Redirecting Metabolic Flux towards the Mevalonate Pathway for Enhanced β-Carotene Production in M. circinelloides CBS 277.49

Carotenoids produced by microbial sources are of industrial and medicinal importance due to their antioxidant and anticancer properties. In the current study, optimization of β-carotene production in M. circinelloides strain 277.49 was achieved using response surface methodology (RSM). Cerulenin and...

Descripción completa

Detalles Bibliográficos
Autores principales: Naz, Tahira, Nazir, Yusuf, Nosheen, Shaista, Ullah, Samee, Halim, Hafiy, Fazili, Abu Bakr Ahmad, Li, Shaoqi, Mustafa, Kiren, Mohamed, Hassan, Yang, Wu, Song, Yuanda
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Hindawi 2020
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7785371/
https://www.ncbi.nlm.nih.gov/pubmed/33457420
http://dx.doi.org/10.1155/2020/8890269
_version_ 1783632429001474048
author Naz, Tahira
Nazir, Yusuf
Nosheen, Shaista
Ullah, Samee
Halim, Hafiy
Fazili, Abu Bakr Ahmad
Li, Shaoqi
Mustafa, Kiren
Mohamed, Hassan
Yang, Wu
Song, Yuanda
author_facet Naz, Tahira
Nazir, Yusuf
Nosheen, Shaista
Ullah, Samee
Halim, Hafiy
Fazili, Abu Bakr Ahmad
Li, Shaoqi
Mustafa, Kiren
Mohamed, Hassan
Yang, Wu
Song, Yuanda
author_sort Naz, Tahira
collection PubMed
description Carotenoids produced by microbial sources are of industrial and medicinal importance due to their antioxidant and anticancer properties. In the current study, optimization of β-carotene production in M. circinelloides strain 277.49 was achieved using response surface methodology (RSM). Cerulenin and ketoconazole were used to inhibit fatty acids and the sterol biosynthesis pathway, respectively, in order to enhance β-carotene production by diverting metabolic pool towards the mevalonate pathway. All three variables used in screening experiments were found to be significant for the production of β-carotene. The synergistic effect of the C/N ratio, cerulenin, and ketoconazole was further evaluated and optimized for superior β-carotene production using central composite design of RSM. Our results found that the synergistic combination of C/N ratios, cerulenin, and ketoconazole at different concentrations affected the β-carotene productions significantly. The optimal production medium (std. order 11) composed of C/N 25, 10 μg/mL cerulenin, and 150 mg/L ketoconazole, producing maximum β-carotene of 4.26 mg/L (0.43 mg/g) which was 157% greater in comparison to unoptimized medium (1.68 mg/L, 0.17 mg/g). So, it was concluded that metabolic flux had been successfully redirected towards the mevalonate pathway for enhanced β-carotene production in CBS 277.49.
format Online
Article
Text
id pubmed-7785371
institution National Center for Biotechnology Information
language English
publishDate 2020
publisher Hindawi
record_format MEDLINE/PubMed
spelling pubmed-77853712021-01-14 Redirecting Metabolic Flux towards the Mevalonate Pathway for Enhanced β-Carotene Production in M. circinelloides CBS 277.49 Naz, Tahira Nazir, Yusuf Nosheen, Shaista Ullah, Samee Halim, Hafiy Fazili, Abu Bakr Ahmad Li, Shaoqi Mustafa, Kiren Mohamed, Hassan Yang, Wu Song, Yuanda Biomed Res Int Research Article Carotenoids produced by microbial sources are of industrial and medicinal importance due to their antioxidant and anticancer properties. In the current study, optimization of β-carotene production in M. circinelloides strain 277.49 was achieved using response surface methodology (RSM). Cerulenin and ketoconazole were used to inhibit fatty acids and the sterol biosynthesis pathway, respectively, in order to enhance β-carotene production by diverting metabolic pool towards the mevalonate pathway. All three variables used in screening experiments were found to be significant for the production of β-carotene. The synergistic effect of the C/N ratio, cerulenin, and ketoconazole was further evaluated and optimized for superior β-carotene production using central composite design of RSM. Our results found that the synergistic combination of C/N ratios, cerulenin, and ketoconazole at different concentrations affected the β-carotene productions significantly. The optimal production medium (std. order 11) composed of C/N 25, 10 μg/mL cerulenin, and 150 mg/L ketoconazole, producing maximum β-carotene of 4.26 mg/L (0.43 mg/g) which was 157% greater in comparison to unoptimized medium (1.68 mg/L, 0.17 mg/g). So, it was concluded that metabolic flux had been successfully redirected towards the mevalonate pathway for enhanced β-carotene production in CBS 277.49. Hindawi 2020-12-29 /pmc/articles/PMC7785371/ /pubmed/33457420 http://dx.doi.org/10.1155/2020/8890269 Text en Copyright © 2020 Tahira Naz et al. https://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle Research Article
Naz, Tahira
Nazir, Yusuf
Nosheen, Shaista
Ullah, Samee
Halim, Hafiy
Fazili, Abu Bakr Ahmad
Li, Shaoqi
Mustafa, Kiren
Mohamed, Hassan
Yang, Wu
Song, Yuanda
Redirecting Metabolic Flux towards the Mevalonate Pathway for Enhanced β-Carotene Production in M. circinelloides CBS 277.49
title Redirecting Metabolic Flux towards the Mevalonate Pathway for Enhanced β-Carotene Production in M. circinelloides CBS 277.49
title_full Redirecting Metabolic Flux towards the Mevalonate Pathway for Enhanced β-Carotene Production in M. circinelloides CBS 277.49
title_fullStr Redirecting Metabolic Flux towards the Mevalonate Pathway for Enhanced β-Carotene Production in M. circinelloides CBS 277.49
title_full_unstemmed Redirecting Metabolic Flux towards the Mevalonate Pathway for Enhanced β-Carotene Production in M. circinelloides CBS 277.49
title_short Redirecting Metabolic Flux towards the Mevalonate Pathway for Enhanced β-Carotene Production in M. circinelloides CBS 277.49
title_sort redirecting metabolic flux towards the mevalonate pathway for enhanced β-carotene production in m. circinelloides cbs 277.49
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7785371/
https://www.ncbi.nlm.nih.gov/pubmed/33457420
http://dx.doi.org/10.1155/2020/8890269
work_keys_str_mv AT naztahira redirectingmetabolicfluxtowardsthemevalonatepathwayforenhancedbcaroteneproductioninmcircinelloidescbs27749
AT naziryusuf redirectingmetabolicfluxtowardsthemevalonatepathwayforenhancedbcaroteneproductioninmcircinelloidescbs27749
AT nosheenshaista redirectingmetabolicfluxtowardsthemevalonatepathwayforenhancedbcaroteneproductioninmcircinelloidescbs27749
AT ullahsamee redirectingmetabolicfluxtowardsthemevalonatepathwayforenhancedbcaroteneproductioninmcircinelloidescbs27749
AT halimhafiy redirectingmetabolicfluxtowardsthemevalonatepathwayforenhancedbcaroteneproductioninmcircinelloidescbs27749
AT faziliabubakrahmad redirectingmetabolicfluxtowardsthemevalonatepathwayforenhancedbcaroteneproductioninmcircinelloidescbs27749
AT lishaoqi redirectingmetabolicfluxtowardsthemevalonatepathwayforenhancedbcaroteneproductioninmcircinelloidescbs27749
AT mustafakiren redirectingmetabolicfluxtowardsthemevalonatepathwayforenhancedbcaroteneproductioninmcircinelloidescbs27749
AT mohamedhassan redirectingmetabolicfluxtowardsthemevalonatepathwayforenhancedbcaroteneproductioninmcircinelloidescbs27749
AT yangwu redirectingmetabolicfluxtowardsthemevalonatepathwayforenhancedbcaroteneproductioninmcircinelloidescbs27749
AT songyuanda redirectingmetabolicfluxtowardsthemevalonatepathwayforenhancedbcaroteneproductioninmcircinelloidescbs27749

Ejemplares similares