Systematic identification of endogenous strong constitutive promoters from the diazotrophic rhizosphere bacterium Pseudomonas stutzeri DSM4166 to improve its nitrogenase activity

Yu, Guangle; Li, Xiaochen; Duan, Qiuyue; Fu, Jun; Zhang, Youming; Wang, Hailong; Luan, Jing

doi:10.1186/s12934-023-02085-3

Cited by 4 publications

(2 citation statements)

References 58 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In this work, we demonstrate that the deletion of the two ammonium-transporting genes along with removal of the Q-linker from NifA increases the amount of nitrogen released outside of the cell. It also demonstrates that the amount of ammonium that can be obtained from G. diazotrophicus using only the dual amtB deletions is far higher than what has been reported for other strains ( 13 , 18 , 43 , 65 ). We also demonstrated a method for clean deletions using lacZ as part of the counter-selection protocol to help identify desired strains in G. diazotrophicus .…”

Section: Discussionmentioning

confidence: 66%

Enhanced extracellular ammonium release in the plant endophyte Gluconacetobacter diazotrophicus through genome editing

Dietz,

Olszewski,

Barney

2024

Microbiol Spectr

View full text Add to dashboard Cite

The plant growth-promoting bacterium Gluconacetobacter diazotrophicus was originally discovered in association with sugarcane plants as an endophyte. As a member of the small class of organisms defined as diazotrophs, G. diazotrophicus is capable of fixing nitrogen from the atmosphere and could serve an important role in minimizing the requirements for nitrogen from industrial-derived fertilizers. In addition to sugarcane, G. diazotrophicus is capable of forming endophyte associations with a variety of other important crops. It has been reported that this microbe requires micro-aerobic conditions to effectively fix nitrogen gas from the atmosphere through the enzyme nitrogenase, making it slightly more difficult to study the diazotrophic lifestyle in the laboratory. The ability of the strain to reside within the plant during growth means that any extracellular nitrogen released by this microbe would immediately become available to the plant host. For this reason, it is an ideal target for development as an improved biofertilizer strain. In this work, we constructed strains of G. diazotrophicus that result in enhanced ammonium release, as measured by growing with a closely associated algal strain under micro-aerobic conditions, and by further quantifying ammonium concentrations accumulated under micro-aerobic and aerobic growth. IMPORTANCE Our results demonstrate increased extracellular ammonium release in the endophyte plant growth-promoting bacterium Gluconacetobacter diazotrophicus . Strains were constructed in a manner that leaves no antibiotic markers behind, such that these strains contain no transgenes. Levels of ammonium achieved by cultures of modified G. diazotrophicus strains reached concentrations of approximately 18 mM ammonium, while wild-type G. diazotrophicus remained much lower (below 50 µM). These findings demonstrate a strong potential for further improving the biofertilizer potential of this important microbe.

show abstract

Section: Discussionmentioning

confidence: 66%

Enhanced extracellular ammonium release in the plant endophyte Gluconacetobacter diazotrophicus through genome editing

Dietz,

Olszewski,

Barney

2024

Microbiol Spectr

View full text Add to dashboard Cite

show abstract

“…Fifteen Stutzerimonas hosts were screened for plasmid transformability and inverter operability, in which ten were successfully transformed via electroporation with a pBBR1-KanR backbone vector (BB23). Six of these ten were chosen for further study, which are as follows: Stutzerimonas chloritidismutans NCTC10475 (S. chloritidismutans) 25 , Stutzerimonas perfectomarina CCUG 44592 (S. perfectomarina) 18 , Stutzerimonas degradans FDAARGOS 876 (S. degradans) 18 , Stutzerimonas stutzeri 24a13 (S. stutzeri 24a13) 26 , Stutzerimonas stutzeri 24a75 (S. stutzeri 24a75) 26 and Stutzerimonas stutzeri DSM 4166 (S. stutzeri DSM 4166) 27,28 . Comparative pangenomics of the selected Stutzerimonas hosts revealed almost equal sizes between the core and accessory genomes, propitiously setting the stage for investigating whether the measurable chassis-effect can be attributed to differential expression from the core or accessory genomes and which specific functions covary with host-specific device performance.…”

Section: A Stutzerimonas Tool Kit For Pangenome-guided Synthetic Biologymentioning

confidence: 99%

Pangenomic landscapes shape the genetic circuit performance in aStutzerimonasbiodesign toolkit

Chan,

Bernstein

2024

Preprint

View full text Add to dashboard Cite

Implementation of identical biodesign strategies into different species often results in different performance, a process called thechassis effect. Our current understanding of how cellular host context underpins its ability to be engineered is lacking and closing this knowledge gap will greatly improve the rational design of microorganisms. Here, we combined global differential gene expression analysis and pangenomics to uncover how genome structure and function relates to the observed chassis effect of an engineered genetic inverter device operating in six closely relatedStutzerimonashosts. The differential expression of the core genome, gene clusters shared between all hosts, was found to be the main source of significant concordance to the observed device performance, whereas specialty genes from respective accessory genomes were not significant. A data-driven investigation revealed that genes related to denitrification and efflux pumps were among the most differentially expressed gene clusters in response to the engineered device. This study establishes that the effectiveness of synthetic gene circuits can be traced along differences in closely related microbial hosts that each represent unique hardware options for biodesign.

show abstract

Development of a bacterial gene transcription activating strategy based on transcriptional activator positive feedback

Yu,

Duan,

Cui

et al. 2024

Journal of Advanced Research

View full text Add to dashboard Cite

Systematic identification of endogenous strong constitutive promoters from the diazotrophic rhizosphere bacterium Pseudomonas stutzeri DSM4166 to improve its nitrogenase activity

Cited by 4 publications

References 58 publications

Enhanced extracellular ammonium release in the plant endophyte Gluconacetobacter diazotrophicus through genome editing

Enhanced extracellular ammonium release in the plant endophyte Gluconacetobacter diazotrophicus through genome editing

Pangenomic landscapes shape the genetic circuit performance in aStutzerimonasbiodesign toolkit

Development of a bacterial gene transcription activating strategy based on transcriptional activator positive feedback

Contact Info

Product

Resources

About