Your search keyword '"BISABOLENE"' showing total 395 results

1. Bioconversion of cellulose into bisabolene using Ruminococcus flavefaciens and Rhodosporidium toruloides

Author

Walls, Laura E, Otoupal, Peter, Ledesma-Amaro, Rodrigo, Velasquez-Orta, Sharon B, Gladden, John M, and Rios-Solis, Leonardo

Subjects

Biological Sciences, Industrial Biotechnology, Cellulose, Ruminococcus, Rhodotorula, Biofuel, Bisabolene, Lignocellulose, Metabollic engineering, Microscale tools, Rhodosporidium toruloides, Rumen bacteria, Ruminococcus flavefaciens, Sequential bioreactors, Biotechnology, Agricultural biotechnology, Industrial biotechnology, Microbiology

Abstract

In this study, organic acids were demonstrated as a promising carbon source for bisabolene production by the non-conventional yeast, Rhodosporidium toruloides, at microscale with a maximum titre of 1055 ± 7 mg/L. A 125-fold scale-up of the optimal process, enhanced bisabolene titres 2.5-fold to 2606 mg/L. Implementation of a pH controlled organic acid feeding strategy at this scale lead to a further threefold improvement in bisabolene titre to 7758 mg/L, the highest reported microbial titre. Finally, a proof-of-concept sequential bioreactor approach was investigated. Firstly, the cellulolytic bacterium Ruminococcus flavefaciens was employed to ferment cellulose, yielding 4.2 g/L of organic acids. R. toruloides was subsequently cultivated in the resulting supernatant, producing 318 ± 22 mg/L of bisabolene. This highlights the feasibility of a sequential bioprocess for the bioconversion of cellulose, into biojet fuel candidates. Future work will focus on enhancing organic acid yields and the use of real lignocellulosic feedstocks to further enhance bisabolene production.

Published

2023

2. Valorization of Hemp-Based Packaging Waste with One-Pot Ionic Liquid Technology

Author

Choi, Julius, Rodriguez, Alberto, Simmons, Blake A, and Gladden, John M

Subjects

Medicinal and Biomolecular Chemistry, Organic Chemistry, Chemical Sciences, Lignin, Ionic Liquids, Cannabis, Sugars, Technology, Biofuels, Biomass, biomass pretreatment, cholinium lysinate, Rhodosporidium toruloides, bisabolene, Theoretical and Computational Chemistry, Medicinal and biomolecular chemistry, Organic chemistry

Abstract

The range of applications for industrial hemp has consistently increased in various sectors over the years. For example, hemp hurd can be used as a resource to produce biodegradable packaging materials when incorporated into a fungal mycelium composite, a process that has been commercialized. Although these packaging materials can be composted after usage, they may present an opportunity for valorization in a biorefinery setting. Here, we demonstrate the potential of using this type of discarded packaging composite as a feedstock for biofuel production. A one-pot ionic liquid-based biomass deconstruction and conversion process was implemented, and the results from the packaging material were compared with those obtained from untreated hemp hurd. At a 120 °C reaction temperature, 7.5% ionic liquid loading, and 2 h reaction time, the packaging materials showed a higher lignocellulosic sugar yield and sugar concentrations than hemp hurd. Hydrolysates prepared from packaging materials also promoted production of higher titers (1400 mg/L) of the jet-fuel precursor bisabolene when used to cultivate an engineered strain of the yeast Rhodosporidium toruloides. Box-Behnken experiments revealed that pretreatment parameters affected the hemp hurd and packaging materials differently, evidencing different degrees of recalcitrance. This study demonstrated that a hemp hurd-based packaging material can be valorized a second time once it reaches the end of its primary use by supplying it as a feedstock to produce biofuels.

Published

2023

3. COMPARATIVE ANALYSIS OF ESSENTIAL OIL CONTAINING RAW MATERIALS OF HONEYHERB (LIPPIA DULCIS TREVIR.) UNDER DIFFERENT GROWING CONDITIONS.

Author

Marchyshyn, Svitlana, Slobodianiuk, Liudmyla, Budniak, Liliia, Dakhym, Iryna, Boyko, Larysa, Kyryliv, Mariia, and Bekus, Iryna

Subjects

ESSENTIAL oils, VERBENACEAE, ANTI-inflammatory agents, PLANT shoots, BISABOLENE

Abstract

Copyright of ScienceRise: Pharmaceutical Science is the property of PC TECHNOLOGY CENTER and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

4. Can Multiple Ions in an Ionic Liquid Improve the Biomass Pretreatment Efficacy?

Author

Yao, Alexander, Choudhary, Hemant, Mohan, Mood, Rodriguez, Alberto, Magurudeniya, Harsha, Pelton, Jeffrey G, George, Anthe, Simmons, Blake A, and Gladden, John M

Subjects

Affordable and Clean Energy, Climate Action, Lignocellulosic biomass, Pretreatment, One-pot, Double salt ionic liquids, Rhodosporidium toruloides, Pine, Sorghum, Biofuel, Bisabolene, Analytical Chemistry, Environmental Science and Management, Chemical Engineering

Abstract

Over the last few decades, efforts to transition the global production of fuels and chemicals toward renewable carbon feedstocks have accelerated. A large portion of these efforts have focused on valorization of one of the most abundant renewable carbon sources, lignocellulose. Pretreatment of lignocellulose is the first critical step in this process. In this study, novel ionic liquid (IL) systems consisting of multiple ions known to be effective at biomass pretreatment were tested on woody and grassy biomass. Molecular simulations and experimental results established the synergistic advantages of combining specific individual components in these systems. For pine (woody) biomass, pretreatment with the combination of imidazolium, cholinium, acetate, and lysinate ions achieved 80% glucose and 70% xylose yields at high biomass loading. For sorghum biomass, an IL system comprising cholinium, lysinate, and palmitate ions not only enabled a 98% glucose yield but was also found to be biocompatible in a one-pot configuration, producing the biofuel precursor bisabolene using an engineered strain of the yeast Rhodosporidium toruloides.

Published

2021

5. Mapping competitive pathways to terpenoid biosynthesis in Synechocystis sp. PCC 6803 using an antisense RNA synthetic tool

Author

João S. Rodrigues, Barbara Bourgade, Karen R. Galle, and Pia Lindberg

Subjects

Antisense RNA, Metabolic engineering, Terpenoids, Isoprene, Bisabolene, Synechocystis sp. PCC 6803, Microbiology, QR1-502

Abstract

Abstract Background Synechocystis sp. PCC 6803 utilizes pyruvate and glyceraldehyde 3-phosphate via the methylerythritol 4-phosphate (MEP) pathway for the biosynthesis of terpenoids. Considering the deep connection of the MEP pathway to the central carbon metabolism, and the low carbon partitioning towards terpenoid biosynthesis, significant changes in the metabolic network are required to increase cyanobacterial production of terpenoids. Results We used the Hfq-MicC antisense RNA regulatory tool, under control of the nickel-inducible P nrsB promoter, to target 12 different genes involved in terpenoid biosynthesis, central carbon metabolism, amino acid biosynthesis and ATP production, and evaluated the changes in the performance of an isoprene-producing cyanobacterial strain. Six candidate targets showed a positive effect on isoprene production: three genes involved in terpenoid biosynthesis (crtE, chlP and thiG), two involved in amino acid biosynthesis (ilvG and ccmA) and one involved in sugar catabolism (gpi). The same strategy was applied to interfere with different parts of the terpenoid biosynthetic pathway in a bisabolene-producing strain. Increased bisabolene production was observed not only when interfering with chlorophyll a biosynthesis, but also with carotenogenesis. Conclusions We demonstrated that the Hfq-MicC synthetic tool can be used to evaluate the effects of gene knockdown on heterologous terpenoid production, despite the need for further optimization of the technique. Possible targets for future engineering of Synechocystis aiming at improved terpenoid microbial production were identified.

Published

2023

6. Chemical composition of ginger (zingiber officinaie) plant

Author

Yusupovich, Ismoilov Muminjon and O'g'li, Elchiyev Sardorbek Xabibullo

Published

2022

7. Conversion of depolymerized sugars and aromatics from engineered feedstocks by two oleaginous red yeasts

Author

Rodriguez, Alberto, Ersig, Nadine, Geiselman, Gina M, Seibel, Katharina, Simmons, Blake A, Magnuson, Jon K, Eudes, Aymerick, and Gladden, John M

Subjects

Biological Sciences, Industrial Biotechnology, Biofuels, Biomass, Lignin, Rhodotorula, Sugars, Yeasts, Biomass pretreatment, Aromatic compounds, Bisabolene, Red yeasts, Biotechnology, Agricultural biotechnology, Industrial biotechnology, Microbiology

Abstract

One of the requirements for efficient biological conversion of lignocellulose to bioproducts is the compatibility of biological catalysts with the processes employed to solubilize and depolymerize the lignocellulosic components. The red yeasts Rhodosporidium toruloides and Rhodotorula mucilaginosa were evaluated for their ability to assimilate sugars and aromatic compounds extracted from two engineered lines of Arabidopsis thaliana with modified lignin or the wild-type using ionic liquid, acid or alkaline pretreatments. Differential amounts of monomeric sugars, organic acids and, in the case of the engineered lines, either 4-hydroxybenzoic or protocatechuic acid were additionally released from the biomass and found to be tolerated and consumed by both microorganisms. Genetically-engineered strains of the two red yeasts successfully converted the depolymerized products into the biofuel precursor bisabolene when cultivated on hydrolysates or synthetic media containing specific sugars, acids and aromatics found in the hydrolysates.

Published

2019

8. Farnesyl pyrophosphate compartmentalization in the green microalga Chlamydomonas reinhardtii during heterologous (E)-α-bisabolene production

Author

Julian Wichmann, Annibel Eggert, Liam D. H. Elbourne, Ian T. Paulsen, Kyle J. Lauersen, and Olaf Kruse

Subjects

Microalgae, Chlamydomonas reinhardtii, Terpenoids, Isoprenoids, Bisabolene, Microbiology, QR1-502

Abstract

Abstract Background Eukaryotic algae have recently emerged as hosts for metabolic engineering efforts to generate heterologous isoprenoids. Isoprenoid metabolic architectures, flux, subcellular localization, and transport dynamics have not yet been fully elucidated in algal hosts. Results In this study, we investigated the accessibility of different isoprenoid precursor pools for C15 sesquiterpenoid generation in the cytoplasm and chloroplast of Chlamydomonas reinhardtii using the Abies grandis bisabolene synthase (AgBS) as a reporter. The abundance of the C15 sesquiterpene precursor farnesyl pyrophosphate (FPP) was not increased in the cytosol by co-expression and fusion of AgBS with different FPP synthases (FPPSs), indicating limited C5 precursor availability in the cytoplasm. However, FPP was shown to be available in the plastid stroma, where bisabolene titers could be improved several-fold by FPPSs. Sesquiterpene production was greatest when AgBS-FPPS fusions were directed to the plastid and could further be improved by increasing the gene dosage. During scale-up cultivation with different carbon sources and light regimes, specific sesquiterpene productivities from the plastid were highest with CO2 as the only carbon source and light:dark illumination cycles. Potential prenyl unit transporters are proposed based on bioinformatic analyses, which may be in part responsible for our observations. Conclusions Our findings indicate that the algal chloroplast can be harnessed in addition to the cytosol to exploit the full potential of algae as green cell factories for non-native sesquiterpenoid generation. Identification of a prenyl transporter may be leveraged for further extending this capacity.

Published

2022

9. Exploring the Potential of the Model Cyanobacteria Synechococcus PCC 7002 and PCC 7942 for the Photoproduction of High-Value Terpenes: A Comparison with Synechocystis PCC 6803.

Author

Chenebault, Célia, Blanc-Garin, Victoire, Vincent, Marine, Diaz-Santos, Encarnación, Goudet, Amélie, Cassier-Chauvat, Corinne, and Chauvat, Franck

Subjects

*MONOTERPENES, *TERPENES, *SYNECHOCOCCUS, *SYNECHOCOCCUS elongatus, *SYNECHOCYSTIS, *LIMONENE, *SESQUITERPENES, *PHOTOSYNTHETIC bacteria, *CYANOBACTERIA

Abstract

We have performed the first comparative analysis of the potential of two physiologically-diverse model cyanobacteria, Synechococcus PCC 7002 (S.7002) and Synechococcus elongatus PCC 7942 (S.7942), for the photosynthetic production of four chemically-different high-value terpenes: two monoterpenes limonene and pinene, and two sesquiterpenes bisabolene and farnesene. We showed, for the first time, that S.7002 and S.7942 can produce farnesene and bisabolene, respectively. Both cyanobacteria produced farnesene (S.7942 produced more efficiently than S.7002) more efficiently than the other tested terpenes (especially pinene, the weakest produced terpene). S.7002 produced limonene more efficiently than bisabolene, whereas S.7942 produced bisabolene more efficiently than limonene. These findings suggest that S.7942 is better suited to produce sesquiterpenes than monoterpenes. Interestingly, higher levels of terpenes were produced by S.7942 and S.7002 expressing a terpene-synthase gene from both an RSF1010-derived replicating plasmid and a neutral chromosomal site, as compared to either the plasmid alone or the chromosome alone. These results suggest that in both cyanobacteria, the production of terpenes is more limited by the activity of terpene synthases than the abundance of terpene precursors. Finally, higher levels of terpenes were produced by S.7002 growing on urea (a frequent pollutant) as compared to nitrate or ammonium, the standard nitrogen sources for cyanobacteria. [ABSTRACT FROM AUTHOR]

Published

2023

10. Mapping competitive pathways to terpenoid biosynthesis in Synechocystis sp. PCC 6803 using an antisense RNA synthetic tool.

Author

Rodrigues, João S., Bourgade, Barbara, Galle, Karen R., and Lindberg, Pia

Subjects

*ANTISENSE RNA, *BIOSYNTHESIS, *SYNECHOCYSTIS, *CARBON metabolism, *MATHEMATICAL optimization, *RNA metabolism

Abstract

Background: Synechocystis sp. PCC 6803 utilizes pyruvate and glyceraldehyde 3-phosphate via the methylerythritol 4-phosphate (MEP) pathway for the biosynthesis of terpenoids. Considering the deep connection of the MEP pathway to the central carbon metabolism, and the low carbon partitioning towards terpenoid biosynthesis, significant changes in the metabolic network are required to increase cyanobacterial production of terpenoids. Results: We used the Hfq-MicC antisense RNA regulatory tool, under control of the nickel-inducible PnrsB promoter, to target 12 different genes involved in terpenoid biosynthesis, central carbon metabolism, amino acid biosynthesis and ATP production, and evaluated the changes in the performance of an isoprene-producing cyanobacterial strain. Six candidate targets showed a positive effect on isoprene production: three genes involved in terpenoid biosynthesis (crtE, chlP and thiG), two involved in amino acid biosynthesis (ilvG and ccmA) and one involved in sugar catabolism (gpi). The same strategy was applied to interfere with different parts of the terpenoid biosynthetic pathway in a bisabolene-producing strain. Increased bisabolene production was observed not only when interfering with chlorophyll a biosynthesis, but also with carotenogenesis. Conclusions: We demonstrated that the Hfq-MicC synthetic tool can be used to evaluate the effects of gene knockdown on heterologous terpenoid production, despite the need for further optimization of the technique. Possible targets for future engineering of Synechocystis aiming at improved terpenoid microbial production were identified. [ABSTRACT FROM AUTHOR]

Published

2023

11. First in vivo analysis of the regulatory protein CP12 of the model cyanobacterium Synechocystis PCC 6803: Biotechnological implications.

Author

Blanc-Garin, Victoire, Veaudor, Théo, Sétif, Pierre, Gontero, Brigitte, Lemaire, Stéphane D., Chauvat, Franck, and Cassier-Chauvat, Corinne

Subjects

PROTEIN models, SYNECHOCYSTIS, PROTEIN analysis, LIMONENE, CYANOBACTERIAL toxins, CELL growth, TERPENES, SYNECHOCOCCUS

Abstract

We report the first in vivo analysis of a canonical CP12 regulatory protein, namely the unique CP12 of the model cyanobacterium Synechocystis PCC 6803, which has the advantage of being able to grow photoautotrophically, photomixotrophically, and photoheterotrophically. The data showed that CP12 is dispensable to cell growth under standard (continuous) light and light/dark cycle, whereas it is essential for the catabolism of exogenously added glucose that normally sustains cell growth in absence of photosynthesis. Furthermore, to be active in glucose catabolism, CP12 requires its three conserved features: its AWD_VEEL motif and its two pairs of cysteine residues. Also interestingly, CP12 was found to regulate the redox equilibrium of NADPH, an activity involving its AWD_VEEL motif and its C-ter cysteine residues, but not its N-ter cysteine residues. This finding is important because NADPH powers up the methylerythritol 4-phosphate (MEP) pathway that synthesizes the geranyl-diphosphate (GPP) and farnesyl-diphosphate (FPP) metabolites, which can be transformed into highvalue terpenes by recombinant cyanobacteria producing plant terpene synthase enzymes. Therefore, we have introduced into the Δcp12 mutant and the wildtype (control) strain our replicative plasmids directing the production of the monoterpene limonene and the sesquiterpene bisabolene. The photosynthetic production of both bisabolene and limonene appeared to be increased (more than two-fold) in the Δcp12 mutant as compared to the WT strain. Furthermore, the level of bisabolene production was also higher to those previously reported for various strains of Synechocystis PCC 6803 growing under standard (nonoptimized) photoautotrophic conditions. Hence, the presently described Δcp12 strain with a healthy photoautotrophic growth and an increased capability to produce terpenes, is an attractive cell chassis for further gene manipulations aiming at engineering cyanobacteria for high-level photoproduction of terpenes. [ABSTRACT FROM AUTHOR]

Published

2022

12. Rhodosporidium toruloides: a new platform organism for conversion of lignocellulose into terpene biofuels and bioproducts

Author

Yaegashi, Junko, Kirby, James, Ito, Masakazu, Sun, Jian, Dutta, Tanmoy, Mirsiaghi, Mona, Sundstrom, Eric R, Rodriguez, Alberto, Baidoo, Edward, Tanjore, Deepti, Pray, Todd, Sale, Kenneth, Singh, Seema, Keasling, Jay D, Simmons, Blake A, Singer, Steven W, Magnuson, Jon K, Arkin, Adam P, Skerker, Jeffrey M, and Gladden, John M

Subjects

Biological Sciences, Industrial Biotechnology, Rhodosporidium toruloides, Terpenes, Bisabolene, Amorphadiene, Heterologous expression, Plant biomass-derived hydrolysate, Multiple carbon source utilization

Abstract

BackgroundEconomical conversion of lignocellulosic biomass into biofuels and bioproducts is central to the establishment of a robust bioeconomy. This requires a conversion host that is able to both efficiently assimilate the major lignocellulose-derived carbon sources and divert their metabolites toward specific bioproducts.ResultsIn this study, the carotenogenic yeast Rhodosporidium toruloides was examined for its ability to convert lignocellulose into two non-native sesquiterpenes with biofuel (bisabolene) and pharmaceutical (amorphadiene) applications. We found that R. toruloides can efficiently convert a mixture of glucose and xylose from hydrolyzed lignocellulose into these bioproducts, and unlike many conventional production hosts, its growth and productivity were enhanced in lignocellulosic hydrolysates relative to purified substrates. This organism was demonstrated to have superior growth in corn stover hydrolysates prepared by two different pretreatment methods, one using a novel biocompatible ionic liquid (IL) choline α-ketoglutarate, which produced 261 mg/L of bisabolene at bench scale, and the other using an alkaline pretreatment, which produced 680 mg/L of bisabolene in a high-gravity fed-batch bioreactor. Interestingly, R. toruloides was also observed to assimilate p-coumaric acid liberated from acylated grass lignin in the IL hydrolysate, a finding we verified with purified substrates. R. toruloides was also able to consume several additional compounds with aromatic motifs similar to lignin monomers, suggesting that this organism may have the metabolic potential to convert depolymerized lignin streams alongside lignocellulosic sugars.ConclusionsThis study highlights the natural compatibility of R. toruloides with bioprocess conditions relevant to lignocellulosic biorefineries and demonstrates its ability to produce non-native terpenes.

Published

2017

13. Autonomous control of metabolic state by a quorum sensing (QS)-mediated regulator for bisabolene production in engineered E. coli.

Author

Kim, Eun-Mi, Woo, Han Min, Tian, Tian, Yilmaz, Suzan, Javidpour, Pouya, Keasling, Jay D, and Lee, Taek Soon

Subjects

Escherichia coli, Sesquiterpenes, Trans-Activators, Repressor Proteins, Quorum Sensing, Aliivibrio fischeri, Metabolic Engineering, Biofuel, Bisabolene, LuxI/R, Quorum sensing, Synthetic biology, Biotechnology, Industrial Biotechnology

Abstract

Inducible gene expression systems are widely used in microbial host strains for protein and commodity chemical production because of their extensive characterization and ease of use. However, some of these systems have disadvantages such as leaky expression, lack of dynamic control, and the prohibitively high costs of inducers associated with large-scale production. Quorum sensing (QS) systems in bacteria control gene expression in response to population density, and the LuxI/R system from Vibrio fischeri is a well-studied example. A QS system could be ideal for biofuel production strains as it is self-regulated and does not require the addition of inducer compounds, which reduce operational costs for inducer. In this study, a QS system was developed for inducer-free production of the biofuel compound bisabolene from engineered E. coli. Seven variants of the Sensor plasmid, which carry the luxI-luxR genes, and four variants of the Response plasmid, which carry bisabolene producing pathway genes under the control of the PluxI promoter, were designed for optimization of bisabolene production. Furthermore, a chromosome-integrated QS strain was engineered with the best combination of Sensor and Response plasmid and produced bisabolene at a titer of 1.1g/L without addition of external inducers. This is a 44% improvement from our previous inducible system. The QS strain also displayed higher homogeneity in gene expression and isoprenoid production compared to an inducible-system strain.

Published

2017

14. Development of Next Generation Synthetic Biology Tools for Use in Streptomyces venezuelae

Author

Phelan, Ryan M, Sachs, Daniel, Petkiewicz, Shayne J, Barajas, Jesus F, Blake-Hedges, Jacquelyn M, Thompson, Mitchell G, Apel, Amanda Reider, Rasor, Blake J, Katz, Leonard, and Keasling, Jay D

Subjects

Biological Sciences, Industrial Biotechnology, Genetics, Biofuels, Genes, Reporter, Genetic Vectors, Luminescent Proteins, Metabolic Engineering, Plasmids, Promoter Regions, Genetic, Sesquiterpenes, Streptomyces, Synthetic Biology, streptomyces, bisabolene, fluorescent protein, promoter, Medicinal and Biomolecular Chemistry, Biochemistry and Cell Biology, Biomedical Engineering, Biochemistry and cell biology, Bioinformatics and computational biology

Abstract

Streptomyces have a rich history as producers of important natural products and this genus of bacteria has recently garnered attention for its potential applications in the broader context of synthetic biology. However, the dearth of genetic tools available to control and monitor protein production precludes rapid and predictable metabolic engineering that is possible in hosts such as Escherichia coli or Saccharomyces cerevisiae. In an effort to improve genetic tools for Streptomyces venezuelae, we developed a suite of standardized, orthogonal integration vectors and an improved method to monitor protein production in this host. These tools were applied to characterize heterologous promoters and various attB chromosomal integration sites. A final study leveraged the characterized toolset to demonstrate its use in producing the biofuel precursor bisabolene using a chromosomally integrated expression system. These tools advance S. venezuelae to be a practical host for future metabolic engineering efforts.

Published

2017

15. First in vivo analysis of the regulatory protein CP12 of the model cyanobacterium Synechocystis PCC 6803: Biotechnological implications

Author

Victoire Blanc-Garin, Théo Veaudor, Pierre Sétif, Brigitte Gontero, Stéphane D. Lemaire, Franck Chauvat, and Corinne Cassier-Chauvat

Subjects

cyanobacteria, heterotrophy, carbon metabolism, redox regulation, photoproduction of terpenes, bisabolene, Plant culture, SB1-1110

Abstract

We report the first in vivo analysis of a canonical CP12 regulatory protein, namely the unique CP12 of the model cyanobacterium Synechocystis PCC 6803, which has the advantage of being able to grow photoautotrophically, photomixotrophically, and photoheterotrophically. The data showed that CP12 is dispensable to cell growth under standard (continuous) light and light/dark cycle, whereas it is essential for the catabolism of exogenously added glucose that normally sustains cell growth in absence of photosynthesis. Furthermore, to be active in glucose catabolism, CP12 requires its three conserved features: its AWD_VEEL motif and its two pairs of cysteine residues. Also interestingly, CP12 was found to regulate the redox equilibrium of NADPH, an activity involving its AWD_VEEL motif and its C-ter cysteine residues, but not its N-ter cysteine residues. This finding is important because NADPH powers up the methylerythritol 4-phosphate (MEP) pathway that synthesizes the geranyl-diphosphate (GPP) and farnesyl-diphosphate (FPP) metabolites, which can be transformed into high-value terpenes by recombinant cyanobacteria producing plant terpene synthase enzymes. Therefore, we have introduced into the Δcp12 mutant and the wild-type (control) strain our replicative plasmids directing the production of the monoterpene limonene and the sesquiterpene bisabolene. The photosynthetic production of both bisabolene and limonene appeared to be increased (more than two-fold) in the Δcp12 mutant as compared to the WT strain. Furthermore, the level of bisabolene production was also higher to those previously reported for various strains of Synechocystis PCC 6803 growing under standard (non-optimized) photoautotrophic conditions. Hence, the presently described Δcp12 strain with a healthy photoautotrophic growth and an increased capability to produce terpenes, is an attractive cell chassis for further gene manipulations aiming at engineering cyanobacteria for high-level photoproduction of terpenes.

Published

2022

16. Exploring the Potential of the Model Cyanobacteria Synechococcus PCC 7002 and PCC 7942 for the Photoproduction of High-Value Terpenes: A Comparison with Synechocystis PCC 6803

Author

Célia Chenebault, Victoire Blanc-Garin, Marine Vincent, Encarnación Diaz-Santos, Amélie Goudet, Corinne Cassier-Chauvat, and Franck Chauvat

Subjects

Cyanobacteria, bisabolene, farnesene, limonene, pinene, nitrogen sources (ammonium, nitrate, urea), Microbiology, QR1-502

Abstract

We have performed the first comparative analysis of the potential of two physiologically-diverse model cyanobacteria, Synechococcus PCC 7002 (S.7002) and Synechococcus elongatus PCC 7942 (S.7942), for the photosynthetic production of four chemically-different high-value terpenes: two monoterpenes limonene and pinene, and two sesquiterpenes bisabolene and farnesene. We showed, for the first time, that S.7002 and S.7942 can produce farnesene and bisabolene, respectively. Both cyanobacteria produced farnesene (S.7942 produced more efficiently than S.7002) more efficiently than the other tested terpenes (especially pinene, the weakest produced terpene). S.7002 produced limonene more efficiently than bisabolene, whereas S.7942 produced bisabolene more efficiently than limonene. These findings suggest that S.7942 is better suited to produce sesquiterpenes than monoterpenes. Interestingly, higher levels of terpenes were produced by S.7942 and S.7002 expressing a terpene-synthase gene from both an RSF1010-derived replicating plasmid and a neutral chromosomal site, as compared to either the plasmid alone or the chromosome alone. These results suggest that in both cyanobacteria, the production of terpenes is more limited by the activity of terpene synthases than the abundance of terpene precursors. Finally, higher levels of terpenes were produced by S.7002 growing on urea (a frequent pollutant) as compared to nitrate or ammonium, the standard nitrogen sources for cyanobacteria.

Published

2023

17. Valorization of Hemp-Based Packaging Waste with One-Pot Ionic Liquid Technology

Author

Julius Choi, Alberto Rodriguez, Blake A. Simmons, and John M. Gladden

Subjects

biomass pretreatment, cholinium lysinate, Rhodosporidium toruloides, bisabolene, Organic chemistry, QD241-441

Abstract

The range of applications for industrial hemp has consistently increased in various sectors over the years. For example, hemp hurd can be used as a resource to produce biodegradable packaging materials when incorporated into a fungal mycelium composite, a process that has been commercialized. Although these packaging materials can be composted after usage, they may present an opportunity for valorization in a biorefinery setting. Here, we demonstrate the potential of using this type of discarded packaging composite as a feedstock for biofuel production. A one-pot ionic liquid-based biomass deconstruction and conversion process was implemented, and the results from the packaging material were compared with those obtained from untreated hemp hurd. At a 120 °C reaction temperature, 7.5% ionic liquid loading, and 2 h reaction time, the packaging materials showed a higher lignocellulosic sugar yield and sugar concentrations than hemp hurd. Hydrolysates prepared from packaging materials also promoted production of higher titers (1400 mg/L) of the jet-fuel precursor bisabolene when used to cultivate an engineered strain of the yeast Rhodosporidium toruloides. Box–Behnken experiments revealed that pretreatment parameters affected the hemp hurd and packaging materials differently, evidencing different degrees of recalcitrance. This study demonstrated that a hemp hurd-based packaging material can be valorized a second time once it reaches the end of its primary use by supplying it as a feedstock to produce biofuels.

Published

2023

18. Metabolic engineering of Synechocystis sp. PCC 6803 for improved bisabolene production

Author

João S. Rodrigues and Pia Lindberg

Subjects

Metabolic engineering, Bisabolene, Synechocystis, MEP pathway, High cell density, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5

Abstract

Terpenoids are a wide class of organic compounds with industrial relevance. The natural ability of cyanobacteria to produce terpenoids via the methylerythritol 4-phosphate (MEP) pathway makes these organisms appealing candidates for the generation of light-driven cell factories for green chemistry. Here we address the improvement of the production of (E)-α-bisabolene, a valuable biofuel feedstock, in Synechocystis sp. PCC 6803 via sequential heterologous expression of bottleneck enzymes of the native pathway. Expression of the bisabolene synthase is sufficient to complete the biosynthetic pathway of bisabolene. Expression of a farnesyl-pyrophosphate synthase from Escherichia coli did not influence production of bisabolene, while enhancement of the MEP pathway via additional overexpression of 1-deoxy-D-xylulose-5-phosphate synthase (DXS) and IPP/DMAPP isomerase (IDI) significantly increased production per cell. However, in the absence of a carbon sink, the overexpression of DXS and IDI leads to significant growth impairment. The final engineered strain reached a volumetric titre of 9 ​mg ​L−1 culture of bisabolene after growing for 12 days. When the cultures were grown in a high cell density (HCD) system, we observed an increase in the volumetric titres by one order of magnitude for all producing-strains. The strain with improved MEP pathway presented an increase twice as much as the remaining engineered strains, yielding more than 180 ​mg ​L−1 culture after 10 days of cultivation. Furthermore, the overexpression of these two MEP enzymes prevented the previously reported decrease in the bisabolene specific titres when grown in HCD conditions, where primary metabolism is usually favoured. We conclude that fine-tuning of the cyanobacterial terpenoid pathway is crucial for the generation of microbial platforms for terpenoid production on industrial-scale.

Published

2021

19. Extraction and Phytochemical Analysis of Anthemis susiana Nábělek Using Headspace-solid Phase (HS-SPME) and Gas Chromatography--mass Spectrometry (GC-MS).

Author

Hadavi, Marzieh, Eidy, Ali, Assadzadeh, Reza, Abbasi, Naser, and Bahmani, Mahmoud

Subjects

GAS chromatography, ESSENTIAL oils, PLANT extracts, CHEMICALS, BISABOLENE

Abstract

Chamomile has several variants, such as Anthemis Susiana Nábělek, Matricaria chamomilla L., Chamomilla recutita (L.) Rauschert, Matricaria suaveolens Koch and etc. Medicinal herbs, extracts and essential oils are of particular importance in the pharmaceutical, cosmetic and food industries. The phytoanalysis of these compounds is of particular importance. In April 2019, Anthemis Susiana Nábělek samples were collected from the Thermal Springs area of Dehloran, south of Ilam province, western Iran. The plant was dried and then pulverized. The essential oil was extracted from the plant using HSSPME and analyzed using GC-MS. GC-MS results showed that Anthemis susiana Nábělek contains 63 chemical compounds. The main chemical compounds included alpha-bisabolol oxide A (19.07%), alpha-pinene (15.50%), beta-bisabolene (12.56%), spathulenol (9.23%), beta-farnesen (8.95%), alpha-bisabolol (4.72%), caryophyllene oxide (4.46%), trans-farnesol (3.75%), and dl-limonene (3.47%). [ABSTRACT FROM AUTHOR]

Published

2021

20. Improving heterologous protein expression in Synechocystis sp. PCC 6803 for alpha-bisabolene production

Author

Jacob Sebesta and Christie AM. Peebles

Subjects

Synechocystis sp. PCC6803, Bisabolene, Ribosome binding site, Metabolic engineering, Synthetic biology, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5

Abstract

Cyanobacterial biofuels have the potential to reduce the cost and climate impacts of biofuel production because primary carbon fixation and conversion to fuel are completed together in the cultivation of the cyanobacteria. Cyanobacterial biofuels, therefore, do not rely on costly organic carbon feedstocks that heterotrophs require, which reduces competition for agricultural resources such as arable land and freshwater. However, the published product titer achieved for most molecules of interest using cyanobacteria lag behind what has been achieved using yeast and Escherichia coli (E. coli) cultures. In Synechocystis sp. PCC 6803 (S. 6803), we attempted to increase the product titer of the sesquiterpene, bisabolene, which may be converted to bisabolane, a possible diesel replacement. We tested 19 strains of genetically modified S. 6803 with five different codon usage sequences of the bisabolene synthase from the grand fir tree (Abies grandis). At least three ribosome binding sites (most designed using the RBS Calculator) were tested for each codon usage sequence. We also tested strains with and without the farnesyl pyrophosphate synthase gene from E. coli. Bisabolene titers after five days of growth in continuous light ranged from un-detected to 7.8 ​mg/L. Bisabolene synthase abundance was measured and found to be well correlated with titer. Select strains were also tested in 12:12 light:dark cycles, where similar titers were reached after the same amount of light exposure time. One engineered strain was also tested in photobioreactors exposed to a simulated outdoor light pattern with maximum light intensity of 1600 ​μmol photons m−2 s−1. Here, the bisabolene titer reached 22.2 ​mg/L after 36 days of growth. Dramatic improvements in our ability to control gene expression in cyanobacteria such as S. 6803, and the co-utilization of additional metabolic engineering methods, are needed in order for these titers to improve to the levels reported for engineered E. coli.

Published

2020

21. Antioxidant bisabolane-type sesquiterpenoids from algal-derived fungus Aspergillus sydowii EN-434.

Author

Hu, Xueyi, Li, Xiaoming, Meng, Linghong, and Wang, Bingui

Subjects

*SESQUITERPENES, *ASPERGILLUS, *ANTIOXIDANTS, *BISABOLENE, *CIRCULAR dichroism

Abstract

A new aromatic bisabolene-type sesquiterpenoid (7S-8S)-8-hydroxysydowic acid (1), together with a pair of new bisabolene derivative (±)-(7R*,10R*)-10-hydroxysydowic acid (2), as well as two known analogues hydroxysydonic acid (3) and sydowic acid (4) were isolated and identified from the endophytic fungal strain Aspergillus sydowii EN-434 that was obtained from the marine red alga Symphyocladia latiuscula. Their structures were elucidated by nuclear magnetic resonance (NMR), high resolution electrospray ionization mass spectroscopy (HRESIMS), and quantum chemical electronic circular dichroism (ECD) calculations as well as comparison of the data with literature reports. Compound 1 exhibited potent DPPH free radical scavenging activity with IC50 value of 113.5 µmol/L. [ABSTRACT FROM AUTHOR]

Published

2020

22. Molecular Cloning and Functional Characterization of Bisabolene Synthetase (SaBS) Promoter from Santalum album.

Author

Haifeng Yan, Yuping Xiong, Teixeira da Silva, Jaime A., Jinhui Pang, Ting Zhang, Xincheng Yu, Xinhua Zhang, Meiyun Niu, and Guohua Ma

Subjects

MOLECULAR cloning, ESSENTIAL oils, SALICYLIC acid, PLANT breeding, PROMOTERS (Genetics), GENETIC regulation, TRANSGENIC plants

Abstract

Bisabolene-type sesquiterpenoids, which have multiple bioactivities, including anticancer activity, are one of the main groups of compounds in the essential oil extracted from Santalum album L. and other Santalum species. Bisabolene synthetase (SaBS) is a key enzyme for the synthesis of bisabolene in S. album, but the regulation of the SaBS gene’s expression is poorly understood. In this study, a 1390-bp promoter sequence of the SaBS gene was isolated from the leaves of six-year-old S. album. A bioinformatics analysis showed that certain environment stresses and phytohormone-activated cis-acting elements were distributed in different regions of the SaBS promoter (PSaBS). Transgenic Arabidopsis carrying full-length PSaBS had significantly higher β-glucuronidase (GUS) activity than the untreated control after treatment with salicylic acid (SA), suggesting that PSaBS is a SA-inducible promoter. Histochemical GUS staining and GUS fluorometric assays of transgenic Arabidopsis showed that the GUS activity directed by PSaBS was mainly expressed in stem tissue, followed by leaves and flowers. Moreover, different regions of PSaBS showed significantly different GUS activity. A 171-bp fragment upstream of the transcriptional initiation codon (ATG) is the core promoter region of PSaBS. Our results provide insight into and a greater understanding of the transcriptional regulation mechanism of the SaBS gene, which could serve as an alternative inducible promoter for transgenic plant breeding. [ABSTRACT FROM AUTHOR]

Published

2020

23. Rhodosporidium toruloides: a new platform organism for conversion of lignocellulose into terpene biofuels and bioproducts

Author

Junko Yaegashi, James Kirby, Masakazu Ito, Jian Sun, Tanmoy Dutta, Mona Mirsiaghi, Eric R. Sundstrom, Alberto Rodriguez, Edward Baidoo, Deepti Tanjore, Todd Pray, Kenneth Sale, Seema Singh, Jay D. Keasling, Blake A. Simmons, Steven W. Singer, Jon K. Magnuson, Adam P. Arkin, Jeffrey M. Skerker, and John M. Gladden

Subjects

Rhodosporidium toruloides, Terpenes, Bisabolene, Amorphadiene, Heterologous expression, Plant biomass-derived hydrolysate, Fuel, TP315-360, Biotechnology, TP248.13-248.65

Abstract

Abstract Background Economical conversion of lignocellulosic biomass into biofuels and bioproducts is central to the establishment of a robust bioeconomy. This requires a conversion host that is able to both efficiently assimilate the major lignocellulose-derived carbon sources and divert their metabolites toward specific bioproducts. Results In this study, the carotenogenic yeast Rhodosporidium toruloides was examined for its ability to convert lignocellulose into two non-native sesquiterpenes with biofuel (bisabolene) and pharmaceutical (amorphadiene) applications. We found that R. toruloides can efficiently convert a mixture of glucose and xylose from hydrolyzed lignocellulose into these bioproducts, and unlike many conventional production hosts, its growth and productivity were enhanced in lignocellulosic hydrolysates relative to purified substrates. This organism was demonstrated to have superior growth in corn stover hydrolysates prepared by two different pretreatment methods, one using a novel biocompatible ionic liquid (IL) choline α-ketoglutarate, which produced 261 mg/L of bisabolene at bench scale, and the other using an alkaline pretreatment, which produced 680 mg/L of bisabolene in a high-gravity fed-batch bioreactor. Interestingly, R. toruloides was also observed to assimilate p-coumaric acid liberated from acylated grass lignin in the IL hydrolysate, a finding we verified with purified substrates. R. toruloides was also able to consume several additional compounds with aromatic motifs similar to lignin monomers, suggesting that this organism may have the metabolic potential to convert depolymerized lignin streams alongside lignocellulosic sugars. Conclusions This study highlights the natural compatibility of R. toruloides with bioprocess conditions relevant to lignocellulosic biorefineries and demonstrates its ability to produce non-native terpenes.

Published

2017

24. Farnesyl pyrophosphate compartmentalization in the green microalga Chlamydomonas reinhardtii during heterologous (E)-α-bisabolene production

Author

Wichmann, Julian, Eggert, Annibel, Elbourne, Liam D. H., Paulsen, Ian T., Lauersen, Kyle J., and Kruse, Olaf

Published

2022

25. [Enhancing the glycerol utilization of engineered yeast increases its bisabolene production].

Author

Zang Y, Li Z, Lu Y, Hang J, Yuan W, and Sun J

Subjects

Glycerol metabolism, Fermentation, Glucose metabolism, Metabolic Engineering, Saccharomyces cerevisiae genetics, Saccharomyces cerevisiae metabolism, Saccharomyces cerevisiae Proteins genetics, Saccharomyces cerevisiae Proteins metabolism

Abstract

Bisabolene is a compound commonly found in essential oils of various plants. It has a broad application in sectors such as chemical, pharmaceutical, and health-care products. This study focuses on modifying the glycerol metabolism pathway to obtain a high bisabolene-producing strain of Saccharomyces cerevisiae . To achieve this, the glycerol transporter gene PtFPS2 from Pachysolen tannophilus and the glycerol dehydrogenase gene Opgdh from Ogataea parapolymorpha were overexpressed in engineered yeast YS036, which was equipped with a GAL promoters-enhanced mevalonic acid pathway. Additionally, the glucose-inhibiting transcription factor MIG1 was knocked out to reduce glucose inhibition. The results showed that the GAL promoter transcription levels of the recombinant yeast strains increased, and the co-utilization of sucrose and glycerol was further improved in MIG1 -knockout strain. Moreover, the maximum yield of bisabolene in shaking flask fermentation increased to 866.7 mg/L, an 82.2% increase compared to that of the original strain. By modifying the metabolic pathway of carbon sources, the yield of bisabolene was considerably improved. This study offers an effective strategy for enhancing the yield of terpene compounds in engineered yeast.

Published

2024

26. Corn stover variability drives differences in bisabolene production by engineered Rhodotorula toruloides.

Author

Okonkwo O, Dou C, Oksen E, Narani A, Marcondes W, Chen X, Kim J, Gao Y, Burnet MC, Webb-Robertson BM, Poirier BC, Tanjore D, Magnuson JK, Munoz NM, and Gardner J

Subjects

Hydrolysis, Biomass, Biofuels, Lignin metabolism, Monocyclic Sesquiterpenes metabolism, Sesquiterpenes metabolism, Metabolic Networks and Pathways, Rhodotorula metabolism, Rhodotorula genetics, Zea mays metabolism, Fermentation, Metabolic Engineering

Abstract

Microbial conversion of lignocellulosic biomass represents an alternative route for production of biofuels and bioproducts. While researchers have mostly focused on engineering strains such as Rhodotorula toruloides for better bisabolene production as a sustainable aviation fuel, less is known about the impact of the feedstock heterogeneity on bisabolene production. Critical material attributes like feedstock composition, nutritional content, and inhibitory compounds can all influence bioconversion. Further, the given feedstocks can have a marked influence on selection of suitable pretreatment and hydrolysis technologies, optimizing the fermentation conditions, and possibly even modifying the microorganism's metabolic pathways, to better utilize the available feedstock. This work aimed to examine and understand how variations in corn stover batches, anatomical fractions, and storage conditions impact the efficiency of bisabolene production by R. toruloides. All of these represent different facets of feedstock heterogeneity. Deacetylation, mechanical refining, and enzymatic hydrolysis of these variable feedstocks served as the basis of this research. The resulting hydrolysates were converted to bisabolene via fermentation, a sustainable aviation fuel precursor, using an engineered R. toruloides strain. This study showed that different sources of feedstock heterogeneity can influence microbial growth and product titer in counterintuitive ways, as revealed through global analysis of protein expression. The maximum bisabolene produced by R. toruloides was on the stalk fraction of corn stover hydrolysate (8.89 ± 0.47 g/L). Further, proteomics analysis comparing the protein expression between the anatomic fractions showed that proteins relating to carbohydrate metabolism, energy production, and conversion as well as inorganic ion transport metabolism were either significantly upregulated or downregulated. Specifically, downregulation of proteins related to the iron-sulfur cluster in stalk fraction suggests a coordinated response by R. toruloides to maintain overall metabolic balance, and this was corroborated by the concentration of iron in the feedstocks., One-Sentence Summary: This study elucidates the effects of different sources of corn stover on bisabolene production by engineered Rhodotorula toruloides, highlighting the importance of understanding feedstock variability to enhance bioprocess efficiency and economic outcomes., (Published by Oxford University Press on behalf of Society of Industrial Microbiology and Biotechnology 2024.)

Published

2024

27. Exploiting Hydrogenophaga pseudoflava for aerobic syngas-based production of chemicals.

Author

Grenz, Sebastian, Baumann, Philipp T., Rückert, Christian, Nebel, Bernd A., Siebert, Daniel, Schwentner, Andreas, Eikmanns, Bernhard J., Hauer, Bernhard, Kalinowski, Jörn, Takors, Ralf, and Blombach, Bastian

Subjects

*BIOMASS production, *CHEMICAL processes, *SYNTHESIS gas, *BIOMASS gasification, *AEROBIC bacteria, *GENETIC engineering, *MANUFACTURING processes, *ORGANIC acids

Abstract

Gasification is a suitable technology to generate energy-rich synthesis gas (syngas) from biomass or waste streams, which can be utilized in bacterial fermentation processes for the production of chemicals and fuels. Established microbial processes currently rely on acetogenic bacteria which perform an energetically inefficient anaerobic CO oxidation and acetogenesis potentially hampering the biosynthesis of complex and ATP-intensive products. Since aerobic oxidation of CO is energetically more favorable, we exploit in this study the Gram-negative β-proteobacterium Hydrogenophaga pseudoflava DSM1084 as novel host for the production of chemicals from syngas. We sequenced and annotated the genome of H. pseudoflava and established a genetic engineering toolbox, which allows markerless chromosomal modification via the pk19 mobsacB system and heterologous gene expression on pBBRMCS2-based plasmids. The toolbox was extended by identifying strong endogenous promotors such as P gapA2 which proved to yield high expression under heterotrophic and autotrophic conditions. H. pseudoflava showed relatively fast heterotrophic growth in complex and minimal medium with sugars and organic acids which allows convenient handling in lab routines. In autotrophic bioreactor cultivations with syngas, H. pseudoflava exhibited a growth rate of 0.06 h−1 and biomass specific uptakes rates of 14.2 ± 0.3 mmol H 2 g CDW −1 h−1, 73.9 ± 1.8 mmol CO g CDW −1 h−1, and 31.4 ± 0.3 mmol O 2 g CDW −1 h−1. As proof of concept, we engineered the carboxydotrophic bacterium for the aerobic production of the C 15 sesquiterpene (E)-α-bisabolene from the C 1 carbon source syngas by heterologous expression of the (E)-α-bisabolene synthase gene agBIS. The resulting strain H. pseudoflava (pOCEx1: agBIS) produced 59 ± 8 μg (E)-α-bisabolene L−1 with a volumetric productivity Q p of 1.2 ± 0.2 μg L−1 h−1 and a biomass-specific productivity q p of 13.1 ± 0.6 μg g CDW −1 h−1. The intrinsic properties and the genetic repertoire of H. pseudoflava make this carboxydotrophic bacterium a promising candidate for future aerobic production processes to synthesize more complex or ATP-intensive chemicals from syngas. • We sequenced and annotated the genome of the aerobic carboxydotrophic H. pseudoflava. • A genetic engineering toolbox is provided. • H. pseudoflava was engineered for the production of (E)-α-bisabolene from syngas. [ABSTRACT FROM AUTHOR]

Published

2019

28. Chemical Composition of the Essential Oil of Aerial Parts of Thymus ciliatus (Desf.).

Author

Achoub, Hanane, Zaiter, Lahcene, Benayache, Fadila, Benayache, Samir, Chalchat, Jean Claudex, Chalard, Pierre, Figueredo, Gilles, and Akkal, Salah

Subjects

*ESSENTIAL oils, *THYMUS, *CARVACROL, *LAMIACEAE, *BISABOLENE

Abstract

The essential oil of the aerial parts of Thymus ciliatus (Desf.) belonging to the Lamiaceae family, was obtained by steam distillation and analyzed by GC-FID and GC-MS. 75 components were identified corresponding to 95.57% of the total oil. The major constituents of the oil were: elemol (6.80%), carvacrol (5.86%), -muurolene (5.18%), ß-sesquiphellandrene (5.09%), bicyclogermacrene (5.04%), ß-pinene (4.49%) and curcumene (4.20%), together with other compounds at relatively low levels: 1,8-cineol (3.66%), ß-eudesmol (2.92%), ß-bisabolene (2.81%), ß-silinene (2.75%), camphor (2.64%), germacrone (2.34%), a-zingiberene (2.12%), d-cadinene (2.08%), caryophyllene oxide (1.90%), spathulenol (1.88%), -caryophyllene (1.88%), ar-turmerone (1.79%), a-pinene (1.52%), limonene (1.52%), selina-4,11-diene (1.46%), curzerenone (1.41%), germacrone B (1.37%), bornyl acetate (1.31%), ß-farnesene (1.28%), borneol (1.23%), myrtenal (1.16%), zingiberenol (1.15%) and sabinene (1.13%). These results differ from those of previous studies reported on this species collected from other regions of Algeria and Morocco. [ABSTRACT FROM AUTHOR]

Published

2019

29. An IDS-Type Sesquiterpene Synthase Produces the Pheromone Precursor (Z)-α-Bisabolene in Nezara viridula.

Author

Lancaster, Jason, Lehner, Bryan, Khrimian, Ashot, Muchlinski, Andrew, Luck, Katrin, Köllner, Tobias G., Weber, Donald C., Gundersen-Rindal, Dawn E., and Tholl, Dorothea

Subjects

*PHEROMONES, *NEZARA viridula, *BIOSYNTHESIS, *GENE expression, *BISABOLENE

Abstract

Insects use a wide range of structurally diverse pheromones for intra-specific communication. Compounds in the class of terpenes are emitted as sex, aggregation, alarm, or trail pheromones. Despite the common occurrence of terpene pheromones in different insect lineages, their origin from dietary host plant precursors or de novo biosynthetic pathways often remains unknown. Several stink bugs (Hemiptera: Pentatomidae) release bisabolene-type sesquiterpenes for aggregation and mating. Here we provide evidence for de novo biosynthesis of the sex pheromone trans−/cis-(Z)-α-bisabolene epoxide of the Southern green stink bug, Nezara viridula. We show that an enzyme (NvTPS) related to isoprenyl diphosphate synthases (IDSs) of the core terpene metabolic pathway functions as a terpene synthase (TPS), which converts the general intermediate (E,E)-farnesyl diphosphate (FPP) to the putative pheromone precursor (+)-(S,Z)-α-bisabolene in vitro and in protein lysates. A second identified IDS-type protein (NvFPPS) makes the TPS substrate (E,E)-FPP and functions as a bona fide FPP synthase. NvTPS is highly expressed in male epidermal tissue associated with the cuticle of ventral sternites, which is in agreement with the male specific release of the pheromone from glandular cells in this tissue. Our study supports findings of the function of similar TPS enzymes in the biosynthesis of aggregation pheromones from the pine engraver beetle Ips pini, the striped flea beetle Phyllotreta striolata, and the harlequin bug Murgantia histrionica, and hence provides growing evidence for the evolution of terpene de novo biosynthesis by IDS-type TPS families in insects. [ABSTRACT FROM AUTHOR]

Published

2019

30. Computationally aided stereochemical assignment of undescribed bisabolenes from Calea urticifolia.

Author

Gogineni, Vedanjali, Nael, Manal A., León, Francisco, Núñez, Marvin J., and Cutler, Stephen J.

Subjects

*CALEA (Genus), *STEREOCHEMISTRY, *CHEMICAL structure, *BISABOLENE, *SESQUITERPENES

Abstract

Abstract Calea urticifolia (Mill.) DC. (Compositae) is a medicinal plant found in El Salvador. Calea is used in folkloric medicine as a psychoactive principle with calming effect, as well as in the treatment of diarrhea and fever. Three undescribed bisabolenes, named caleanolenes A-C, as well as, three known sesquiterpene lactones 2,3-epoxyjuanislamin, calealactone B, calein C, and the flavonoid acacetin, were isolated from the chloroform extract of the leaves of C. urticifolia. The chemical structures of the isolated compounds were determined on the basis of HRMS, IR, CD, and from 1D and 2D NMR spectroscopic studies. The absolute configurations of the caleanolenes have been partly established using GIAO NMR and ECD calculations. The isolated compounds were evaluated for cytotoxicity against the CA46 and Raji lymphoma, and the MCF7 breast cancer cell lines, with 2,3-epoxyjuanislamin showing the best activity in all cell lines (IC 50 value range 2.9–12.3 μM). Graphical abstract C. urticifolia yielded three novel bisabolenes: caleanolenes A-C, and four known compounds. The isolated compounds were evaluated for cytotoxicity against CA46 and Raji lymphoma, and MCF7 breast cancer cell lines. Image 1 Highlights • Phytochemical study of the chloroform leaves extract of the medicinal plant Calea urticifolia was performed. • Three undescribed bisabolenes sesquiterpenes were identified and their absolute configuration described. • Three known sesquiterpenoids lactones and a known flavonoid were isolated. • Cytotoxicity against various human leukemia cells were assessed. [ABSTRACT FROM AUTHOR]

Published

2019

31. Penispidins A–C, Aromatic Sesquiterpenoids from Penicillium virgatum and Their Inhibitory Effects on Hepatic Lipid Accumulation

Author

Tian Gong, Guo-Ping Yin, Chang-Hua Hu, Weiyi Wang, Man Gong, Gui-Min Xue, and Xue Cao

Subjects

Pharmacology, chemistry.chemical_classification, biology, Stereochemistry, Organic Chemistry, Pharmaceutical Science, chemistry.chemical_element, Endophytic fungus, Inhibitory postsynaptic potential, biology.organism_classification, Analytical Chemistry, chemistry.chemical_compound, Complementary and alternative medicine, chemistry, Hepatic lipid, Drug Discovery, Penicillium, Molecular Medicine, Bisabolene, Nonane, Carbon, Tricyclic

Abstract

Penispidins A-C (1-3), new aromatic sesquiterpenoids with two classes of rare carbon skeletons, were isolated from the endophytic fungus Penicillium virgatum HL-110. 1 represents the first example of a dunniane-type aromatic sesquiterpenoid, possessing a novel 4/6/6 tricyclic system, while (±)-2 and 3 have a 7,12-cyclized bisabolene skeleton, featuring a 3,4-benzo-fused 2-oxabicyclo[3.3.1]nonane central framework. Their structures were elucidated on the basis of spectroscopic methods, single-crystal X-ray diffraction, and ECD calculations. 1 inhibited hepatic lipid accumulation in HepG2 cells.

Published

2021

32. Chemical variability and biological activities of Marrubium vulgare L. essential oil, depending on geographic variation and environmental factors.

Author

Elbali, Wahiba, Djouahri, Abderrahmane, Djerrad, Zineb, Saka, Boualem, Aberrane, Sihem, Sabaou, Nasserdine, Baaliouamer, Aoumeur, and Boudarene, Lynda

Subjects

*ESSENTIAL oils, *MARRUBIUM vulgare, *ANTIOXIDANTS, *CADINENE, *BISABOLENE

Abstract

Variability of Marrubium vulgare L. essential oil, collected from 10 areas (S1-S10) in Algeria, was investigated. The multivariate analyses classified the studied essential oils into five chemotypes: the β-bisabolene-type (3.1-43.4%) that characterized S7 and S8 populations and being related to the sandy soil with a high altitude, δ-cadinene-type (0.2-34.2%) that characterized S3 and S4 populations and being related to the sandy soil with a high temperature, E-β-farnesene-type (1.4-34.8%) that characterized S9 and S10 populations and being related to the basic soil with a high altitude, β-caryophyllene-type (3.4-43.1%) that characterized S5 and S6 populations and being related to the clay soil with a high organic matter, and germacrene-D-type (2.1-37.9%) that characterized S1 and S2 populations and being related to the silty and salty soils. Furthermore, our findings indicated a high variability for both antioxidant and antimicrobial activities, which underline the effect of geographic variation and environmental factors on the biological activities. [ABSTRACT FROM AUTHOR]

Published

2018

33. CHEMICAL COMPOSITION AND ANTIOXIDANT ACTIVITY OF Pelargonium graveolens OIL.

Author

Obeid, S. H. and Jaber, B. M.

Subjects

*PELARGONIUMS, *ANTIOXIDANTS, *PLANT stems, *PLANT extracts, *BISABOLENE

Abstract

A comparison was conducted between volatile oil of the plant parts leaves and stems of Pelargonium graveolens as antioxidant by using the compound DPPH as a free radical. This study aimed at isolation and diagnosis the active compounds of the volatile oil .The volatile oil was extracted by using the water distillation Clevenger .Volatile oils were detected by using the liquid gas chromatography. The results showed that 100 g of leaves and steams produced a volatile oil estimated by 5% and 2.3% respectively. The study has shown that volatile oil of leaves contains 12compounds and the highest was Terpineol reaching 31.52% , Camphor 7.06 % and Cis-alpha-Bisabolene 4.38%. The study showed that volatile oil in steams contains 10 compounds and Linalool represented the highest (3.00%), followed by Camphor (2.76 %), then (E) –B-Farnesene (2.31 %). The results also showed high volatile oil antioxidant activity in both leaves and steams at the concentration 125 μg ml-1 reached 100 % compared with Ascorbic Acid when studying the effect of their oxidative effect on the free radical DPPH, the results also indicate significant differences between the volatile oil concentrations in both leaves and steams. [ABSTRACT FROM AUTHOR]

Published

2018

34. In depth investigation of the metabolism of Nectandra megapotamica chemotypes.

Author

Farias, Katyuce de S., Delatte, Thierry, Arruda, Rosani do C. de O., Alves, Flavio M., Silva, Denise B., Beekwilder, Jules, and Carollo, Carlos A.

Subjects

*NECTANDRA, *BISABOLENE, *SESQUITERPENES, *GLYCOSYLATED hemoglobin, *FLAVONOIDS

Abstract

Plants produce a wide range of secondary metabolites. Within a single species, chemotypes can be distinguished by the differences in the composition of the secondary metabolites. Herein, we evaluated Nectandra megapotamica (Spreng.) chemotypes and the balance of different classes of metabolites to verify how significant differences in plant metabolism are regarding chemotypes. We collected N. megapotamica leaves from eight adult plants in two Brazilian states. The essential oils and ethanol/water extracts were analyzed by GC-MS and LC-DAD-MS, respectively. Histochemical tests were performed, as well as chemical analyses of leaves from adaxial and abaxial foliar surfaces of N. megapotamica, and the stereochemistry of α-bisabolol was determined. Two different chemotypes, based on volatile compounds, were identified, distinguished by the presence of isospathulenol, α-bisabolol, β-bisabolene, and (E)-nerolidol for chemotype A, and bicyclogermacrene and elemicin for chemotype B. A stereochemical analysis of chemotype A extract revealed (+)-α-bisabolol enantiomer. Histochemical tests of chemotypes showed similar results and suggested the presence of essential oil in idioblasts stained with the dye NADI. The analyses of chemotype A leaves by GC-MS revealed similar compositions for abaxial and adaxial surfaces, such pattern was also observed for chemotype B. Medium and high polarity metabolites showed high chemical similarities between the chemotypes, highlighting the presence of proanthocyanidins and glycosylated flavonoids (O- and C-glycosides). Thus, N. megapotamica produced distinct volatile chemotypes with highly conserved medium to high polarity compounds. Such results suggest that phenolic derivatives have a basal physiological function, while genetic or environmental differences lead to differentiation in volatile profiles of N. megapotamica. [ABSTRACT FROM AUTHOR]

Published

2018

35. Chemical Composition, Cytotoxic, Antimicrobial and Antioxidant Activities of Essential oil from Anthriscus caucalis M. Bieb Grown in China.

Author

Pengxiang Lai, Huijuanzi Rao, and Yang Gao

Subjects

*ANTI-infective agents, *BISABOLENE, *DRUG activation, *ANTHRISCUS, *PLANT growth

Abstract

The essential oil of the aerial parts of Anthriscus caucalis M. Bieb was obtained by hydrodistillation and its components were analyzed by using GC and GC-MS. Forty-six compounds representing 97.2% of the total oil were identified. The main constituents in the oil were identified as β-Bisabolene (28.4%), Germacrene D (18.9%), (Z, E)-α-Farnesene (16.8%) and γ-Muurolene (7.3%). In vitro cytotoxicity evaluation against two cell lines of HepG2 (liver hepatocellular cells) and MCF-7 (human breast adenocarcinoma) cells showed a potent cytotoxic activity with the IC50 values of 67.50 μg/mL and 55.83 μg/mL according to the MTT assay. Furthermore, the essential oil exhibited a considerable activity against Bacillus subtilis and Escherichia coli with the MIC values of 0.095 mg/mL and 0.105 mg/mL tested by micro-dilution method. The antioxidant activity was evaluated by DPPH and FRAP methods, and the essential oil gave an IC50 value of 0.451 mg/mL and a Trolox equivalent antioxidant concentration of 191.7 ± 11.3 μmol Trolox x g-1 in DPPH and FRAP, respectively. The results indicated that the essential oil was relatively active and may be useful in food and pharmaceuticals after more detailed study. [ABSTRACT FROM AUTHOR]

Published

2018

36. Tailored carbon partitioning for phototrophic production of (E)-α-bisabolene from the green microalga Chlamydomonas reinhardtii.

Author

Wichmann, Julian, Baier, Thomas, Wentnagel, Eduard, Lauersen, Kyle J., and Kruse, Olaf

Subjects

*CHLAMYDOMONAS reinhardtii, *MICROALGAE, *BISABOLENE, *CYANOBACTERIA, *TERPENES synthesis, *MICROORGANISMS

Abstract

Photosynthetic microbial hosts such as cyanobacteria and eukaryotic microalgae have recently emerged as alternative engineering platforms for the sustainable light-driven bio-production of terpenoids. Many desirable compounds with numerous applications can be produced in microorganisms by heterologous expression of terpene synthases. However, success of green microbial systems has been hampered by issues such as insufficient enzyme expression titers and low flux to desired terpenoid products from carbon fixed during photosynthesis. This work demonstrates how the green microalga Chlamydomonas reinhardtii can be engineered to produce the sesquiterpene biodiesel precursor ( E )-α-bisabolene. Through strategic genetic engineering, substantial enhancements of productivity were achieved by coordinated tuning of the isoprenoid metabolism, combining serial enzyme loading for terpene synthase overexpression and amiRNA-based repression of competing pathways. Up to 10.3 ± 0.7 mg bisabolene·g −1 cell dry weight could be produced in five days, which represents more than a 15-fold increase over single synthase expression strains. Investigation of strain performance in scale-up cultivations determined overall bisabolene productivity benefits from light:dark cycles. Mixotrophic cultivation can yield up to 11.0 ± 0.5 mg bisabolene per liter in seven days in these conditions, and phototrophic production of 3.9 ± 0.2 mg per liter was feasible. These achievements represent an important milestone in the engineering of C. reinhardtii towards the goal of designing sustainable, light-driven, green-cell algal bio-factories. [ABSTRACT FROM AUTHOR]

Published

2018

37. Mechanism of Curcuma longa and Its Neuroactive Components for the Management of Epileptic Seizures: A Systematic Review

Author

Mohd Farooq Shaikh and Brandon Kar Meng Choo

Subjects

Pharmacology, biology, Traditional medicine, General Medicine, Treatment parameters, biology.organism_classification, medicine.disease, Oxidative dna damage, Herbaceous perennial, Psychiatry and Mental health, chemistry.chemical_compound, Epilepsy, Neurology, chemistry, Curcumin, medicine, Pharmacology (medical), Zingiberaceae, Neurology (clinical), Bisabolene, Curcuma

Abstract

Curcuma longa (Turmeric) is a tropical herbaceous perennial plant of the family Zingiberaceae and contains curcuminoids, sesquiterpenoids and monoterpenoids as its major components. Given the broad range of activities that Curcuma longa possesses and also its use as a traditional epilepsy remedy, this review attempts to systematically review the experimentally proven activities of Curcuma longa and its bioactive components, which are related to the management of epileptic seizures. Using the PRISMA model, five databases (Google Scholar, PubMed, ScienceDirect, SCOPUS and SpringerLink) were searched using the keywords [“Curcuma longa” AND “Epilepsy”] and [“Curcuma longa” AND “Seizures”], leaving 34 articles that met the inclusion criteria. The present systematic review elaborated on the experimentally proven potential of Curcuma longa components, such as an aqueous extract of Curcuma longa itself, Curcuma longa oil and active constituents like curcuminoids and bisabolene sesquiterpenoids found in Curcuma longa with anti-seizure potential. Using human equivalent dose calculations, human treatment parameters were suggested for each component by analysing the various studies in this review. This review also determined that the principal components possibly exert their anti-seizure effect via the reduction of corticosterone, modulation of neurotransmitters signalling, modulation of sodium ion channels, reduction of oxidative DNA damage, reduction of lipid peroxidation, upgregulation of brain-derived neurotrophic factor (BDNF) and γ-aminobutyric acid (GABA) mediated inhibition. It is anticipated that this review will help pave the way for future research into the development of Curcuma longa and its neuroactive constituents as potential drug candidates for the management of epilepsy.

Published

2021

38. Halichonic Acid B, a Rearranged Nitrogenous Bisabolene-Type Sesquiterpene from a Marine Sponge Axinyssa sp

Author

Ahmed H. El-Desoky, Sachiko Tsukamoto, Kenta Ogura, Yuki Hitora, Yuji Ise, Remy E. P. Mangindaan, and Esther D. Angkouw

Subjects

Circular dichroism, biology, Stereochemistry, Farnesyl pyrophosphate, Absolute configuration, General Chemistry, General Medicine, Sesquiterpene, biology.organism_classification, chemistry.chemical_compound, Sponge, chemistry, Drug Discovery, Glycine, Bisabolene

Abstract

A new rearranged nitrogenous bisabolone-type sesquiterpene, halichonic acid B (1), was isolated from a marine sponge Axinyssa sp. together with halichonic acid (2) and (6R,7S)-7-amino-7,8-dihydro-α-bisabolene (3). The structure of 1 was determined by extensive NMR and MS analyses, revealing an unprecedented carbon framework, and its absolute configuration was elucidated by time-dependent density-functional theory (TDDFT)-based electronic circular dichroism (ECD) spectrum calculation. We propose that 1 and 2 may be biosynthesized in the same pathway, involving the reaction between farnesyl pyrophosphate and glycine, followed by cyclization.

Published

2021

39. Metabolic engineering strategies for sesquiterpene production in microorganism

Author

Chun-Li Liu, Yankun Yang, Taek Soon Lee, Kai Xue, Zhonghu Bai, Tianwei Tan, Xiuxia Liu, and Ye Li

Subjects

Farnesene, Terpenes, business.industry, Caryophyllene, Saccharomyces cerevisiae, General Medicine, Biology, Sesquiterpene, Applied Microbiology and Biotechnology, Biotechnology, Metabolic engineering, Terpene, chemistry.chemical_compound, Synthetic biology, Metabolic Engineering, chemistry, Escherichia coli, Bisabolene, Bioprocess, business, Sesquiterpenes

Abstract

Sesquiterpenes are a large variety of terpene natural products, widely existing in plants, fungi, marine organisms, insects, and microbes. Value-added sesquiterpenes are extensively used in industries such as: food, drugs, fragrances, and fuels. With an increase in market demands and the price of sesquiterpenes, the biosynthesis of sesquiterpenes by microbial fermentation methods from renewable feedstocks is acquiring increasing attention. Synthetic biology provides robust tools of sesquiterpene production in microorganisms. This review presents a summary of metabolic engineering strategies on the hosts and pathway engineering for sesquiterpene production. Advances in synthetic biology provide new strategies on the creation of desired hosts for sesquiterpene production. Especially, metabolic engineering strategies for the production of sesquiterpenes such as: amorphadiene, farnesene, bisabolene, and caryophyllene are emphasized in: Escherichia coli, Saccharomyces cerevisiae, and other microorganisms. Challenges and future perspectives of the bioprocess for translating sesquiterpene production into practical industrial work are also discussed.

Published

2021

40. Engineering Synechocystis sp. PCC 6803 for microbial terpenoid production

Author

Rodrigues, João S. and Rodrigues, João S.

Abstract

As part of the efforts to develop a carbon-neutral economy, photosynthetic microorganisms such as cyanobacteria have been extensively studied as solar-powered cell factories for the production of organic compounds with industrial interest, using the atmospheric CO2 as carbon source. Among other metabolites, cyanobacteria produce terpenoids, a diverse group of natural products that play pivotal roles in the cell. These metabolites have industrial relevance as fragrances, colorants and biofuel precursors. The research here presented focused on the production of terpenoids in the model cyanobacterium Synechocystis sp. PCC 6803, with special emphasis on two compounds: bisabolene and isoprene. Bisabolene is a 15-carbon-atom molecule that can be used as feedstock for chemical synthesis and for biofuel generation. In my first two projects, I demonstrated that heterologous expression of the bisabolene synthase is enough to complete the biosynthetic pathway, and cultivation of bisabolene-producing Synechocystis strains in high-density conditions significantly benefits microbial production. Furthermore, overexpression of key enzymes from the native metabolism increased precursor supply. The best producing strain reached a bisabolene titre of 180 mg L-1 after 8 days of cultivation. Isoprene is a small volatile terpenoid with high relevance to industry, and it plays an important role in thermotolerance in several plants. In order to map competitive pathways to terpenoid production in Synechocystis, I utilized a synthetic biology tool for gene knockdown of several targets and evaluated their influence on isoprene production. Six candidate genes were identified as potential targets for further modifications, to improve reallocation of the cellular resources to terpenoid production. In another study, I analysed how the production of isoprene in Synechocystis can affect the metabolism and cell physiology, and how isoprene production can be improved by optimizing cultivation conditi

Published

2022

41. High-Yielding Terpene-Based Biofuel Production in Rhodobacter capsulatus

Author

Yumeng Lai, Jifeng Yuan, Xiaohui Song, Qiwen Mo, and Yang Zhang

Subjects

0106 biological sciences, 0303 health sciences, Rhodobacter, biology, Chemistry, Biomedical Engineering, General Medicine, biology.organism_classification, 01 natural sciences, Biochemistry, Genetics and Molecular Biology (miscellaneous), High yielding, Terpene, 03 medical and health sciences, chemistry.chemical_compound, Biofuel, 010608 biotechnology, Yield (chemistry), Fermentation, Mevalonate pathway, Bisabolene, Food science, 030304 developmental biology

Abstract

Energy crisis and global climate change have driven an increased effort toward biofuel synthesis from renewable feedstocks. Herein, purple nonsulfur photosynthetic bacterium (PNSB) of Rhodobacter capsulatus was explored as a platform for high-titer production of a terpene-based advanced biofuel-bisabolene. A multilevel engineering strategy such as promoter screening, improving the NADPH availability, strengthening the precursor supply, suppressing the side pathways, and introducing a heterologous mevalonate pathway, was used to improve the bisabolene titer in R. capsulatus. The above strategies enabled a 35-fold higher titer of bisabolene than that of the starting strain, reaching 1089.7 mg/L from glucose in a shake flask. The engineered strain produced 9.8 g/L bisabolene with a yield of >0.196 g/g-glucose under the two-phase fed-batch fermentation, which corresponds to >78% of theoretical maximum. Taken together, our work represents one of the pioneering studies to demonstrate PNSB as a promising platform for terpene-based advanced biofuel production.

Published

2021

42. Sesquiterpene derivatives from Ocotea minarum leaves

Author

Cláudio Rodrigo Nogueira, Walmir Silva Garcez, Lidilhone Hamerski Carbonezi, Fernanda Rodrigues Garcez, and Caroline Tieppo Flores de Oliveira

Subjects

chemistry.chemical_classification, Cryptococcus neoformans, Natural product, biology, 010405 organic chemistry, Stereochemistry, Chemistry, Plant Science, Lauraceae, biology.organism_classification, Sesquiterpene, 01 natural sciences, Biochemistry, 0104 chemical sciences, 010404 medicinal & biomolecular chemistry, chemistry.chemical_compound, Mic values, Bisabolene, Agronomy and Crop Science, Lactone, Ocotea minarum, Biotechnology

Abstract

(+)-β-Sesquiphellandrene-12-oic acid (1) and 4-oxo-lanceolic acid (3), two new bisabolane derivatives; (+)-2-methyl-6[4-oxo-2-cyclohexen-1-yl]-2-(E)-heptenoic acid (4), a new nor-bisabolane derivative; (+)-(E)-exo-α-bergamoten-12-oic acid (5), a new bergamotene-type sesquiterpene; (2E,6E)-2,6-dimethyl-10-methylene-dodecatrienoic acid (6), a farnesene-type sesquiterpene reported for the first time as a natural product; and (–)-curcumen-12-oic acid (7), an aromatic bisabolene derivative that is new in Lauraceae, were obtained, together with lanceolic acid (2) and the terpenic lactone loliolide (8), from the leaves of Ocotea minarum. The chemical structures of these compounds were determined by 1D- and 2D-NMR and HRESIMS. Evaluated in vitro against standard strains of Candida species and Cryptococcus neoformans, compounds 1, 2, and 4-8 exhibited MIC values in the 50–100 μg mL–1 range.

Published

2021

43. High‐efficiency production of bisabolene from waste cooking oil by metabolically engineered Yarrowia lipolytica

Author

Kun Zhu, Yakun Zhao, Cuiying Zhang, Dongguang Xiao, Shenglong Li, Aiqun Yu, Yu Zhao, and Jian Li

Subjects

Yarrowia, Bioengineering, Applied Microbiology and Biotechnology, Biochemistry, Metabolic engineering, 03 medical and health sciences, Synthetic biology, chemistry.chemical_compound, Cooking, Food science, Research Articles, 030304 developmental biology, 0303 health sciences, biology, 030306 microbiology, Chemistry, biology.organism_classification, Yeast, Glucose, Metabolic Engineering, Fermentation, Mevalonate pathway, Heterologous expression, Bisabolene, TP248.13-248.65, Research Article, Biotechnology

Abstract

Summary The natural plant product bisabolene serves as a precursor for the production of a wide range of industrially relevant chemicals. However, the low abundance of bisabolene in plants renders its isolation from plant sources non‐economically viable. Therefore, creation of microbial cell factories for bisabolene production supported by synthetic biology and metabolic engineering strategies presents a more competitive and environmentally sustainable method for industrial production of bisabolene. In this proof‐of‐principle study, for the first time, we engineered the oleaginous yeast Yarrowia lipolytica to produce α‐bisabolene, β‐bisabolene and γ‐bisabolene through heterologous expression of the α‐bisabolene synthase from Abies grandis, the β‐bisabolene synthase gene from Zingiber officinale and the γ‐bisabolene synthase gene from Helianthus annuus respectively. Subsequently, two metabolic engineering approaches, including overexpression of the endogenous mevalonate pathway genes and introduction of heterologous multidrug efflux transporters, were employed in order to improve bisabolene production. Furthermore, the fermentation conditions were optimized to maximize bisabolene production by the engineered Y. lipolytica strains from glucose. Finally, we explored the potential of the engineered Y. lipolytica strains for bisabolene production from the waste cooking oil. To our knowledge, this is the first report of bisabolene production in Y. lipolytica using metabolic engineering strategies. These findings provide valuable insights into the engineering of Y. lipolytica for a higher‐level production of bisabolene and its utilization in converting waste cooking oil into various industrially valuable products., To our knowledge, we have unprecedentedly verified the function of α‐bisabolene synthase, β‐bisabolene synthase and γ‐bisabolene synthase in Y. lipolytica and successfully employed the enzyme to synthesize bisabolene in Y. lipolytica for the first time. Our study reports for the first time the utilization of terpenoid efflux pumps to improve the secretion, and thus the production, of bisabolene in microbial cell factories. We demonstrated for the first time the conversion of waste cooking oil to bisabolene, which has important potential applications in waste management as well as economical and sustainable production of valuable bisabolene from waste feedstocks.

Published

2021

44. Alismanoid A, an unprecedented 1,2-seco bisabolene from Alisma orientale, and its protective activity against H2O2-induced damage in SH-SY5Y cells.

Author

Yu, Zhen-Long, Peng, Yu-Lin, Wang, Chao, Cao, Fei, Huo, Xiao-Kui, Tian, Xiang-Ge, Feng, Lei, Ning, Jing, Zhang, Bao-Jing, Sun, Cheng-Peng, and Ma, Xiao-Chi

Subjects

*BISABOLENE, *SESQUITERPENES, *CIRCULAR dichroism

Abstract

A pair of novel sesquiterpenoids, (8R)-alismanoid A (1a) and (8S)-alismanoid A (1b), possessing an unprecedented 1,2-seco bisabolene carbon skeleton, were isolated from rhizomes of Alisma orientale together with two new sesquiterpenoids: a 15-nor guaiane alismanoid B (2) and alismanoid C (3). Their structures were elucidated by 1D and 2D NMR, HRESIMS, electronic circular dichroism (ECD), and theoretical calculations, and a plausible biosynthetic pathway for compound 1 is discussed. Meanwhile, compounds 1–3 were investigated for their protective effects on H2O2-induced damage in human dopaminergic neuroblastoma cells (SH-SY5Y), and compounds 1b, 2, and 3 showed significantly protective activities at a certain concentration. Further, the action mechanism of compound 3 was proved to be through inhibition of H2O2-induced apoptosis in SH-SY5Y cells. Herein, these results suggest that sesquiterpenoids are potential candidate drugs for treating Parkinson's disease induced by reactive oxygen species. [ABSTRACT FROM AUTHOR]

Published

2017

45. Antioxidant activity, polyphenolic contents and essential oil composition of Pimpinella anisum L. as affected by zinc fertilizer.

Author

Tavallali, Vahid, Rahmati, Sadegh, and Bahmanzadegan, Atefeh

Subjects

*ANISE, *ZINC fertilizers, *ESSENTIAL oils, *ANTIOXIDANTS, *MICRONUTRIENTS, *GERMACRENE, *BISABOLENE

Abstract

BACKGROUND The antioxidant activity and essential oil content of plants may vary considerably with respect to environmental conditions, especially nutrient availability. Among micronutrients, zinc (Zn) is needed by plants in only small amounts but is crucial to plant development. This study aimed to evaluate the effects of Zn fertilization on the antioxidant activity, polyphenolic contents and essential oil composition of Pimpinella anisum fruit. RESULTS Foliar application of Zn fertilizer considerably increased the number of detected essential oil components from 27 to 45. Zinc application at a rate of 0.2% (w/v) significantly enhanced the levels of β-bisabolene, germacrene D, n-decane and α-zingiberene, whereas the opposite trend was observed for ( E)-anethole and geijerene. Application of 0.2% Zn considerably increased the levels of phenolic compounds, with chlorogenic acid showing the highest content among eight phenolic compounds detected in treated plants. The maximum antioxidant activity was achieved through application of 0.2% Zn fertilizer. CONCLUSION These findings indicated that the quality and quantity of anise fruit essential oil components were significantly altered by application of low levels of Zn. After foliar application of Zn, polyphenolic contents as well as antioxidant activity of anise fruit increased. Using Zn fertilizer is an efficient method to improve the pharmaceutical and food properties of anise fruit. © 2017 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published

2017

46. Toxicity of ar-curcumene and epi-β-bisabolol from Hedychium larsenii (Zingiberaceae) essential oil on malaria, chikungunya and St. Louis encephalitis mosquito vectors.

Author

AlShebly, Mashael Marzouq, AlQahtani, Fatma Saeed, Govindarajan, Marimuthu, Gopinath, Kasi, Vijayan, Periasamy, and Benelli, Giovanni

Subjects

CURCUMA, BISABOLENE, HEDYCHIUM, ESSENTIAL oils, MOSQUITO vectors

Abstract

Mosquitoes act as vectors of key pathogens and parasites. Plant essential oils have been recognized as important sources of biopesticides, which do not induce resistance and have limited toxic effects on human health and non-target organisms. In this research, we evaluated the larvicidal and oviposition deterrence activity of Hedychium larsenii essential oil (EO) and its major compounds ar-curcumene and epi-β-bisabolol. Both molecules showed high toxicity against early third instars of Anopheles stephensi (LC 50 =10.45 and 14.68 µg/ml), Aedes aegypti (LC 50 =11.24 and 15.83 µg/ml) and Culex quinquefasciatus (LC 50 =12.24 and 17.27 µg/ml). In addition, low doses of ar-curcumene and epi-β-bisabolol were effective as oviposition deterrents against the three tested mosquito species. Notably, the acute toxicity of H. larsenii oil and its major compounds against the mosquito biocontrol agent Poecilia reticulata was low, with LC 50 higher than 1500 ppm. Overall, the results from this study revealed that ar-curcumene and epi-β-bisabolol from the H. larsenii oil can be considered for the development of novel and effective mosquito larvicides. [ABSTRACT FROM AUTHOR]

Published

2017

47. Combining Metabolic Engineering and Lipid Droplet Storage Engineering for Improved α-Bisabolene Production in Yarrowia Lipolytica .

Author

Lu Z, Wang Y, Li Z, Zhang Y, He S, Zhang Z, Leong S, Wong A, Zhang CY, and Yu A

Subjects

Metabolic Engineering, Lipid Droplets metabolism, Terpenes metabolism, Yarrowia genetics, Yarrowia metabolism, Sesquiterpenes metabolism

Abstract

Bisabolene is a bioactive sesquiterpene with a wide range of applications in food, cosmetics, medicine, and aviation fuels. Microbial production offers a green, efficient, and sustainable alternative. In this study, we focused on improving the titers of α-bisabolene in Yarrowia lipolytica by applying two strategies, (i) optimizing the metabolic flux of α-bisabolene biosynthetic pathway and (ii) sequestering α-bisabolene in lipid droplet, thus alleviating its inherent toxicity to host cells. We showed that overexpression of DGA1 and OLE1 to increase lipid content and unsaturated fatty acid levels was essential for boosting the α-bisabolene synthesis when supplemented with auxiliary carbon sources. The final engineered strain Po1gαB10 produced 1954.3 mg/L α-bisabolene from the waste cooking oil under shake flask fermentation, which was 96-fold higher than the control strain Po1gαB0. At the time of writing, our study represents the highest reported α-bisabolene titer in the engineered Y. lipolytica cell factory. This work describes novel strategies to improve the bioproduction of α-bisabolene that potentially may be applicable for other high-value terpene products.

Published

2023

48. Antioxidant bisabolane-type sesquiterpenoids from algal-derived fungus Aspergillus sydowii EN-434

Author

Bin-Gui Wang, Xue-Yi Hu, Ling-Hong Meng, and Xiaoming Li

Subjects

Circular dichroism, Antioxidant, Stereochemistry, DPPH, Electrospray ionization, medicine.medical_treatment, Oceanography, Mass spectrometry, chemistry.chemical_compound, chemistry, medicine, Aspergillus sydowii, Bisabolene, Derivative (chemistry), Water Science and Technology

Abstract

A new aromatic bisabolene-type sesquiterpenoid (7S, 8S)-8-hydroxysydowic acid (1), together with a pair of new bisabolene derivative (±)-(7R*, 10R*)-10-hydroxysydowic acid (2), as well as two known analogues hydroxysydonic acid (3) and sydowic acid (4) were isolated and identified from the endophytic fungal strain Aspergillus sydowii EN-434 that was obtained from the marine red alga Symphyocladia latiuscula. Their structures were elucidated by nuclear magnetic resonance (NMR), high resolution electrospray ionization mass spectroscopy (HRESIMS), and quantum chemical electronic circular dichroism (ECD) calculations as well as comparison of the data with literature reports. Compound 1 exhibited potent DPPH free radical scavenging activity with IC50 value of 113.5 μmol/L.

Published

2020

49. In vitro and in vivo metabolic stability of various fragrance materials and insect repellent in rainbow trout ( <scp> Oncorhynchus mykiss </scp> )

Author

John A. Weeks, Karla Johanning, and Patrick D. Guiney

Subjects

Bioconcentration, 010501 environmental sciences, Toxicology, 01 natural sciences, DEET, 03 medical and health sciences, chemistry.chemical_compound, In vivo, Animals, Food science, Galaxolide, Biotransformation, 030304 developmental biology, 0105 earth and related environmental sciences, 0303 health sciences, biology, biology.organism_classification, Bioaccumulation, Trout, Liver, chemistry, Insect Repellents, Oncorhynchus mykiss, Odorants, Hepatocytes, Bisabolene, Insect repellent

Abstract

Commercial fragrances consist of several thousand natural and synthetic substances formulated in complex combinations. These ingredients are frequently blended at very low concentrations but they are typically lipophilic and a few of them (e.g., synthetic musks) have been detected in aquatic systems, albeit at low concentrations. Few fragrances have guideline in vivo data on bioaccumulation, so in silico modeling has been widely used to estimate bioconcentration factors (BCFs). This study used in vitro metabolism assays with trout S9 cell fractions and cryopreserved hepatocytes to improve estimates of fish BCFs and to test published methods for extrapolating in vitro metabolic rate data to whole fish and corresponding BCFs. These estimates for several chemicals were compared with new in vivo bioconcentration measurements and previously published data on fragrances and the insect repellent, DEET. In total, 17 (20 including isomers) fragrance chemicals (abalyn, amberwood, amboryl acetate, bisabolene, cedroxide, coniferan, elemol, givescone, maritima, precyclemone B, polysantol, sandela, sanjinol, santalex, timberol and vernaldehyde) and DEET were metabolized at various rates. Only three materials tested did not appear to undergo enzymatic degradation (caryophyllene oxide, galaxolide and ketone patchouli). Even relatively slow rates of metabolism had a large influence on bioconcentration estimates. This work adds valuable information to the evolving body of work supporting the use of in vitro determinations of hepatic clearance to improve modeled predictions of bioaccumulation. It can also be used directly to help prioritize testing of potential bioaccumulative chemicals or serve as a more economical method for screening these chemicals.

Published

2020

50. Chlorinated bisabolene sesquiterpenoids from the whole plant of Parasenecio rubescens

Author

Fang-Fang Duan, An Jin, Han-Li Ruan, Si Liu, and Jinling Chang

Subjects

Staphylococcus aureus, Magnetic Resonance Spectroscopy, Cell Survival, Melanoma, Experimental, Asteraceae, medicine.disease_cause, chemistry.chemical_compound, Mice, Anti-Infective Agents, X-Ray Diffraction, Parasenecio, Cell Line, Tumor, Drug Discovery, Candida albicans, medicine, Escherichia coli, Animals, Humans, Pharmacology, biology, Traditional medicine, Chemistry, Plant Extracts, Absolute configuration, General Medicine, Hep G2 Cells, Antimicrobial, biology.organism_classification, Corpus albicans, Phytochemical, MCF-7 Cells, Bisabolene, Sesquiterpenes

Abstract

Four new chlorinated bisabolene-type sesquiterpenoids (1-4) were isolated during the phytochemical investigation of an acetone extract of the whole plant of Parasenecio rubescens. The structures of 1-4 were determined by analysis of their HRESIMS and NMR spectroscopic data, and the absolute configuration of 1 was established through single-crystal X-ray diffraction. All isolates were evaluated for their cytotoxicity against three cancer cell lines (B16 mouse melanoma, HepG2 human hepatocellular carcinoma, and MCF7 human breast adenocarcinoma), as well as their antimicrobial effects against Staphylococcus aureus, Escherichia coli, and Monilia albicans. As a result, compounds 1-4 displayed a certain degree of antimicrobial activities.

Published

2021