Objective: Based on Newell s Model of Constraints, the present study aims to explore the effects of sports environment design on children s fundamental movement skills, and to provide certain theoretical and practical guidance for promoting children s movement development and carrying out sports activities. Methods: From March to June 2022, using the method of cluster sampling, 153 typical developmental children from a private kindergarten in Xi an were selected, and were randomly assigned to the regular activity group, sports division A group, and sports division B group for a period of 12 weeks (twice a week, 1 hour each time) experimental intervention. Among them, the regular activity group engaged in regular physical activities according to the kindergarten plan; the sports division A group participated in daily physical activities after the sports division; and the sports division B group engaged in structured and autonomous physical activities after the sports division. Motorische Basiskompetenzen in Kindergarten (MOBAK-KG) scale was used to assess the level of fundamental movement skills. Chi square test, one way analysis of variance and repeated measures analysis of variance were used to test the effects of sports environment design on children s fundamental movement skills. Results: After the experiment, children s manipulative skills，mobility skills, and fundamental movement skills improved significantly ( P ＜0.01); group and test time had a significant interaction on children s fundamental movement skills [ F (2,150) =113.07, P ＜0.01, η 2=0.60]，the posttest score of fundamental movement skills of children in group B of sports division (12.08±1.82) was significantly higher than that of group A of sports division (10.71±2.56), regular activity group (8.57±4.16). Conclusion The sports environment design under the constraint model perspective can effectively promote the development of children s fundamental movement skills. Kindergartens, families and communities should coordinate to promote the development of children s fundamental movement skills.

Objective To investigate expression and significance of decorin(DCN)in liver tissue and serum of liver transplant patients with chronic rejection(CR).Methods Immunohistochemistry(SP method)was used to detect expression of DCN in liver tissue of 16 normal controls, 20 patients with cirrhosis, 46 liver translantion patients without CR and 8 patients with CR.Enzyme-linked immunosorbent assay method(ELISA method)was used to determined the content of DCN in serum of all research subjects.Results The expression of DCN was negative in normal hepatic tissues and with/without CR, cirrhosis tissues showed strong expression of DCN.The positive expression rate and the average optical density value of DCN in liver transplant tissues with CR had significant difference comparing with Cirrhosis tissues(25% vs 55%, 0.1249 ±0.0039 vs 0.2357 ±0.0396, P <0.01,while no statistic siqnificance compared to normal liver tissues and those without CR.The level of DCN in serum was significantly higher in liver transplant patients with CR, with significant difference comparing with normal people, liver cirrhosis and transplant liver patients without CR(54.0833 ± 6.0325)μg/L vs(1.0232 ± 0.9105)μg/L,(12.6202 ± 1.5370)μg/L,(17.7102 ± 2.3562)μg/L, P < 0.01).The concentration of DCN in serum showed a positive correlation with the degree of CR.Conclusions DCN showed negative expression in liver tissue and increased significantly in serum of liver transplantation patients with CR.This suggests that DCN may be involved in occurrence and development of CR.At the same time the determination of DCN in serum maybe become an important indicator of the early diagnosis, development and prognosis of CR for liver transplant patients.

Production of reactive oxygen species (ROS) is a conserved immune response primarily mediated by NADPH oxidases (NOXs), also known in plants as respiratory burst oxidase homologs (RBOHs). Most microbe-associated molecular patterns (MAMPs) trigger a very fast and transient ROS burst in plants. However, recently, we found that lipopolysaccharides (LPS), a typical bacterial MAMP, triggered a biphasic ROS burst. In this study, we isolated mutants defective in LPS-triggered biphasic ROS burst (delt) in Arabidopsis, and cloned the DELT1 gene that was shown to encode RBOHD. In the delt1-2 allele, the antepenultimate residue, glutamic acid (E919), at the C-terminus of RBOHD was mutated to lysine (K). E919 is a highly conserved residue in NADPH oxidases, and a mutation of the corresponding residue E568 in human NOX2 has been reported to be one of the causes of chronic granulomatous disease. Consistently, we found that residue E919 was indispensable for RBOHD function in the MAMP-induced ROS burst and stomatal closure. It has been suggested that the mutation of this residue in other NADPH oxidases impairs the protein's stability and complex assembly. However, we found that the E919K mutation did not affect RBOHD protein abundance or the ability of protein association, suggesting that the residue E919 in RBOHD might have a regulatory mechanism different from that of other NOXs. Taken together, our results confirm that the antepenultimate residue E is critical for NADPH oxidases and provide a new insight into the regulatory mechanisms of RBOHD.
Agrobacterium tumefaciens/metabolism* ; Alleles ; Arabidopsis/metabolism* ; Arabidopsis Proteins/genetics* ; Gene Expression Regulation, Plant ; Genetic Techniques ; Humans ; Lipopolysaccharides/metabolism* ; Luminescence ; Mutation ; NADPH Oxidase 2/chemistry* ; NADPH Oxidases/genetics* ; Plant Stomata/metabolism* ; Protein Domains ; Reactive Oxygen Species/metabolism* ; Nicotiana/metabolism*