Your search keyword '"Francisco J. Ayala"' showing total 634 results

601. Concepts of Biology: Toward a New Philosophy of Biology . Observations of an Evolutions. Ernst Mayr. Belknap (Harvard University Press), Cambridge, MA, 1988. xii, 564 pp. $35

Author

Francisco J. Ayala

Subjects

Philosophy of biology, Multidisciplinary, Philosophy, Classics

Published

1988

602. A Critical Look at Sociobiology Human Nature and History Kenneth Bock

Author

Francisco J. Ayala

Subjects

Sociobiology, Philosophy, Environmental ethics, General Agricultural and Biological Sciences

Published

1981

603. An Almost Comprehensive Survey of Evolution

Author

Francisco J. Ayala, Theodosius Dobzhansky, Ernst Mayr, G. Ledyard Stebbins, and James W. Valentine

Subjects

Evolutionary biology, Genetics, Biology, General Agricultural and Biological Sciences, Ecology, Evolution, Behavior and Systematics

Published

1977

604. Integrating Population Genetics/Ecology Theory of Population Genetics and Evolutionary Ecology: An Introduction Jonathan Roughgarden

Author

Francisco J. Ayala

Subjects

Evolutionary biology, Ecology, Ecology (disciplines), Population genetics, Biology, General Agricultural and Biological Sciences

Published

1981

605. Genetic Polymorphism and Phylogeny of Drosophila subobscura

Author

Francisco J. Ayala, Marko Andjelkovic, and agoslav Marinkovic

Subjects

0106 biological sciences, 0301 basic medicine, Sophophora, education.field_of_study, Old World, biology, Lineage (evolution), Population, biology.organism_classification, 010603 evolutionary biology, 01 natural sciences, Drosophila subobscura, 03 medical and health sciences, 030104 developmental biology, Genetic distance, Evolutionary biology, Genetics, Chromosomal polymorphism, Drosophila obscura, education, General Agricultural and Biological Sciences, Ecology, Evolution, Behavior and Systematics

Abstract

The genus Drosophila consists of more than 1,200 species which have arisen through several evolutionary radiations. One major radiation includes the subgenus Sophophora which comprises the melanogaster lineage evolved in the Old World tropics, the saltans-willistoni lineages in the New World tropics, and the obscura group distributed throughout the temperate zone of the northern hemisphere. According to Throckmorton (1975) the obscura group may have originated from a protomelanogaster lineage of the Old World tropics. After adaptation to temperate habitats, the obscura group diversified and eventually spread to North America prior to midMiocene times (i.e., more than 15 million years ago). Several species of the group have been the subject of intensive evolutionary and genetic studies. Lakovaara et al. (1972a,b) have attempted to reconstruct the phylogeny of the group on the basis of electrophoretic studies of gene frequencies. Among the Old World species of the obscura group, D. subobscura is particularly interesting. The species exhibits a considerable degree of chromosomal polymorphism that has been the subject of numerous studies (Goldschmidt, 1956; Knight, 1961; Sperlich, 1961, 1964; Pentzos-Daponte, 1964; Krimbas, 1964, 1971; Prevosti, 1966; G6tz, 1967; Andjelkovic and Sperlich, 1973; Zouros and Krimbas, 1973; and others). Recently, genetic variation has been studied in D. subobscura using electrophoretic methods. Particularly noteworthy is the work of Lakovaara, Saura, and their co-workers, who examined 32 gene loci coding for proteins in one study of geographically marginal populations (Lakovaara and Saura, 1971a) and 20 gene loci in a study of some central as well as marginal populations (Saura et al., 1973). The present paper reports the results of a study of 28 gene loci coding for proteins in a large sample of D. subobscura flies from Fruska gora, Yugoslavia. This is the first extensive electrophoretic survey of a D. subobscura population from southeast Europe (a region extensively studied with respect to chromosomal polymorphism) and of a population which is continental (more than 100 km from the sea). We have also made direct comparisons in the same electrophoretic gels between D. subobscura and the North American species D. pseudoobscura and D. persimilis. Thus, we have established the equivalence between the allelic designations used for a variety of obscura group species by Lakovaara and co-workers, and the designations used by American researchers working on D. pseudoobscura and its close relatives (e.g. Prakash, Lewontin, and Hubby, 1969). This equivalence has made it possible to estimate the genetic distance among several species of the obscura group in which the same protein loci have been studied by different workers.

Published

1978

606. Genetic Variation in Tridacna maxima, an Ecological Analog of Some Unsuccessful Evolutionary Lineages

Author

Francisco J. Ayala, Dennis Hedgecock, Gary S. Zumwalt, and James W. Valentine

Subjects

Genetics, General Agricultural and Biological Sciences, Ecology, Evolution, Behavior and Systematics

Published

1973

607. Evolution of Fitness. II. Correlated Effects of Natural Selection on the Productivity and Size of Experimental Populations of Drosophila serrata

Author

Francisco J. Ayala

Subjects

0106 biological sciences, 0301 basic medicine, Estimation, education.field_of_study, Biomass (ecology), Natural selection, Ecology, Population size, Population, Biology, 010603 evolutionary biology, 01 natural sciences, 03 medical and health sciences, 030104 developmental biology, Darwinian Fitness, Genetics, education, General Agricultural and Biological Sciences, Productivity, Selection (genetic algorithm), Ecology, Evolution, Behavior and Systematics, Demography

Abstract

The average size of a population at equilibrium in a certain environment may be used as a measure of the performance, or fitness, of the population in that environment (Carson, 1961; Dobzhansky and Pavlovsky, 1961; Cannon, 1963; Ayala, 1965a, 1966a, 1967). The average number of individuals emerged in the population per unit time and their biomass may also be used as measures of the fitness of populations. The two measures, average size and productivity, are mutually dependent but need not be strictly correlated. Natural or experimental populations of sexually reproducing organisms are not likely to remain genetically stationary for many generations. Under the action of natural selection, a population evolves genetically to improve its Darwinian fitness in the environment in which it lives. Some attempts have been made to observe and measure improvements in the ability of a population to exploit the resources of a particular environment (Dobzhansky and Spassky, 1947; Buzzati-Traverso, 1955; Carson, 1958; Strickberger, 1963; Ayala, 1965b, 1966b, etc.). Ayala (1965b) studied the performance of four experimental populations of D. serrata over one and a half years, using population size and productivity as fitness estimates. A gradual increase in the average size of the populations was observed throughout the experimental period. The number of flies emerging per unit time remained, however, approximately constant from the 16th week, when an approximate equilibrium was reached, until the end of the experiment. A number of questions are raised by such results. First, is the gradual increase in population size due to genetic changes in the population, or is this increase simply due to the improving ability of the experimenter in handling the populations? Second, has the productivity of the population remained constant, or did it improve genetically during the first few generations of selection when the population was rapidly growing and the experimental design did not allow estimation of fitness improvements? Finally, the relationship between the productivity and the size of a population is brought into question: to what extent may natural selection result in increases of the average size of the population when its productivity is not increasing? The two experiments reported here were designed to answer these questions.

Published

1968

608. Ecology Population Ecology Lowell Adams

Author

Francisco J. Ayala

Subjects

Geography, Ecology, Ecology (disciplines), Population ecology, General Agricultural and Biological Sciences

Published

1972

609. Biology of Populations: Topics in Population Genetics . Bruce Wallace. Norton, New York, 1968. x + 486 pp., illus. $14

Author

Francisco J. Ayala

Subjects

Multidisciplinary, Anthropology, Population genetics

Published

1969

610. Population Fitness of Geographic Strains of Drosophila serrata as Measured by Interspecific Competition

Author

Francisco J. Ayala

Subjects

Genetics, General Agricultural and Biological Sciences, Ecology, Evolution, Behavior and Systematics

Published

1970

611. Mendelism v Darwinism

Author

Francisco J. Ayala

Subjects

Multidisciplinary, Philosophy, Population genetics, Darwinism, Genealogy

Abstract

The Origins of Theoretical Population Genetics. By William B. Provine. Pp. xi + 201. (University of Chicago: Chicago and London, December 1971.) £2.50.

Published

1972

612. Mass Extinctions and Genetic Polymorphism in the 'Killer Clam,' Tridacna

Author

Francisco J. Ayala, Dennis Hedgecock, James W. Valentine, and Gary S. Zumwalt

Subjects

Extinction event, geography, geography.geographical_feature_category, Tridacna maxima, biology, Ecology, Geology, social sciences, Marine invertebrates, biology.organism_classification, humanities, Tridacna, Paleontology, Waves and shallow water, natural sciences, Reef, geographic locations

Abstract

Mass extinctions of marine invertebrates have been attributed to genetic depauperation in specialized lineages. Tridacna maxima is a plausible modern analog of the lineages that were commonly associated with mass extinctions; it is restricted to a relatively stable biogeographic province, lives in shallow water, is highly specialized, and is associated with reef communities. Our studies show, however, that it is highly polymorphic and heterozygotic, and thus fails to support the depauperate gene-pool hypothesis of mass extinction.

Published

1973

613. DNA variation in the phenotypically-diverse brown alga Saccharina japonica

Author

Francisco J. Ayala, Tatiana N. Krupnova, and Evgeniy S. Balakirev

Subjects

Genetic Markers, Interspecific COI recombination, Species complex, Ribulose-Bisphosphate Carboxylase, Molecular Sequence Data, Brown algae, Phenotypic plasticity, Plant Science, Saccharina japonica, Phaeophyta, DNA, Mitochondrial, DNA sequencing, Japonica, Electron Transport Complex IV, DNA, Algal, Phylogenetics, lcsh:Botany, Botany, Databases, Genetic, Saccharina japonica morphological forms, Plastids, Phylogeny, Cell Nucleus, Recombination, Genetic, Saccharina, Polymorphism, Genetic, biology, Base Sequence, fungi, DNA, Chloroplast, biology.organism_classification, Mitochondria, lcsh:QK1-989, Phenotype, Kelp, Genetic marker, DNA polymorphism, Research Article

Abstract

Background Saccharina japonica (Areschoug) Lane, Mayes, Druehl et Saunders is an economically important and highly morphologically variable brown alga inhabiting the northwest Pacific marine waters. On the basis of nuclear (ITS), plastid (rbcLS) and mitochondrial (COI) DNA sequence data, we have analyzed the genetic composition of typical Saccharina japonica (TYP) and its two common morphological varieties, known as the “longipes” (LON) and “shallow-water” (SHA) forms seeking to clarify their taxonomical status and to evaluate the possibility of cryptic species within S. japonica. Results The data show that the TYP and LON forms are very similar genetically in spite of drastic differences in morphology, life history traits, and ecological preferences. Both, however, are genetically quite different from the SHA form. The two Saccharina lineages are distinguished by 109 fixed single nucleotide differences as well as by seven fixed length polymorphisms (based on a 4,286 bp concatenated dataset that includes three gene regions). The GenBank database reveals a close affinity of the TYP and LON forms to S. japonica and the SHA form to S. cichorioides. The three gene markers used in the present work have different sensitivity for the algal species identification. COI gene was the most discriminant gene marker. However, we have detected instances of interspecific COI recombination reflecting putative historical hybridization events between distantly related algal lineages. The recombinant sequences show highly contrasted level of divergence in the 5’- and 3’- regions of the gene, leading to significantly different tree topologies depending on the gene segment (5’- or 3’-) used for tree reconstruction. Consequently, the 5’-COI “barcoding” region (~ 650 bp) can be misleading for identification purposes, at least in the case of algal species that might have experienced historical hybridization events. Conclusion Taking into account the potential roles of phenotypic plasticity in evolution, we conclude that the TYP and LON forms represent examples of algae phenotypic diversification that enables successful adaptation to contrasting shallow- and deep-water marine environments, while the SHA form is very similar to S. cichorioides and should be considered a different species. Practical applications for algal management and conservation are briefly considered.

614. Null allele, allelic dropouts or rare sex detection in clonal organisms: simulations and application to real data sets of pathogenic microbes

Author

Adrien Marie Gaston Belem, Thierry De Meeûs, Modou Séré, Vincent Jamonneau, Jacques Kaboré, and Francisco J. Ayala

Subjects

Trypanosoma, Mutation rate, Population genetics, Population, Mycology & Parasitology, Locus (genetics), Biology, Models, Biological, Genetic recombination, Genetic diversity, Clonal reproduction, Allelic dropouts, Species Specificity, Models, Tropical Medicine, Yeasts, Trypanosomes, Genetics, Animals, Computer Simulation, Allele, education, Alleles, Candida, Panmixia, education.field_of_study, Heterozygosity, Null alleles, Research, Biological, Null allele, Infectious Diseases, Medical Microbiology, Evolutionary biology, Mutation, Public Health and Health Services, Parasitology, Microsatellite Repeats, Biotechnology

Abstract

Background: Pathogens and their vectors are organisms whose ecology is often only accessible through population genetics tools based on spatio-temporal variability of molecular markers. However, molecular tools may present technical difficulties due to the masking of some alleles (allelic dropouts and/or null alleles), which tends to bias the estimation of heterozygosity and thus the inferences concerning the breeding system of the organism under study. This is especially critical in clonal organisms in which deviation from panmixia, as measured by Wright's FIS, can, in principle, be used to infer both the extent of clonality and structure in a given population. In particular, null alleles and allelic dropouts are locus specific and likely produce high variance of Wright's FISacross loci, as rare sex is expected to do. In this paper we propose a tool enabling to discriminate between consequences of these technical problems and those of rare sex. Methods. We have performed various simulations of clonal and partially clonal populations. We introduce allelic dropouts and null alleles in clonal data sets and compare the results with those that exhibit increasing rates of sexual recombination. We use the narrow relationship that links Wright's FISto genetic diversity in purely clonal populations as assessment criterion, since this relationship disappears faster with sexual recombination than with amplification problems of certain alleles. Results: We show that the relevance of our criterion for detecting poorly amplified alleles depends partly on the population structure, the level of homoplasy and/or mutation rate. However, the interpretation of data becomes difficult when the number of poorly amplified alleles is above 50%. The application of this method to reinterpret published data sets of pathogenic clonal microbes (yeast and trypanosomes) confirms its usefulness and allows refining previous estimates concerning important pathogenic agents. Conclusion: Our criterion of superimposing between the FISexpected under clonality and the observed FIS, is effective when amplification difficulties occur in low to moderate frequencies (20-30%). © 2014 Séré et al.; licensee BioMed Central Ltd.

615. Complete Mitochondrial Genomes of the Cherskii’s Sculpin and Siberian Taimen Reveal GenBank Entry Errors: Incorrect Species Identification and Recombinant Mitochondrial Genome

Author

Evgeniy S Balakirev, Pavel A Saveliev, and Francisco J Ayala

Subjects

Evolution, QH359-425

Abstract

The complete mitochondrial (mt) genome is sequenced in 2 individuals of the Cherskii’s sculpin Cottus czerskii . A surprisingly high level of sequence divergence (10.3%) has been detected between the 2 genomes of C czerskii studied here and the GenBank mt genome of C czerskii (KJ956027). At the same time, a surprisingly low level of divergence (1.4%) has been detected between the GenBank C czerskii (KJ956027) and the Amur sculpin Cottus szanaga (KX762049, KX762050). We argue that the observed discrepancies are due to incorrect taxonomic identification so that the GenBank accession number KJ956027 represents actually the mt genome of C szanaga erroneously identified as C czerskii . Our results are of consequence concerning the GenBank database quality, highlighting the potential negative consequences of entry errors, which once they are introduced tend to be propagated among databases and subsequent publications. We illustrate the premise with the data on recombinant mt genome of the Siberian taimen Hucho taimen (NCBI Reference Sequence Database NC_016426.1; GenBank accession number HQ897271.1), bearing 2 introgressed fragments (≈0.9 kb [kilobase]) from 2 lenok subspecies, Brachymystax lenok and Brachymystax lenok tsinlingensis , submitted to GenBank on June 12, 2011. Since the time of submission, the H taimen recombinant mt genome leading to incorrect phylogenetic inferences was propagated in multiple subsequent publications despite the fact that nonrecombinant H taimen genomes were also available (submitted to GenBank on August 2, 2014; KJ711549, KJ711550). Other examples of recombinant sequences persisting in GenBank are also considered. A GenBank Entry Error Depositary is urgently needed to monitor and avoid a progressive accumulation of wrong biological information.

Published

2017

616. Relevant units of analysis for applied and basic research dealing with neglected transmissible diseases: The predominant clonal evolution model of pathogenic microorganisms.

Author

Michel Tibayrenc and Francisco J Ayala

Subjects

Arctic medicine. Tropical medicine, RC955-962, Public aspects of medicine, RA1-1270

Abstract

The predominant clonal evolution (PCE) model seeks to formulate a common population genetics framework for all micropathogens (namely, parasitic protozoa, fungi and yeasts, bacteria, and viruses). It relies on a definition of clonality that is only based on population structure features (namely, strongly restrained genetic recombination). Its clear-cut properties make it of strong interest for applied and basic research, since it permits the definition of stable, clearly delimited units of analysis below the species level: clonal genotypes and discrete genetic subdivisions ("near-clades"). These units of analysis can be used for clinical and epidemiological studies, vaccine and drug design, species description, and evolutionary studies on natural and experimental populations. In this review, the evolutionary and population genetics background of the model will be only briefly mentioned, while considerable emphasis will be given to its practical significance for the study and control of neglected tropical diseases. The goal of the paper is to make this practical usefulness accessible to a broad audience of readers, including scientists who are not evolution specialists, such as epidemiologists, field scientists, and clinicians. For extensive developments about the evolutionary background of the model, see our previous papers [1-9]. Citations of these former articles lead to the many references quoted in them, which cannot be listed again here.

Published

2017

617. Tracking zoonotic pathogens using blood-sucking flies as 'flying syringes'

Author

Paul-Yannick Bitome-Essono, Benjamin Ollomo, Céline Arnathau, Patrick Durand, Nancy Diamella Mokoudoum, Lauriane Yacka-Mouele, Alain-Prince Okouga, Larson Boundenga, Bertrand Mve-Ondo, Judicaël Obame-Nkoghe, Philippe Mbehang-Nguema, Flobert Njiokou, Boris Makanga, Rémi Wattier, Diego Ayala, Francisco J Ayala, Francois Renaud, Virginie Rougeron, Francois Bretagnolle, Franck Prugnolle, and Christophe Paupy

Subjects

Plasmodium parasites, hematophagous flies, tsetse flies, Medicine, Science, Biology (General), QH301-705.5

Abstract

About 60% of emerging infectious diseases in humans are of zoonotic origin. Their increasing number requires the development of new methods for early detection and monitoring of infectious agents in wildlife. Here, we investigated whether blood meals from hematophagous flies could be used to identify the infectious agents circulating in wild vertebrates. To this aim, 1230 blood-engorged flies were caught in the forests of Gabon. Identified blood meals (30%) were from 20 vertebrate species including mammals, birds and reptiles. Among them, 9% were infected by different extant malaria parasites among which some belonged to known parasite species, others to new parasite species or to parasite lineages for which only the vector was known. This study demonstrates that using hematophagous flies as ‘flying syringes’ constitutes an interesting approach to investigate blood-borne pathogen diversity in wild vertebrates and could be used as an early detection tool of zoonotic pathogens.

Published

2017

618. Null allele, allelic dropouts or rare sex detection in clonal organisms: simulations and application to real data sets of pathogenic microbes

Author

Modou Séré, Jacques Kaboré, Vincent Jamonneau, Adrien Marie Gaston Belem, Francisco J Ayala, and Thierry De Meeûs

Subjects

Population genetics, Clonal reproduction, Allelic dropouts, Null alleles, Heterozygosity, Genetic diversity, Infectious and parasitic diseases, RC109-216

Abstract

Abstract Background Pathogens and their vectors are organisms whose ecology is often only accessible through population genetics tools based on spatio-temporal variability of molecular markers. However, molecular tools may present technical difficulties due to the masking of some alleles (allelic dropouts and/or null alleles), which tends to bias the estimation of heterozygosity and thus the inferences concerning the breeding system of the organism under study. This is especially critical in clonal organisms in which deviation from panmixia, as measured by Wright’s FIS, can, in principle, be used to infer both the extent of clonality and structure in a given population. In particular, null alleles and allelic dropouts are locus specific and likely produce high variance of Wright’s FIS across loci, as rare sex is expected to do. In this paper we propose a tool enabling to discriminate between consequences of these technical problems and those of rare sex. Methods We have performed various simulations of clonal and partially clonal populations. We introduce allelic dropouts and null alleles in clonal data sets and compare the results with those that exhibit increasing rates of sexual recombination. We use the narrow relationship that links Wright’s FIS to genetic diversity in purely clonal populations as assessment criterion, since this relationship disappears faster with sexual recombination than with amplification problems of certain alleles. Results We show that the relevance of our criterion for detecting poorly amplified alleles depends partly on the population structure, the level of homoplasy and/or mutation rate. However, the interpretation of data becomes difficult when the number of poorly amplified alleles is above 50%. The application of this method to reinterpret published data sets of pathogenic clonal microbes (yeast and trypanosomes) confirms its usefulness and allows refining previous estimates concerning important pathogenic agents. Conclusion Our criterion of superimposing between the FIS expected under clonality and the observed FIS, is effective when amplification difficulties occur in low to moderate frequencies (20-30%).

Published

2014

619. Cryptosporidium,Giardia, Cryptococcus, Pneumocystis genetic variability: cryptic biological species or clonal near-clades?

Author

Michel Tibayrenc and Francisco J Ayala

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

An abundant literature dealing with the population genetics and taxonomy of Giardia duodenalis, Cryptosporidium spp., Pneumocystis spp., and Cryptococcus spp., pathogens of high medical and veterinary relevance, has been produced in recent years. We have analyzed these data in the light of new population genetic concepts dealing with predominant clonal evolution (PCE) recently proposed by us. In spite of the considerable phylogenetic diversity that exists among these pathogens, we have found striking similarities among them. The two main PCE features described by us, namely highly significant linkage disequilibrium and near-clading (stable phylogenetic clustering clouded by occasional recombination), are clearly observed in Cryptococcus and Giardia, and more limited indication of them is also present in Cryptosporidium and Pneumocystis. Moreover, in several cases, these features still obtain when the near-clades that subdivide the species are analyzed separately ("Russian doll pattern"). Lastly, several sets of data undermine the notion that certain microbes form clonal lineages simply owing to a lack of opportunity to outcross due to low transmission rates leading to lack of multiclonal infections ("starving sex hypothesis"). We propose that the divergent taxonomic and population genetic inferences advanced by various authors about these pathogens may not correspond to true evolutionary differences and could be, rather, the reflection of idiosyncratic practices among compartmentalized scientific communities. The PCE model provides an opportunity to revise the taxonomy and applied research dealing with these pathogens and others, such as viruses, bacteria, parasitic protozoa, and fungi.

Published

2014

620. Mitochondrial DNA variation and introgression in Siberian taimen Hucho taimen.

Author

Evgeniy S Balakirev, Nikolai S Romanov, Pavel B Mikheev, and Francisco J Ayala

Subjects

Medicine, Science

Abstract

Siberian taimen Hucho taimen is the largest representative of the family Salmonidae inhabiting rivers of northern Eurasia. The species is under intensive aquaculture activity. To monitor natural taimen populations we have sequenced a portion (8,141 bp) of the mitochondrial (mt) genome in 28 specimens of H. taimen from six localities in the Amur River basin. Nucleotide variability is low (π = 0.0010), but structured in two divergent haplotype groups. A comparison of the data with the GenBank H. taimen mt genome (HQ897271) reveals significant differences between them in spite of the fact that the fish specimens come from neighboring geographical areas. The distribution of divergence is non-uniform with two highly pronounced divergent regions centered on two genes, ND3 and ND6. To clarify the pattern of divergence we sequenced the corresponding portion of the mt genome of lenok Brachymystax tumensis and analyzed the GenBank complete mt genomes of related species. We have found that the first and second divergent regions are identical between the GenBank H. taimen and two lenok subspecies, B. lenok and B. lenok tsinlingensis, respectively. Consequently, both divergent regions represent introgressed mtDNA resulting from intergeneric hybridization between the two lenok subspecies and H. taimen. Introgression is, however, not detected in our specimens. This plus the precise identity of the introgressed fragments between the donor and the recipient GenBank sequence suggests that the introgression is local and very recent, probably due to artificial manipulations involving taimen-lenok intergeneric hybridization. Human-mediated hybridization may become a major threat to aquatic biodiversity. Consequently we suggest that due attention needs to be given to this threat by means of responsible breeding program management, so as to prevent a potential spread of hybrid fishes that could jeopardize the resilience of locally adapted gene pools of the native H. taimen populations.

Published

2013

621. Differences in iNOS and arginase expression and activity in the macrophages of rats are responsible for the resistance against T. gondii infection.

Author

Zhi Li, Zhi-Jun Zhao, Xing-Quan Zhu, Qing-Shi Ren, Fang-Fang Nie, Jiang-Mei Gao, Xiao-Jie Gao, Ting-Bao Yang, Wen-Liang Zhou, Ji-Long Shen, Yong Wang, Fang-Li Lu, Xiao-Guang Chen, Geoff Hide, Francisco J Ayala, and Zhao-Rong Lun

Subjects

Medicine, Science

Abstract

Toxoplasma gondii infects humans and warm blooded animals causing devastating disease worldwide. It has long been a mystery as to why the peritoneal macrophages of rats are naturally resistant to T. gondii infection while those of mice are not. Here, we report that high expression levels and activity of inducible nitric oxide synthase (iNOS) and low levels of arginase-1 (Arg 1) activity in the peritoneal macrophages of rats are responsible for their resistance against T. gondii infection, due to high nitric oxide and low polyamines within these cells. The opposite situation was observed in the peritoneal macrophages of mice. This discovery of the opposing functions of iNOS and Arg 1 in rodent peritoneal macrophages may lead to a better understanding of the resistance mechanisms of mammals, particularly humans and livestock, against T. gondii and other intracellular pathogens.

Published

2012

622. The Vein Patterning 1 (VEP1) gene family laterally spread through an ecological network.

Author

Rosa Tarrío, Francisco J Ayala, and Francisco Rodríguez-Trelles

Subjects

Medicine, Science

Abstract

Lateral gene transfer (LGT) is a major evolutionary mechanism in prokaryotes. Knowledge about LGT--particularly, multicellular--eukaryotes has only recently started to accumulate. A widespread assumption sees the gene as the unit of LGT, largely because little is yet known about how LGT chances are affected by structural/functional features at the subgenic level. Here we trace the evolutionary trajectory of VEin Patterning 1, a novel gene family known to be essential for plant development and defense. At the subgenic level VEP1 encodes a dinucleotide-binding Rossmann-fold domain, in common with members of the short-chain dehydrogenase/reductase (SDR) protein family. We found: i) VEP1 likely originated in an aerobic, mesophilic and chemoorganotrophic α-proteobacterium, and was laterally propagated through nets of ecological interactions, including multiple LGTs between phylogenetically distant green plant/fungi-associated bacteria, and five independent LGTs to eukaryotes. Of these latest five transfers, three are ancient LGTs, implicating an ancestral fungus, the last common ancestor of land plants and an ancestral trebouxiophyte green alga, and two are recent LGTs to modern embryophytes. ii) VEP1's rampant LGT behavior was enabled by the robustness and broad utility of the dinucleotide-binding Rossmann-fold, which provided a platform for the evolution of two unprecedented departures from the canonical SDR catalytic triad. iii) The fate of VEP1 in eukaryotes has been different in different lineages, being ubiquitous and highly conserved in land plants, whereas fungi underwent multiple losses. And iv) VEP1-harboring bacteria include non-phytopathogenic and phytopathogenic symbionts which are non-randomly distributed with respect to the type of harbored VEP1 gene. Our findings suggest that VEP1 may have been instrumental for the evolutionary transition of green plants to land, and point to a LGT-mediated 'Trojan Horse' mechanism for the evolution of bacterial pathogenesis against plants. VEP1 may serve as tool for revealing microbial interactions in plant/fungi-associated environments.

Published

2011

623. Tempo and Mode in Evolution : Genetics and Paleontology 50 Years After Simpson

Author

for the National Academy of Sciences, Francisco J. Ayala, Walter M. Fitch, for the National Academy of Sciences, Francisco J. Ayala, and Walter M. Fitch

Subjects

Evolution (Biology), Genetics, Paleontology

Abstract

Since George Gaylord Simpson published Tempo and Mode in Evolution in 1944, discoveries in paleontology and genetics have abounded. This volume brings together the findings and insights of today's leading experts in the study of evolution, including Ayala, W. Ford Doolittle, and Stephen Jay Gould. The volume examines early cellular evolution, explores changes in the tempo of evolution between the Precambrian and Phanerozoic periods, and reconstructs the Cambrian evolutionary burst. Long-neglected despite Darwin's interest in it, species extinction is discussed in detail. Although the absence of data kept Simpson from exploring human evolution in his book, the current volume covers morphological and genetic changes in human populations, contradicting the popular claim that all modern humans descend from a single woman. This book discusses the role of molecular clocks, the results of evolution in 12 populations of Escherichia coli propagated for 10,000 generations, a physical map of Drosophila chromosomes, and evidence for'hitchhiking'by mutations.

Published

1995

624. Interferon-Inducible MicroRNA miR-128 Modulates HIV-1 Replication by Targeting TNPO3 mRNA.

Author

Bochnakian A, Zhen A, Zisoulis DG, Idica A, KewalRamani VN, Neel N, Daugaard I, Hamdorf M, Kitchen S, Lee K, and Pedersen IM

Subjects

3' Untranslated Regions, Cell Line, Host-Pathogen Interactions drug effects, Host-Pathogen Interactions genetics, Humans, Models, Biological, RNA Interference, Gene Expression Regulation drug effects, HIV Infections genetics, HIV Infections virology, HIV-1 physiology, Interferons pharmacology, MicroRNAs genetics, Virus Replication, beta Karyopherins genetics

Abstract

The HIV/AIDS pandemic remains an important threat to human health. We have recently demonstrated that a novel microRNA (miR), miR-128, represses retrotransposon long interspaced element 1 (L1) by a dual mechanism, namely, by directly targeting the coding region of the L1 RNA and by repressing a required nuclear import factor (TNPO1). We have further determined that miR-128 represses the expression of all three TNPO proteins (transportins TNPO1, TNPO2, and TNPO3). Here, we establish that miR-128 also influences HIV-1 replication by repressing TNPO3, a factor that regulates HIV-1 nuclear import and viral; replication of TNPO3 is well established to regulate HIV-1 nuclear import and viral replication. Here, we report that type I interferon (IFN)-inducible miR-128 directly targets two sites in the TNPO3 mRNA, significantly downregulating TNPO3 mRNA and protein expression levels. Challenging miR-modulated Jurkat cells or primary CD4 + T-cells with wild-type (WT), replication-competent HIV-1 demonstrated that miR-128 reduces viral replication and delays spreading of infection. Manipulation of miR-128 levels in HIV-1 target cell lines and in primary CD4 + T-cells by overexpression or knockdown showed that reduction of TNPO3 levels by miR-128 significantly affects HIV-1 replication but not murine leukemia virus (MLV) infection and that miR-128 modulation of HIV-1 replication is reduced with TNPO3-independent HIV-1 virus, suggesting that miR-128-indued TNPO3 repression contributes to the inhibition of HIV-1 replication. Finally, we determine that anti-miR-128 partly neutralizes the IFN-mediated block of HIV-1. Thus, we have established a novel role of miR-128 in antiviral defense in human cells, namely inhibiting HIV-1 replication by altering the cellular milieu through targeting factors that include TNPO3. IMPORTANCE HIV-1 is the causative agent of AIDS. During HIV-1 infection, type I interferons (IFNs) are induced, and their effectors limit HIV-1 replication at multiple steps in its life cycle. However, the cellular targets of INFs are still largely unknown. In this study, we identified the interferon-inducible microRNA (miR) miR-128, a novel antiviral mediator that suppresses the expression of the host gene TNPO3, which is known to modulate HIV-1 replication. Notably, we observe that anti-miR-128 partly neutralizes the IFN-mediated block of HIV-1. Elucidation of the mechanisms through which miR-128 impairs HIV-1 replication may provide novel candidates for the development of therapeutic interventions., (Copyright © 2019 American Society for Microbiology.)

Published

2019

625. Molecular, Morphological, and Biological Differentiation between Anagrus virlai sp. n., an Egg Parasitoid of the Corn Leafhopper Dalbulus maidis (Hemiptera: Cicadellidae) in the New World, and Anagrus incarnatus from the Palaearctic Region (Hymenoptera: Mymaridae).

Author

Triapitsyn SV, Rugman-Jones PF, Tretiakov PS, Luft Albarracin E, Moya-Raygoza G, and Querino RB

Subjects

Animals, Argentina, Brazil, Colombia, DNA, Mitochondrial genetics, DNA, Ribosomal genetics, Female, France, Guyana, Mexico, Zea mays, Hymenoptera anatomy & histology, Hymenoptera classification

Abstract

The common New World egg parasitoid of the corn leafhopper Dalbulus maidis (DeLong) (Hemiptera: Cicadellidae), an economically important pest of maize from Argentina to southern USA, has long been misidentified as the Palaearctic species Anagrus incarnatus Haliday or its synonym A. breviphragma Soyka (Hymenoptera: Mymaridae). Using a combination of genetic and morphometric methods, and available biological information, specimens reared from eggs of D. maidis in Argentina and Mexico, described and illustrated here as Anagrus (Anagrus) virlai Triapitsyn sp. n., are shown to be different from those of A. incarnatus from the Palaearctic region. Mitochondrial and nuclear ribosomal DNA sequence data provide clear evidence for the separation of the two species. Anagrus virlai is also known from Brazil, Colombia, Guadeloupe (France), and Guyana.

Published

2019

626. miR-128 inhibits telomerase activity by targeting TERT mRNA.

Author

Guzman H, Sanders K, Idica A, Bochnakian A, Jury D, Daugaard I, Zisoulis DG, and Pedersen IM

Abstract

Telomerase is a unique cellular reverse transcriptase (RT) essential for maintaining telomere stability and required for the unlimited proliferation of cancer cells. The limiting determinant of telomerase activity is the catalytic component TERT, and TERT expression is closely correlated with telomerase activity and cancer initiation and disease progression. For this reason the regulation of TERT levels in the cell is of great importance. microRNAs (miRs) function as an additional regulatory level in cells, crucial for defining expression boundaries, proper cell fate decisions, cell cycle control, genome integrity, cell death and metastasis. We performed an anti-miR library screen to identity novel miRs, which participate in the control of telomerase. We identified the tumor suppressor miR (miR-128) as a novel endogenous telomerase inhibitor and determined that miR-128 significantly reduces the mRNA and protein levels of Tert in a panel of cancer cell lines. We further evaluated the mechanism by which miR-128 regulates TERT and demonstrated that miR-128 interacts directly with the coding sequence of TERT mRNA in both HeLa cells and teratoma cells. Interestingly, the functional miR-128 binding site in TERT mRNA, is conserved between TERT and the other cellular reverse transcriptase encoded by Long Interspersed Elements-1 (LINE-1 or L1), which can also contribute to the oncogenic phenotype of cancer. This finding supports the novel idea that miRs may function in parallel pathways to inhibit tumorigenesis, by regulating a group of enzymes (such as RT) by targeting conserved binding sites in the coding region of both enzymes., Competing Interests: CONFLICTS OF INTEREST All co-authors implicated in this research approved of this article to be published. No authors have declared any conflicts of interest.

Published

2018

627. MicroRNA miR-128 represses LINE-1 (L1) retrotransposition by down-regulating the nuclear import factor TNPO1.

Author

Idica A, Sevrioukov EA, Zisoulis DG, Hamdorf M, Daugaard I, Kadandale P, and Pedersen IM

Subjects

Amino Acid Substitution, Argonaute Proteins genetics, Argonaute Proteins metabolism, Biological Transport, Computational Biology, Genes, Reporter, HeLa Cells, Humans, Immunoprecipitation, Mutagenesis, Site-Directed, Mutation, RNA Interference, RNA, Messenger metabolism, RNA, Small Interfering metabolism, Recombinant Proteins chemistry, Recombinant Proteins metabolism, beta Karyopherins genetics, beta Karyopherins metabolism, 3' Untranslated Regions, Down-Regulation, Gene Expression Regulation, Long Interspersed Nucleotide Elements, MicroRNAs metabolism, RNA, Messenger antagonists & inhibitors, beta Karyopherins antagonists & inhibitors

Abstract

Repetitive elements, including LINE-1 (L1), comprise approximately half of the human genome. These elements can potentially destabilize the genome by initiating their own replication and reintegration into new sites (retrotransposition). In somatic cells, transcription of L1 elements is repressed by distinct molecular mechanisms, including DNA methylation and histone modifications, to repress transcription. Under conditions of hypomethylation ( e.g. in tumor cells), a window of opportunity for L1 derepression arises, and additional restriction mechanisms become crucial. We recently demonstrated that the microRNA miR-128 represses L1 activity by directly binding to L1 ORF2 RNA. In this study, we tested whether miR-128 can also control L1 activity by repressing cellular proteins important for L1 retrotransposition. We found that miR-128 targets the 3' UTR of nuclear import factor transportin 1 (TNPO1) mRNA. Manipulation of miR-128 and TNPO1 levels demonstrated that induction or depletion of TNPO1 affects L1 retrotransposition and nuclear import of an L1-ribonucleoprotein complex (using L1-encoded ORF1p as a proxy for L1-ribonucleoprotein complexes). Moreover, TNPO1 overexpression partially reversed the repressive effect of miR-128 on L1 retrotransposition. Our study represents the first description of a protein factor involved in nuclear import of the L1 element and demonstrates that miR-128 controls L1 activity in somatic cells through two independent mechanisms: direct binding to L1 RNA and regulation of a cellular factor necessary for L1 nuclear import and retrotransposition., (© 2017 by The American Society for Biochemistry and Molecular Biology, Inc.)

Published

2017

628. miR-151a induces partial EMT by regulating E-cadherin in NSCLC cells.

Author

Daugaard I, Sanders KJ, Idica A, Vittayarukskul K, Hamdorf M, Krog JD, Chow R, Jury D, Hansen LL, Hager H, Lamy P, Choi CL, Agalliu D, Zisoulis DG, and Pedersen IM

Abstract

miR-151a and its host gene, focal adhesion kinase, FAK, are located in a region of chromosome 8q that is frequently amplified in solid tumors, including lung cancer. Lung cancer is the leading cause of cancer deaths worldwide and metastasis remains the major challenge in battling lung cancer mortality. Here, we demonstrate that miR-151a is overexpressed in non-small cell lung cancer (NSCLC) patient specimens, as compared to healthy lung. In addition, miR-151a overexpression promotes proliferation, epithelial-to-mesenchymal transition (EMT) and induces tumor cell migration and invasion of NSCLC cells. Blocking miR-151a expression using anti-miR-151a approaches significantly reduced NCSLC cell proliferative and motility potential. Furthermore, we determined that miR-151a significantly regulates E-cadherin expression. Finally, functional rescue experiments determined that overexpression of E-cadherin in miR-151a NSCLC cell lines potently repressed miR-151a-induced partial EMT and cell migration of NSCLC cells. In conclusion, our findings suggest that miR-151a functions as an oncomiR in NSCLC by targeting E-cadherin mRNA and inducing proliferation, migration and partial EMT.

Published

2017

629. Starvation but not locomotion enhances heart robustness in Drosophila.

Author

Kezos JN, Cabral LG, Wong BD, Khou BK, Oh A, Harb JF, Chiem D, Bradley TJ, Mueller LD, and Rose MR

Subjects

Animals, Female, Food Deprivation, Heart physiology, Locomotion, Drosophila melanogaster physiology, Flight, Animal

Abstract

Insects and vertebrates have multiple major physiological systems, each species having a circulatory system, a metabolic system, and a respiratory system that enable locomotion and survival in stressful environments, among other functions. Broadening our understanding of the physiology of Drosophila melanogaster requires the parsing of interrelationships among such major component physiological systems. By combining electrical pacing and flight exhaustion assays with manipulative conditioning, we have started to unpack the interrelationships between cardiac function, locomotor performance, and other functional characters such as starvation and desiccation resistance. Manipulative sequences incorporating these four physiological characters were applied to five D. melanogaster lab populations that share a common origin from the wild and a common history of experimental evolution. While exposure to starvation or desiccation significantly reduced flight duration, exhaustion due to flight only affected subsequent desiccation resistance. A strong association was found between flight duration and desiccation resistance, providing additional support for the hypothesis that these traits depend on glycogen and water content. However, there was negligible impact on rate of cardiac arrests from exhaustion by flight or exposure to desiccant. Brief periods of starvation significantly lowered the rate of cardiac arrest. These results provide suggestive support for the adverse impact of lipids on Drosophila heart robustness, a parallel result to those of many comparable studies in human cardiology. Overall, this study underscores clear distinctions among the connections between specific physiological responses to stress and specific types of physiological performance., (Copyright © 2017 Elsevier Ltd. All rights reserved.)

Published

2017

630. Face masks and basketball: NCAA division I consumer trends and a review of over-the-counter face masks.

Author

Gandy JR, Fossett L, and Wong BJ

Subjects

Athletes statistics & numerical data, Humans, Surveys and Questionnaires, Universities, Basketball injuries, Consumer Behavior statistics & numerical data, Masks trends, Nose injuries, Sports Equipment statistics & numerical data

Abstract

Objectives/hypothesis: This study aims to: 1) determine the current consumer trends of over-the-counter (OTC) and custom-made face mask usage among National Collegiate Athletic Association (NCAA) Division I athletic programs; and 2) provide a literature review of OTC face guards and a classified database., Study Design: Literature review and survey., Methods: Consumer trends were obtained by contacting all 352 NCAA Division I programs. Athletic trainers present in the office when called answered the following questions: 1) "When an athlete breaks his or her nose, is a custom or generic face guard used?" and 2) "What brand is the generic face guard that is used?" Data was analyzed to determine trends among athletic programs. Also, a database of OTC devices available was generated using PubMed, Google, and manufacturer Web sites., Results: Among the 352 NCAA Division I athletic programs, 254 programs participated in the survey (72% response rate). The majority preferred custom-made guards (46%). Disadvantages included high cost and slow manufacture turnaround time. Only 20% of the programs strictly used generic brands. For the face mask database, 10 OTC products were identified and classified into four categories based on design, with pricing ranging between $35.99 and $69.95., Conclusion: Only a handful of face masks exist for U.S. consumers, but none of them have been reviewed or classified by product design, sport application, price, and collegiate consumer use. This project details usage trends among NCAA Division I athletic programs and provides a list of available devices that can be purchased to protect the nose and face during sports., Level of Evidence: NA. Laryngoscope, 126:1054-1060, 2016., (© 2015 The American Laryngological, Rhinological and Otological Society, Inc.)

Published

2016

631. Transposable elements and miRNA: Regulation of genomic stability and plasticity.

Author

Pedersen IM and Zisoulis DG

Abstract

Transposable elements, the class of mobile DNA sequences that change their copies or positions within the genome have an ever increasing role in shaping the genetic and evolutionary landscape. Approximately half of the mammalian genome is composed of repetitive elements, including LINE-1 (L1) elements. Because of their ability to "copy and paste" into other regions of the genome, their activation represent an opportunity as well as a threat, as L1-induced mutations results in genomic instability and plasticity. On one hand L1 retrotransposition and integration fosters genomic diversity and on the other, de-repressed L1 functions as a driver of diseases such as cancer. The regulation of L1 is an area of intense research and novel epigenetic mechanisms have recently been discovered to now include DNA methylation, histone modifications, and miR-induced L1 silencing. During development, reprogramming and in transformed cells, specific classes of repetitive elements are upregulated, presumably due to the loss of epigenetic regulation in this process, increasing the risk of L1-induced mutations. Here we discuss how miR regulation of L1 activation fits into the complex picture of L1 repression in somatic cells and touch on some of the possible implications.

Published

2016

632. miR-128 represses L1 retrotransposition by binding directly to L1 RNA.

Author

Hamdorf M, Idica A, Zisoulis DG, Gamelin L, Martin C, Sanders KJ, and Pedersen IM

Subjects

Cellular Reprogramming physiology, Colony-Forming Units Assay, DNA Primers genetics, Fibroblasts physiology, Fluorescent Antibody Technique, HeLa Cells, Humans, Immunoblotting, Induced Pluripotent Stem Cells physiology, Long Interspersed Nucleotide Elements genetics, Luciferases, MicroRNAs genetics, Mutagenesis, Insertional genetics, Neoplasms genetics, Reverse Transcriptase Polymerase Chain Reaction, Genomic Instability genetics, Long Interspersed Nucleotide Elements physiology, MicroRNAs metabolism, Mutagenesis, Insertional physiology, Neoplasms metabolism, RNA metabolism

Abstract

Long interspersed element 1 (LINE-1 or L1) retrotransposons compose 17% of the human genome. Active L1 elements are capable of replicative transposition (mobilization) and can act as drivers of genetic diversity. However, this mobilization is mutagenic and may be detrimental to the host, and therefore it is under strict control. Somatic cells usually silence L1 activity by DNA methylation of the L1 promoter. In hypomethylated cells, such as cancer cells and induced pluripotent stem cells (iPSCs), a window of opportunity for L1 reactivation emerges, and with it comes an increased risk of genomic instability and tumorigenesis. Here we show that miR-128 represses new retrotransposition events in human cancer cells and iPSCs by binding directly to L1 RNA. Thus, we have identified and characterized a new function of microRNAs: mediating genomic stability by suppressing the mobility of endogenous retrotransposons.

Published

2015

633. Activity of somatosensory-responsive neurons in high subdivisions of SI cortex during locomotion.

Author

Favorov OV, Nilaweera WU, Miasnikov AA, and Beloozerova IN

Subjects

Animals, Cats, Extremities innervation, Extremities physiology, Proprioception, Somatosensory Cortex cytology, Touch, Evoked Potentials, Somatosensory, Locomotion, Mechanoreceptors physiology, Pyramidal Cells physiology, Somatosensory Cortex physiology

Abstract

Responses of neurons in the primary somatosensory cortex during movements are poorly understood, even during such simple tasks as walking on a flat surface. In this study, we analyzed spike discharges of neurons in the rostral bank of the ansate sulcus (areas 1-2) in 2 cats while the cats walked on a flat surface or on a horizontal ladder, a complex task requiring accurate stepping. All neurons (n = 82) that had receptive fields (RFs) on the contralateral forelimb exhibited frequency modulation of their activity that was phase locked to the stride cycle during simple locomotion. Neurons with proximal RFs (upper arm/shoulder) and pyramidal tract-projecting neurons (PTNs) with fast-conducting axons tended to fire at peak rates in the middle of the swing phase, whereas neurons with RFs on the distal limb (wrist/paw) and slow-conducting PTNs typically showed peak firing at the transition between swing and stance phases. Eleven of 12 neurons with tactile RFs on the volar forepaw began firing toward the end of swing, with peak activity occurring at the moment of foot contact with floor, thereby preceding the evoked sensory volley from touch receptors. Requirement to step accurately on the ladder affected 91% of the neurons, suggesting their involvement in control of accuracy of stepping. During both tasks, neurons exhibited a wide variety of spike distributions within the stride cycle, suggesting that, during either simple or ladder locomotion, they represent the cycling somatosensory events in their activity both predictively before and reflectively after these events take place., (Copyright © 2015 the authors 0270-6474/15/357763-14$15.00/0.)

Published

2015

634. Understanding positional cues in salamander limb regeneration: implications for optimizing cell-based regenerative therapies.

Author

McCusker CD and Gardiner DM

Subjects

Animals, Regenerative Medicine, Extremities physiology, Regeneration, Urodela physiology

Abstract

Regenerative medicine has reached the point where we are performing clinical trials with stem-cell-derived cell populations in an effort to treat numerous human pathologies. However, many of these efforts have been challenged by the inability of the engrafted populations to properly integrate into the host environment to make a functional biological unit. It is apparent that we must understand the basic biology of tissue integration in order to apply these principles to the development of regenerative therapies in humans. Studying tissue integration in model organisms, where the process of integration between the newly regenerated tissues and the 'old' existing structures can be observed and manipulated, can provide valuable insights. Embryonic and adult cells have a memory of their original position, and this positional information can modify surrounding tissues and drive the formation of new structures. In this Review, we discuss the positional interactions that control the ability of grafted cells to integrate into existing tissues during the process of salamander limb regeneration, and discuss how these insights could explain the integration defects observed in current cell-based regenerative therapies. Additionally, we describe potential molecular tools that can be used to manipulate the positional information in grafted cell populations, and to promote the communication of positional cues in the host environment to facilitate the integration of engrafted cells. Lastly, we explain how studying positional information in current cell-based therapies and in regenerating limbs could provide key insights to improve the integration of cell-based regenerative therapies in the future., (© 2014. Published by The Company of Biologists Ltd.)

Published

2014