Optimizing dsRNA engineering strategies and production in E. coli HT115 (DE3).

da Rosa, Juliana; Viana, Américo José Carvalho; Ferreira, Fernando Rafael Alves; Koltun, Alessandra; Mertz-Henning, Liliane Marcia; Marin, Silvana Regina Rockenbach; Rech, Elibio Leopoldo; Nepomuceno, Alexandre Lima

da Rosa, Juliana; Viana, Américo José Carvalho; Ferreira, Fernando Rafael Alves; Koltun, Alessandra; Mertz-Henning, Liliane Marcia; Marin, Silvana Regina Rockenbach; Rech, Elibio Leopoldo; Nepomuceno, Alexandre Lima.

Affiliation

da Rosa J; Department of General Biology, Londrina State University, Celso Garcia Cid Road, PR 445, km 380, University Campus, 86057-970 Londrina, PR, Brazil.
Viana AJC; Embrapa Soja, Carlos João Strass Highway, Acess Orlando Amaral, District of Warta, 86085-981 Londrina, PR, Brazil.
Ferreira FRA; Embrapa Soja, Carlos João Strass Highway, Acess Orlando Amaral, District of Warta, 86085-981 Londrina, PR, Brazil.
Koltun A; Arthur Bernardes Foundation, Headquarters Building, no number - University Campus, 36570-900 Viçosa, MG, Brazil.
Mertz-Henning LM; Embrapa Soja, Carlos João Strass Highway, Acess Orlando Amaral, District of Warta, 86085-981 Londrina, PR, Brazil.
Marin SRR; Arthur Bernardes Foundation, Headquarters Building, no number - University Campus, 36570-900 Viçosa, MG, Brazil.
Rech EL; Embrapa Soja, Carlos João Strass Highway, Acess Orlando Amaral, District of Warta, 86085-981 Londrina, PR, Brazil.
Nepomuceno AL; Embrapa Soja, Carlos João Strass Highway, Acess Orlando Amaral, District of Warta, 86085-981 Londrina, PR, Brazil.

J Ind Microbiol Biotechnol ; 512024 Jan 09.

Article in En | MEDLINE | ID: mdl-39152090

ABSTRACT

ABSTRACT

Producing double-stranded RNA (dsRNA) represents a bottleneck for the adoption of RNA interference technology in agriculture, and the main hurdles are related to increases in dsRNA yield, production efficiency, and purity. Therefore, this study aimed to optimize dsRNA production in E. coli HT115 (DE3) using an in vivo system. To this end, we designed a new vector, pCloneVR_2, which resulted in the efficient production of dsRNA in E. coli HT115 (DE3). We performed optimizations in the culture medium and expression inducer in the fermentation of E. coli HT115 (DE3) for the production of dsRNA. Notably, the variable that had the greatest effect on dsRNA yield was cultivation in TB medium, which resulted in a 118% increase in yield. Furthermore, lactose induction (6 g/L) yielded 10 times more than IPTG. Additionally, our optimized up-scaled protocol of the TRIzol™ extraction method was efficient for obtaining high-quality and pure dsRNA. Finally, our optimized protocol achieved an average yield of 53.3 µg/mL after the production and purification of different dsRNAs, reducing production costs by 72%.

Subject(s)

Culture Media; Escherichia coli; Fermentation; RNA, Double-Stranded; Escherichia coli/genetics; Escherichia coli/metabolism; RNA, Double-Stranded/genetics; Culture Media/chemistry; Genetic Vectors; Metabolic Engineering/methods; RNA Interference; Lactose/metabolism

Key words

Bacterial dsRNA production; Double-stranded RNA; Lactose induction; RNAi

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Full text: 1 Collection: 01-internacional Database: MEDLINE Main subject: RNA, Double-Stranded / Culture Media / Escherichia coli / Fermentation Language: En Journal: J Ind Microbiol Biotechnol Journal subject: BIOTECNOLOGIA / MICROBIOLOGIA Year: 2024 Document type: Article Affiliation country: Brazil Country of publication: Germany

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