S801 leukemic cell line established by our department was used as cells for interferon (IFN) induction and stimulating induction. S801 cell culture of concentration of 5-8x10~6 cells/ml was used for IFN induction and IFN titer of 3.55 Lg IU/ml was obtained by classical procedure. The IFN titer obtained S801 cell cultures after pretreatment with Ciwujia eleutherosides B. D and E or polysaccharide (PES) combined with priming procedure,then using Sendai Virus as an inducer was 10-20 times higher than that in cultures without any pretreatment. These Chinese medical herbs may be the ideal IFN helpinducers. This cell line may be applied for IFN production.

0.05).Compared with control group,significant decrease in positive group was found in the interval from first evacuation of HM to resolution of serum ?-hCG level,(83?18) days versus(126?31)days(P0.05).Conclusions Once HM is diagnosed,evacuation should be performed as soon as possible,the later the evacuation begins,the higher the risks of lung metastasis and chemotherapy are.It is not necessary to worry about lung metastasis before evacuation of HM,the outcome of post- chemotherapy is very good.

Commercial production of bioethanol from lignocellulosic hydrolysates requires efficient fermenting strains. The abilities of the strain to converting all types of sugars in the hydrolysate to ethanol in high yield and to effectively tolerating/metabolizing inhibitors are necessary. Genome shuffling is a novel method for breeding, and it has been applied in pharmaceutical and food industry. This review summarized the technique of genome shuffling including principle, process, applications and its prospect for strains improvement in ethanol production from lignocellulosic hydrolysates.

OBJECTIVEIn order to get better understanding of placental site trophoblastic tumor (PSTT), we have investigated 4 PSTT cases that diagnosed in our hospital and with literature reviews.

METHODSWe identified 4 patients of PSTT in our choriocarcinoma ward from Jan, 1985 to Dec, 2000 by retrospective analysis.

RESULTSPSTT accounted for 3.1@1000 of all trophoblastic diseases, the ratio of PSTT to choriocarcinoma was 1:138. The average age was 31. Two cases were secondary to hydatidiform mole with paremetrial or pulmonary metastasis respectively. All cases received hysterectomy and multiple chemotherapy. With a follow-up of 29 to 84 months, all patients are survived up to now.

CONCLUSIONSPSTT is a rare gestational trophoblastic tumor. Accurate pathological diagnosis is critical for proper treatment. The diagnosis and monitor are rather difficult because the beta-hCG are non-parallel to the growth and disappearance of the tumor. Operation plays an important role in its treatment, and multiple chemotherapy is helpful.

Adult ; Chorionic Gonadotropin, beta Subunit, Human ; blood ; Female ; Follow-Up Studies ; Humans ; Pregnancy ; Retrospective Studies ; Trophoblastic Tumor, Placental Site ; diagnosis ; surgery ; Uterine Neoplasms ; diagnosis ; surgery

There are abundant of lignocelluloses in agricultural wastes. And it can provide a variety of sugars involve pentose and hexose through pretreatments or hydrolyzation of these lignocelluloses. This review summarized the current status of bioethanol production by bacteria, and compared the productivity of some kinds of ethanologenic bacteria such as recombinant Zymomonas mobilis and Escherichia coli.

Candida shehatae xyl1 gene and Pichia stipitis xyl2 gene were amplified by PCR and the xyl1 and xyl2 were both placed under the promoter GAL of vector pYES2 to produce the recombinant expression vector pYES2-P12. Subsequently the pYES2-P12 vector was transformed into S. cerevisiae YS58 by LiAc to produce the recombinant yeast YSS8-12. It was indicate that the recombinant yeast YSS8-12 could converse xylose to ethanol with the xylose consumption rate of 81. 3%.

Ethanol can be produced from lignocellulose by first hydrolysing the material to sugars,including hexose,and pentose,and then fermenting the hydrolysate to ethanol.Hydrolysis using dilute-acid has advantages over other methods.However,compounds which inhibit fermentation are generated during this kind of hydrolysis.Therefore,it is important to focus on microorganisms metabolizing xylose and tolerating/decomposing inhibitors,on detoxification methods of hydroly- sates with low-cost and facilitated to scale-up,and different fermentation modes in ethanol production from hydrolysate.This review summarized the advance in above aspects.

With the constant rise of energy price,it has a great practical meaning of using lignocellulose to produce ethanol.Xylose is a kind of monosaccharide whose content is only less than glucose in most lignocellulosic hydrolysates.There is some difficulty of producing ethanol from lignocellulose by the traditional ethanol production strain Saccharomyces cerevisiae,because it cannot metabolize xylose.People have tried to use genetic engineering technology and cell fusion method to modify Saccharomyces cerevisiae to make it metabolize xylose and produce ethanol for many years.This review indroduced the progress in this field.

In this study,we discussed the way of imparting the microbial knowledge and elevating non-biological student's science in public optional course "Microbes and Man" from the teaching practice.During the course,we first chose the material according to students' characteristic,and then introduced several methods like lecturing on subject,visiting factories and making microbial experiments in order to inter-est students in microbiology and get better in teaching effects.