA level in the septum lasted for at least four weeks, and was paralleled by a long-lasting decrease in ChAT activity in the hippocampus. In the striatum, on the other hand, there were no observed changes in either ChAT activity or ChAT mRNA. These data suggest that the long term effect of AF64A on the septo-hippocampal cholinergic pathway may, at least in part, be due to an action of AF64A on gene expression in the cholinergic neuron. The difference in the response to AF64A between the septo-hippocampal and striatal cholinergic systems might be due to their difference in neuron types.