Research progress in the relationship between mitochondrial dysfunction and osteoporosis

Osteoporosis (OP) is a chronic senile bone disease characterized by decreased bone mass and increased bone fragility. There are many inducing factors and the pathogenesis is complex. To explore the mechanism of OP and improve clinical efficacy has always been a hot topic in life science. In recent years, it has been found that mitochondria play an important role in the pathogenesis of OP. Functional abnormalities such as mitochondrial energy metabolism, mitochondrial oxidative stress, mitochondrial autophagy, mitochondrial-mediated apoptosis and mitochondrial dynamics can interfere with the differentiation of bone marrow mesenchymal stem cells through different signal pathways, cytokines and protein expression to regulate osteoblast activity, proliferation and differentiation, and start the process of osteoclast apoptosis. Therefore, taking mitochondria as the target, regulating the functions of mitochondrial energy metabolism, oxidative stress, autophagy and kinetics, inducing osteogenic differentiation of bone marrow mesenchymal stem cells, promoting osteoblast differentiation and mineralization, and inducing osteoclast apoptosis are potential strategies for the prevention and treatment of OP. In this article, the mechanism of mitochondrial dysfunction in OP was reviewed by referring to relevant literature at home and abroad, in order to lay a foundation for further research

Three-dimensional gait analysis of orthopaedic common foot and ankle joint diseases

Walking is an indispensable mode of transportation for human survival. Gait is a characteristic of walking. In the clinic, patients with different diseases exhibit different gait characteristics. Gait analysis describes the specific situation of human gait abnormalities by observing and studying the kinematics and dynamics of limbs and joints during human walking and depicting the corresponding geometric curves and values. In foot and ankle diseases, gait analysis can evaluate the degree and nature of gait abnormalities in patients and provide an important basis for the diagnosis of patients’ diseases, the correction of abnormal gait and related treatment methods. This article reviews the relevant literature, expounds on the clinical consensus on gait, and summarizes the gait characteristics of patients with common ankle and foot diseases. Starting from the gait characteristics of individuals with different diseases, we hope to provide support and reference for the diagnosis, treatment and rehabilitation of clinically related diseases

Research Progress in Pre-harvest Sprouting of Rice

Pre-harvest sprouting is a serious problem in global agricultural production. After a long period of domestication, the dormancy level of cultivated crops is generally lower than that of wild ancestors. Although the shortening of dormancy period may increase the reproductive generation and agricultural production value of crops, premature dormancy release will cause crop sprouting before harvest, resulting in huge economic losses. In this paper, the physiological mechanism, QTL and genes, prevention and control of pre-harvest sprouting are systematically reviewed. It is believed that high water content is the precondition of rice seed germination and pre-harvest sprouting, during this process, the increases of amylase activity and soluble sugar content provide energy for pre-harvest sprouting; the contents of plant hormones ABA and GA in rice grains and the sensitivity of seeds to them are the key factors to determine the pre-harvest germination. In recent years, the excavation of QTL and its functional genes related to pre-harvest sprouting will provide an important basis for clarifying the mechanism of pre-harvest sprouting in rice and breeding resistant varieties. In the long run, through extensive evaluation of rice germplasm resources, especially searching for the lost dormancy genes in wild rice and local varieties, and gathering such genes through molecular breeding, breeding lines (varieties) resistant to sprouting, it is of great significance to solve the problem of sprouting, improve rice yield and quality, and ensure national food security

Identification of <i>XTH</i> Family Genes and Expression Analysis of Endosperm Weakening in Lettuce (<i>Lactuca sativa</i> L.)

Seed germination requires the relaxation of endosperm cap and radicle cell walls, with cell wall hydrolases playing a significant role in this process. Our study revealed that a type of cell wall hydrolase, xyloglucan endotransglucosylase, may significantly contribute to endosperm weakening during lettuce seed germination. Through bioinformatics analysis, the XTH gene family in lettuce was divided into five subfamilies localized on nine chromosomes. Notably, there were significant differences in gene structure among the members of the LsXTHs family containing 1–4 exons and 20 conserved motifs. Among these motifs, motif1, motif2, and motif3 encoded the XTH structural domain. The promoter regions of LsXTHs contained a large number of cis-acting elements responsive to various abiotic stresses, such as drought, anaerobiosis, low temperature, high temperature, and salt stress. Germination experiments showed that seeds imbibed in water and 5 μmol/L abscisic acid (ABA) were able to achieve typical germination with radicle protrusion from the endosperm cap, achieving germination of 100% and 36%, respectively. Conversely, in 0.3% sodium dichloroisocyanurate (SDIC), the swollen seeds were unable to germinate or complete atypical germination, resulting in a germination rate of 30%. Compared to the control, the mechanical strength of the endosperm cap of seeds imbibed in 0.3% SDIC for 8 h increased by 14%, indicating that SDIC may inhibit seed germination by enhancing the mechanical strength of the endosperm cap. Enzyme activity analysis revealed that during lettuce seed germination, XTH enzyme activity in the endosperm cap was significantly higher than in other tissues and increased gradually with imbibition. Transcriptome analysis of the endosperm cap detected the expression of 10 LsXTH genes. Among these, LsXTH43 exhibited the highest expression during germination and was significantly upregulated two-fold by high temperatures, suggesting a potential role in the high-temperature germination of lettuce seeds. Additionally, SDIC downregulated the expression of LsXTHs to varying degrees, with the expression of LsXTH15 reduced to only 6% of its original level. Low temperature, high temperature, drought, and salt stress all reduced the expression of most LsXTHs to different degrees; when seeds germinated under waterlogging and cadmium stress, LsXTH6, LsXTH7, LsXTH8, LsXTH32, and LsXTH33 were all upregulated to some extent