Potential causes and consequences of rapid mitochondrial genome evolution in thermoacidophilic Galdieria (Rhodophyta)

Cho, Chung Hyun; Park, Seung In; Ciniglia, Claudia; Yang, Eun Chan; Graf, Louis; Bhattacharya, Debashish; Yoon, Hwan Su

doi:10.1186/s12862-020-01677-6

Cited by 16 publications

(15 citation statements)

References 94 publications

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“…However, the G-C skew was different from the four Aspergillus species, except A. cristatum. Moreover, it showed a relatively strong preference for the C-base and that result was consistent with the study conducted by Cho et al (2020), who reported that there was a certain correlation of base skew with the geographical location and environmental pressure of the species. It was speculated that this difference was attributed to the directional mutation of the mitochondrial DNA of A. chevalieri and A. cristatum, as the dominant bacteria of dark tea fermentation, under the long-term influence of a special environment.…”

Section: Nucleotide Composition Of Mitochondrial Genomesupporting

confidence: 91%

Comparison of Aspergillus chevalieri and related species in dark tea at different aspects: Morphology, enzyme activity and mitochondrial genome

Liu

Xu³

et al. 2021

Food Processing Preservation

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In this study, the whole mitochondrial genome sequencing of Aspergillus chevalieri, which was isolated from dark tea were analyzed and compared with its two related species (Aspergillus cristatum and Aspergillus pseudoglaucus). Results indicated that the mitochondrial genome of A. chevalieri was 56,139 bp in length, the content of the four bases A, T, C and G are 36.83%, 35.79%, 12.30% and 15.08% respectively, its genome encoded 44 genes. The phylogenetic tree constructed with mitochondrial protein‐encoding genes could effectively clarify the evolutionary relationship between A. chevalieri, A. cristatum, A. pseudoglaucus and other Aspergillus species. The morphological characteristics and extracellular enzyme activities of the 3 Aspergillus were further analyzed. Results showed that there were certain differences in the microstructure and enzymatic characteristics of the three Aspergillus species. This study improves the taxonomy status of Aspergillus and is conducive to the control of the fermentation process of dark tea. Practical applications Aspergillus is a dominant and essential microorganism in several types of fermented foods, especially dark tea. However, Aspergillus species were easy to be confused. Our research compares and analyzes the Aspergillus chevalieri, Aspergillus cristatum, and Aspergillus pseudoglaucus in dark tea from the three aspects of the mitochondrial genome, morphological characteristics, and enzyme activity, which is helpful for identify and control of the key microorganisms in the fermentation of dark tea and stabilize the product quality.

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Section: Nucleotide Composition Of Mitochondrial Genomesupporting

confidence: 91%

Comparison of Aspergillus chevalieri and related species in dark tea at different aspects: Morphology, enzyme activity and mitochondrial genome

Liu

Xu³

et al. 2021

Food Processing Preservation

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“…Mitochondrial genomes features, such as genome size, number of CDS, synteny and high CG content are shared by all the isolates and consistent with those described in previous works [69,70]. As stated by Jain et al in 2015, the high GC skew could be a consequence of the heterotrophic life of G. sulphuraria, which requires an increase of the energy request from mitochondria when it finds itself living endolithically and in the dark [69].…”

Section: General Features Of Plastid Mitochondrial and Nuclear Genomessupporting

confidence: 87%

“…For instance, the longest noncoding and most variable region in animal mitochondrial DNA is identified as Control Region (CR) and comprises a third strand of DNA, creating a D-loop [71]. In vertebrates this region has strand-specific bias and is involved in the asymmetric DNA replication mechanism [70,72].…”

Section: General Features Of Plastid Mitochondrial and Nuclear Genomesmentioning

confidence: 99%

Resolving Complexities in Taxonomic Lineages of the Organellar and Nuclear Genomes of Galdieria through Comparative Phylogenomic Analysis

Iovinella

Lock

Downing

et al. 2022

Preprint

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Exploration of life in extreme environments allows the discovery of intriguing organisms with extraordinary biotechnological potential. An example of extreme environments is represented by hot springs, where harsh conditions (pH < 1; Temperature > 50C; high concentrations of metals) are prohibitive for most living organisms, except for archaea, bacteria and a few eukaryotes like the unicellular red alga Galdieria. Phylogenetic analysis based on a few plastid and nuclear genes highlighted the intricate genetic structure of Galdieria and the hypothesis of diverging clades within the G. sulphuraria species. To resolve enigmatic relationships between lineages, we used plastid, mitochondrial and nuclear genome-scale data obtained from numerous strains from around the world. The resulting phylogenomic analysis identified: i) the divergence of each of the mitochondrial, plastid, and nuclear genomes into the same six clear lineages; ii) the independent evolution of the lineages; iii) the incongruent interlineages relationships between the three genomes. Differential evolutionary pressure between the strains and the genomes were also highlighted by synonymous and non-synonymous substitutions.

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“…Highly diverged genomic features between Galdieriales and Cyanidiales species also likely resulted in phenotypic differences (e.g., size, shape, and organelle features) and local adaptation to microhabitats 19 . Galdieriales occupies a more diverse variety of niches in extreme environments (e.g., mine drainage sites, endolithic environments) than do Cyanidiales species, whose habitats (e.g., ditches and streams near hot springs) may be more ecologically stable 13 , 42 .…”

Section: Resultsmentioning

confidence: 99%

“…Several lines of evidence (e.g., phylogeny, morphological traits, ecological habitats, and energy production systems) suggest that the Cyanidiophyceae is divided into two major orders, the Cyanidiales and Galdieriales (previously Cyanidiaceae and Galdieriaceae) 18 , 19 . Draft genome assemblies are currently available for 14 cyanidiophyceans: one strain of Cyanidioschyzon merolae , two strains of Cyanidiococcus yangmingshanensis , nine strains of Galdieria sulphuraria , and two strains of Galdieria phlegrea 9 , 14 , 15 , 20 , 21 .…”

Section: Introductionmentioning

confidence: 99%

Genome-wide signatures of adaptation to extreme environments in red algae

et al. 2023

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The high temperature, acidity, and heavy metal-rich environments associated with hot springs have a major impact on biological processes in resident cells. One group of photosynthetic eukaryotes, the Cyanidiophyceae (Rhodophyta), has successfully thrived in hot springs and associated sites worldwide for more than 1 billion years. Here, we analyze chromosome-level assemblies from three representative Cyanidiophyceae species to study environmental adaptation at the genomic level. We find that subtelomeric gene duplication of functional genes and loss of canonical eukaryotic traits played a major role in environmental adaptation, in addition to horizontal gene transfer events. Shared responses to environmental stress exist in Cyanidiales and Galdieriales, however, most of the adaptive genes (e.g., for arsenic detoxification) evolved independently in these lineages. Our results underline the power of local selection to shape eukaryotic genomes that may face vastly different stresses in adjacent, extreme microhabitats.

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Potential causes and consequences of rapid mitochondrial genome evolution in thermoacidophilic Galdieria (Rhodophyta)

Cited by 16 publications

References 94 publications

Comparison of Aspergillus chevalieri and related species in dark tea at different aspects: Morphology, enzyme activity and mitochondrial genome

Comparison of Aspergillus chevalieri and related species in dark tea at different aspects: Morphology, enzyme activity and mitochondrial genome

Resolving Complexities in Taxonomic Lineages of the Organellar and Nuclear Genomes of Galdieria through Comparative Phylogenomic Analysis

Genome-wide signatures of adaptation to extreme environments in red algae

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