Microbial Safety Team, National Institute of Agricultural Sciences, Rural Development Administration, Wanju 55365, Republic of Korea.
Department of Plant Medicine, Gyeongsang National University, Jinju 52828, Republic of Korea.
Int J Food Microbiol. 2020 Jan 2;312:108374. doi: 10.1016/j.ijfoodmicro.2019.108374. Epub 2019 Oct 18.
Salmonella enterica outbreaks in sprouts originate from contaminated seeds; conventional prevention technologies have been reported from many research institutes. In this study, we applied a biological control approach to inhibit S. enterica growth using the seed-dwelling non-antagonistic bacteria. We isolated non-antibacterial seed-dwelling bacteria from vegetable sprouts. A total of 206 bacteria exhibiting non-antibacterial activity against S. enterica were subjected to alfalfa sprout development tests. Eight isolates exhibiting no deleterious effect on the growth of alfalfa sprouts were tested for S. enterica growth inhibition on alfalfa seeds and sprouts, and an isolate EUS78 was finally selected for further investigation. Based on 16S rRNA, gyrB, and rpoB gene sequence analyses, strain EUS78 was identified as Erwinia persicina. In population competition, the S. enterica population increased by >3 log CFU/g after 6 days of alfalfa sprout growth, whereas S. enterica growth was significantly inhibited by treatment with EUS78 (P < .05). This effect of S. enterica growth inhibition by EUS78 was sustained until the end of the alfalfa sprout harvest. Overall, bacterial strain EUS78 significantly reduced S. enterica growth on alfalfa sprouts in a manner consistent with competitive exclusion. These findings led us to monitor EUS78 behavior on seeds during early sprout development using fluorescence and scanning electron microscopy. Strain EUS78 initially colonized alfalfa sprout seed coat edges, cotyledons, and finally root surfaces during early sprout germination. As alfalfa sprouts grew, EUS78 bacterial cells established colonies on newly emerged plant tissues such as root tips. The results of this study suggest that strain EUS78 has potential as a biological control agent to inhibit S. enterica contamination in the sprout food industry.
肠沙门氏菌暴发于芽苗菜,源于污染的种子;许多研究机构都报道了常规的预防技术。在本研究中,我们应用生物防治方法,使用栖息于种子的非拮抗细菌来抑制肠沙门氏菌的生长。我们从蔬菜芽苗菜中分离出非抗菌性的栖息于种子的细菌。对 206 株对肠沙门氏菌表现出非抗菌活性的细菌进行了苜蓿芽苗菜生长试验。8 株对苜蓿芽苗菜生长没有不良影响的分离株被用于苜蓿种子和芽苗菜上抑制肠沙门氏菌生长的测试,最终选择了一株 EUS78 进行进一步研究。根据 16S rRNA、gyrB 和 rpoB 基因序列分析,菌株 EUS78 被鉴定为果胶欧文氏菌。在群体竞争中,在苜蓿芽生长 6 天后,肠沙门氏菌的种群数量增加了>3 log CFU/g,而 EUS78 的处理显著抑制了肠沙门氏菌的生长(P<.05)。这种 EUS78 抑制肠沙门氏菌生长的效果一直持续到苜蓿芽收获结束。总体而言,细菌菌株 EUS78 显著降低了苜蓿芽上肠沙门氏菌的生长,这种效果与竞争排斥一致。这些发现促使我们使用荧光和扫描电子显微镜监测 EUS78 在早期芽苗发育过程中在种子上的行为。在早期芽萌发过程中,菌株 EUS78 最初定植于苜蓿芽种皮边缘、子叶,最后定植于根表面。随着苜蓿芽的生长,EUS78 细菌细胞在新出现的植物组织如根尖上建立菌落。本研究结果表明,菌株 EUS78 具有作为生物防治剂抑制芽苗菜食品工业中肠沙门氏菌污染的潜力。
