Objective To test and eva1uate the abi1ity of three potential chloroplast DNA (cpDNA) barcoding sequences;To find new methods to identify the species of gardenia. Methods Three cpDNA sequences were amplified and sequenced by universal primers of matK, rbcL and psbA. By comparing PCR amplification efficiency, length, intra-and inter-specific divergence, and barcoding gap, BLAST and DNA MAN were used to evaluate these loci. Results The amplification efficiency of 5 samples from 3 gardenia species was 100%. Analysis of the intra-and inter-specific divergence of matK among the sequences showed that barcoding gap was superior to psbA and rbcL, with higher identification efficiency. Conclusion Gardenia jasminoides Ellis can be better identified by matK sequence.

OBJECTIVE:To explore basic technology for synthesis of active ingredients of Ophiocordyceps xuefengensis,and provide necessary technical support for comprehensive development of O. xuefengensis sourse. METHODS:Submerged fermenta-tion method was used to cultivate the mycelium,achieving efficient synthesis of active ingredients by controlling medium composi-tion and cultivation conditions. Using the bacteria as starting strain,the effects of different carbon sources (sucrose,glucose and soluble starch),different nitrogen sources (peptone,yeast extract powder,yeast extract,sodium nitrate,potassium nitrate and urea),different vitamin B(vitamin B1 and vitamin B complex)and different initial pH(pH was set at 4,5,6,7,8 and 9,re-spectively)on mycelial growth,extracellular and intracellular polysaccharide synthesis,cordycepin synthesis and intracellular triter-penoid synthesis were investigated to screen the optimal medium composition. RESULTS:The optimal carbon source,nitrogen source,vitamin B and initial pH were sucrose,yeast extract powder,vitamin B1 and 8,respectively. High biomass and metabolite accumulation levels can be obtained when carbon source was sucrose,nitrogen source was yeast extract powder,adding 0.1 g/L vi-tamin B1 with initial pH of 8. CONCLUSIONS:O. xuefengensis can efficiently accumulate metabolites,and achieve the optimiza-tion of strain cell growth and synthesis of active metabolite by optimizing and controlling the fermentation process.