【Objective】The present experiment was conducted to investigate pathogenesis of diseased Cirrhinus molitorella and analyze serotype and drug sensitivity of pathogen isolated from diseased C. molitorella， in order to provide reference for controling disease and promoting sustainable development of C. molitorella aquaculture industry. 【Method】The pathogen was isolated from diseased C. molitorella. And the isolated pathogen was identified through morphologic observation， physiological and biochemical properties determination， and 16S rRNA gene sequence and multilocus sequence typing（MLST） analysis. Then the drug sensitivity of isolated pathogen were determinated through Kirby- Bauer test. 【Result】The results showed that， a dominant strain（GYCm081） was isolated from diseased C. molitorella， which was Gram-positive streptococcus， and formed into chain-like configuration. And its 16S rRNA gene sequence shared the highest nucleotide sequence homology（100%） with Streptococcus agalactiae（FO393392 and NR_102871）. The phylogenetic tree showed that GYCm081 strain was most closely related to S. agalactiae， so which was identified as S. agalactiae， with molecular serotype of Ib-ST261. The drug sensitivity test showed that the GYCm081 strain was highly sensitive to 13 drugs viz.， ampicillin， chloroamphenicol， spectinomycin， erythromycin， enrofloxacin， ofloxacin， rifampin， iprofloxacin， piperacillin， novobiocin， cefazolin， tetracycline， nitrofurantoin， while which was tolerant to 4 drugs resistant to sulfamethoxazole， sulfamethoxazolum and penicillin G. 【Conclusion】S. agalactiae is major pathogen causing diseasedness and death of C. molitorella with molecular serotype of Ib-ST261 on aquatic farm. Ampicillin， enrofloxacin and ofloxacin are candidates to prevent and control such a pathogen in actual production.