Macedo Maria G, Lacroix Christophe, Champagne Claude P
Dairy Research Centre STELA, Pavillon Paul-Comtois, Université Laval, Ste-Foy, PQ, Canada G1K 7P4.
Biotechnol Prog. 2002 Mar-Apr;18(2):167-73. doi: 10.1021/bp0101637.
The effects of temperature (22-42 degrees C), whey permeate concentration (WP, 1.6-8.4%), and supplementation level with yeast nitrogen base (YNB, 0-2.0%) on exopolysaccharide (EPS) production was studied during 20 pH-controlled (pH = 6.0) batch cultures with Lactobacillus rhamnosus RW-9595M, using a central composite design (CCD). The EPS production was measured using both the conventional method based on ethanol precipitation of EPS and a new ultrafiltration (UF) method. EPS production was not growth-associated for high temperatures (32-42 degrees C) and WP concentrations (7.0-8.4%). In contrast, at suboptimal temperature (22-26 degrees C), EPS production was growth-associated. Maximal EPS production measured with the UF method was approximately 2-fold higher than those measured with the conventional method and varied from 125 to 477 mg/L. This parameter was significantly influenced by WP and YNBWP interaction, whereas ANOVA for maximal EPS production measured by the conventional method did not show significant factor effects. EPS volumetric productivities varied from 3.0 to 16.4 mg EPS/L small middle doth. YNB supplementation did not promote cell growth but did increase EPS production at high WP concentrations. Our data indicate the potential of L. rhamnosus RW-9595M for producing EPS in a supplemented WP medium and suggest that this production could be further increased by the addition of a growth-limiting nutrient in the medium.
采用中心复合设计(CCD),在20次pH值控制为6.0的鼠李糖乳杆菌RW - 9595M分批培养过程中,研究了温度(22 - 42摄氏度)、乳清渗透物浓度(WP,1.6 - 8.4%)以及酵母氮源添加水平(YNB,0 - 2.0%)对胞外多糖(EPS)产生的影响。EPS产量通过基于EPS乙醇沉淀的传统方法和一种新的超滤(UF)方法进行测定。在高温(32 - 42摄氏度)和WP浓度(7.0 - 8.4%)条件下,EPS产生与生长不相关。相比之下,在次优温度(22 - 26摄氏度)下,EPS产生与生长相关。用UF方法测得的最大EPS产量比用传统方法测得的约高2倍,范围为125至477毫克/升。该参数受WP和YNBWP相互作用的显著影响,而用传统方法测得的最大EPS产量的方差分析未显示出显著的因素效应。EPS体积生产率在3.0至16.4毫克EPS/升小中布之间变化。添加YNB不会促进细胞生长,但在高WP浓度下会增加EPS产量。我们的数据表明鼠李糖乳杆菌RW - 9595M在添加WP的培养基中产生EPS的潜力,并表明通过在培养基中添加生长限制营养素可进一步提高产量。
