Time-dependent rates of molecular evolution

Ho, Simon Y. W.; Lanfear, Robert; Bromham, Lindell; Phillips, Matthew J.; Soubrier, Julien; Rodrigo, Allen G.; Cooper, Alan

doi:10.1111/j.1365-294x.2011.05178.x

Cited by 493 publications

(509 citation statements)

References 143 publications

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“…The accuracy of molecular divergence date estimates is directly related to the quality of calibration data, and their proximity to the date of interest. In this regard, the use of deep fossil calibration points has been shown to be inappropriate for intra-specific and recent inter-specific divergences 18,19 , such as those within Dusicyon. The radiocarbon dates associated with the ancient sequences of D. avus provide much closer calibration points to the late Pleistocene events under consideration than the early canid fossils used in Slater et al 7 , and importantly do not suffer from the same uncertainty over taxonomic identification and phylogenetic position.…”

Section: Discussionmentioning

confidence: 99%

“…To examine the problems caused by the temporal dependency of molecular dates, we performed molecular dating analyses using either internal (radiocarbon), or external (fossil), dates. The advantages of using internal calibrations to study recent evolutionary events are well established 18,19 , and given a divergence event thought to be late Pleistocene (natural dispersal) or Holocene (human dispersal), the internal radiocarbon dates for D. avus appear far more appropriate than external fossil dates of 4-32 Ma (with largely unknown error margins) and uncertain taxonomic/ phylogenetic position.…”

Section: Samples Seven D Avus Teeth Representing Different Individumentioning

confidence: 99%

“…However, even if this date estimate was approximately accurate, the colonization event could have been considerably older or younger than this depending on the demographic history, any subsequent lineage extinctions 16 , and the relationship between the FIW and unsampled mainland relatives 17 . Furthermore, the use of external fossil calibrations to date recent events is known to be problematic due to the temporal dependency of molecular rates 18,19 . Either way, while the estimated 330 ka date and wide error margins (70-640 ka) clearly predates human arrival, it provided little evidence as to how the FIW might have colonized the islands.…”

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The origins of the enigmatic Falkland Islands wolf

et al. 2013

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The origins of the extinct Falkland Islands wolf (FIW), Dusicyon australis, have remained a mystery since it was first recorded by Europeans in the seventeenth century. It is the only terrestrial mammal on the Falkland Islands (also known as the Malvinas Islands), which lie B460 km from Argentina, leading to suggestions of either human-mediated transport or overwater dispersal. Previous studies used ancient DNA from museum specimens to suggest that the FIW diverged from its closest living relative, the South American maned wolf (Chrysocyon brachyurus) around 7 Ma, and colonized the islands B330 ka by unknown means. Here we retrieve ancient DNA from subfossils of an extinct mainland relative, Dusicyon avus, and reveal the FIW lineage became isolated only 16 ka (8-31 ka), during the last glacial phase. Submarine terraces, formed on the Argentine coastal shelf by low sea-stands during this period, suggest that the FIW colonized via a narrow, shallow marine strait, potentially while it was frozen over.

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Section: Discussionmentioning

confidence: 99%

Section: Samples Seven D Avus Teeth Representing Different Individumentioning

confidence: 99%

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The origins of the enigmatic Falkland Islands wolf

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“…However, it has been suggested that there is a time dependence of substitution rates that can influence the estimation of the age of splitting events [2]. More recently separated populations show generally higher rates, while rates between long separated populations (greater than 1 Myr) converge to a lower level.…”

Section: Introductionmentioning

confidence: 99%

Increased mitochondrial mutation frequency after an island colonization: positive selection or accumulation of slightly deleterious mutations?

Hardouin

Tautz

2013

Biol. Lett.

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Island colonizations are excellent models for studying early processes of evolution. We found in a previous study on mice that had colonized the sub-Antarctic Kerguelen Archipelago about 200 years ago that they were derived from a single founder lineage and that this showed an unexpectedly large number of new mutations in the mitochondrial D-loop. To assess whether positive selection has played a role in the emergence of these variants, we have obtained 16 full mitochondrial genome sequences from these mice. For comparison, we have compiled 57 mitochondrial genome sequences from laboratory inbred lines that became established about 100 years ago, also starting from a single founder lineage. We find that the island mice and the laboratory lines show very similar mutation frequencies and patterns. None of the patterns in the Kerguelen mice provides evidence for positive selection. We conclude that nearly neutral evolutionary processes that assume the presence of slightly deleterious variants can fully explain the patterns. This supports the notion of time-dependency of molecular evolution and provides a new calibration point. Based on the observed mutation frequency, we calculate an average evolutionary rate of 0.23 substitutions per site per Myr for the earliest time frame of divergence, which is about six times higher than the long-term rate of 0.037 substitutions per site per Myr.

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“…However, we highlight the possibility that the choice of mutation rates can bias the estimation of divergence time, especially as (1) evolutionary rates may actually be time dependent and (2) the evolutionary rate estimate can depend on the timescale of measurement. 29 A comprehensive characterization of time-dependent biases in evolutionary rate is likely to be important but regretfully beyond the scope of the current study.…”

Section: Discussionmentioning

confidence: 99%

Estimating time to the most recent common ancestor (TMRCA): comparison and application of eight methods

Zhou

Teo

2015

Eur J Hum Genet

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Investigating how an ancestral population diverges to give rise to distinct subpopulations remains a fundamental pursuit in population genetics. There is broad consensus for the 'Out-of-Africa' hypothesis that states that modern humans arose ∼ 200 000 years ago in Africa and spread throughout the continent ∼ 100 000 years ago. This was followed by several waves of major population dispersals across the globe, although the exact nature of the population divergence remains debatable. Existing methods to estimate population divergence time differ in their methodological frameworks and demographic assumptions, and require different types of genetic data as input. These fundamental differences often result in the methods producing inconsistent estimates of the population divergence time, further confounding attempts to robustly uncover the history of human migration, especially when most population genetic studies do not employ multiple methods to estimate the time to the most recent common ancestor (TMRCA). Here, we chose eight popular methods for estimating TMRCA and evaluated their robustness and accuracy in correctly identifying the true TMRCA through a series of simulations that mimicked different evolutionary scenarios. We subsequently applied all eight methods to estimate the population divergence time between Southeast Asian Malays and South Asian Indians using deep whole-genome sequencing data.

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Time-dependent rates of molecular evolution

Cited by 493 publications

References 143 publications

The origins of the enigmatic Falkland Islands wolf

The origins of the enigmatic Falkland Islands wolf

Increased mitochondrial mutation frequency after an island colonization: positive selection or accumulation of slightly deleterious mutations?

Estimating time to the most recent common ancestor (TMRCA): comparison and application of eight methods

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