The ''E. coli'' long-term evolution experiment (LTEE) is an ongoing study in
experimental evolution
Experimental evolution is the use of laboratory experiments or controlled field manipulations to explore evolutionary dynamics. Evolution may be observed in the laboratory as individuals/populations adapt to new environmental conditions by natura ...
led by
Richard Lenski
Richard Eimer Lenski (born August 13, 1956) is an American evolutionary biologist, a Hannah Distinguished Professor of Microbial Ecology at Michigan State University. He is a member of the National Academy of Sciences and a MacArthur fellow. ...
at
Michigan State University, and currently overseen by Jeffrey E. Barrick at
The University of Texas at Austin
The University of Texas at Austin (UT Austin, UT, or Texas) is a public research university in Austin, Texas. It was founded in 1883 and is the oldest institution in the University of Texas System. With 40,916 undergraduate students, 11,075 ...
. It has been tracking genetic changes in 12 initially identical populations of asexual ''
Escherichia coli
''Escherichia coli'' (),Wells, J. C. (2000) Longman Pronunciation Dictionary. Harlow ngland Pearson Education Ltd. also known as ''E. coli'' (), is a Gram-negative, facultative anaerobic, rod-shaped, coliform bacterium of the genus '' Esc ...
'' bacteria since 24 February 1988.
Lenski performed the 10,000th
transfer
Transfer may refer to:
Arts and media
* ''Transfer'' (2010 film), a German science-fiction movie directed by Damir Lukacevic and starring Zana Marjanović
* ''Transfer'' (1966 film), a short film
* ''Transfer'' (journal), in management studies
...
of the experiment on March 13, 2017. The populations reached over 73,000 generations in early 2020, shortly before being frozen because of the COVID-19 pandemic. In September 2020, the LTEE experiment was resumed using the frozen stocks.
Over the course of the experiment, Lenski and his colleagues have reported a wide array of phenotypic and genotypic changes in the evolving populations. These have included changes that have occurred in all 12 populations and others that have only appeared in one or a few populations. For example, all 12 populations showed a similar pattern of rapid improvement in fitness that decelerated over time, faster growth rates, and increased cell size. Half of the populations have evolved defects in DNA repair that have caused mutator phenotypes marked by elevated mutation rates. The most striking adaptation reported so far is the evolution of aerobic growth on citrate, which is unusual in ''E. coli'', in one population at some point between generations 31,000 and 31,500.
On May 4, 2020, Lenski announced a 5-year renewal of the grant through th
National Science Foundation's Long-Term Research in Environmental Biology (LTREB) Programthat supports the LTEE. He also announced that Dr. Jeffrey E. Barrick, an associate professor of Molecular Biosciences at The University of Texas at Austin, would take over supervision of the experiment within the 5-year funding period.
The experiment's time at Michigan State University ended in May 2022, when the populations reached 75,000 generations, and the experiment was transferred to Barrick's lab. The experiment was revived and restarted in Barrick's lab on June 21, 2022.
Experimental approach
The long-term evolution experiment was designed as an open-ended means of empirical examination of central features of
evolution
Evolution is change in the heritable characteristics of biological populations over successive generations. These characteristics are the expressions of genes, which are passed on from parent to offspring during reproduction. Variation ...
. The experiment was begun with three principal goals:
# To examine the dynamics of evolution, including the rate of evolutionary change.
# To examine the repeatability of evolution.
# To better understand the relationship between change on the
phenotypic
In genetics, the phenotype () is the set of observable characteristics or traits of an organism. The term covers the organism's morphology or physical form and structure, its developmental processes, its biochemical and physiological proper ...
and
genotypic
The genotype of an organism is its complete set of genetic material. Genotype can also be used to refer to the alleles or variants an individual carries in a particular gene or genetic location. The number of alleles an individual can have in a ...
levels.
As the experiment has continued, its scope has grown as new questions in evolutionary biology have arisen that it can be used to address, as the populations' evolution has presented new phenomena to study, and as technology and methodological techniques have advanced.
The use of ''E. coli'' as the experimental organism has allowed many generations and large populations to be studied in a relatively short period of time. Moreover, due to the long use of ''E. coli'' as a principle model organism in
molecular biology
Molecular biology is the branch of biology that seeks to understand the molecular basis of biological activity in and between cells, including biomolecular synthesis, modification, mechanisms, and interactions. The study of chemical and physi ...
, a wide array of tools, protocols, and procedures were available for studying changes at the genetic, phenotypic, and physiological levels. The bacteria can also be frozen and preserved while remaining viable. This has permitted the creation of what Lenski describes as a "frozen fossil record" of samples of evolving populations that can be revived at any time. This frozen fossil record allows populations to be restarted in cases of contamination or other disruption in the experiment, and permits the isolation and comparison of living exemplars of ancestral and evolved clones. Lenski chose an ''E. coli'' strain that reproduces only
asexually, lacks any
plasmids that could permit
bacterial conjugation, and has no viable
prophage. As a consequence, evolution in the experiment occurs only by the core evolutionary processes of
mutation
In biology, a mutation is an alteration in the nucleic acid sequence of the genome of an organism, virus, or extrachromosomal DNA. Viral genomes contain either DNA or RNA. Mutations result from errors during DNA replication, DNA or viral repl ...
,
genetic drift
Genetic drift, also known as allelic drift or the Wright effect, is the change in the frequency of an existing gene variant (allele) in a population due to random chance.
Genetic drift may cause gene variants to disappear completely and there ...
, and
natural selection
Natural selection is the differential survival and reproduction of individuals due to differences in phenotype. It is a key mechanism of evolution, the change in the heritable traits characteristic of a population over generations. Cha ...
. This strict asexuality also means that
genetic marker A genetic marker is a gene or DNA sequence with a known location on a chromosome that can be used to identify individuals or species. It can be described as a variation (which may arise due to mutation or alteration in the genomic loci) that can be ...
s persist in lineages and clades by
common descent, but cannot otherwise spread in the populations.
Lenski chose to carry out the experiment with the bacteria grown in a glucose-limited medium called DM25,
which is based on a minimal medium developed by
Bernard Davis for use in isolating
auxotrophic
Auxotrophy ( grc, αὐξάνω "to increase"; ''τροφή'' "nourishment") is the inability of an organism to synthesize a particular organic compound required for its growth (as defined by IUPAC). An auxotroph is an organism that displays this ...
mutants of ''E. coli'' using
penicillin as a selective agent.
[ To make DM25, the minimal medium is supplemented with a low concentration (25 mg/L) of glucose.] Lenski chose this concentration to simplify analysis of the populations' evolution by reducing clonal interference
Clonal interference is a phenomenon in evolutionary biology, related to the population genetics of organisms with significant linkage disequilibrium, especially asexually reproducing organisms. The idea of clonal interference was introduced by A ...
, in which multiple versions of allele
An allele (, ; ; modern formation from Greek ἄλλος ''állos'', "other") is a variation of the same sequence of nucleotides at the same place on a long DNA molecule, as described in leading textbooks on genetics and evolution.
::"The chro ...
s are competing in an evolving population, while also reducing the possibility of the evolution of ecological interactions. This concentration of glucose used supports a maximum population of 500 million cells of the ancestor in a 10 mL culture, though the maximum now varies among the evolved populations.[ DM25 also contains a large amount of citrate (about 11 times the concentration of glucose), which was originally included by Davis because it improved the killing efficiency of penicillin during his experiments, though it is now known to aid in ''E. colis acquisition of iron from the medium.][
]
Methods
The 12 populations are maintained in a incubator in Lenski's laboratory at Michigan State University. Each day, 1% of each population is transferred to a flask of fresh DM25 growth medium. The dilution means that each population experiences 6.64 generations, or doublings, each day. Large, representative samples of each population are frozen with glycerol as a cryoprotectant
A cryoprotectant is a substance used to protect biological tissue from freezing damage (i.e. that due to ice formation). Arctic and Antarctic insects, fish and amphibians create cryoprotectants ( antifreeze compounds and antifreeze proteins) in ...
at 500-generation (75-day) intervals. The bacteria in these samples remain viable, and can be revived at any time. This collection of samples is referred to as the "frozen fossil record", and provides a history of the evolution of each population through the entire experiment. The populations are also regularly screened for changes in mean fitness
Fitness (often denoted w or ω in population genetics models) is the quantitative representation of individual reproductive success. It is also equal to the average contribution to the gene pool of the next generation, made by the same individu ...
, and supplemental experiments are regularly performed to study interesting developments in the populations. , the ''E. coli'' populations have been under study for over 64,500 generations, and are thought to have undergone enough spontaneous mutation
In biology, a mutation is an alteration in the nucleic acid sequence of the genome of an organism, virus, or extrachromosomal DNA. Viral genomes contain either DNA or RNA. Mutations result from errors during DNA or viral replication, m ...
s that every possible single point mutation
A point mutation is a genetic mutation where a single nucleotide base is changed, inserted or deleted from a DNA or RNA sequence of an organism's genome. Point mutations have a variety of effects on the downstream protein product—consequence ...
in the ''E. coli'' genome has occurred multiple times.
Founding strain
The strain of ''E. coli'' Lenski chose to use in the long-term evolution experiment was derived from "strain B", as described in a 1966 paper by Seymour Lederberg (which incorrectly identified the strain as "Bc251", although later genetic analysis found it to be "B" instead), via Bruce Levin, who had used it in a bacterial ecology experiment in 1972. The defining genetics traits of this strain were: T6r, Strr, r−m−, Ara− (unable to grow on arabinose). Lenski designated the original founding strain as REL606. Before the beginning of the experiment, Lenski isolated an Ara+ variant of the strain in which a point mutation
A point mutation is a genetic mutation where a single nucleotide base is changed, inserted or deleted from a DNA or RNA sequence of an organism's genome. Point mutations have a variety of effects on the downstream protein product—consequence ...
in the ''ara'' operon
In genetics, an operon is a functioning unit of DNA containing a cluster of genes under the control of a single promoter. The genes are transcribed together into an mRNA strand and either translated together in the cytoplasm, or undergo splic ...
had restored growth on arabinose, which he designated as strain REL607. When beginning the long-term evolution experiment, Lenski founded six populations with six individual Ara− colonies of REL606. These populations are referred to as Ara-1 through Ara-6. Lenski also founded six more populations from six individual Ara+ colonies of REL607. These are referred to as populations Ara+1 through Ara+6. The marker differences permit strains to be differentiated on Tetrazolium Arabinose plates, on which Ara− colonies appear red, while Ara+ colonies appear white to pink. Over the course of the experiment, each population has accumulated a large number of distinct mutations, which permit further means of identifying strains by their population of origin.
Results
Changes in fitness
Much analysis of the experiment has dealt with how the fitness of the populations relative to their ancestral strain has changed. All populations showed a pattern of rapid increase in relative fitness during early generations, with this increase decelerating over time. By 20,000 generations the populations grew approximately 70% faster than the ancestral strain. This increase and deceleration in increase has continued in subsequent generations. A 2013 study by Wiser et al. reported ongoing improvement at 50,000 generations relative to samples isolated at 40,000 generations. They found that the fitness increase fit to a power law model much better than the hyperbolic models that had been used earlier. As a power law model describes an ever-slowing increase that has no upper limit, while a hyperbolic model implies a hard limit, the work suggested that the increase would continue without bound as progressively lower benefit mutations were fixed in the populations. Further work published in 2015 reported the results of over 1100 new fitness assays that examined fitness changes through 60,000 generations. The data once again fit the proposed power law model, and, indeed, fit within predictions of the model from earlier data. These results suggest that, contrary to previous thinking, adaptation and adaptive divergence can potentially increase indefinitely, even in a constant environment.
Genome evolution
Of the 12 populations, six have so far been reported to have developed defects in their ability to repair DNA, greatly increasing the rate of mutation in those strains. Although the bacteria in each population are thought to have generated hundreds of millions of mutations over the first 20,000 generations, Lenski has estimated that within this time frame, only 10 to 20 beneficial mutations achieved fixation in each population, with fewer than 100 total point mutations (including neutral mutation Neutral mutations are changes in DNA sequence that are neither beneficial nor detrimental to the ability of an organism to survive and reproduce. In population genetics, mutations in which natural selection does not affect the spread of the mutatio ...
s) reaching fixation in each population. In 2009, Barrick et al. reported the results of genome sequences from multiple time points in population Ara-1. They found that, unlike the declining rate of fitness improvement, mutation accumulation was linear and clock like, even though several lines of evidence suggested that much of the accumulation was beneficial, rather than neutral.
Evolution of increased cell size in all twelve populations
All twelve of the experimental populations show an increase in cell size concurrent with a decline in maximum population density, and in many of the populations, a more rounded cell shape. This change was partly the result of a mutation that changed the expression
Expression may refer to:
Linguistics
* Expression (linguistics), a word, phrase, or sentence
* Fixed expression, a form of words with a specific meaning
* Idiom, a type of fixed expression
* Metaphorical expression, a particular word, phrase, o ...
of a gene for a penicillin-binding protein
Penicillin-binding proteins (PBPs) are a group of proteins that are characterized by their affinity for and binding of penicillin. They are a normal constituent of many bacteria; the name just reflects the way by which the protein was discov ...
, which allowed the mutant bacteria to outcompete ancestral bacteria under the conditions in the long-term evolution experiment. However, although this mutation increased fitness under these conditions, it also increased the bacteria's sensitivity to osmotic stress
Osmotic shock or osmotic stress is physiologic dysfunction caused by a sudden change in the solute concentration around a cell, which causes a rapid change in the movement of water across its cell membrane. Under hypertonic conditions - conditio ...
and decreased their ability to survive long periods in stationary phase cultures.
Ecological specialization
Over the course of the experiment, the populations have evolved to specialize on the glucose resource on which they grow. This was first described in 2000, when Cooper and Lenski demonstrated that all populations had experienced decay of unused metabolic functions after 20,000 generations, restricting the range of substances on which the bacteria could grow. Their analysis suggested that this decay was due to antagonistic pleiotropy, in which mutations that improved ability to grow on glucose had reduced or eliminated the ability to grow on other substances. A later study by Leiby and Marx that used more advanced techniques showed that much of the decay Cooper and Lenski had identified were experimental artifacts, that loss of unused functions was not as extensive as first thought, and that some unused functions had improved. Moreover, they concluded that the metabolic losses were not due to antagonistic pleiotropy, but the neutral accumulation of mutations in unused portions of the genome, suggesting that adaptation to a simple environment might not necessarily lead to specialization.
Evolution of balanced polymorphism and simple ecosystems
Two distinct variants, S and L, were identified in the population designated Ara-2 at 18,000 generations based on their formation of small and large colonies, respectively. Clones of the S and L types could co-exist stably in co-culture with each other, indicating they occupied distinct niches in the population. This was verified by the finding that the L type had an advantage during growth on glucose, but that S had an advantage during stationary phase, after glucose had run out. The two types were found to have initially evolved prior to 6,000 generations, and then co-existed thereafter.[ Phylogenetic analysis of clones of the two types isolated from different generations demonstrated that the S and L types belonged to distinct, co-existing lineages in the population, and might be undergoing incipient speciation.
]
Evolution of aerobic citrate usage in one population
Background
''E. coli'' is normally unable to grow aerobically on citrate
Citric acid is an organic compound with the chemical formula HOC(CO2H)(CH2CO2H)2. It is a colorless weak organic acid. It occurs naturally in citrus fruits. In biochemistry, it is an intermediate in the citric acid cycle, which occurs in the ...
due to the inability to express a citrate transporter when oxygen is present. However, ''E. coli'' has a complete citric acid cycle
The citric acid cycle (CAC)—also known as the Krebs cycle or the TCA cycle (tricarboxylic acid cycle)—is a series of chemical reactions to release stored energy through the oxidation of acetyl-CoA derived from carbohydrates, fats, and protein ...
, and therefore metabolizes citrate as an intermediate during aerobic growth on other substances, including glucose. Most ''E. coli'' can grow anaerobically on citrate via fermentation, if a co-substrate such as glucose is available to provide reducing power. The anaerobic
Anaerobic means "living, active, occurring, or existing in the absence of free oxygen", as opposed to aerobic which means "living, active, or occurring only in the presence of oxygen." Anaerobic may also refer to:
* Anaerobic adhesive, a bonding a ...
growth is possible due to the expression of a transmembrane citrate-succinate antiporter gene, ''citT'', which was first identified in 1998. This gene is co-regulated with other genes involved in citrate fermentation found on the ''cit'' operon, which is turned on only when oxygen is absent.
The inability to grow aerobically on citrate, referred to as a Cit− phenotype, is considered a defining characteristic of ''E. coli'' as a species, and one that has been a valuable means of differentiating ''E. coli'' from pathogenic ''Salmonella''. Although Cit+ strains of ''E. coli'' have been isolated from environmental and agricultural samples, in every such case, the trait was found to be due to the presence of a plasmid that carries a foreign citrate transporter. A single, spontaneous Cit+ mutant of ''E. coli'' was reported by Hall in 1982.[ This mutant had been isolated during prolonged selection for growth on another novel substance in a growth broth that also contained citrate. Hall's genetic analysis indicated the underlying mutation was complex, but he was ultimately unable to identify the precise changes or genes involved, leading him to hypothesize activation of a cryptic transporter gene.] The genome regions to which Hall was able to narrow down the locations of the changes do not correspond to the known location of the ''citT'' gene identified 16 years later, nor did the physiological characteristics in transport assays of Hall's Cit+ mutants match those to be expected for aerobic expression of the CitT transporter.[
]
Cit+ evolves in the LTEE
In 2008, Lenski's team, led by Zachary D. Blount, reported that the ability to grow aerobically on citrate had evolved in one population. Around generation 33,127, a dramatic increase in turbidity was observed in the population designated Ara-3. They found that the population contained clones that were able to grow aerobically on citrate (Cit+). This metabolic capacity permitted the population to grow several-fold larger than it had previously, due to the large amount of citrate present in the medium. Examination of frozen fossil samples of the populations showed that Cit+ clones could be isolated as early as 31,500 generations. The Cit+ variants in the population were found to possess a number of genetic markers unique to the Ara-3 population; this observation excluded the possibility that the clones were contaminants, rather than spontaneous mutants. In a series of experiments that "replayed" the tape of Ara-3 evolution from Cit− clones isolated from samples frozen at various time points in the population's history, they demonstrated that the ability to grow aerobically on citrate was more likely to re-evolve in a subset of genetically pure, evolved clones. In these experiments, they observed 19 new, independent instances of Cit+ re-evolution, but only when starting from clones isolated from after generation 20,000. Fluctuation tests showed that clones from this generation and later displayed a rate of mutation to the Cit+ trait which was significantly higher than the ancestral rate. Even in these later clones, the rate of mutation to Cit+ was on the order of one occurrence per trillion cell divisions.
Lenski and his colleagues concluded that the evolution of the Cit+ function in this one population arose due to one or more earlier, possibly nonadaptive, "potentiating" mutations that increased the rate of mutation to an accessible level. The data suggested that citrate usage involved at least two mutations subsequent to these "potentiating" mutations. More generally, the authors suggest these results indicate, following the argument of Stephen Jay Gould, "that historical contingency can have a profound and lasting impact" on the course of evolution.[ These findings have come to be considered a significant instance of the impact of historical contingency on evolution.]
Genomic analysis of the Cit+ trait and implications for evolutionary innovation
In 2012, Lenski and his team reported the results of a genomic analysis of the Cit+ trait that shed light on the genetic basis and evolutionary history of the trait. The researchers had sequenced the entire genomes of twenty-nine clones isolated from various time points in the Ara-3 population's history. They used these sequences to reconstruct the phylogenetic history of the population; this reconstruction showed that the population had diversified into three clades
A clade (), also known as a monophyletic group or natural group, is a group of organisms that are monophyletic – that is, composed of a common ancestor and all its lineal descendants – on a phylogenetic tree. Rather than the English term, ...
by 20,000 generations. The Cit+ variants had evolved in one of these, which they called Clade 3. Clones that had been found to be potentiated in earlier research were distributed among all three clades, but were over-represented in Clade 3. This led the researchers to conclude that there had been at least two potentiating mutations involved in Cit+ evolution.
The researchers also found that all Cit+ clones had mutations in which a 2933-base-pair segment of DNA was duplicated or amplified. The duplicated segment contained the gene ''citT'' for the citrate transporter protein used in anaerobic growth on citrate. The duplication is tandem, and resulted in copies that were head-to-tail with respect to each other. This new configuration placed a copy of the previously silent, unexpressed ''citT'' under the control of the adjacent ''rnk'' gene's promoter, which directs expression when oxygen is present. This new ''rnk-citT'' module produced a novel regulatory pattern for ''citT'', activating expression of the citrate transporter when oxygen was present, and thereby enabled aerobic growth on citrate.
Movement of this ''rnk-citT'' module into the genome of a potentiated Cit− clone was shown to be sufficient to produce a Cit+ phenotype. However, the initial Cit+ phenotype conferred by the duplication was very weak, and only granted a ~1% fitness benefit. The researchers found that the number of copies of the ''rnk-citT'' module had to be increased to strengthen the Cit+ trait sufficiently to permit the bacteria to grow well on the citrate. Further mutations after the Cit+ bacteria became dominant in the population continued to accumulate improved growth on citrate.
The researchers concluded that the evolution of the Cit+ trait occurred in three distinct phases: (1) mutations accumulated that increased the rate of mutation to Cit+, (2) the trait itself appeared in a weak form, and (3) the trait was improved by later mutations. Blount et al. suggested that this pattern might be typical of how novel traits in general evolve, and proposed a three-step model of evolutionary innovation:
# Potentiation: a genetic background evolves in which a trait is mutationally accessible, making the trait's evolution possible.
# Actualization: a mutation occurs that produces the trait, making it manifest, albeit likely in a weak form.
# Refinement: Once the trait exists, if it provides selective benefit, mutations will accumulate that improve the trait, making it effective. This phase is open-ended, and will continue so long as refining mutations arise and the trait remains beneficial.[
This model has seen acceptance in evolutionary biology. In 2015 paleontologist ]Douglas Erwin
Douglas Erwin is a paleobiologist, Curator of Paleozoic Invertebrates at the Smithsonian National Museum of Natural History and Chair of the Faculty at the Santa Fe Institute. He is a member of the Editorial Board for ''Current Biology
''Curre ...
suggested a modification to a four-step model to better reflect a possible distinction between evolutionary novelty and evolutionary innovation, and to highlight the importance of environmental conditions: potentiation, generation of novel phenotypes (actualization), adaptive refinement, and exploitation (conversion of a novelty to an innovation as it becomes important for the ecological establishment of possessing organisms).
Investigation of potentiation
In 2014, a research team led by Eric Quandt in the lab of Jeffrey Barrick at the University of Texas at Austin
The University of Texas at Austin (UT Austin, UT, or Texas) is a public research university in Austin, Texas. It was founded in 1883 and is the oldest institution in the University of Texas System. With 40,916 undergraduate students, 11,07 ...
described the application of a new technique called Recursive Genomewide Recombination and Sequencing (REGRES) to identify potentiating mutations among the 70 present in the Ara-3 lineage that evolved Cit+. This method used multiple rounds of a process in which F plasmid
F, or f, is the sixth letter in the Latin alphabet, used in the modern English alphabet, the alphabets of other western European languages and others worldwide. Its name in English is ''ef'' (pronounced ), and the plural is ''efs''.
Hist ...
based conjugation
Conjugation or conjugate may refer to:
Linguistics
* Grammatical conjugation, the modification of a verb from its basic form
* Emotive conjugation or Russell's conjugation, the use of loaded language
Mathematics
* Complex conjugation, the chang ...
between a 33,000 generation Cit+ clone, CZB154, and the Cit− founding clone of the LTEE to purge mutations not required for either manifestation of a weak or strong form of the Cit+ trait, which they refer to as Cit++. They found that the ''rnk-citT'' module responsible for the phenotypic switch to Cit+ was sufficient to produce a weak Cit+ phenotype in the ancestor. They also identified a mutation that had occurred in the lineage leading to CZB154 after the initial evolution of Cit+ that conferred a strong, Cit++ phenotype in the ancestor absent any mutation but the ''rnk-citT'' module. This mutation, found in the regulatory region of a gene called ''dctA'', caused a massive increase in the expression of the DctA transporter, which functions to import C4-dicarboxylates into the cell. This increased DctA expression, they found, permitted Cit+ cells to re-uptake succinate
Succinic acid () is a dicarboxylic acid with the chemical formula (CH2)2(CO2H)2. The name derives from Latin ''succinum'', meaning amber. In living organisms, succinic acid takes the form of an anion, succinate, which has multiple biological ro ...
, malate
Malic acid is an organic compound with the molecular formula . It is a dicarboxylic acid that is made by all living organisms, contributes to the sour taste of fruits, and is used as a food additive. Malic acid has two stereoisomeric forms (L ...
, and fumarate released into the medium by the CitT transporter during import of citrate. They identified a similar mutation in Cit++ clones in the Ara-3 population that increased DctA expression by restoring function to a gene that regulates it, ''dcuS'', that had been deactivated in the ancestral clone. Quandt et al. concluded that the ''dctA'' mutation was not involved in potentiation, but refinement. This led them to suggest that evolution of Cit+ in the Ara-3 population might have been contingent upon a genetic background and population-specific ecology that permitted the early, weak Cit+ variants to persist in the population long enough for refining mutations to arise and render growth on citrate strong enough to provide a significant fitness benefit.
Quandt and colleagues later published findings definitively identifying a mutation that did potentiate Cit+ evolution. This mutation was in the ''gltA'' gene, which encodes citrate synthase
The enzyme citrate synthase E.C. 2.3.3.1 (previously 4.1.3.7)] exists in nearly all living cells and stands as a pace-making enzyme in the first step of the citric acid cycle (or Krebs cycle). Citrate synthase is localized within eukaryotic cel ...
, an enzyme involved in the flow of carbon into the citric acid cycle
The citric acid cycle (CAC)—also known as the Krebs cycle or the TCA cycle (tricarboxylic acid cycle)—is a series of chemical reactions to release stored energy through the oxidation of acetyl-CoA derived from carbohydrates, fats, and protein ...
. It had the effect of increasing citrate synthase activity, and they showed that it permitted improved growth on acetate. Moreover, with the ''gltA'' mutation, the ''rnk-citT'' module that causes the Cit+ trait has a neutral-to-slightly beneficial fitness effect, while, without it, the module was strongly detrimental. The ''gltA'' mutation therefore seems to have permitted early, weak Cit+ variants to persist in the population until later refining mutations could occur, consistent with their earlier conclusions. After a strong Cit++ phenotype evolved, the increased citrate synthase activity became detrimental. The researchers found that later mutations in ''gltA'' countered the first mutation, reducing citrate synthase activity, and further improving growth on citrate. They concluded that the series of mutation in ''gltA'' first potentiated, and then refined growth on citrate. They also suggested that the lineage in which Cit+ arose might have occupied a niche in Ara-3 based on growth on acetate, and that the potentiating mutations that led to evolution of Cit+ in Ara-3 were originally adaptive for acetate use.
Investigation of post-Cit+ ecology and persistent diversity
A small subpopulation of Cit− cells unable to grow on citrate, and belonging to a separate clade persisted in the population after the Cit+ cells became dominant. Early findings showed that this diversity was partly due to the Cit− cells being better at growing on the glucose in the medium. Turner et al. later found that another factor behind the coexistence was that the Cit− cells evolved the ability to cross feed on the Cit+ majority. They showed that the Cit+ cells release succinate
Succinic acid () is a dicarboxylic acid with the chemical formula (CH2)2(CO2H)2. The name derives from Latin ''succinum'', meaning amber. In living organisms, succinic acid takes the form of an anion, succinate, which has multiple biological ro ...
, malate
Malic acid is an organic compound with the molecular formula . It is a dicarboxylic acid that is made by all living organisms, contributes to the sour taste of fruits, and is used as a food additive. Malic acid has two stereoisomeric forms (L ...
, and fumarate during growth on citrate, as the CitT transporter pumps these substances out of the cell while pumping citrate into the cell. The Cit− cells had rapidly evolved the ability to grow on these substances due to a mutation that restored expression of an appropriate transporter protein that was silent in the ancestor.
The Cit− subpopulation eventually went extinct in the population between 43,500 and 44,000 generations. This extinction was shown to not be due to the Cit+ majority evolving to be able to invade the niche occupied by the Cit− minority. Indeed, Cit− clones could invade Cit+ populations from after the extinction event. Moreover, in an experiment in which they restarted twenty replicates of the Ara-3 population from the sample frozen 500 generations before the extinction, Turner et al. found that the Cit− subpopulation had not gone extinct in any of the replicates after 500 generations of evolution. One of these replicates was continued for 2,500 generations, over which Cit− continued to coexist. The researchers concluded that the extinction of Cit− had been due to some unknown "rare environmental perturbation", similar to that which can impact natural populations. The final replicate was integrated into the main LTEE experiment, becoming the thirteenth population, Ara-7.
Various interpretations of the findings
Other researchers have experimented on evolving aerobic citrate-utilizing ''E. coli''. Dustin Van Hofwegen et al. were able to isolate 46 independent citrate-utilizing mutants of ''E. coli'' in just 12 to 100 generations using highly prolonged selection under starvation, during which the bacteria would sample more mutations more rapidly. In their research, the genomic DNA sequencing revealed an amplification of the ''citT'' and ''dctA'' loci, and rearrangement of DNA were the same class of mutations identified in the experiment by Richard Lenski and his team. They concluded that the rarity of the citrate-utilizing mutant in Lenski's research was likely a result of the selective experimental conditions used by his team rather than being a unique evolutionary speciation event.
John Roth and Sophie Maisnier-Patin reviewed the approaches in both the Lenski team's delayed mutations and the Van Hofwegen team's rapid mutations on ''E. coli''. They argue that both teams observed the same sequence of potentiation, actualization, and refinement leading up to similar Cit+ variants. According to them, Lenski's period of less than a day during which citrate usage would be under selection, followed by 100-fold dilution, and a period of growth on glucose that would not select for citrate use; ultimately lowered the probability of ''E. coli'' being able to accumulate early adaptive mutations from one period of selection to the next. In contrast, Van Hofwegen's team allowed for a continuous selection period of 7 days, which yielded a more rapid development of citrate-using ''E. coli''. Roth and Maisnier-Patin suggest that the serial dilution of ''E. coli'' and short period of selection for citrate-use under the conditions of the LTEE perpetually impeded each generation of ''E. coli'' from reaching the next stages of aerobic citrate utilization.
Lenski argues that the problem is not with the experiments or the data, but with the interpretations made by Van Hofwegen et al. and Maisnier-Patin and Roth. According to him, the rapid evolution of Cit+ was not necessarily unexpected since his team was also able to produce multiple Cit+ mutants in a few weeks during the replay experiments. He argues that the LTEE was not designed to isolate citrate-using mutants or to deal with speciation, which is a process, not an event. Furthermore, he argued that the evolution of Cit+ in the LTEE was contingent upon mutations that had accumulated earlier.
See also
* Experimental evolution
Experimental evolution is the use of laboratory experiments or controlled field manipulations to explore evolutionary dynamics. Evolution may be observed in the laboratory as individuals/populations adapt to new environmental conditions by natura ...
* Long-term experiment
A long-term experiment is an experimental procedure that runs through a long period of time, in order to test a hypothesis or observe a phenomenon that takes place at an extremely slow rate.
What duration is considered "long" depends on the academ ...
References
Further reading
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External links
''E. coli'' Long-term Experimental Evolution Project Site
Bob Holmes ''New Scientist'' 9 June 2008
Evolution: Past, Present and Future
Richard Lenski
List of publications on the experiment
Online Publication of paper on Rapid evolution of citrate utilization
{{Escherichia coli
1988 in biology
Biology experiments
Escherichia coli
Evolutionary biology
Molecular evolution