Objective To detect the changes of microbial community functional diversity of corpses with different postmortem interval(PMI)and to evaluate forensic application value for estimating PMI. Methods The cultivation of microbial community from the anal swabs of aSusscrofaand a human corpse placed in field environment from 0 to 240 h after death was performed using the Biolog-Eco Mi-croplate and the variations of the absorbance values were also monitored. Combined with the technology of forensic pathology and flies succession, the metabolic characteristics and changes of microbial commu-nity on the decomposed corpse under natural environment were also observed.Results The diversity of microbial metabolism function was found to be negatively correlated with the number of maggots in the corpses. The freezing processing had the greatest impact on average well color development value at 0 h and the impact almost disappeared after 48 h. The diversity of microbial metabolism of the samples be-came relatively unstable after 192 h. The principal component analysis showed that 31 carbon sources could be consolidated for 5 principal components(accumulative contribution ratio >90%). The carbon source tsquare-analysis showed thatN-acetyl-D-glucosamine andL-serine were the dominant carbon sources for estimating the PMI(0=240 h)of theSusscrofaand human corpse.Conclusion The Biolog-Eco method can be used to reveal the metabolic differences of the carbon resources utilization of the microbial community on the corpses during 0-240 h after death, which could provide a new basis for estimating the PMI.

Objective To investigate the most appropriate surgical methods,different surgical modes of osmidrosis and their clinical effi-cacy were observed. Methods Clinical data was collected from 200 cases of axillary osmidrosis from January 2011 to July 2013. These cases were divided into four groups of the traditional group,minimally invasive group,RF pen-frequency electric cautery group and improved curet-tage group. Results The traditional group(80 cases) has an average healing period of 18. 7 days for operative incision including 78 cured cases(97. 5%)and 2 significant improved cases(2. 5%). The minimally invasive group(60 cases)has an average healing time of 8. 6 days, among which there are 3 cured cases(5%),8 significant improved cases(13. 3%),16 improved cases(26. 7%),4 cases(6. 7%)with weak curative effect and 29 failed cases(48. 3%). In the RF pen-frequency electric cautery group(30 cases),there are 5 significant improved ca-ses(16.7%),8improvedcases(26.7%)and17failedcases(56.6%).Theimprovedcurettagegroup(30cases)withanaverageincision healingtimeof9.8dayscontains28curedcases(93.3%)and2significantimprovedcases(6.7%). Conclusion Thetraditionalgroup shows the best curative effect,nevertheless the incision needs a considerably amount of time to recover. The patients under the treatment of minimally invasive surgery or RF pen-frequency electric cautery can recover in short time but recrudescence always occur. The improved cu-rettage method,which is effective and safe,combines the advantages of traditional surgery and minimally invasive surgery. However,large scar left from this method still remains as its major disadvantage but the overall curative effect is satisfactory. The improved curettage is proved to be the most appropriate method for axillary osmidrosis.

OBJECTIVE: To study the change of endogenous hydrogen sulfide (hydrogen sulfide, H2S) and its rate-limiting enzyme Cystathionine-gamma-lyase (CSE) in allergic rhinitis through guinea pigs with intervention treatment. METHOD: Twenty-four guinea pigs were divide into 4 groups at random, one group were models of allergic rhinitis (AR) which were established by using ovalbumin, the second group were treated with NaHS after sensitized, the third group were treated with Propargylglycine (PPG) which was suppression of CSE after sensitized, and the last group were treated with saline for control. The concentration of eotaxin of nasal lavage and H2S in plasma were recorded, and then the expression of CSE in nasal mucosa was determined by real-time fluorescence RT-PCR. RESULT: The concentration of eotaxin in nasal lavage of sensitized group were higher than those of control (P < 0.01), and concentration of H2S in plasma and expression of CSE in nasal mucosa were lower than control (P < 0.05). The concentration of eotaxin decreased when treated with NaHS and increased when treated with PGG (P < 0.05). Level of H2S in plasma and expression of CSE increased when treated with NaHS and decreased when treated with PGG (P < 0.05), and the level of H2S was positive linear correlate with the expression of CSE. CONCLUSION Endogenous H2S perhaps plays a significant role in the pathogenesis of allergic rhinitis, and it was mainly regulated by CSE.
Animals ; Cystathionine gamma-Lyase ; metabolism ; Guinea Pigs ; Hydrogen Sulfide ; metabolism ; Male ; Nasal Mucosa ; metabolism ; Rhinitis ; metabolism

The Fibulin family is a kind of secreted glycoprotein,belonging to the extracellular matrix protein.A total of 7 family members are widely distributed in basement membrane,elastic fiber and loose connective tissue.The Fibulin family is widely involved in the regulation of cell morphology,growth and adhesion.When Fibulin is disturbed,it can cause a range of diseases,such as skin laxity,tooth hypoplasia and various tumors.The researches show that Fibulin-1 is expressed abnormally in fibrosarcoma,gastric cancer and liver cancer,and the expression of Fibulin-2 is down-regulated in breast cancer and up-regulated in lung cancer.The other members of the family also show abnormal expression in various tumor tissues,which indicates the members of the Fibulin family play important roles in the genesis and development of tumors.

Objective We have summarized the clinical characteristics of inappropriate antidiuresis(SIAD).Methods We adopted retrospective analysis to analyze the clinical and lab data of 40 cases.Results The most common causes of SIAD were malignant tumor,lung disease,and central nervous system disease.The five major abnormal lab data were:hypochloraemia,hypouricemia,hyponitremia,hypocalcemia,and low hematocrit.Conclusion It is important to diagnose SIAD as soon as possible,and patient presented hyponatremia combined with hypouricemia must be suspected to have SIAD.

Succinic acid production was inhibited by high osmotic pressure caused by the accumulation of sodium ions in the process of two-stage fermentation by Escherichia coli using Na2CO3 as the pH regulator. To enhance the resistance of this strain to osmotic stress, the possibility to isolate high NaCl-tolerant mutant strain of Escherichia coli for succinic acid production by metabolic evolution was investigated. The metabolic evolution system was used as a mutant-generating system, allowing the cells to be continuously cultured at the maximum specific growth rate. The mutant strain can grow at maximum rate in the condition of high osmotic by gradually improving the concentration of NaCl in a continuous culture. Then the high osmotic-tolerant mutant strain of E. coli XB4 was selected with NaCl as the osmo-regulator. When using Na2CO3 as the pH regulator, E. coli XB4 was used in a 7.0 L fermenter during two-stage fermentation. After 60 h anaerobic fermentation, the mutant strain XB4 produced 69.5 g/L succinic acid with a productivity of 1.18 g/(L x h), which were increased by 18.6% and 20% compared with that of the parent strain.
Drug Tolerance ; genetics ; Escherichia coli ; genetics ; isolation & purification ; metabolism ; Industrial Microbiology ; Metabolic Engineering ; methods ; Mutation ; Osmotic Pressure ; Sodium Chloride ; pharmacology ; Succinic Acid ; metabolism

Escherichia coli NZN111 is a promising strain with ldhA and pflB genes inactivated for the production of succinic acid. However, with these mutations, NAD+ could not be regenerated from NADH, and an unbalanced NADH/NAD+ ratio eliminated cell growth and glucose utilization under anaerobic conditions. Nicotinic acid mononucleotide adenylyltransferase (NAMNAT), encoded by the nadD gene, catalyzes the reaction from nicotinic acid mononucleotide (NaMN) to nicotinic acid adenine dinucleotide (NaAD) during the synthetic pathway of NAD(H). Overexpression of the nadD gene could enhance the concentration of NAD(H) and maintain a suitable NADH/NAD+ ratio. In this study, we constructed a recombinant strain E. coli NZN111/pTrc99a-nadD, and overexpressed NAMNAT with 1.0 mmol/L of IPTG under anaerobic conditions in sealed bottles. Compared to E. coli NZN111, the concentrations of NAD+ and NADH in the recombinant strain increased by 3.21-fold and 1.67-fold, respectively. The total concentration of NAD(H) was increased by 2.63-fold, and the ratio of NADH/NAD+ decreased from 0.64 to 0.42. The recombinant strain restored the cell growth and glucose utilization under anaerobic conditions. After 72 h, the recombinant strain could consume 14.0 g/L of glucose to produce 6.23 g/L of succinic acid, and the concentration of succinic acid was 19-fold higher than in E. coli NZN111.
Anaerobiosis ; Escherichia coli ; genetics ; metabolism ; Glucose ; metabolism ; Mutation ; NAD ; metabolism ; Nicotinamide-Nucleotide Adenylyltransferase ; genetics ; metabolism ; Recombinant Proteins ; genetics ; metabolism ; Succinic Acid ; metabolism

Hyper-osmotic stress is one of the key factors that decrease the efficiency of biological succinic acid production. To increase the osmotic stress tolerance of succinate-producing Escherichia coli, we studied the influence of IrrE, an exogenous global regulator, on cell osmotic stress resistance. Fermentation results showed that cell growth and succinic acid production by the recombinant increased under different Na+ concentrations. Meanwhile, the maximum dry cell mass, glucose consumption and succinic acid concentration increased 15.6%, 22% and 23%, respectively, when fermented in a 5-L bioreactor. Expressing IrrE improved cell resistance to hyper-osmotic stress. Further comparison of intracellular osmoprotectants (trehalose and glycerol) concentrations showed that trehalose and glycerol concentrations in the recombinant increased. This suggested that introduction of IrrE could enhance intracellular osmoprotectants accumulation which conferred cell with improved resistance to osmotic stress.