Guron Giselle K P, Hotchkiss Arland T, Renye John A, Oest Adam M, McAnulty Michael J
Dairy and Functional Foods Research Unit, Eastern Regional Research Center, Agricultural Research Services, US Department of Agriculture, Wyndmoor, PA 19038.
JDS Commun. 2024 Jun 13;5(6):522-527. doi: 10.3168/jdsc.2024-0580. eCollection 2024 Nov.
β-Galactosidase is currently applied in foods for reduction of lactose but can also be used for its transgalactosylation activity to synthesize galacto-oligosaccharides (GOS) as prebiotics. The ability of GRAS-status strains to exhibit such activities would benefit consumers given their extensive history with dairy products. The objective of this study was to characterize the production of GOS in 6 strains for their ability to synthesize GOS in 50 m sodium phosphate (pH 6.5) with a high lactose concentration of 788.8 m at 50°C. ssp. B548, LB11, and YB1 lysates released the most glucose at 112.8 ± 6.2 m, 150.4 ± 11.7 m, and 190.2 ± 12.2 m, respectively. However, the ratio of free glucose to galactose released by B548 lysate (1.4 ± 0.3) was lower than that of LB11 (2.8 ± 0.6) and YB1 (2.5 ± 0.6) lysates, so the latter strains were screened at different initial lactose concentrations. The GOS yield from YB1 was not dependent on initial lactose concentration, averaging 54.3 ± 0.6% across starting lactose concentrations. However, optimal LB11 transgalatosylation had an initial concentration of 394.4 m lactose instead of 788.8 m, resulting in a GOS yield of 56.8% instead of 47.3%. In all cases for LB11, the lysates had greater free glucose, galactose, and GOS yield than whole cells. The ability of 2 ssp. strains to produce GOS from common lactose-containing ingredients can have a range of applications in the dairy industry.
β-半乳糖苷酶目前应用于食品中以降低乳糖含量,但也可利用其转半乳糖基化活性来合成低聚半乳糖(GOS)作为益生元。鉴于其在乳制品方面的悠久历史,具有一般认为安全(GRAS)地位的菌株展现出此类活性的能力将造福消费者。本研究的目的是表征6株菌株在50°C下于含有788.8 mM高乳糖浓度的50 mM磷酸钠(pH 6.5)中合成GOS的能力,以此来对其GOS产量进行特性描述。嗜热栖热放线菌(Thermus thermophilus)亚种B548、LB11和YB1的裂解物分别释放出最多的葡萄糖,含量为112.8±6.2 mM、150.4±11.7 mM和190.2±12.2 mM。然而,B548裂解物释放的游离葡萄糖与半乳糖的比率(1.4±0.3)低于LB11(2.8±0.6)和YB1(2.5±0.6)裂解物,因此对后两种菌株在不同初始乳糖浓度下进行了筛选。YB1的GOS产量不依赖于初始乳糖浓度,在不同起始乳糖浓度下平均为54.3±0.6%。然而,LB11的最佳转半乳糖基化反应的初始乳糖浓度为394.4 mM而非788.8 mM,导致GOS产量为56.8%而非47.3%。在LB11的所有情况下,裂解物产生的游离葡萄糖、半乳糖和GOS产量均高于完整细胞。嗜热栖热放线菌2个亚种的菌株从常见含乳糖成分中产生GOS的能力在乳制品行业中可有一系列应用。
