BACKGROUNDTo study the effect of gene amplification and selection system with DHFR plus GS and DHFR or GS gene on the foreign gene expression.

METHODSUsing the N-terminal truncated hTPO(T184) gene as target gene, two plasmidsre were constructed: pDC- T184 and pGC-T184 where DHFR and GS gene were used respectively as the selective amplification marker. They were cotransfected into CHO dhfr cells to establish dual gene amplification and selection system of DHFR plus GS gen and respectively transfected to establish single gene amplification and selection system of DHFR or GS gene. Three selective methods in dual selective system to compare expression efficiency of hTPO were designed: the first method (DG) was to use drug pressure of MTX, then use MSX; the second method (GD) was reversed; the third method was simultaneously to use MTX and MSX as drug pressure.

RESULTSDHFR+GS dual system had not only higher gene amplification efficiency but also higher level expression. There was no distinct affect in different method of drug pressure.

CONCLUSIONSMTX plus MSX dual drug pressure in dual selection system was an efficient and simple method to increase the expression of foreign gene in mammalian cells.

Animals ; CHO Cells ; Cricetinae ; Gene Amplification ; drug effects ; Gene Expression ; Glutamate-Ammonia Ligase ; genetics ; Methotrexate ; pharmacology ; Plasmids ; genetics ; Tetrahydrofolate Dehydrogenase ; genetics

Objective To observe the effects of Huatan Quyu Decoction on cognitive function and the expressions of GABA and VILIP-1 in brain tissue of rats with cerebral small vessel disease;To discuss its mechanism for treatment on cerebral small vessel disease.Methods Totally 48 male SD rats were randomly divided into blank group,model group,Huatan Quyu Decoction low-and high-dosage groups,with 12 rats in each group.Except for the blank group,a rat model of cerebral small vessel disease was prepared by in vitro injection of homologous microemboli.Huatan Quyu Decoction low-and high-dosage groups were given Huatan Quyu Decoction 1.25 and 2.5 g/kg by gavage,the blank group and model group were gavage with equal amounts of distilled water for 28 consecutive days.Morris water maze experiment was conducted on day 1,7,14,and 28 after administration to evaluate the learning and memory abilities of rats,HE staining was used to observe pathological changes in hippocampal tissue,and immunohistochemical staining was used to detect the expressions of GABA and VILIP-1 proteins in brain tissue.Results Compared with the blank group,the escape latency of Morris water maze experiment in model group significantly prolonged(P<0.05),and the number of crossing platforms was significantly reduced(P<0.05);the arrangement of hippocampal tissue cells was disordered,gaps widen,and nuclei atrophy and necrosis,the GABA expression in brain tissue significantly decreased(P<0.05),while the VILIP-1 expression significantly increased(P<0.05).Compared with the model group,the escape latency of Morris water maze experiment in the Huatan Quyu Decoction low-and high-dosage groups significantly shortened(P<0.05)on day 7,14,and 28 of administration,and the number of crossing platforms significantly increased(P<0.05),GABA expression significantly increased(P<0.05),while VILIP-1 expression significantly decreased(P<0.05).Compared with the Huatan Quyu Decoction low-dosage group,the escape latency of Morris water maze experiment in Huatan Quyu Decoction high-dosage group decreased at various time points,and the number of crossing platforms increase,the pathological damage of hippocampal tissue was reduced,the expression of GABA in brain tissue increased,and the expression of VILIP-1 decreased,with statistical significance(P<0.05).Conclusion Huatan Quyu Decoction can increase the expression of GABA in brain tissue and inhibit the expression of VILIP-1,thereby improve the cognitive function of rats with cerebrovascular disease.

Life monitoring technology as the basis of health evaluation, in recent years, its related technology research also has new development, in which cardiopulmonary parameters are the core physiological indicators to measure the basic state of vital signs, the analysis of its monitoring technology is particularly important. In this study, the main means of life monitoring are analyzed, and the monitoring technology of cardiopulmonary parameters is the main focus. What is more, the research status and development of contact and non-contact cardiopulmonary monitoring technology at home and abroad were also considered. Lastly, this study will be combined with the radar wave vital signs monitoring technology, which has been achieved good results in the field of cardiopulmonary monitoring, in order to provide a reference for the long-term development of life monitoring field and the technology integration of intelligent pension, intelligent automobile and other related industries.
Algorithms ; Heart Rate ; Monitoring, Physiologic ; Radar ; Respiratory Rate ; Technology ; Vital Signs

Light adaptation enables the vertebrate visual system to operate over a wide range of ambient illumination. Regulation of phototransduction in photoreceptors is considered a major mechanism underlying light adaptation. However, various types of neurons and glial cells exist in the retina, and whether and how all retinal cells interact to adapt to light/dark conditions at the cellular and molecular levels requires systematic investigation. Therefore, we utilized single-cell RNA sequencing to dissect retinal cell-type-specific transcriptomes during light/dark adaptation in mice. The results demonstrated that, in addition to photoreceptors, other retinal cell types also showed dynamic molecular changes and specifically enriched signaling pathways under light/dark adaptation. Importantly, Müller glial cells (MGs) were identified as hub cells for intercellular interactions, displaying complex cell‒cell communication with other retinal cells. Furthermore, light increased the transcription of the deiodinase Dio2 in MGs, which converted thyroxine (T4) to active triiodothyronine (T3). Subsequently, light increased T3 levels and regulated mitochondrial respiration in retinal cells in response to light conditions. As cones specifically express the thyroid hormone receptor Thrb, they responded to the increase in T3 by adjusting light responsiveness. Loss of the expression of Dio2 specifically in MGs decreased the light responsive ability of cones. These results suggest that retinal cells display global transcriptional changes under light/dark adaptation and that MGs coordinate intercellular communication during light/dark adaptation via thyroid hormone signaling.
Animals ; Mice ; Dark Adaptation ; Light ; Retina ; Retinal Cone Photoreceptor Cells/metabolism* ; Adaptation, Ocular ; Neuroglia/physiology* ; Cell Communication ; Thyroid Hormones