%)and other pathogens.Conclusion It provides scientific basis for disease diagnosis and treatment,rational administration and infection prevention to understand the bacterial distribution and changing tendency of antibiotic resistance.

Objective To determine the distribution and antibiotics resistance characteristic of pathogens in urinary tract infections in aged female diabetics patients and provide scientific basis for clinicians in selecting effective antibiotics. Methods Pathogenic bacteria, isolated from specimens of 107 elderly female diabetic cases with urinary tract infections, were identified and drug susceptibility tests were performed by VITEK-32 analysator. Results Among all 107 kinds of isolated bacteria,the ratio of gram-negative bacteria was 74. 8% ( 80/107 ), predominated by Escherichiacoli ( accounting for 48. 6% [52/107] ); the ratio of gramposition bacterias was 13. 1% (14/107) and eumycetes was 12. 1% (13/107). In antibiotic resistance analysis,the gram negative bacteria showed higher drug-resistance to the some common-antibiotics, such as ampicililin,cefazolin,cefuroxime-sodium and cefuroxime axetil ( ＞ 70. 0% ), while they were sensitive to imipenem and amikacin( ＜ 10. 0% ). The gram positive bacteria were most sensitive to vancomycin (0%), followed by Linezolid(7.7% ). Conclusion Escherichiacoli were the major pathogenic bacteria in urinary tract infections in aged female diabetic patients, with higher drug resistance. Therefore, drug resistance monitoring should be carried out according to the variety of pathogenic bacteria so as to guide rational use of antibiotics and decrease drug resistance.

Objective To analyze the effects of Litsea cubeba oil on gene expression profile of Candida albicans by comparing the differential gene expression profile after exposure to Litsea cubeba oil using genome-wide gene expression array.Methods Candida albicans ATCC90028 was exposed to Litsea cubeba oil for 90 min.Then RNA was isolated and gene expression profiles were compared to identify the differential gene expression profile using cDNA microarray analysis.Results A total of 491 geneswerefoundtoberesponsivetoLitseacubebaoil,accountingforabout11% ofthetotalnumberofgenesinCandida albicans (491/4 634),of which 216 genes were up-regulated and 275 down-regulated.These differentially expressed genes included genes encoding the key target enzyme in ergosterol biosynthesis pathway,genes in stress response,DNA replication and repair,molecular transport,and energy metabolism.Conclusions Litsea cubeba oil has significant effect on the expression of about 1 1% genes of Candida albicans genome.We presume that the genes encoding the key target enzyme in ergosterol biosynthesis pathway may contribute to the action of Litseacubeba oil on Candidaalbicans,which is similar to azole antifungal drugs.However,the role of other differentially expressed genes in the action of Litseacubeba oil on Candidaalbicans remains unclear,which deserves further study to characterize their potential association with the antifungal effect of Litsea cubeba oil.