Core‐shellencapsulation formulations to stabilize desiccatedBradyrhizobiumagainst high environmental temperature and humidity

湿度 化学 缓生根瘤菌 食品科学 生物化学 物理 热力学 根瘤菌 基因
作者
Kelly G. Aukema,Mian Wang,Beatriz de Barros Souza,Sophie O’Keane,Maia Clipsham,Lawrence P. Wackett,Alptekin Aksan
出处
期刊:Microbial biotechnology [Wiley]
卷期号:15 (9): 2391-2400 被引量:8
标识
DOI:10.1111/1751-7915.14078
摘要

Engineered materials to improve the shelf-life of desiccated microbial strains are needed for cost-effective bioaugmentation strategies. High temperatures and humidity of legume-growing regions challenge long-term cell stabilization at the desiccated state. A thermostable xeroprotectant core and hydrophobic water vapour barrier shell encapsulation technique was developed to protect desiccated cells from the environment. A trehalose core matrix increased the stability of desiccated Bradyrhizobium by three orders of magnitude over 20 days at 32°C and 50% relative humidity (RH) compared to buffer alone; however, the improvement was not deemed sufficient for a shelf-stable bioproduct. We tested common additives (skim milk, albumin, gelatin and dextran) to increase the glass transition temperature of the desiccated product to provide further stabilization. Albumin increased the glass transition temperature of the trehalose-based core by 40°C and stabilized desiccated Bradyrhizobium for 4 months during storage at high temperature (32°C) and moderate humidity (50% RH) with only 1 log loss of viability. Although the albumin-trehalose core provided exceptional protection against high temperature, it was ineffective at higher humidity conditions (75%). We therefore incorporated a paraffin shell, which protected desiccated cells against 75% RH providing proof of concept that core and shell encapsulation is an effective strategy to stabilize desiccated cells.
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