Targeted and high-throughput gene knockdown in diverse bacteria using synthetic sRNAs

Cho, Jae Sung; Yang, Dongsoo; Prabowo, Cindy Pricilia Surya; Ghiffary, Mohammad Rifqi; Han, Tae-Hee; Choi, Kyeong Rok; Moon, Cheon Woo; Zhou, Hengrui; Ryu, Jae Yong; Kim, Hyun Uk; Lee, Sang Yup

doi:10.1038/s41467-023-38119-y

Cited by 17 publications

(10 citation statements)

References 55 publications

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“…Also, it is important to note that the in silico strains S2 and S3 of Synechocystis are favored due to their superior biomass and ethanol productivities, emphasizing the significance of strain engineering for optimal performance in biorefineries. In the context of current research, gene editing and precise post-transcriptional control over gene expression tools, such as CRISPR-Cas9 − and small regulatory RNAs (sRNAs), − respectively, have emerged as revolutionary techniques for cyanobacteria strain design. This combined approach offers researchers unprecedented capabilities to engineer cyanobacteria with enhanced metabolic pathways, increased productivity, and specialized adaptability to varying environmental conditions.…”

Section: Resultsmentioning

confidence: 99%

Process Systems Engineering Approach for the Sustainable Design of Cyanobacteria-Based Integrated Biorefineries and Their Heat Exchanger Network

Ramos,

Lasry Testa,

Ramos

et al. 2024

ACS Sustainable Chem. Eng.

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As climate change increasingly impacts the environment and society worldwide, advanced biofuels produced from cyanobacteria constitute a nature-based solution to the capture and storage of the atmospheric greenhouse gas carbon dioxide by continual or enhanced biological processes. We propose a mixedinteger nonlinear programming problem to address the optimal design of a biorefinery and its heat exchanger network based on Synechocystis sp. PCC 6803, aiming to maximize the sustainability net present value in a superstructure approach. The optimal scheme includes production of pigments and fourth-generation bioethanol, self-supply of energy, and recycling of enriched nutrient streams. Numerical results provide a sustainability net present value of 117.55 M USD, rendering a competitive fourth-generation bioethanol production cost of 0.40 USD/kg of bioethanol. Simultaneous heat integration improves the objective function, showing that reducing environmental burden has a greater impact than minimizing the capital investment in heat exchangers, compared to the case of no heat integration. Sensitivity analysis shows that further enhancement of Synechocystis' ethanol productivity is crucial to improve sustainability.

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Section: Resultsmentioning

confidence: 99%

Process Systems Engineering Approach for the Sustainable Design of Cyanobacteria-Based Integrated Biorefineries and Their Heat Exchanger Network

Ramos,

Lasry Testa,

Ramos

et al. 2024

ACS Sustainable Chem. Eng.

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show abstract

“…In this study, a novel synthetic sRNA based on the RhlS scaffold from P. low at approximately 30%. [26] In contrast, the RhlS gfp only resulted in 55.9% repression of sfgfp in R. erythropolis XP. Although the repression efficiency of RhlS gfp in R. erythropolis XP (55.9%) was lower than that of MicC-based sRNAs in E. coli, it was higher than the repression efficiency observed with synthetic sRNAs in most other non-E.…”

Section: Discussionmentioning

confidence: 97%

“…[24] In Corynebacterium glutamicum, the RoxS-BsHfq system showed the repression efficiency of 64.6% while the RoxS only resulted in 58.0% repression of gfp. [26] The differential effect of Hfq introduction could be attributed to the distinct mechanisms of action of synthetic sRNAs in different host species. [22,35] In Gram-negative bacteria, sRNAs regulate gene expression at the post-transcription level with the assistance of the RNA chaperone Hfq, which blocks ribosome binding and affects RNA stability.…”

Section: Discussionmentioning

confidence: 99%

“…[22] Additionally, E. coli SgrS scaffold, Pseudomonas aeruginosa PrrF1-2 scaffold, and Bacillus subtilis RoxS scaffold have also been employed as part of synthetic sRNAs. [24][25][26] Among these synthetic sRNAs, only the sRNA platform based on the RoxS scaffold and the Hfq chaperone from B. subtilis (RoxS-BsHfq system) has been tested for its usability in R. opacus PD630 DSM 43205. However, there is still a need to improve the efficiency of gene repression for practical applications.…”

Section: Introductionmentioning

confidence: 99%

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Development of synthetic small regulatory RNA for Rhodococcus erythropolis

Wang,

Hou,

Yang

et al. 2024

Biotechnology Journal

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Rhodococci have been regarded as ideal chassis for biotransformation, biodegradation, and biosynthesis for their unique environmental persistence and robustness. However, most species of Rhodococcus are still difficult to metabolically engineer due to the lack of genetic tools and techniques. In this study, synthetic sRNA strategy was exploited for gene repression in R. erythropolis XP. The synthetic sRNA based on the RhlS scaffold from Pseudomonas aeruginosa functions better in repressing sfgfp expression than those based on E. coli MicC, SgrS, and P. aeruginosa PrrF1‐2 scaffold. The RhlS‐based sRNAs were applied to study the influence of sulfur metabolism on biodesulfurization (BDS) efficiency in R. erythropolis XP and successfully identified two genes involved in sulfur metabolism that affect the BDS efficiency significantly. The RhlS‐based synthetic sRNAs show promise in the metabolic engineering of Rhodococcus and promote the industrial applications of Rhodococcus in environmental remediation and biosynthesis.

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“…For sRNA knock-down tools in diverse bacteria, Cho et al designed broad-host-range sRNA system (BHR-sRNA system) base-on sRNA scaffold of RoxS from B. subtilis [ 120 ]. Translationally, BHR-sRNA system achieved knockdown of reporter genes in 12 strains out of 16 strains, with slight modification in each strain.…”

Section: Artificial Srna Design and Applicationmentioning

confidence: 99%

Regulatory RNAs in Bacillus subtilis: A review on regulatory mechanism and applications in synthetic biology

Peng,

Yin,

Zuo

et al. 2024

Synthetic and Systems Biotechnology

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Targeted and high-throughput gene knockdown in diverse bacteria using synthetic sRNAs

Cited by 17 publications

References 55 publications

Process Systems Engineering Approach for the Sustainable Design of Cyanobacteria-Based Integrated Biorefineries and Their Heat Exchanger Network

Process Systems Engineering Approach for the Sustainable Design of Cyanobacteria-Based Integrated Biorefineries and Their Heat Exchanger Network

Development of synthetic small regulatory RNA for Rhodococcus erythropolis

Regulatory RNAs in Bacillus subtilis: A review on regulatory mechanism and applications in synthetic biology

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