Copper stress response in yeast <i>Rhodotorula mucilaginosa </i><scp>AN</scp>5 isolated from sea ice, Antarctic

Kan, Guangfeng; Wang, Xiaofei; Jiang, Jie; Zhang, Chengsheng; Chi, Minglei; Ju, Yun; Shi, Cuijuan

doi:10.1002/mbo3.657

Cited by 33 publications

(22 citation statements)

References 90 publications

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“…Taxa affiliated to the Microbotryomycetes class were mainly present in the 900 years old clear ice layer, corresponding to a variety of black yeasts belonging to Mrakia sp., C. victoriae and Rhodotorula sp. (Kan and others, 2018). These phylotypes, also found in cultured fungal communities from Scărișoara Ice Cave in both 1 and 900 years old ice layers (Brad and others, 2018), have been recently identified in 10 000 years old permafrost from Swiss Alps (Frey and others, 2016).…”

Section: Discussionmentioning

confidence: 94%

High-throughput sequencing of fungal communities across the perennial ice block of Scărișoara Ice Cave

Mondini¹,

Donhauser

Iţcuş³

et al. 2018

Ann. Glaciol.

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This survey presents the first high-throughput characterisation of fungal distribution based on ITS2 Illumina sequencing of uncultured microbiome from a 1500 years old perennial ice deposit in Scărișoara Ice Cave, Romania. Of the total of 1 751 957 ITS2 sequences, 64% corresponded to 182 fungal operational taxonomic units, showing a low diversity, particularly in older ice strata, and a distinct temporal distribution pattern. Ascomycota was the major phylum in all ice samples, dominating the 400 and 1500 years old ice strata deposited during the cold Little Ice Age (LIA) and Dark Ages Cold Period, while Basidiomycota was mostly present in 900-years old ice formed during the Medieval Warm Period (MWP). Chytridiomycota and Mucoromycota phyla were present in recently formed and 400-years old ice, respectively. Among the 80 identified genera, Cryptococcus victoriae, commonly found in glacial habitats, was identified in all strata. A positive correlation between fungal distribution and ice conductivity, Ca, Na and Sr concentrations was observed across the ice block, with pH values trailing climate variations during LIA and MWP, respectively. Our record highlighted the presence of a complex climate and environmental-driven fungal community in perennial ice strata accumulated during the last 1500 years in Scărișoara Ice Cave.

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Section: Discussionmentioning

confidence: 94%

High-throughput sequencing of fungal communities across the perennial ice block of Scărișoara Ice Cave

Mondini¹,

Donhauser

Iţcuş³

et al. 2018

Ann. Glaciol.

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“…All the reports that have studied the effect of metal on carotenoid production confirmed its stimulatory role on carotenoid production, explaining this by hypothesising a possible activation or inhibition mechanism of selected metal ions on specific carotenogenic enzymes, in particular, on a specific desaturase involved in carotenoid biosynthesis [14]. Elsewhere, it was noted that the determination of physiological and biochemical changes of Rhodotorula mucilaginosa AN5 after progressive copper treatment stated a significant increase in the antioxidative reagents content and enzymes activity, which quenched the active oxygen species to maintain the intercellular balance of the redox state and ensure the cellular fission and growth [55]. Another recent study implemented multi-omics metabolism analysis to investigate the mechanisms involved in irradiation-induced stress resistance in R. glutinis.…”

Section: Impact Of Aluminium Sulfate On Lipogenesis and Carotenoid Prmentioning

confidence: 99%

“…Sci. 2019, 9, x FOR PEER REVIEW 14 of 20 maintain the intercellular balance of the redox state and ensure the cellular fission and growth [55]. Another recent study implemented multi-omics metabolism analysis to investigate the mechanisms involved in irradiation-induced stress resistance in R. glutinis.…”

Section: Impact Of Aluminium Sulfate On Lipogenesis and Carotenoid Prmentioning

confidence: 99%

Lipid and Carotenoid Production by Rhodotorula glutinis with a Combined Cultivation Mode of Nitrogen, Sulfur, and Aluminium Stress

et al. 2019

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Torulene is a promising pink pigment, produced only by yeasts and fungi, and its production is still in a developing stage due to the low production rate. Accordingly, this study focuses on maximizing torulene production by Rhodotorula glutinis using shaken flask fermentation. The effect of different nitrogen sources, and C/N and C/S ratios on lipid and carotenoid production by R. glutinis was studied using 60 g/L glucose. The largest cells filled with golden fluorescence lipid bodies were observed using fluorescence microscopy when peptone was used as a nitrogen source. The highest total pigment (0.947 mg/L) and carotenoid relative productivity (Car-RP) (89.04 µg/g) were obtained at C/N 146 and C/S 120, and with ammonium sulfate as a nitrogen source, with 62% torulene domination using High Performance Liquid Chromatography (HPLC) for identification. Under a high C/N ratio, regardless of the C/S ratio, the carotenoid synthesis rate decreased after three days while the lipid synthesis rate kept increasing to the sixth day. Interestingly, after adding 0.7 mM Al2(SO4)3 to the optimized medium, the total pigment and Car-RP (2.2 mg/L and 212.9 µg/g) sharply increased, producing around 2.16 mg/L torulene (98%) with around 50% decrease in lipid yield. This is the first report on the role of Al2(SO4)3 for enhancing torulene production under lipogenesis condition, which could be used as a potential tool for torulene production.

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“…Whereas, to the best of our knowledge, no relevant study of the MTs from the Antarctic yeast Rhodotorula mucilaginosa was published. While metal tolerance and protein response to metal stress in this yeast have been reported , MT‐mediated metal adaptation has not. In this study, the MT gene ( RmMT ) from the polar yeast R. mucilaginosa AN5 was cloned and its molecular characteristics were studied.…”

Section: Introductionmentioning

confidence: 94%

Cloning and functional characterization of a novel metallothionein gene in Antarctic sea‐ice yeast (Rhodotorula mucilaginosa)

Kan

Zhou

et al. 2019

J Basic Microbiol

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Metallothionein (MT) is a low-molecular-weight protein with a high metal binding capacity and plays a key role in organism adaptation to heavy metals. In this study, a metallothionein gene was successfully cloned and sequenced from Antarctic sea-ice yeast Rhodotorula mucilaginosa AN5. Nucleotide sequencing and analysis revealed that the gene had four exons interrupted by three introns. MTs complementary DNA (named as RmMT) had an open reading frame of 321 bp encoding a 106 amino acid protein with a predicted molecular weight of 10.3 kDa and pI of 8.49. The number of amino acids and distribution of cysteine residues indicated that RmMT was a novel family of fungal MTs. Quantitative real-time polymerase chain reaction analysis showed that RmMT expression was elevated under copper-induced stress. TheRmMT gene was transferred into E. coli and the RmMT expressing bacteria showed improved tolerance to copper ion and increased accumulation of heavy metals, such as Cu 2+ , Pb 2+ , Zn 2+ , Cd 2+ , and Ag + . Moreover, in vitro studies, purified recombinant RmMT demonstrated that it could be used as a good scavenger of superoxide anion, hydroxyl, and 1,1-Diphenyl-2-picrylhydrazyl (DPPH) radicals. In summary, these results demonstrate that RmMT plays a key role in the tolerance and bioaccumulation of heavy metals. K E Y W O R D Sfunctional analysis, heavy metal, metallothionein, polar yeast

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Copper stress response in yeast Rhodotorula mucilaginosa AN5 isolated from sea ice, Antarctic

Cited by 33 publications

References 90 publications

High-throughput sequencing of fungal communities across the perennial ice block of Scărișoara Ice Cave

High-throughput sequencing of fungal communities across the perennial ice block of Scărișoara Ice Cave

Lipid and Carotenoid Production by Rhodotorula glutinis with a Combined Cultivation Mode of Nitrogen, Sulfur, and Aluminium Stress

Cloning and functional characterization of a novel metallothionein gene in Antarctic sea‐ice yeast (Rhodotorula mucilaginosa)

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