Yaqi Zhang, Yuzhe He, Jingfei Huang, Jiejing Chen, Xiaoshan Jia, Xingxing Peng
Bioresource technology 2023 AugCandida tropicalis PNY, a novel dimorphic strain with the capacity of simultaneous carbon, nitrogen and phosphorus removal in anaerobic and aerobic conditions, was isolated from activated sludge. Dimorphism of C. tropicalis PNY had effect on removing nitrogen and phosphorous and slightly affected COD removal under aerobic condition. Sample with high hypha formation rate (40 ± 5%) had more removal efficiencies of NH4+-N (50 mg/L) and PO43--P (10 mg/L), which could achieve 82.19% and 97.53%, respectively. High hypha cells dosage exhibited good settleability and filamentous overgrowth was not observed. According to label-free quantitative proteomics assays. Up-regulated proteins involved in the mitogen-activated protein kinase (MAPK) pathway indicated the active growth and metabolism process of sample with high hypha formation rate (40 ± 5%). And proteins concerning about glutamate synthetase and SPX domain-contain protein explain for the nutrient removal mechanism including assimilation of ammonia and polyphosphates synthesis. Copyright © 2023 Elsevier Ltd. All rights reserved.
Yaqi Zhang, Yuzhe He, Jingfei Huang, Jiejing Chen, Xiaoshan Jia, Xingxing Peng. Dimorphism of Candida tropicalis and its effect on nitrogen and phosphorus removal and sludge settleability. Bioresource technology. 2023 Aug;382:129186
PMID: 37201869
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