OBJECTIVETo compare three different methods in transfection of plasmid pGPU6/GFP/Neo into chicken embryo fibroblast.

METHODSDifferent doses (1.25 μl,2 μl,2.5 μl) of Lipofec-tamin2000, Gbfectene-Elite and HilyMax were used to transfect 1 μg plasmid pGPU6/GFP/Neo. The transfection efficiency was observed by the fluorescence and the cell viabilities were measured.

RESULTSThe transfection efficiency of HilyMax was significant higher than that of Lipofectamin2000 and Gbfectene-Elite (86.85%±2.32% compared with 48.33%±3.24% and compared with 37.35%±5.41%; F=18.882, P<0.05). The transfection efficiency of 2.5 μl HilyMax was highest(90.53%±1.15%). The cell viability of Lipofectamin2000 was significantly lower than that of HilyMax and Gbfectene-Elite(65.76%±5.78% compared with 89.54%±0.86% and compared with 82.45%±3.56%;F=90.676, P<0.05).

CONCLUSIONHilyMax has the highest transfection efficiency and the lowest cell toxicity in transfection of plasmid pGPU6/GFP/Neo into chicken embryo fibroblast, with the optimal ratio of 2.5 μl HilyMax:1 μg plasmid.

Animals ; Cell Line ; Chick Embryo ; Fibroblasts ; cytology ; Green Fluorescent Proteins ; genetics ; Plasmids ; genetics ; Transfection ; methods

Traditional Chinese medicinal resource survey method is time-consuming, strenuous, and having great human influence, the precision is not high enough. This paper, by using spatial information technology, carries on spatial sampling survey for wild medicinal plants resource for generous species to arrange the quadrat scientifically and estimate the suitable area, reserve precisely of medicinal plants. It not only improves the survey precision, but reduces the workload of field survey and provides scientific basis for survey method of pilot work on the fourth national traditional Chinese medicinal resource census.
Biodiversity ; Conservation of Natural Resources ; Ecosystem ; Humans ; Plants, Medicinal ; Spatial Analysis

Objective To observe the acute toxicity and nephrotoxicity of antibacterial peptide R9 in mice.Methods Median lethal dose (LD50) test:Antimicrobial peptide R9 was intraperitoneally injected into mice.After 7 d of observation,the LD50 and 95 ％ confidence limits were calculated according to the Bliss method.Renal toxicity of R9 test:80 mice were randomly divided into 4 groups:the low,medium and high dose (6.7,10,15 mg · kg-1 R9) experimental groups and blank control group (distilled water) were injected intraperitoneally.The blood samples were collected on the 2nd day respectively from 10 mice,then blood indexes were tested.The serum were separated,then creatinine,blood urea nitrogen and total protein were measured.Kidneys and other organs were taken to calculate the organ coefficients.Results The LD50 of antimicrobial peptide R9 was 21.3 mg · kg-1,and its 95％ confidence limit was 19.1-23.5 mg · kg-1.On the second day after administration,WBC (4.07 × 109/L) and RBC (8.96 × 1012/L) in the high dose experimental group decreased compared with the blank control group,the differences were statistically significant difference (P ＜ 0.01,P ＜ 0.05).Creatinine (19.99 μmol · L-1) and urea nitrogen (8.07 mmol · L-1)increased with significant (P ＜0.05,P ＜ 0.01).The total protein (54.18 g · L-1) decreased with significant (P ＜0.05) and the kidney coefficient (13.40 mg· g-1) increased with significant (P ＜ 0.05).Conclusion A single intraperitoneal injection of antimicrobial peptide R9 can produce certain toxicity to mice,and the kidney was the main target organ.Nephrotoxicity was positively correlated with dose,and there was a trend of reversible improvement after withdrawal.

OBJECTIVE: To study the serological characteristics and molecular biological basis of 8 individuals with Para-Bombay phenotypes in Guangxi area. METHODS: Serological tests were used to identify the blood groups of red cells. Molecular biological methods, including PCR-SSP for ABO genotyping and DNA sequencing for FUT1, were used to detect the genotypes of ABO and FUT1 which determined the expression of H antigen. RESULTS: Eight individuals in the study were all the Para-Bombay phenotypes, including 4 cases of B CONCLUSION There are varieties of molecular genetic mechanisms for Para-Bombay phenotypes. In this study, the FUT1 mutations that cause Para-Bombay phenotypes in Guangxi area are mainly h3, h
ABO Blood-Group System/genetics* ; Alleles ; China ; Fucosyltransferases/genetics* ; Genotype ; Humans ; Mutation ; Phenotype

Objective: To investigate the species, concentration and seasonal trends of main airborne allergenic pollen in 4 districts and 5 counties of Hohhot City. Methods: The Department of allergy, Beijing Shijitan Hospital Affiliated to Capital Medical University conducted a cross-sectional study about monitoring the airborne allergenic pollen from August 1, 2021 to July 31, 2022 by the gravitational method in 4 districts and 5 counties of Hohhot City, which include Yuquan District, Xincheng District, Huimin District, Saihan District, Tuoketuo County, Helingeer County, Tumotezuoqi County, Wuchuan County and Qingshuihe County. Daily pollens were counted and identified by optical microscopy, and the data were analyzed. Results: The airborne allergenic pollen was collected every month all year round in 4 districts and 5 counties of Hohhot city. Through the whole year of the total quantity of pollens ranged from 24 850 to 50 154 grains per 1 000 mm² and two peaks of pollen concentration in air were observed,which happened in spring (from March to May) and in summer and autumn (from July to September). In spring, the main pollens were tree pollens, which principally distributed in Populus pollen (18.29%), Ulmus pollen (8.36%), Pinus pollen (6.20%), Cupressaceae pollen (5.23%), Betulaceae pollen (2.73%), Salix pollen (1.80%) and Quercus pollen (1.16%). In summer and autumn, the main pollens were weed pollens, which mainly included Artemisia pollen (42.73%), Chenopodiaceae pollen or Amaranthaceae pollen (7.46%), Poaceae pollen (2.26%), Humulus pollen or Cannabis pollen (0.60%). Conclusion: There were two peaks of main airborne allergenic pollen in 4 districts and 5 counties of Hohhot City. In the spring peak of pollen, the main airborne pollens were tree pollens. In the summer and autumn peak of pollen, the main airborne pollens were weed pollens. The Artemisia pollen was the most major airborne pollen in this area.
Humans ; Cross-Sectional Studies ; Pollen ; Hospitals

Objective: To investigate the species, concentration and seasonal trends of main airborne allergenic pollen in 4 districts and 5 counties of Hohhot City. Methods: The Department of allergy, Beijing Shijitan Hospital Affiliated to Capital Medical University conducted a cross-sectional study about monitoring the airborne allergenic pollen from August 1, 2021 to July 31, 2022 by the gravitational method in 4 districts and 5 counties of Hohhot City, which include Yuquan District, Xincheng District, Huimin District, Saihan District, Tuoketuo County, Helingeer County, Tumotezuoqi County, Wuchuan County and Qingshuihe County. Daily pollens were counted and identified by optical microscopy, and the data were analyzed. Results: The airborne allergenic pollen was collected every month all year round in 4 districts and 5 counties of Hohhot city. Through the whole year of the total quantity of pollens ranged from 24 850 to 50 154 grains per 1 000 mm² and two peaks of pollen concentration in air were observed,which happened in spring (from March to May) and in summer and autumn (from July to September). In spring, the main pollens were tree pollens, which principally distributed in Populus pollen (18.29%), Ulmus pollen (8.36%), Pinus pollen (6.20%), Cupressaceae pollen (5.23%), Betulaceae pollen (2.73%), Salix pollen (1.80%) and Quercus pollen (1.16%). In summer and autumn, the main pollens were weed pollens, which mainly included Artemisia pollen (42.73%), Chenopodiaceae pollen or Amaranthaceae pollen (7.46%), Poaceae pollen (2.26%), Humulus pollen or Cannabis pollen (0.60%). Conclusion: There were two peaks of main airborne allergenic pollen in 4 districts and 5 counties of Hohhot City. In the spring peak of pollen, the main airborne pollens were tree pollens. In the summer and autumn peak of pollen, the main airborne pollens were weed pollens. The Artemisia pollen was the most major airborne pollen in this area.
Humans ; Cross-Sectional Studies ; Pollen ; Hospitals