A time resolved metabolomics study: the influence of different carbon sources during growth and starvation of Bacillus subtilis

Hanna Meyer; Hendrikje Weidmann; Ulrike Mäder; Michael Hecker; Uwe Völker; Michael Lalk

doi:10.1039/c4mb00112e

Catabolite repression-resistant mutants of Bacillus subtilis

Canadian Journal of Microbiology ◽

10.1139/m79-202 ◽

1979 ◽

Vol 25 (11) ◽

pp. 1283-1287 ◽

Cited By ~ 16

Author(s):

I. Takahashi

Keyword(s):

Bacillus Subtilis ◽

Carbon Source ◽

Catabolite Repression ◽

Minimal Medium ◽

Carbon Sources ◽

Close Relation ◽

Selection Technique ◽

Source Studies ◽

Resistant Mutants ◽

Simple Selection

Mutants of Bacillus subtilis that are able to sporulate under the condition of catabolite repression were isolated by a simple selection technique. The mutants used in the present study were able to grow normally on minimal medium with ammonium sulphate as the nitrogen source and glucose as the carbon source. Studies carried out with these mutants show that there is no close relation between catabolite repression of an inducible enzyme, acetoin dehydrogenase, and that of sporulation. Certain mutants are able to sporulate in the presence of all the carbon sources tested but some mutants are resistant only to the carbon source used in isolation. It is suggested that several metabolic steps may be affected in catabolite repression of sporulation.

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Optimization of Cellulase Production from Bacteria Isolated from Soil

ISRN Biotechnology ◽

10.5402/2013/985685 ◽

2013 ◽

Vol 2013 ◽

pp. 1-7 ◽

Cited By ~ 60

Author(s):

Sonia Sethi ◽

Aparna Datta ◽

B. Lal Gupta ◽

Saksham Gupta

Keyword(s):

Bacillus Subtilis ◽

Carbon Source ◽

Pseudomonas Fluorescens ◽

Carbon Sources ◽

Nitrogen Sources ◽

Fermentation Medium ◽

Cellulase Production ◽

Culture Conditions ◽

Optimum Conditions ◽

E Coli

Cellulase-producing bacteria were isolated from soil and identified as Pseudomonas fluorescens, Bacillus subtilIs, E. coli, and Serratia marcescens. Optimization of the fermentation medium for maximum cellulase production was carried out. The culture conditions like pH, temperature, carbon sources, and nitrogen sources were optimized. The optimum conditions found for cellulase production were 40°C at pH 10 with glucose as carbon source and ammonium sulphate as nitrogen source, and coconut cake stimulates the production of cellulase. Among bacteria, Pseudomonas fluorescens is the best cellulase producer among the four followed by Bacillus subtilis, E. coli, and Serratia marscens.

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Effect of carbon source on Phenobarbital metabolism by Rhizopus stolonifer

International Journal of Pharmaceutical Sciences and Nanotechnology ◽

10.37285/ijpsn.2010.3.2.17 ◽

2010 ◽

Vol 3 (2) ◽

pp. 1022-1027

Author(s):

Kavitha K ◽

Asha S ◽

Hima Bindu T.V.L ◽

Vidyavathi M

Keyword(s):

Carbon Source ◽

High Performance ◽

Carbon Sources ◽

In Vitro Models ◽

Rhizopus Stolonifer ◽

Safety And Efficacy ◽

Alternative Systems ◽

Toxicological Studies ◽

Microbial Model

The safety and efficacy of a drug is based on its metabolism or metabolite formed. The metabolism of drugs can be studied by different in vitro models, among which microbial model became popular. In the present study, eight microbes were screened for their ability to metabolize phenobarbital in a manner comparable to humans with a model to develop alternative systems to study human drug metabolism. Among the different microbes screened, a filamentous fungi Rhizopus stolonifer metabolized phenobarbital to its metabolite which is used for further pharmacological and toxicological studies. The transformation of phenobarbital was identified by high- performance liquid chromatography (HPLC). Interestingly, Rhizopus stolonifer sample showed an extra metabolite peak at 3.11min. compared to its controls. The influence of different carbon sources in media used for growth of fungus, on metabolite production was studied, to find its effect in production of metabolite as the carbon source may influence the growth of the cell.

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Denitrification Control in a Recirculating Aquaculture System—A Simulation Study

Processes ◽

10.3390/pr8101306 ◽

2020 ◽

Vol 8 (10) ◽

pp. 1306

Author(s):

Pedro Almeida ◽

Laurent Dewasme ◽

Alain Vande Wouwer

Keyword(s):

Carbon Source ◽

Carbon Sources ◽

Aquatic Organisms ◽

Operating Conditions ◽

Toxic Substances ◽

Recirculating Aquaculture System ◽

Treatment Technology ◽

Tuning Method ◽

Recirculating Aquaculture ◽

Aquaculture System

The recirculating aquaculture system (RAS) is a land-based water treatment technology, which allows for farming aquatic organisms, such as fish, by reusing the water in the production (often less than 5%). This technology is based on the use of filters, either mechanical or biological, and can, in principle, be used for any species grown in aquaculture. Due to the low recirculation rate, ammonia accumulates in the system and must be converted into nitrate using nitrification reactors. Although less toxic for fish, nitrate can also be further reduced into nitrogen gas by the use of denitrification biofilters which may create several issues, such as incomplete denitrification, resulting in toxic substances, such as nitrite and nitric oxide, or a waste of carbon source in excess. Control of the added quantity of carbon source in the denitrification biofilter is then mandatory to keep nitrate/nitrite concentrations under toxic levels for fish and in accordance with local effluent regulations, and to reduce costs related to wasted organic carbon sources. This study therefore investigates the application of different control methodologies to a denitrification reactor in a RAS. To this end, a numerical simulator is built to predict the RAS behavior and to allow for the comparison of different control approaches, in the presence of changes in the operating conditions, such as fish density and biofilter removal efficiency. First, a classical proportional-integral-derivative (PID) controller was designed, based on an SIMC tuning method depending on the amount of ammonia excreted by fish. Then, linearizing and cascade controllers were considered as possible alternatives.

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The carbon source-dependent pattern of antimicrobial activity and gene expression in Pseudomonas donghuensis P482

Scientific Reports ◽

10.1038/s41598-021-90488-w ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Marta Matuszewska ◽

Tomasz Maciąg ◽

Magdalena Rajewska ◽

Aldona Wierzbicka ◽

Sylwia Jafra

Keyword(s):

Gene Expression ◽

Antimicrobial Activity ◽

Carbon Source ◽

Reference Genes ◽

Plant Pathogens ◽

Plant Protection ◽

Carbon Sources ◽

Unknown Compound ◽

Fungal Plant Pathogens ◽

The Impact

AbstractPseudomonas donghuensis P482 is a tomato rhizosphere isolate with the ability to inhibit growth of bacterial and fungal plant pathogens. Herein, we analysed the impact of the carbon source on the antibacterial activity of P482 and expression of the selected genes of three genomic regions in the P482 genome. These regions are involved in the synthesis of pyoverdine, 7-hydroxytropolone (7-HT) and an unknown compound (“cluster 17”) and are responsible for the antimicrobial activity of P482. We showed that the P482 mutants, defective in these regions, show variations and contrasting patterns of growth inhibition of the target pathogen under given nutritional conditions (with glucose or glycerol as a carbon source). We also selected and validated the reference genes for gene expression studies in P. donghuensis P482. Amongst ten candidate genes, we found gyrB, rpoD and mrdA the most stably expressed. Using selected reference genes in RT-qPCR, we assessed the expression of the genes of interest under minimal medium conditions with glucose or glycerol as carbon sources. Glycerol was shown to negatively affect the expression of genes necessary for 7-HT synthesis. The significance of this finding in the light of the role of nutrient (carbon) availability in biological plant protection is discussed.

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Comprehensive Metabolomics Study of Traditionally Important Rumex Species Found in Western Himalayan Region

Natural Product Communications ◽

10.1177/1934578x1801300219 ◽

2018 ◽

Vol 13 (2) ◽

pp. 1934578X1801300

Author(s):

Ritika Sharma ◽

Rupali Jandrotia ◽

Bikram Singh ◽

Upendra Sharma ◽

Dinesh Kumar

Keyword(s):

Raw Materials ◽

Chemical Diversity ◽

Control Analysis ◽

Limit Of Quantification ◽

Western Himalayan Region ◽

Biological Potential ◽

Metabolomics Study ◽

Comprehensive Metabolomics ◽

First Time ◽

Concurrent Estimation

Rumex species are traditionally known to cure constipation, pain, inflammation, ulcer and tumor. The biological potential of Rumex nepalens is lies in chemical diversity of its constituents. In the present study, UPLC-DAD-MS method was developed for the concurrent estimation of polyphenols in Rumex species ( R. nepalensis, R. hastatus and R. dentatus) and validated for linearity (r2 > 0.999), limit of quantification and detection, inter and intraday precession, stabilities and recovery. The developed method has also been employed for metabolomic analysis of Rumex species. Qualitative and quantitative variation of polyphenols was observed among the aerial and root parts of Rumex species with highest content of polyphenol detected in aerial part of R. nepalensis. The quantitative data based matrix and HCA plot represents the variation of metabolites among the samples. R. nepalensis being widely used in traditional practices, was incorporated in detail. A total of seven molecules were isolated and characterized among which three compounds viz. 3- O- methyl epicatechin, quercetin-3- O- β-D-glucuronide and β-sitosterol-3- O- β-D-glucoside were isolated for first time from this plant. Eighteen metabolites were profiled in R. nepalensis using UPLC-MS/MS technique. Current comprehensive metabolomics approach will surely help in understanding the chemical diversity, discriminations and quality control analysis of raw materials and furnished products of Rumex.

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Development of mutants of Gliocladium virens tolerant to benomyl

Canadian Journal of Microbiology ◽

10.1139/m90-084 ◽

1990 ◽

Vol 36 (7) ◽

pp. 484-489 ◽

Cited By ~ 12

Author(s):

G. C. Papavizas ◽

D. P. Roberts ◽

K. K. Kim

Keyword(s):

Carbon Source ◽

Type Strain ◽

Wild Type Strain ◽

Carbon Sources ◽

Sclerotium Rolfsii ◽

Wild Type ◽

Gliocladium Virens ◽

Rhizosphere Competence ◽

Filter Paper Cellulase ◽

Type Strains

Aqueous suspensions of conidia of Gliocladium virens strains Gl-3 and Gl-21 were exposed to both ultraviolet radiation and ethyl methanesulfonate. Two mutants of Gl-3 and three of Gl-21 were selected for tolerance to benomyl at 10 μg∙mL−1, as indicated by growth and conidial germination on benomyl-amended potato dextrose agar. The mutants differed considerably from their respective wild-type strains in appearance, growth habit, sporulation, carbon-source utilization, and enzyme activity profiles. Of 10 carbon sources tested, cellobiose, xylose, and xylan were the best for growth, galactose and glucose were intermediate, and arabinose, ribose, and rhamnose were poor sources of carbon. The wild-type strains and the mutants did not utilize cellulose as the sole carbon source for growth. Two benomyl-tolerant mutants of Gl-3 produced less cellulase (β-1,4-glucosidase, carboxymethylcellulase, filter-paper cellulase) than Gl-3. In contrast, mutants of Gl-21 produced more cellulase than the wild-type strain. Only Gl-3 provided control of blight on snapbean caused by Sclerotium rolfsii. Wild-type strain Gl-21 and all mutants from both strains were ineffective biocontrol agents. Key words: Gliocladium, benomyl tolerance, Sclerotium, rhizosphere competence.

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Comparison of clinical acinetobacter strains using a carbon source growth assay

Epidemiology and Infection ◽

10.1017/s0950268800047452 ◽

1990 ◽

Vol 104 (3) ◽

pp. 443-453 ◽

Cited By ~ 9

Author(s):

L. Dijkshoorn ◽

A. Van Ooyen ◽

W. C. J. Hop ◽

M. Theuns ◽

M. F. Michel

Keyword(s):

Cluster Analysis ◽

Carbon Source ◽

Univariate Analysis ◽

Carbon Sources ◽

Protein Profiles ◽

Growth Data ◽

Epidemiological Factors ◽

Growth Assay ◽

Growth Profiles ◽

Related Pattern

SUMMARYA quantitative carbon source growth assay, comprising ten carbon sources, was used to compare acinetobacter strains from three hospitals. The strains had been obtained during episodes of increased prevalence of isolations and were, for each hospital, assumed to be epidemiologically related. This assumption was supported by the electrophoretic protein profiles of the strains. Univariate analysis of growth data showed significant differences between strains from the three hospitals. Moreover, cluster analysis revealed that the major pattern in the data was related to the epidemiological origin of the strains. Exceptions to the epidemic-related pattern were observed. Thus, apart from epidemiological factors, other factors might contribute to carbon source growth profiles of the strains. It is concluded that the carbon growth assay may be useful to distinguish roughly between acinetobacter strains from different sites of origin. Further studies are required to analyse additional factors which influence carbon source growth of strains.

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Regulation of yeast COX6 by the general transcription factor ABF1 and separate HAP2- and heme-responsive elements

Molecular and Cellular Biology ◽

10.1128/mcb.12.5.2302-2314.1992 ◽

1992 ◽

Vol 12 (5) ◽

pp. 2302-2314

Author(s):

J D Trawick ◽

N Kraut ◽

F R Simon ◽

R O Poyton

Keyword(s):

Transcription Factor ◽

Carbon Source ◽

Protein Binding ◽

Glucose Repression ◽

Protein Complexes ◽

Carbon Sources ◽

Major Protein ◽

Mobility Shift ◽

Gel Mobility Shift ◽

In Cells

Transcription of the Saccharomyces cerevisiae COX6 gene is regulated by heme and carbon source. It is also affected by the HAP2/3/4 transcription factor complex and by SNF1 and SSN6. Previously, we have shown that most of this regulation is mediated through UAS6, an 84-bp upstream activation segment of the COX6 promoter. In this study, by using linker scanning mutagenesis and protein binding assays, we have identified three elements within UAS6 and one element downstream of it that are important. Two of these, HDS1 (heme-dependent site 1; between -269 and -251 bp) and HDS2 (between -228 and -220 bp), mediate regulation of COX6 by heme. Both act negatively. The other two elements, domain 2 (between -279 and -269 bp) and domain 1 (between -302 and -281 bp), act positively. Domain 2 is required for optimal transcription in cells grown in repressing but not derepressing carbon sources. Domain 1 is essential for transcription per se in cells grown on repressing carbon sources, is required for optimal transcription in cells grown on a derepressing carbon source, is sufficient for glucose repression-derepression, and is the element of UAS6 at which HAP2 affects COX6 transcription. This element contains the major protein binding sites within UAS6. It has consensus binding sequences for ABF1 and HAP2. Gel mobility shift experiments show that domain 1 binds ABF1 and forms different numbers of DNA-protein complexes in extracts from cells grown in repressing or derepressing carbon sources. In contrast, gel mobility shift experiments have failed to reveal that HAP2 or HAP3 binds to domain 1 or that hap3 mutations affect the complexes bound to it. Together, these findings permit the following conclusions: COX6 transcription is regulated both positively and negatively; heme and carbon source exert their effects through different sites; domain 1 is absolutely essential for transcription on repressing carbon sources; ABF1 is a major component in the regulation of COX6 transcription; and the HAP2/3/4 complex most likely affects COX6 transcription indirectly.

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