Oxygen and RNA in stress-induced mutation

Correa, Raúl; Thornton, P. C.; Rosenberg, Susan M.; Hastings, P. J.

doi:10.1007/s00294-017-0801-9

Cited by 7 publications

(5 citation statements)

References 84 publications

(142 reference statements)

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“…Although the spectrum of junction sequences is similar between MMEJ and MMBIR, SNV is only reported up to 14 kb from microhomology in yeast MMEJ events (Sinha et al, 2017). Therefore, we propose that the events lacking SNV and indel mutations may also occur by MMBIR or BIR, but that a converging replication fork or resolution of the recombination structure could limit the mutation tract in these cases (Correa et al, 2018;Mayle et al, 2015). The absence of long-distance SNV associated with recurrent events suggests that most do not occur by BIR, but rather by homologous reciprocal exchange (crossing over) (Shaw et al, 2002).…”

Section: Discussionmentioning

confidence: 85%

Megabase Length Hypermutation Accompanies Human Structural Variation at 17p11.2

Beck¹,

Carvalho²,

Akdemir³

et al. 2019

Cell

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Section: Discussionmentioning

confidence: 85%

Megabase Length Hypermutation Accompanies Human Structural Variation at 17p11.2

Beck¹,

Carvalho²,

Akdemir³

et al. 2019

Cell

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“…Several authors have already proposed that cellular stresses (i.e., environmental fluctuations above a physiological range) induce "adaptive mutations" (i.e., mutations that occur at a high rate) or "directed mutations" (i.e., mutations occurring at specific genomic locations) [103][104][105]. A possible underlying mechanism is that stress-directed transcriptional activation of specific loci (as part of the cellular physiological adaptation) increases the probability of mutations occurring within these loci because transcription induces mechanical stresses (e.g., formation of supercoiling) that challenge the physical integrity of transcribed DNA [12,34,[104][105][106][107]. Next, how this straightforward principle establishes a continuum between physiological and genetic adaption is described below.…”

Section: Genetic Adaptation Directed By Transcription: Transcription-mentioning

confidence: 99%

“…Transcription-dependent chromatin relaxation and ssDNA formation increase the accessibility of transcribed DNA regions to mutational agents or so-called "transcription-associated mutations" [5,12,34,[105][106][107]129].…”

Section: Genetic Adaptation Directed By Transcription: Role Of Ssdna mentioning

confidence: 99%

Physicochemical Foundations of Life that Direct Evolution: Chance and Natural Selection are not Evolutionary Driving Forces

Auboeuf

2020

Life

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The current framework of evolutionary theory postulates that evolution relies on random mutations generating a diversity of phenotypes on which natural selection acts. This framework was established using a top-down approach as it originated from Darwinism, which is based on observations made of complex multicellular organisms and, then, modified to fit a DNA-centric view. In this article, it is argued that based on a bottom-up approach starting from the physicochemical properties of nucleic and amino acid polymers, we should reject the facts that (i) natural selection plays a dominant role in evolution and (ii) the probability of mutations is independent of the generated phenotype. It is shown that the adaptation of a phenotype to an environment does not correspond to organism fitness, but rather corresponds to maintaining the genome stability and integrity. In a stable environment, the phenotype maintains the stability of its originating genome and both (genome and phenotype) are reproduced identically. In an unstable environment (i.e., corresponding to variations in physicochemical parameters above a physiological range), the phenotype no longer maintains the stability of its originating genome, but instead influences its variations. Indeed, environment- and cellular-dependent physicochemical parameters define the probability of mutations in terms of frequency, nature, and location in a genome. Evolution is non-deterministic because it relies on probabilistic physicochemical rules, and evolution is driven by a bidirectional interplay between genome and phenotype in which the phenotype ensures the stability of its originating genome in a cellular and environmental physicochemical parameter-depending manner.

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“…Mutation rates can also vary between different chromosomal regions [ 46 , 47 , 48 , 49 ]. The frequency of mutations can be elevated either constitutively, due to loss-of function mutations in genes for DNA repair systems [ 50 ], or transiently, in response to DNA damage or other stress situations [ 51 , 52 , 53 , 54 , 55 , 56 ]. Transiently increased mutability could be a consequence of the action of specialized DNA polymerases following exposure to DNA damaging agents or other environmental stresses [ 57 , 58 ].…”

Section: Introductionmentioning

confidence: 99%

Pseudouridines of tRNA Anticodon Stem-Loop Have Unexpected Role in Mutagenesis in Pseudomonas sp.

et al. 2020

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Pseudouridines are known to be important for optimal translation. In this study we demonstrate an unexpected link between pseudouridylation of tRNA and mutation frequency in Pseudomonas species. We observed that the lack of pseudouridylation activity of pseudouridine synthases TruA or RluA elevates the mutation frequency in Pseudomonas putida 3 to 5-fold. The absence of TruA but not RluA elevates mutation frequency also in Pseudomonas aeruginosa. Based on the results of genetic studies and analysis of proteome data, the mutagenic effect of the pseudouridylation deficiency cannot be ascribed to the involvement of error-prone DNA polymerases or malfunctioning of DNA repair pathways. In addition, although the deficiency in TruA-dependent pseudouridylation made P. putida cells more sensitive to antimicrobial compounds that may cause oxidative stress and DNA damage, cultivation of bacteria in the presence of reactive oxygen species (ROS)-scavenging compounds did not eliminate the mutator phenotype. Thus, the elevated mutation frequency in the absence of tRNA pseudouridylation could be the result of a more specific response or, alternatively, of a cumulative effect of several small effects disturbing distinct cellular functions, which remain undetected when studied independently. This work suggests that pseudouridines link the translation machinery to mutation frequency.

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Oxygen and RNA in stress-induced mutation

Cited by 7 publications

References 84 publications

Megabase Length Hypermutation Accompanies Human Structural Variation at 17p11.2

Megabase Length Hypermutation Accompanies Human Structural Variation at 17p11.2

Physicochemical Foundations of Life that Direct Evolution: Chance and Natural Selection are not Evolutionary Driving Forces

Pseudouridines of tRNA Anticodon Stem-Loop Have Unexpected Role in Mutagenesis in Pseudomonas sp.

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