A novel N-arachidonoyl-l-alanine-catabolizing strain of Serratia marcescens for the bioremediation of Cd and Cr co-contamination

Cadmium (Cd) and chromium (Cr) are widespread contaminants with a high risk to the environment and humans. Herein we isolated a novel strain of Serratia marcescens, namely strain S27, from soil co-contaminated with Cd and Cr. This strain showed strong resistance to Cd as well as Cr. S27 cells demons...

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Published inEnvironmental research Vol. 222; p. 115376
Main Authors Sun, Xiaoyan, Feng, Huiping, Luo, Jialiang, Lin, Li, Zhang, Haixiang, Duan, Yali, Liu, Fan, Zhang, Kailu, Wang, Baijie, Li, Dong, Hu, Yueming, Zhu, Zhiqiang
Format Journal Article
LanguageEnglish
Published Netherlands Elsevier Inc 01.04.2023
Subjects
adsorption
bacteria
bioaccumulation
bioavailability
bioremediation
cadmium
Cadmium adsorption
cell membranes
chromium
Chromium reduction
metabolism
metabolites
metabolomics
Resistance mechanisms
risk
Serratia marcescens
Serratia marcescens strain S27
siderophores
soil
Serratia marcescens strain S27
Chromium reduction
Cadmium adsorption
Resistance mechanisms
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Abstract Cadmium (Cd) and chromium (Cr) are widespread contaminants with a high risk to the environment and humans. Herein we isolated a novel strain of Serratia marcescens, namely strain S27, from soil co-contaminated with Cd and Cr. This strain showed strong resistance to Cd as well as Cr. S27 cells demonstrated Cd adsorption rate of 45.8% and Cr reduction capacity of 84.4% under optimal growth conditions (i.e., 30 °C, 200 rpm, and pH 7.5). Microscopic characterization of S27 cells revealed the importance of the functional groups C–O–C, C–H–O, C–C, C–H, and –OH, and also indicated that Cr reduction occurred on bacterial cell membrane. Cd(II) and Cr(VI) bioaccumulation on S27 cell surface was mainly in the form of Cd(OH)2 and Cr2O3, respectively. Further, metabolomic analyses revealed that N-arachidonoyl-l-alanine was the key metabolite that promoted Cd and Cr complexation by S27; it primarily promotes γ-linolenic acid (GLA) metabolism, producing siderophores and coordinating with organic acids to enhance metal bioavailability. To summarize, our results suggest that S27 is promising for the bioremediation of environments contaminated with Cd and Cr in tropical regions. [Display omitted] •A novel Serratia marcescens strain S27 showing Cd and Cr resistance was isolated.•S27 showed the ability to adsorb Cd and reduce Cr.•Cr was reduced by S27 on its cell surface.•S27 mainly secreted organic acids to enhance Cd and Cr bioavailability.•S27 appears promising for the bioremediation of Cd/Cr-contaminated soil.
AbstractList Cadmium (Cd) and chromium (Cr) are widespread contaminants with a high risk to the environment and humans. Herein we isolated a novel strain of Serratia marcescens, namely strain S27, from soil co-contaminated with Cd and Cr. This strain showed strong resistance to Cd as well as Cr. S27 cells demonstrated Cd adsorption rate of 45.8% and Cr reduction capacity of 84.4% under optimal growth conditions (i.e., 30 °C, 200 rpm, and pH 7.5). Microscopic characterization of S27 cells revealed the importance of the functional groups C-O-C, C-H-O, C-C, C-H, and -OH, and also indicated that Cr reduction occurred on bacterial cell membrane. Cd(II) and Cr(VI) bioaccumulation on S27 cell surface was mainly in the form of Cd(OH) and Cr O , respectively. Further, metabolomic analyses revealed that N-arachidonoyl-l-alanine was the key metabolite that promoted Cd and Cr complexation by S27; it primarily promotes γ-linolenic acid (GLA) metabolism, producing siderophores and coordinating with organic acids to enhance metal bioavailability. To summarize, our results suggest that S27 is promising for the bioremediation of environments contaminated with Cd and Cr in tropical regions.
Cadmium (Cd) and chromium (Cr) are widespread contaminants with a high risk to the environment and humans. Herein we isolated a novel strain of Serratia marcescens, namely strain S27, from soil co-contaminated with Cd and Cr. This strain showed strong resistance to Cd as well as Cr. S27 cells demonstrated Cd adsorption rate of 45.8% and Cr reduction capacity of 84.4% under optimal growth conditions (i.e., 30 °C, 200 rpm, and pH 7.5). Microscopic characterization of S27 cells revealed the importance of the functional groups C–O–C, C–H–O, C–C, C–H, and –OH, and also indicated that Cr reduction occurred on bacterial cell membrane. Cd(II) and Cr(VI) bioaccumulation on S27 cell surface was mainly in the form of Cd(OH)₂ and Cr₂O₃, respectively. Further, metabolomic analyses revealed that N-arachidonoyl-l-alanine was the key metabolite that promoted Cd and Cr complexation by S27; it primarily promotes γ-linolenic acid (GLA) metabolism, producing siderophores and coordinating with organic acids to enhance metal bioavailability. To summarize, our results suggest that S27 is promising for the bioremediation of environments contaminated with Cd and Cr in tropical regions.
Cadmium (Cd) and chromium (Cr) are widespread contaminants with a high risk to the environment and humans. Herein we isolated a novel strain of Serratia marcescens, namely strain S27, from soil co-contaminated with Cd and Cr. This strain showed strong resistance to Cd as well as Cr. S27 cells demonstrated Cd adsorption rate of 45.8% and Cr reduction capacity of 84.4% under optimal growth conditions (i.e., 30 °C, 200 rpm, and pH 7.5). Microscopic characterization of S27 cells revealed the importance of the functional groups C-O-C, C-H-O, C-C, C-H, and -OH, and also indicated that Cr reduction occurred on bacterial cell membrane. Cd(II) and Cr(VI) bioaccumulation on S27 cell surface was mainly in the form of Cd(OH)2 and Cr2O3, respectively. Further, metabolomic analyses revealed that N-arachidonoyl-l-alanine was the key metabolite that promoted Cd and Cr complexation by S27; it primarily promotes γ-linolenic acid (GLA) metabolism, producing siderophores and coordinating with organic acids to enhance metal bioavailability. To summarize, our results suggest that S27 is promising for the bioremediation of environments contaminated with Cd and Cr in tropical regions.Cadmium (Cd) and chromium (Cr) are widespread contaminants with a high risk to the environment and humans. Herein we isolated a novel strain of Serratia marcescens, namely strain S27, from soil co-contaminated with Cd and Cr. This strain showed strong resistance to Cd as well as Cr. S27 cells demonstrated Cd adsorption rate of 45.8% and Cr reduction capacity of 84.4% under optimal growth conditions (i.e., 30 °C, 200 rpm, and pH 7.5). Microscopic characterization of S27 cells revealed the importance of the functional groups C-O-C, C-H-O, C-C, C-H, and -OH, and also indicated that Cr reduction occurred on bacterial cell membrane. Cd(II) and Cr(VI) bioaccumulation on S27 cell surface was mainly in the form of Cd(OH)2 and Cr2O3, respectively. Further, metabolomic analyses revealed that N-arachidonoyl-l-alanine was the key metabolite that promoted Cd and Cr complexation by S27; it primarily promotes γ-linolenic acid (GLA) metabolism, producing siderophores and coordinating with organic acids to enhance metal bioavailability. To summarize, our results suggest that S27 is promising for the bioremediation of environments contaminated with Cd and Cr in tropical regions.
Cadmium (Cd) and chromium (Cr) are widespread contaminants with a high risk to the environment and humans. Herein we isolated a novel strain of Serratia marcescens, namely strain S27, from soil co-contaminated with Cd and Cr. This strain showed strong resistance to Cd as well as Cr. S27 cells demonstrated Cd adsorption rate of 45.8% and Cr reduction capacity of 84.4% under optimal growth conditions (i.e., 30 °C, 200 rpm, and pH 7.5). Microscopic characterization of S27 cells revealed the importance of the functional groups C–O–C, C–H–O, C–C, C–H, and –OH, and also indicated that Cr reduction occurred on bacterial cell membrane. Cd(II) and Cr(VI) bioaccumulation on S27 cell surface was mainly in the form of Cd(OH)2 and Cr2O3, respectively. Further, metabolomic analyses revealed that N-arachidonoyl-l-alanine was the key metabolite that promoted Cd and Cr complexation by S27; it primarily promotes γ-linolenic acid (GLA) metabolism, producing siderophores and coordinating with organic acids to enhance metal bioavailability. To summarize, our results suggest that S27 is promising for the bioremediation of environments contaminated with Cd and Cr in tropical regions. [Display omitted] •A novel Serratia marcescens strain S27 showing Cd and Cr resistance was isolated.•S27 showed the ability to adsorb Cd and reduce Cr.•Cr was reduced by S27 on its cell surface.•S27 mainly secreted organic acids to enhance Cd and Cr bioavailability.•S27 appears promising for the bioremediation of Cd/Cr-contaminated soil.
ArticleNumber 115376
Author Zhang, Kailu
Wang, Baijie
Hu, Yueming
Zhu, Zhiqiang
Sun, Xiaoyan
Feng, Huiping
Li, Dong
Zhang, Haixiang
Lin, Li
Duan, Yali
Liu, Fan
Luo, Jialiang
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  organization: College of Tropical Crops, Hainan University, Haikou, 570228, China
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  organization: College of Tropical Crops, Hainan University, Haikou, 570228, China
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  organization: College of Tropical Crops, Hainan University, Haikou, 570228, China
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  fullname: Liu, Fan
  organization: College of Tropical Crops, Hainan University, Haikou, 570228, China
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  organization: College of Tropical Crops, Hainan University, Haikou, 570228, China
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  givenname: Dong
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  fullname: Li, Dong
  email: lidong0405@163.com
  organization: Key Laboratory of Agro-Forestry Environmental Processes and Ecological, Regulation of Hainan Province/Center for Eco-Environmental Restoration, Engineering of Hainan Province/School of Ecology & Environment/State Key, Laboratory of Marine Resource Utilization in South China Sea/Key Laboratory for Environmental Toxicology of Haikou, Hainan University, Haikou, Hainan, 570228, China
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  email: zqzhu@hainanu.edu.cn
  organization: College of Tropical Crops, Hainan University, Haikou, 570228, China
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Keywords Serratia marcescens strain S27
Chromium reduction
Cadmium adsorption
Resistance mechanisms
Language English
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Snippet Cadmium (Cd) and chromium (Cr) are widespread contaminants with a high risk to the environment and humans. Herein we isolated a novel strain of Serratia...
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SubjectTerms adsorption
bacteria
bioaccumulation
bioavailability
bioremediation
cadmium
Cadmium adsorption
cell membranes
chromium
Chromium reduction
metabolism
metabolites
metabolomics
Resistance mechanisms
risk
Serratia marcescens
Serratia marcescens strain S27
siderophores
soil
Title A novel N-arachidonoyl-l-alanine-catabolizing strain of Serratia marcescens for the bioremediation of Cd and Cr co-contamination
URI https://dx.doi.org/10.1016/j.envres.2023.115376
https://www.ncbi.nlm.nih.gov/pubmed/36736755
https://www.proquest.com/docview/2773116038
https://www.proquest.com/docview/2834215971
Volume 222
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