Co-production of galactonic acid and lactobionic acid from cheese whey using recyclable engineered Pseudomonas putida

IF 2.8 2区农林科学 Q3 FOOD SCIENCE & TECHNOLOGY

International Journal of Dairy Technology Pub Date : 2025-02-22 DOI:10.1111/1471-0307.70001

Peng Liu, Liuba Hong, Panchen Fu, Jiawei Wu, Zhaojuan Zheng

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Abstract

Whey is a main by-product generated during cheese manufacture. It contains abundant lactose and proteins and is a valued raw material in many countries. Pseudomonas putida KT2440 is a promising microbial strain for biobased chemical production. In our previous studies, this strain was confirmed owning high ability to oxidise galactose. Besides, we have constructed a recombinant strain P. putida KT2440 (pBB-GDH1) harbouring a novel glucose dehydrogenase that capable of oxidising lactose. Based on these, the potential of this engineered P. putida in whey utilisation deserves further exploration. This research aimed to establish a bioprocess to convert whey lactose into galactonic acid and lactobionic acid using engineered P. putida. Lactose in cheese whey powder was hydrolysed by Bacillus coagulans β-galactosidase into glucose and galactose. P. putida KT2440 (pBB-GDH1) was inoculated into the whey powder hydrolysate and galactose was converted into galactonic acid. Then, the bacterial cells were recovered and employed for lactobionic acid production from fresh whey powder solution. Three independent experiments were performed, and the mean value were taken as the results. Pseudomonas putida KT2440 (pBB-GDH1) exhibited a higher lactose-oxidising activity compared with the wild-type strain. It could utilise glucose and proteins in cheese whey powder hydrolysate for growth and convert galactose to galactonic acid. 25.45 g/L galactonic acid was obtained with a productivity of 1.06 g/L/h. The recovered cells maintained excellent lactose oxidation ability. After optimisation of biocatalytic reactions, 301.58 g/L lactobionic acid was obtained from cheese whey powder containing 300 g/L lactose in a 3 L bioreactor. The lactobionic acid productivity reached 2.28 g/L/h with a yield of 96.67%. This study established a sustainable and economic aldonic acids co-production strategy from cheese whey powder.

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利用可回收的工程恶臭假单胞菌从奶酪乳清中联合生产半乳糖醛酸和乳酸

乳清是奶酪生产过程中产生的主要副产品。它含有丰富的乳糖和蛋白质，是许多国家的重要原料。恶臭假单胞菌KT2440是一种很有前途的生物化工生产微生物菌株。在我们之前的研究中，该菌株被证实具有高氧化半乳糖的能力。此外，我们还构建了重组菌株p.p putida KT2440 (pBB-GDH1)，该菌株含有一种能够氧化乳糖的新型葡萄糖脱氢酶。在此基础上，该工程恶臭杆菌在乳清利用上的潜力值得进一步探索。本研究旨在建立一种利用工程恶臭杆菌将乳清乳糖转化为半乳糖醛酸和乳酸的生物工艺。用凝固芽孢杆菌β-半乳糖苷酶将干酪乳清粉中的乳糖水解为葡萄糖和半乳糖。将p.p . putida KT2440 （pBB-GDH1）接种于乳清粉水解液中，将半乳糖转化为半乳糖醛酸。然后，回收细菌细胞并将其用于从新鲜乳清粉溶液中生产乳酸。进行了3次独立实验，取其平均值作为结果。与野生菌株相比，恶臭假单胞菌KT2440 （pBB-GDH1）表现出更高的乳糖氧化活性。它可以利用奶酪乳清粉水解物中的葡萄糖和蛋白质进行生长，并将半乳糖转化为半乳糖醛酸。所得半乳糖醛酸为25.45 g/L，产率为1.06 g/L/h。恢复后的细胞保持了良好的乳糖氧化能力。优化生物催化反应后，在3 L的生物反应器中，从含有300 g/L乳糖的奶酪乳清粉中获得301.58 g/L的乳酸酸。产酸率达到2.28 g/L/h，产率为96.67%。本研究建立了一种可持续、经济的奶酪乳清粉协同生产醛酸的策略。

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来源期刊

International Journal of Dairy Technology 工程技术-食品科技

CiteScore

7.00

自引率

4.50%

发文量

审稿时长

12 months

期刊介绍： The International Journal of Dairy Technology ranks highly among the leading dairy journals published worldwide, and is the flagship of the Society. As indicated in its title, the journal is international in scope. Published quarterly, International Journal of Dairy Technology contains original papers and review articles covering topics that are at the interface between fundamental dairy research and the practical technological challenges facing the modern dairy industry worldwide. Topics addressed span the full range of dairy technologies, the production of diverse dairy products across the world and the development of dairy ingredients for food applications.