2020
DOI: 10.1007/s11274-020-02903-5
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Morphology engineering: a new strategy to construct microbial cell factories

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Cited by 14 publications
(13 citation statements)
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“…Modular pathway engineering is mainly used to rebuild metabolic balance and improve metabolite production. Genome-scale engineering and multi-genome editing are the main engineering strategies at the genome level, while cell-level engineering strategies mainly include transporter engineering, morphological engineering, and consortium engineering (Chen et al 2018 ; Bharathiraja et al 2022 ; Hoek and Borodina 2020 ; Huo et al 2020 ; Duncker et al 2021 ). The production of fatty acid derivatives in microbial cell factories is usually regulated by multiple factors rather than by a single factor.…”
Section: Synthetic Biology Tools For Constructing and Optimizing Micr...mentioning
confidence: 99%
“…Modular pathway engineering is mainly used to rebuild metabolic balance and improve metabolite production. Genome-scale engineering and multi-genome editing are the main engineering strategies at the genome level, while cell-level engineering strategies mainly include transporter engineering, morphological engineering, and consortium engineering (Chen et al 2018 ; Bharathiraja et al 2022 ; Hoek and Borodina 2020 ; Huo et al 2020 ; Duncker et al 2021 ). The production of fatty acid derivatives in microbial cell factories is usually regulated by multiple factors rather than by a single factor.…”
Section: Synthetic Biology Tools For Constructing and Optimizing Micr...mentioning
confidence: 99%
“…The MreB protein forms helical filaments upon GTP or ATP binding oscillating along the cell circumference and pushes the bacterial edges that ultimately define the width and length of rod‐shaped bacteria (Szwedziak & Löwe, 2013 ) (Figure 4A ). Divisome molecular mechanics are orchestrated mainly by the tubulin‐like GTPase FtsZ protein (Silber et al, 2020 ) (Figure 4 ) Meddling with certain elements of these systems derives in i) elongated microbes (FtsZ, its inhibitor MinCD, MreB, SOS‐responsive SulA, PBPs, MreB stabilizer RodZ), ii) spherically shaped bacteria (MreB, PBPs) or iii) reduced cell size owing to increased duplication rates (FtsZ, MinCD) (Huo et al, 2020 ) (Figure 4C ). For instance, in Pseudomonas mendocina NK‐01, the ftsZ gene was overexpressed, fostering cell division and improving mcl ‐PHA yield (Zhao et al, 2019 ).…”
Section: Cofactor and Morphology Engineering Strategiesmentioning
confidence: 99%
“…However, such traditional molecular techniques are inefficient when dealing with essential cytokinesis genes as engineered bacteria exhibit poor growth and altered metabolism (Sperber & Herman, 2017 ; Westfall & Levin, 2018 ). To circumvent these phenotypes, the genetic systems can harbour control switches that enable activation at a given time during fermentation, usually when cells reach a considerable cell density (Batianis et al, 2020 ; Huo et al, 2020 ). In this sense, temperature‐sensitive vectors are valuable tools to compensate for detrimental deletions.…”
Section: Cofactor and Morphology Engineering Strategiesmentioning
confidence: 99%
“…Morphology engineering has been demonstrated as a new promising strategy to develop more efficient microbial cell factories to improve bioproduction yield [ 13 , 14 ]. This strategy aims to modify cell shape and division patterns by manipulating genes related to cell morphology [ 14 ].…”
Section: Introductionmentioning
confidence: 99%
“…Morphology engineering has been demonstrated as a new promising strategy to develop more efficient microbial cell factories to improve bioproduction yield [ 13 , 14 ]. This strategy aims to modify cell shape and division patterns by manipulating genes related to cell morphology [ 14 ]. Cytokinesis is essential for the survival of all cellular organisms as it mediates the separation of mother and daughter cells during cell cycle [ 15 ].…”
Section: Introductionmentioning
confidence: 99%