Phylogeny of Y chromosomes from bovine species

The Bovini tribe contains domestic and wild cattle‐like species, several of which are cross‐fertile. We present a completely resolved Y‐chromosomal phylogeny, which is better in agreement with autosomal phylogeny, morphological data, cross‐fertility and estimates of divergence times than mitochondrial data. The tree links Bos grunniens (yak) to Bison, so the commonly accepted Bos genus is not monophyletic. Therefore, we advocate the term Poephagus as designation of yak. This work illustrates the resolving power of Y‐chromosomal variation for cladistic studies of closely related species. © The Willi Hennig Society 2008.     

Concerted Evolution and Higher-Order Repeat Structure of the 1.709 (Satellite IV) Family in Bovids

The 1.709 or satellite IV repeated DNA family originally isolated from the domestic cow was analyzed using Southern blotting, pulsed field gel electrophoresis, fluorescence in situ hybridization, and DNA sequencing in species belonging to the genera Bos, Bison, Bubalus, Syncerus, Boselaphus, and Tragelaphus. Hybridization indicates that the family has been amplified in Bos, Bison, Bubalus, and Syncerus but not in Boselaphus or Tragelaphus. Pericentromeric, higher-order repeat substructure exists in all species, with multimeric arrays ranging in size from 10 to 1500 kb. Sequence analysis of a 492-bp PCR product revealed comparable levels (0.2–4.5%) of intra- and interspecific divergence when species of Bos and Bison were compared, supporting the idea that species of these two genera should be recognized under the genus Bos. Alternatively, all Syncerus sequences cluster as a monophyletic group on an evolutionary tree and differ from those of Bos/Bison by about 13%. Comparing these findings with the fossil record indicates that concerted evolution has occurred since Bos/Bison and Syncerus last shared a common ancestor (5.0 MYA) but before the radiation of the genus Bos (2.5 MYA): GenBank accession numbers AY517856-AY517904. Pfizer Global Research and Development, Department of Pathology, Eastern Point Road, Groton, CT 06340, USA     

Phylogenetic analysis of the tribe Bovini using microsatellites

The objective of the present study was to determine if the generally accepted phylogenetic relationships in the tribe Bovini correspond to a phylogenetic scheme derived from polymorphisms at 20 bovine microsatellite loci. This study comprises 17 representative populations: eight Bos taurus, two Bos indicus, one Poëphagus, one Bibos, one Bison, three Bubalus and one Syncerus. Phylogenetic analyses using (δμ)² and chord (D_C) distances revealed substantial divergence among species. Neighbor‐joining trees with both distance measures showed only minor differences. Bos taurus and Bos indicus grouped first, followed by Bos frontalis (Mithan) and Bos grunniens (Yak), Bison bison branched off next and Bubalus bubalis and Syncerus caffer emerged as the two most divergent species from the Bos clade. These findings would suggest that Bos, Poëphagus, and Bibos should be integrated into the Bos genus with each group classified as a subgenus. On the other hand, Bison, Bubalus and Syncerus should each be considered a separate genus. Direct estimates of the divergence times were calculated using the (δμ)² genetic distance. Bos taurus and Bos indicus were estimated to have diverged 0·31–0·82 MYA, Bos and Poëphagus: 0·57–1·53 MYA, Bos and Bibos: 0·57–1·52 MYA, Bos and Bison: 0·46–1·23 MYA, Bos and Bubalus: 1·85–4·93 MYA and Bos and Syncerus: 0·98–2·61 MYA.     

Molecular phylogeny of the tribe Bovini (Mammalia: Artiodactyla): alternative placement of the Anoa

Noncoding regions from the genes encoding aromatase cytochrome P450 and lactoferrin have been sequenced in ten bovine and one cervid species for an investigation of the evolutionary relationships within the tribe Bovini. The evolutionary rate of DNA-nucleotide alterations along the ancestral bovine lineage amounts to 0.38% per million years, as estimated from this combined 0.478-kb-single copy nuclear (scn) DNA sequence data set. Whereas rate homogenity is apparent within the Bovini, the relative rate test suggests that the boselaphine lineage (as represented by Boselaphus) has evolved at only about one third of the rate found within the Bovini. Consistent with other results, the scnDNA data provide evidence for (i) a monophyletic origin of the Bovini, (ii) a sister group position of the Boselaphini, and (iii) two different clades within the Bovini, the buffaloes (Bubalus and Syncerus) and the cattle (Bos/Bibos and Bison). Surprisingly, the results indicate very clearly that the enigmatic dwarf buffalo of Sulawesi Island (Anoa depressicornis) is most closely related to Boselaphus and that the divergence from the true Bovini occurred close to the base of bovine cladogenesis in the Middle Miocene (≈ 14—12 million years ago).     

Adaptive evolution of fertilization proteins within a genus: variation in ZP2 and ZP3 in deer mice (Peromyscus)

Rapid evolution of reproductive proteins has been documented in a wide variety of taxa. In internally fertilized species, knowledge about the evolutionary dynamics of these proteins between closely related taxa is primarily limited to accessory gland proteins in the semen of Drosophila. Investigation of additional taxa and functional classes of proteins is necessary in order to determine if there is a general pattern of adaptive evolution of reproductive proteins between recently diverged species. We performed an evolutionary analysis of 2 egg coat proteins, ZP2 and ZP3, in 15 species of deer mice (genus Peromyscus). Both of these proteins are involved in egg-sperm binding, a critical step in maintaining species-specific fertilization. Here, we show that Zp2 and Zp3 gene trees are not consistent with trees based on nonreproductive genes, Mc1r and Lcat, where species formed monophyletic clades. In fact, for both of the reproductive genes, intraspecific amino acid variation was extensive and alleles were sometimes shared across species. We document positive selection acting on ZP2 and ZP3 and identify specific amino acid sites that are likely targets of selection using both maximum likelihood approaches and patterns of parallel amino acid change. In ZP3, positively selected sites are clustered in and around the region implicated in sperm binding in Mus, suggesting changes may impact egg-sperm binding and fertilization potential. Finally, we identify lineages with significantly elevated rates of amino acid substitution using a Bayesian mapping approach. These findings demonstrate that the pattern of adaptive reproductive protein evolution found at higher taxonomic levels can be documented between closely related mammalian species, where reproductive isolation has evolved recently.     

Divergent adaptation promotes reproductive isolation among experimental populations of the filamentous fungus <Emphasis Type="Italic">Neurospora</Emphasis>

Background  

An open, focal issue in evolutionary biology is how reproductive isolation and speciation are initiated; elucidation of mechanisms with empirical evidence has lagged behind theory. Under ecological speciation, reproductive isolation between populations is predicted to evolve incidentally as a by-product of adaptation to divergent environments. The increased genetic diversity associated with interspecific hybridization has also been theorized to promote the development of reproductive isolation among independent populations. Using the fungal model Neurospora, we founded experimental lineages from both intra- and interspecific crosses, and evolved them in one of two sub-optimal, selective environments. We then measured the influence that initial genetic diversity and the direction of selection (parallel versus divergent) had on the evolution of reproductive isolation.     

Combining multiple autosomal introns for studying shallow phylogeny and taxonomy of Laurasiatherian mammals: Application to the tribe Bovini (Cetartiodactyla,Bovidae)

Mitochondrial sequences are widely used for species identification and for studying phylogenetic relationships among closely related species or populations of the same species. However, many studies of mammals have shown that the maternal history of the mitochondrial genome can be discordant with the true evolutionary history of the taxa. In such cases, the analyses of multiple nuclear genes can be more powerful for deciphering interspecific relationships.Here, we designed primers for amplifying 13 new exon-primed intron-crossing (EPIC) autosomal loci for studying shallow phylogeny and taxonomy of Laurasiatherian mammals. Three criteria were used for the selection of the markers: gene orthology, a PCR product length between 600 and 1200 nucleotides, and different chromosomal locations in the bovine genome. Positive PCRs were obtained from different species representing the orders Carnivora, Cetartiodactyla, Chiroptera, Perissodactyla and Pholidota.The newly developed markers were analyzed in a phylogenetic study of the tribe Bovini (the group containing domestic and wild cattle, bison, yak, African buffalo, Asian buffalo, and saola) based on 17 taxa and 18 nuclear genes, representing a total alignment of 13,095 nucleotides. The phylogenetic results were compared to those obtained from analyses of the complete mitochondrial genome and Y chromosomal genes. Our analyses support a basal divergence of the saola (Pseudoryx) and a sister-group relationship between yak and bison. These results contrast with recent molecular studies but are in better agreement with morphology. The comparison of pairwise nucleotide distances shows that our nuDNA dataset provides a good signal for identifying taxonomic levels, such as species, genera, subtribes, tribes and subfamilies, whereas the mtDNA genome fails because of mtDNA introgression and higher levels of homoplasy. Accordingly, we conclude that the genus Bison should be regarded as a synonym of Bos, with the European bison relegated to a subspecies rank within Bos bison. We compared our molecular dating estimates to the fossil record in order to propose a biogeographic scenario for the evolution of Bovini during the Neogene.     

Heritable determinants of male fertilization success in the nematode Caenorhabditis elegans

Background  

Sperm competition is a driving force in the evolution of male sperm characteristics in many species. In the nematode Caenorhabditis elegans, larger male sperm evolve under experimentally increased sperm competition and larger male sperm outcompete smaller hermaphrodite sperm for fertilization within the hermaphrodite reproductive tract. To further elucidate the relative importance of sperm-related traits that contribute to differential reproductive success among males, we quantified within- and among-strain variation in sperm traits (size, rate of production, number transferred, competitive ability) for seven male genetic backgrounds known previously to differ with respect to some sperm traits. We also quantified male mating ability in assays for rates of courtship and successful copulation, and then assessed the roles of these pre- and post-mating traits in first- and second-male fertilization success.     

Prezygotic reproductive isolation between Saccharomyces cerevisiae and Saccharomyces paradoxus

Background  

Matings between different Saccharomyces sensu stricto yeast species produce sexually sterile hybrids, so individuals should avoid mating with other species. Any mechanism that reduces the frequency of interspecific matings will confer a selective advantage. Here we test the ability of two closely-related Saccharomyces sensu stricto species to select their own species as mates and avoid hybridisation.     

Sperm divergence in a passerine contact zone: Indication of reinforcement at the gametic level

Postcopulatory sexual selection may promote evolutionary diversification in sperm form, but the contribution of between‐species divergence in sperm morphology to the origin of reproductive isolation and speciation remains little understood. To assess the possible role of sperm diversification in reproductive isolation, we studied sperm morphology in two closely related bird species, the common nightingale (Luscinia megarhynchos) and the thrush nightingale (Luscinia luscinia), that hybridize in a secondary contact zone spanning Central and Eastern Europe. We found: (1) striking divergence between the species in total sperm length, accompanied by a difference in the length of the mitochondrial sperm component; (2) greater divergence between species in sperm morphology in sympatry than in allopatry, with evidence for character displacement in sperm head length detected in L. megarhynchos; (3) interspecific hybrids showing sperm with a length intermediate between the parental species, but no evidence for decreased sperm quality (the proportion of abnormal spermatozoa in ejaculates). Our results demonstrate that divergence in sperm morphology between the two nightingale species does not result in intrinsic postzygotic isolation, but may contribute to postcopulatory prezygotic isolation. This isolation could be strengthened in sympatry by reinforcement.     

Molecular evolution in Panagrolaimus nematodes: origins of parthenogenesis, hermaphroditism and the Antarctic species P. davidi

Background  

As exemplified by the famously successful model organism Caenorhabditis elegans, nematodes offer outstanding animal systems for investigating diverse biological phenomena due to their small genome sizes, short generation times and ease of laboratory maintenance. Nematodes in the genus Panagrolaimus have served in comparative development and anhydrobiosis studies, and the Antarctic species P. davidi offers a powerful paradigm for understanding the biological mechanisms of extreme cold tolerance. Panagrolaimus nematodes are also unique in that examples of gonochoristic, hermaphroditic and parthenogenetic reproductive modes have been reported for members of this genus. The evolutionary origins of these varying reproductive modes and the Antarctic species P. davidi, however, remain enigmatic.     

Evolution of feeding specialization in Tanganyikan scale-eating cichlids: a molecular phylogenetic approach

Background  

Cichlid fishes in Lake Tanganyika exhibit remarkable diversity in their feeding habits. Among them, seven species in the genus Perissodus are known for their unique feeding habit of scale eating with specialized feeding morphology and behaviour. Although the origin of the scale-eating habit has long been questioned, its evolutionary process is still unknown. In the present study, we conducted interspecific phylogenetic analyses for all nine known species in the tribe Perissodini (seven Perissodus and two Haplotaxodon species) using amplified fragment length polymorphism (AFLP) analyses of the nuclear DNA. On the basis of the resultant phylogenetic frameworks, the evolution of their feeding habits was traced using data from analyses of stomach contents, habitat depths, and observations of oral jaw tooth morphology.     

Mammalian zona pellucida glycoproteins: structure and function during fertilization

Zona pellucida (ZP) is a glycoproteinaceous translucent matrix that surrounds the mammalian oocyte and plays a critical role in the accomplishment of fertilization. In humans, it is composed of 4 glycoproteins designated as ZP1, ZP2, ZP3 and ZP4, whereas mouse ZP is composed of ZP1, ZP2 and ZP3 (Zp4 being a pseudogene). In addition to a variable sequence identity of a given zona protein among various species, human ZP1 and ZP4 are paralogs and mature polypeptide chains share an identity of 47%. Employing either affinity purified native or recombinant human zona proteins, it has been demonstrated that ZP1, ZP3 and ZP4 bind to the capacitated human spermatozoa and induce an acrosome reaction, whereas in mice, ZP3 acts as the putative primary sperm receptor. Human ZP2 only binds to acrosome-reacted spermatozoa and thus may be acting as a secondary sperm receptor. In contrast to O-linked glycans of ZP3 in mice, N-linked glycans of human ZP3 and ZP4 are more relevant for induction of the acrosome reaction. Recent studies suggest that Sialyl-Lewis^x sequence present on both N- and O-glycans of human ZP play an important role in human sperm?Cegg binding. There are subtle differences in the downstream signaling events associated with ZP3 versus ZP1/ZP4-mediated induction of the acrosome reaction. For example, ZP3 but not ZP1/ZP4-mediated induction of the acrosome reaction is dependent on the activation of the G_i protein-coupled receptor. Thus, various studies suggest that, in contrast to mice, in humans more than one zona protein binds to spermatozoa and induces an acrosome reaction.     

DNA Fingerprinting of Individual Species and Intergeneric and Interspecific Hybrids of the Genera Bos and Bison, Subfamily Bovinae

Genome fingerprinting with a hypervariable minisatellite sequence of phage M13 DNA was used to study the genetic variation in individual species of the genera Bosand Bison(subfamily Bovinae) and in their interspecific and intergeneric hybrids. DNA fingerprints were obtained for domestic cow Bos taurus primigenius, vatussy Bos taurus macroceros, banteng Bos javanicus, gaur Bos gaurus, wisent Bison bonasus, bison Bison bison, and for the interspecific and intergeneric hybrids. Compared with the original species, most hybrids showed a greater variation in number and size of hybridization fragments. An association was revealed between the number of hybridization fragments and degree of consanguinity of interspecific hybrids resulting from unique crossing of domestic cow and banteng. Pairwise similarity coefficients were calculated to construct a dendrogram of genetic similarity, which reflected the relationships between the parental species and hybrids varying in degree of consanguinity. The applicability of the method for identifying interspecific and intergeneric hybrids and for studying the consequences of hybridization in the subfamily Bovinae is discussed.     

A family history of DUX4: phylogenetic analysis of DUXA, B, C and Duxbl reveals the ancestral DUX gene

Background  

DUX4 is causally involved in the molecular pathogenesis of the neuromuscular disorder facioscapulohumeral muscular dystrophy (FSHD). It has previously been proposed to have arisen by retrotransposition of DUXC, one of four known intron-containing DUX genes. Here, we investigate the evolutionary history of this multi-member double-homeobox gene family in eutherian mammals.     

Two sisters in the same dress: <Emphasis Type="Italic">Heliconius</Emphasis> cryptic species

Background  

Sister species divergence and reproductive isolation commonly results from ecological adaptation. In mimetic Heliconius butterflies, shifts in colour pattern contribute to pre- and post-mating reproductive isolation and are commonly correlated with speciation. Closely related mimetic species are therefore not expected, as they should lack several important sources of reproductive isolation.     

Multiple invasions of Gypsy and Micropia retroelements in genus Zaprionus and melanogaster subgroup of the genus Drosophila

Background  

The Zaprionus genus shares evolutionary features with the melanogaster subgroup, such as space and time of origin. Although little information about the transposable element content in the Zaprionus genus had been accumulated, some of their elements appear to be more closely related with those of the melanogaster subgroup, indicating that these two groups of species were involved in horizontal transfer events during their evolution. Among these elements, the Gypsy and the Micropia retroelements were chosen for screening in seven species of the two Zaprionus subgenera, Anaprionus and Zaprionus.     

Structure, expression differentiation and evolution of duplicated fiber developmental genes in Gossypium barbadense and G. hirsutum

Background  

Both Gossypium hirsutum and G. barbadense probably originated from a common ancestor, but they have very different agronomic and fiber quality characters. Here we selected 17 fiber development-related genes to study their structures, tree topologies, chromosomal location and expression patterns to better understand the interspecific divergence of fiber development genes in the two cultivated tetraploid species.     

Molecules involved in sperm-zona pellucida interaction in mammals. Role in human fertility

Fertilization in mammals requires an initial interaction of sperm with the oocyte envelope, the zona pellucida (ZP), before it reaches the oocyte. ZP is a highly glycosylated structure, composed of three (mouse) or four (rabbit, boar, bovine, humans...) glycoproteins. The presence of ZP around the oocyte does not allow heterospecific fertilization. This barrier is principally due to the presence of species-specific glycosylations on ZP proteins. Sperm bind ZP by means of membrane receptors which recognize carbohydrate moieties on ZP glycoproteins according to a well-precised sequential process. Upon initial attachment, spermatozoa bind ZP3/ZP4 which induces the sperm acrosome exocytosis followed by a secondary binding of acrosome reacted spermatozoa to ZP2 and by ZP penetration. The sperm receptors are adhesive proteins or integral plasma membrane proteins linked to intraspermatic signalling pathways activating the acrosome reaction. Over the last twenty years, numerous studies have been carried out to identify sperm receptors to ZP in several species, but the data in humans are still incomplete. Work initiated in our research group has identified several proteins interacting with recombinant human ZP2, ZP3 and ZP4, among which are glycolytic enzymes. These enzymes are involved in the gamete interaction by means of their affinity to sugars and not by their catalytic properties. From a clinical point of view, an observed lack or weak expression of some sperm receptors to ZP3 in cases of idiopathic infertility associated with in vitro fertilization failure suggests that knowing the molecular mechanism driving the gamete recognition can be important at the diagnostic level. Furthermore, it has been shown that proteins that mediate gamete recognition diverge rapidly, as a result of positive darwinian selection. A sexual conflict can drive co-evolution of reproductive molecules in both sexes resulting in reproductive isolation and species emergence.