Heterologous Metabolic Pathways: Strategies for Optimal Expression in Eukaryotic Hosts

Markina, Nadezhda M.; Kotlobay, Alexey A.; Tsarkova, Aleksandra S.

doi:10.32607/actanaturae.10966

Cited by 3 publications

(1 citation statement)

References 102 publications

(160 reference statements)

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“…These reconstructed routes ensure the production of pure and easily identifiable intermediates and eliminate unusable by-products. Despite that many terpenes with antimicrobial activity have been described, many more with potential unique derivatives are awaiting discovery [ 82 , 83 ].…”

Section: The Potential Role Of Terpenoid Natural Products In Viral Infection Treatmentmentioning

confidence: 99%

Naturally Occurring Terpenes: A Promising Class of Organic Molecules to Address Influenza Pandemics

Al-Salihi

Alberti

2021

Nat. Prod. Bioprospect.

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Since the olden times, infectious diseases have largely affected human existence. The newly emerged infections are excessively caused by viruses that are largely associated with mammal reservoirs. The casualties of these emergencies are significantly influenced by the way human beings interact with the reservoirs, especially the animal ones. In our review we will consider the evolutionary and the ecological scales of such infections and their consequences on the public health, with a focus on the pathogenic influenza A virus. The nutraceutical properties of fungal and plant terpene-like molecules will be linked to their ability to lessen the symptoms of viral infections and shed light on their potential use in the development of new drugs. New challenging methods in antiviral discovery will also be discussed in this review. The authors believe that pharmacognosy is the “wave of future pharmaceuticals”, as it can be continually produced and scaled up under eco-friendly requirements. Further diagnostic methods and strategies however are required to standardise those naturally occurring resources.

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Section: The Potential Role Of Terpenoid Natural Products In Viral Infection Treatmentmentioning

confidence: 99%

Naturally Occurring Terpenes: A Promising Class of Organic Molecules to Address Influenza Pandemics

Al-Salihi

Alberti

2021

Nat. Prod. Bioprospect.

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Metabolic Engineering for Overproduction of Plant Secondary Metabolites: Alkaloids

Tilkat,

Ayaz Tilkat,

Akkaya

et al. 2024

Advances in Plant Breeding Strategies

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Engineering Plant Metabolism for Synthesizing Amino Acid Derivatives of Animal Origin Using a Synthetic Modular Approach

Jiang,

Gao,

Han

et al. 2024

J. Agric. Food Chem.

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The biosynthesis of amino acid derivatives of animal origin in plants represents a promising frontier in synthetic biology, offering a sustainable and eco-friendly approach to enhancing the nutritional value of plant-based diets. This study leverages the versatile capabilities of Nicotiana benthamiana as a transient expression system to test a synthetic modular framework for the production of creatine, carnosine, and taurine-compounds typically absent in plants but essential for human health. By designing and stacking specialized synthetic modules, we successfully redirected the plant metabolic flux toward the synthesis of these amino acid derivatives of animal origin. Our results revealed the expression of a standalone creatine module resulted in the production of 2.3 μg/ g fresh weight of creatine in N. benthamiana leaves. Integrating two modules significantly carnosine yield increased by 3.8-fold and minimized the impact on plant amino acid metabolism compared to individual module application. Unexpectedly, introducing the taurine module caused a feedback-like inhibition of plant cysteine biosynthesis, revealing complex metabolic adjustments that can occur when introducing foreign pathways. Our findings underline the potential for employing plants as biofactories for the sustainable production of essential nutrients of animal origin.

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Heterologous Metabolic Pathways: Strategies for Optimal Expression in Eukaryotic Hosts

Cited by 3 publications

References 102 publications

Naturally Occurring Terpenes: A Promising Class of Organic Molecules to Address Influenza Pandemics

Naturally Occurring Terpenes: A Promising Class of Organic Molecules to Address Influenza Pandemics

Metabolic Engineering for Overproduction of Plant Secondary Metabolites: Alkaloids

Engineering Plant Metabolism for Synthesizing Amino Acid Derivatives of Animal Origin Using a Synthetic Modular Approach

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