Hypothetical Regulation of Folate Biosynthesis and Strategies for Folate Overproduction in Lactic Acid Bacteria.

IF 1.6 Q3 FOOD SCIENCE & TECHNOLOGY Preventive Nutrition and Food Science Pub Date : 2023-12-31 DOI:10.3746/pnf.2023.28.4.386
Fenny Amilia Mahara, Lilis Nuraida, Hanifah Nuryani Lioe, Siti Nurjanah
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Abstract

Folate (vitamin B9) is an essential nutrient for cell metabolism, especially in pregnant women; however, folate deficiency is a major global health issue. To address this issue, folate-rich fermented foods have been used as alternative sources of natural folate. Lactic acid bacteria (LAB), which are commonly involved in food fermentation, can synthesize and excrete folate into the medium, thereby increasing folate levels. However, screening for folate-producing LAB strains is necessary because this ability is highly dependent on the bacterial strain. Some strains of LAB consume folate, and their presence in a fermentation mix can lower the folate levels of the final product. Since microorganisms efficiently regulate folate biosynthesis to meet their growth needs, some strains of folate-producing LAB can deplete folate levels if folate is available in the media. Such folate-efficient producers possess a feedback inhibition mechanism that downregulates folate biosynthesis. Therefore, the application of folate-overproducing strains may be a key strategy for increasing folate levels in media with or without available folate. Many studies have been conducted to screen folate-producing bacteria, but very few have focused on the identification of overproducers. This is probably because of the limited understanding of the regulation of folate biosynthesis in LAB. In this review, we discuss the roles of folate-biosynthetic genes and their contributions to the ability of LAB to synthesize and regulate folate. In addition, we present various hypotheses regarding the regulation of the feedback inhibition mechanism of folate-biosynthetic enzymes and discuss strategies for obtaining folate-overproducing LAB strains.

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乳酸菌叶酸生物合成的假想调控和叶酸过量产生的策略
叶酸(维生素 B9)是细胞代谢的必需营养素,尤其是对孕妇而言;然而,叶酸缺乏症是一个重大的全球健康问题。为解决这一问题,富含叶酸的发酵食品被用作天然叶酸的替代来源。通常参与食品发酵的乳酸菌(LAB)可以合成叶酸并将其排泄到培养基中,从而提高叶酸含量。然而,筛选产生叶酸的 LAB 菌株是必要的,因为这种能力在很大程度上取决于细菌菌株。有些 LAB 菌株会消耗叶酸,它们出现在发酵混合物中会降低最终产品的叶酸含量。由于微生物会有效调节叶酸的生物合成以满足其生长需要,因此如果培养基中含有叶酸,某些产叶 LAB 菌株就会消耗掉叶酸水平。这些叶酸高效生产者拥有一种反馈抑制机制,可以下调叶酸的生物合成。因此,在有或没有叶酸的培养基中,应用叶酸过剩菌株可能是提高叶酸水平的关键策略。筛选叶酸生产菌的研究很多,但很少有研究侧重于鉴定叶酸过量生产菌。这可能是因为对 LAB 中叶酸生物合成调控的了解有限。在本综述中,我们将讨论叶酸生物合成基因的作用及其对 LAB 合成和调节叶酸能力的贡献。此外,我们还提出了有关叶酸生物合成酶反馈抑制机制调控的各种假设,并讨论了获得叶酸过量产生的 LAB 菌株的策略。
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来源期刊
Preventive Nutrition and Food Science
Preventive Nutrition and Food Science Agricultural and Biological Sciences-Food Science
CiteScore
3.40
自引率
0.00%
发文量
35
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