Effects of extremely low magnetic field on the production of invertase by <i>Rhodotorula glutinis</i>

Canli, Ozden; Erdal, Serkan; Taşkın, Mesut; Kurbanoğlu, Esabı Başaran

doi:10.1177/0748233710380219

Cited by 36 publications

(15 citation statements)

References 26 publications

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“…LF‐MF has been proven to affect microbial metabolism as a physical means. After LF‐MF treatment, the metabolic rate increased by increasing the content of invertase in Rhodotorula glutinis [Canli et al, 2011]. It was found that a magnetic field strength of 20–200 μT could affect the level of reactive oxygen species, which played an important role in the accumulation of secondary metabolites in Aspergillus terreus [Cridland et al, 1999; Miranda et al, 2014].…”

Section: Introductionmentioning

confidence: 99%

Low‐Frequency Magnetic Field of Appropriate Strengths Changed Secondary Metabolite Production and Na⁺ Concentration of Intracellular and Extracellular Monascus purpureus

Xiong

Zhen

Liu

et al. 2020

Bioelectromagnetics

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Monascus purpureus is used to yield edible pigments accompanied by mycotoxin-citrinin. A low-frequency (<300 Hz) magnetic field (LF-MF) affects microbial metabolism. The link of LF-MF with secondary metabolites and intracellular and extracellular Na + levels in M. purpureus was determined. The fermentation broth was exposed to LF-MF during the first 2 days of fermentation and continuously cultured at 30°C and 200 rpm until the 8th day of fermentation. Results showed that LF-MF treatments didn't affect the growth of M. purpureus in liquid-state fermentation. Compared with the control, citrinin production showed a decrease of 45.0%, while yellow, red, and orange pigment production showed an increase of 72.9, 73.9, and 40.1%, respectively, with LF-MF treatment of 1.6 mT. This was in agreement with downregulation of pksCT and ctnA, and upregulation of pksPT, pigR, veA, and laeA at the transcriptional level. Moreover, 1.6 mT LF-MF exposure caused the transfer of Na + from extracellular to intracellular, which was validated through the upregulation of transmembrane sensor synthesis genes and the changes in the relative expression levels of the P-type ATPase and protein phosphatase genes. This study established that LF-MF could inhibit citrinin and stimulate pigment production and change intracellular and extracellular Na + concentrations. Bioelectromagnetics. 2020;41:289-297.

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Section: Introductionmentioning

confidence: 99%

Low‐Frequency Magnetic Field of Appropriate Strengths Changed Secondary Metabolite Production and Na⁺ Concentration of Intracellular and Extracellular Monascus purpureus

Xiong

Zhen

Liu

et al. 2020

Bioelectromagnetics

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“…ELF‐MF can make nisin and biomass production increase three and five times [Alvarez et al, ]. It can promote ethanol [Perez et al, ] and recombinant gp41 protein production [Justo et al, ] to increase 17% and 20%, respectively, and make invertase production increase 48–67% and biomass increase 14–67% [Canli et al, ]. In our previous study, we found that it can promote citric acid production to increase more than 60%, cellulose enzyme activity increase nearly 30% [Gao et al, ], and can also make yellow pigment production increase 65.4% and red pigment increase 59.2% [Zhang et al, ].…”

Section: Introductionmentioning

confidence: 99%

Effects of extremely low frequency magnetic field on production of mannatide by α‐hemolytic Streptococcus

Zhang

Wan

et al. 2016

Bioelectromagnetics

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The effect of the extremely low frequency magnetic field (ELF-MF) on biomass and mannatide production by α-hemolytic Streptococcus in liquid-state fermentation culture medium was studied during shake flask culture. Magnetic field (MF) inductions, exposure times, and exposure periods varied in a range of 0-1.5 mT, 0-16 h, and six periods of incubation time, respectively. Results showed both biomass and mannatide production increased significantly at MF induction 0.4, 0.6, and 0.9 mT and decreased at both 1.2 and 1.5 mT. Biomass increased by exposure for initial and middle stages of fermentation. Mannatide production increased significantly at 4-8, 8-12, and 17-21 h. Peak yield of biomass and mannatide production increased by 10.7% and 14.0% at 25 and 27 h of incubation at 0.6 mT MF induction and exposure to 8-12 h of incubation time, compared with the control experiment, respectively. ELF-MF could also enhance the growth rate and mannatide production rate of α-hemolytic Streptococcus. However, ELF-MF did not alter α-hemolytic Streptococcus cell growth and mannatide metabolizing regulation or fermentation pattern. Mannatide production was not associated with cellular growth but rather only partially associated. Bioelectromagnetics. 37:331-337, 2016. © 2016 Wiley Periodicals, Inc.

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“…Their strong oxidative metabolism enables the degradation of recalcitrant substrates, organochemicals and industrial wastes (Cheirsilp et al ., ; Johnson, ; Taskin, ). They are also naturally capable of bioconverting a variety of by‐products of the agrifood industry into added value primary and secondary metabolites and, based on that, have been proposed as a source of pigments and metabolites of interest in the food industry (Hernández‐Almanza et al ., ), as oil producers for biofuel application (Galafassi et al ., ; Li et al ., ; Tampitak et al ., ) and as enzyme producers (Canli et al ., ; Taskin, ). Moreover, these yeasts show antimicrobial activity against pathogenic fungi involved in postharvest diseases of fruit and vegetables (Li et al ., ; Zhang et al ., , ).…”

Section: Introductionmentioning

confidence: 99%

Proteomic analysis of Rhodotorula mucilaginosa: dealing with the issues of a non‐conventional yeast

Addis

Tanca

Landolfo

et al. 2016

Yeast

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Red yeasts ascribed to the species Rhodotorula mucilaginosa are gaining increasing attention, due to their numerous biotechnological applications, spanning carotenoid production, liquid bioremediation, heavy metal biotransformation and antifungal and plant growth-promoting actions, but also for their role as opportunistic pathogens. Nevertheless, their characterization at the 'omic' level is still scarce. Here, we applied different proteomic workflows to R. mucilaginosa with the aim of assessing their potential in generating information on proteins and functions of biotechnological interest, with a particular focus on the carotenogenic pathway. After optimization of protein extraction, we tested several gel-based (including 2D-DIGE) and gel-free sample preparation techniques, followed by tandem mass spectrometry analysis. Contextually, we evaluated different bioinformatic strategies for protein identification and interpretation of the biological significance of the dataset. When 2D-DIGE analysis was applied, not all spots returned a unambiguous identification and no carotenogenic enzymes were identified, even upon the application of different database search strategies. Then, the application of shotgun proteomic workflows with varying levels of sensitivity provided a picture of the information depth that can be reached with different analytical resources, and resulted in a plethora of information on R. mucilaginosa metabolism. However, also in these cases no proteins related to the carotenogenic pathway were identified, thus indicating that further improvements in sequence databases and functional annotations are strictly needed for increasing the outcome of proteomic analysis of this and other non-conventional yeasts.

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Effects of extremely low magnetic field on the production of invertase by Rhodotorula glutinis

Cited by 36 publications

References 26 publications

Low‐Frequency Magnetic Field of Appropriate Strengths Changed Secondary Metabolite Production and Na⁺ Concentration of Intracellular and Extracellular Monascus purpureus

Low‐Frequency Magnetic Field of Appropriate Strengths Changed Secondary Metabolite Production and Na⁺ Concentration of Intracellular and Extracellular Monascus purpureus

Effects of extremely low frequency magnetic field on production of mannatide by α‐hemolytic Streptococcus

Proteomic analysis of Rhodotorula mucilaginosa: dealing with the issues of a non‐conventional yeast

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Effects of extremely low magnetic field on the production of invertase by Rhodotorula glutinis

Cited by 36 publications

References 26 publications

Low‐Frequency Magnetic Field of Appropriate Strengths Changed Secondary Metabolite Production and Na+ Concentration of Intracellular and Extracellular Monascus purpureus

Low‐Frequency Magnetic Field of Appropriate Strengths Changed Secondary Metabolite Production and Na+ Concentration of Intracellular and Extracellular Monascus purpureus

Effects of extremely low frequency magnetic field on production of mannatide by α‐hemolytic Streptococcus

Proteomic analysis of Rhodotorula mucilaginosa: dealing with the issues of a non‐conventional yeast

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Low‐Frequency Magnetic Field of Appropriate Strengths Changed Secondary Metabolite Production and Na⁺ Concentration of Intracellular and Extracellular Monascus purpureus

Low‐Frequency Magnetic Field of Appropriate Strengths Changed Secondary Metabolite Production and Na⁺ Concentration of Intracellular and Extracellular Monascus purpureus