Genome-wide identification, phylogeny, and expression analysis of Sec14-like PITP gene family in sugarcane.

KEY MESSAGE: Six Sec14-like PITP genes from sugarcane were identified, two of them were cloned, and their biological functions were characterized indicating their involvement in plant defense against biotic and abiotic stresses. Sec14, a phosphatidylinositol transfer protein (PITP) is widely present in eukaryotes. In this study, the structure and expression patterns of six Sec14-like PITP genes (ScSEC14-1, ScSEC14p, ScSFH1, ScSFH2, ScPATL1, and ScPATL2) from sugarcane were analyzed, and two of them (ScSEC14-1 and ScSEC14p) were cloned and functionally verified. Phylogenetic analysis divided these genes into four groups, including group I (ScSFH1 and ScSFH2), group II (ScPATL1 and ScPATL2), Group III (ScSEC14p), and group V (ScSEC14-1). qRT-PCR analysis showed tissue-specific expression of these genes, primarily in the root, leaf, and bud tissues. They responded differently to SA, MeJA, and ABA stresses. ScSEC14-1, ScSEC14p, and ScSFH2 were upregulated by CuCl2 and CdCl2, while ScSEC14-1, ScSFH1, ScSFH2, and ScPATL1 were upregulated by PEG and NaCl. When infected by Sporisorium scitamineum, the transcripts of ScSFH1, ScSFH2, ScPATL1, and ScPATL2 were upregulated in the resistant genotype Yacheng 05-179, while those of ScSEC14-1 and ScSEC14p were upregulated in the susceptible genotype ROC22. Subcellular localization showed that ScSEC14-1 and ScSEC14p were mainly localized in the plasma membrane and cytoplasm. Enhanced growth of Escherichia coli BL21 cells expressing ScSEC14-1 and ScSEC14p showed high tolerance to NaCl and mannitol stresses. The transient overexpression of ScSEC14-1 and ScSEC14p in Nicotiana benthamiana leaves enhanced its resistance to the infection of tobacco pathogens Ralstonia solanacearum and Fusarium solani var. coeruleum. We can conclude the involvement of ScSEC14-1 and ScSEC14p in the defense against biotic and abiotic stresses, which should facilitate further research on Sec14-like PITP gene family, especially its regulatory mechanisms in sugarcane.

Biometric identification technology and its application in military field / 医疗卫生装备

The concept of biometric identification technology (BIT)was described,and several typical BITs were introduced such as identification technologies for hand, face, physiological features and behavioral trait. The application of BIT was analyzed in military field of foreign countries and China.It's pointed out BIT's future involved in bioassay,integration with wireless video identification technique and etc,comprehensive identification technique with high throughput,high precision and multi mechanism as well as enhanced safety.

Kinematic analysis and trajectory planning of serial robot / 医疗卫生装备

Objective To select a safe, flexible and lightweight manipulator and to execute its kinematic analysis and trajectory planning, so as to improve the application of serial robot in the treatment of hazardous biochemical products. Methods The kinematic modeling was carried out for the manipulator, and the kinematic and inverse kinematic formulas were deduced and verified.Differential transform method was used to obtain the Jacobian matrix of the manipulator,and the trajectory planning was implemented for the manipulator at joint and cartesian spaces.Results An ideal motion curve was formed by the trajectory planning of serial robot to realize its stable and high-efficiency motion at spaces.Conclusion Serial robot is facilitated to execute the treatment of hazardous biochemical products, and references are provided to other researches on serial robot.

Principle design and simulation of a single longitudinal-arm suspension of a rescue robot / 军事医学

Objective Modern warfare is geographically complex and changeable.The lack of terrain adaptability restricts the popularization and application of rescue robots in the frontline war.To solve this problem,this paper designs a new longitudinal-arm suspension mechanism,and carries out principle analysis and simulation optimization.Methods The automatic dynamic analysis of the mechanical system(ADAMS)was used to establish the virtual suspension model. According to the condition of rescue robot parameters, appropriate constraints and objective functions were set up to optimize the length of the suspension rod and spring stiffness coefficient.Results The suspension structure parameters were optimized by experimental simulation.The single longitudinal-arm suspension could convert the small stroke of the helical spring shock absorber into the large stroke of the tire movement according to the comparison of the experimental data. Conclusion The research and design of single longitudinal-arm suspension are of great significance to develop its physical prototype and to select the helical spring shock absorber,playing an important role in promoting the development of the small wheeled rescue robot.

Research progress of mechanical overload on osteoblast injury and its repair by traditional Chinese medicine / 医用生物力学

The growth and metabolism of bone are controlled by osteogenesis of osteoblasts and absorption of osteoclasts, and osteoblasts play a main role in the process of osteogenesis. Overload will affect proliferation and differentiation of osteoblasts, while the loading mode, intensity, duration and other factors can change the biological properties of osteoblasts and further affect the functional activity of osteoblasts. However, the mechanism of osteoblast response to overload is still at the exploratory stage and needs in-depth study. Numerous studies have demonstrated that icariin, a kind of Chinese herbal medicine, can promote proliferation and differentiation of osteoblasts, and icariin with a certain concentration plays an important role in the repair of osteoblast injuries. In this paper, the response of osteoblasts to overload stimulation and repair of osteoblast injuries by icariin were summarized.