Your search keyword '"Mayer W"' showing total 15 results

1. Fast radiation of the subfamily Lacertinae (Reptilia: Lacertidae): history or methodical artefact?

Author

Pavlicev M and Mayer W

Subjects

Animals, Cell Nucleus genetics, DNA, Mitochondrial genetics, Lizards classification, Models, Genetic, Sequence Alignment, Sequence Analysis, DNA, Evolution, Molecular, Genetic Speciation, Lizards genetics, Phylogeny

Abstract

Lacertinae is one of the three lacertid lizard subfamilies with a geographical distribution confined to the Palaearctic. Several past attempts to reconstruct its phylogeny resulted in unresolved bush-like topologies. We address the question of whether the lack of resolution is due to insufficient data or whether this lack reflects a rapid succession of speciation events. We analyzed four partial and one complete gene sequences from mitochondrial and nuclear genomes, totalling roughly 3600 bp. We included 29 species representing all 19 genera suggested in recent revision of Lacertinae [Arnold, E.N., Arribas, O., Carranza, S., 2007. Systematics of the palaearctic and oriental lizard tribe Lacertini (Squamata: Lacertidae: Lacertinae), with descriptions of eight new genera. Zootaxa 1430, 1-86]. The resulting phylogeny, first, corroborates monophyly at the genus level for the suggested genera, as well as the finding that Atlantolacerta andreanskyi, until recently part of Lacertinae, belongs to the subfamily Eremiadinae. Second, we find that increasing the sequence length and combining multiple nuclear and mitochondrial sequences did not resolve the polytomy, suggesting that the inferred topology indicates a multiple cladogenesis within a short geological period, rather than a methodical artefact. Divergence time estimates, based on previous estimates of several node ages, range from 13.9 to 14.9 million years for the radiation event, however with very broad confidence interval. To associate the radiation with a narrower geological time we consider palaeogeographic and palaeoclimatic data, assuming that the Lacertinae probably evolved in Central Europe and W Asia after the collision of Africa and Eurasia. We suggest that this radiation may date to the late Langhian (ca. 14-13.5 million years) when geological events caused abrupt changes in regional water-land distribution and climate, offering a window of distinct conditions.

Published

2009

2. Molecular phylogeography of the nose-horned viper (Vipera ammodytes, Linnaeus (1758)): evidence for high genetic diversity and multiple refugia in the Balkan peninsula.

Author

Ursenbacher S, Schweiger S, Tomović L, Crnobrnja-Isailović J, Fumagalli L, and Mayer W

Subjects

Animals, Bulgaria, Croatia, Cytochromes b genetics, DNA, Mitochondrial chemistry, DNA, Mitochondrial genetics, Genetic Variation, Geography, Greece, Italy, Molecular Sequence Data, RNA, Ribosomal, 16S genetics, Sequence Analysis, DNA, Slovenia, Turkey, Viperidae classification, Yugoslavia, Phylogeny, Viperidae genetics

Abstract

The nose-horned viper (Vipera ammodytes) occurs in a large part of the south-eastern Europe and Asia Minor. Phylogenetic relationships were reconstructed for a total of 59 specimens using sequences from three mitochondrial regions (16S and cytochrome b genes, and control region, totalling 2308 bp). A considerable number of clades were observed within this species, showing a large genetic diversity within the Balkan peninsula. Splitting of the basal clades was evaluated to about 4 million years ago. Genetic results are in contradiction with presently accepted taxonomy based on morphological characters: V. a. gregorwallneri and V. a. ruffoi do not display any genetic difference compared with the nominotypic subspecies (V. a. ammodytes), involving that these subspecies can be regarded as synonyms. High genetic divergence in the central part of the Balkan peninsula is not concordant with low morphological differentiation. Finally, the extensive genetic diversity within the Balkan peninsula and the colonisation routes are discussed.

Published

2008

3. Nuclear and mtDNA-based phylogeny of southern African sand lizards, Pedioplanis (Sauria: Lacertidae).

Author

Makokha JS, Bauer AM, Mayer W, and Matthee CA

Subjects

Africa, Animals, Databases, Nucleic Acid, Time Factors, Cell Nucleus genetics, DNA genetics, Lizards genetics, Mitochondria genetics, Phylogeny, Silicon Dioxide

Abstract

The diversity of lacertid lizards in Africa is highest in the southern African subcontinent, where over two-thirds of the species are endemic. With eleven currently recognized species, Pedioplanis is the most diverse among the southern African genera. In this study we use 2200 nucleotide positions derived from two mitochondrial markers (ND2 and 16S rRNA) and one nuclear gene (RAG-1) to (i) assess the phylogeny of Pedioplanis and (ii) estimate divergence time among lineages using the relaxed molecular clock method. Individual analyses of each gene separately supported different nodes in the phylogeny and the combined analysis yielded more well supported relationships. We present the first, well-resolved gene tree for the genus Pedioplanis and this is largely congruent with a phylogeny derived from morphology. Contrary to previous suggestions Heliobolus/Nucras are sister to Pedioplanis. The genus Pedioplanis is monophyletic, with P. burchelli/P. laticeps forming a clade that is sister to all the remaining congeners. Two distinct geographic lineages can be identified within the widespread P. namaquensis; one occurs in Namibia, while the other occurs in South Africa. The P. undata species complex is monophyletic, but one of its constituent species, P. inornata, is paraphyletic. Relationships among the subspecies of P. lineoocellata are much more complex than previously documented. An isolated population previously assigned to P. l. pulchella is paraphyletic and sister to the three named subspecies. The phylogeny identifies two biogeographical clades that probably diverged during the mid-Miocene, after the development of the Benguella Current. This probably led to habitat changes associated with climate and, in conjunction with physical barriers (Great Escarpment), contributed towards speciation within the genus Pedioplanis.

Published

2007

4. Multiple copies of coding as well as pseudogene c-mos sequence exist in three lacertid species.

Author

Pavlicev M and Mayer W

Subjects

Animals, Base Sequence, Bayes Theorem, DNA Primers, Lizards classification, Models, Genetic, Molecular Sequence Data, Sequence Alignment, Sequence Analysis, DNA, Species Specificity, Gene Dosage genetics, Genes, mos genetics, Genetic Variation, Lizards genetics, Phylogeny, Pseudogenes genetics

Abstract

The analysis of a 581 bp section of the nuclear gene c-mos revealed multiple copies of putative functional sequences as well as pseudogenes in three closely related lacertid species Lacerta laevis, L. kulzeri and L. cyanisparsa. A phylogenetic analysis of c-mos in comparison with a molecular phylogeny based on the mitochondrial cytochrome b gene supports our findings. The study also provides new insights into the phylogenetic relationships of L. cyanisparsa and L. laevis. Pseudogenes of the three species share 11 single-nucleotide substitutions, a 1 bp deletion and a premature stop codon but differ by group-specific mutations. This result suggests that the c-mos gene has become duplicated and subsequently silenced already in the common ancestor of the three species. Sequence divergence suggests that the duplication and the loss of function occurred in the late Miocene/early Pliocene, i.e., about 5 million years ago. Indications of gene conversion are discussed. We suggest that future studies using c-mos for phylogenetic studies should provide evidence for the orthology of the sequences compared.

Published

2006

5. Phylogeography of the Italian wall lizard, Podarcis sicula, as revealed by mitochondrial DNA sequences.

Author

Podnar M, Mayer W, and Tvrtković N

Subjects

Animals, Base Sequence, Bayes Theorem, Cytochromes b genetics, DNA Primers, DNA, Ribosomal genetics, Geography, Haplotypes genetics, Italy, Likelihood Functions, Models, Genetic, Molecular Sequence Data, Sequence Analysis, DNA, Species Specificity, Demography, Lizards genetics, Phylogeny

Abstract

In a phylogeographical survey of the Italian wall lizard, Podarcis sicula, DNA sequence variation along an 887-bp segment of the cytochrome b gene was examined in 96 specimens from 86 localities covering the distribution range of the species. In addition, parts of the 12S rRNA and 16S rRNA genes from 12 selected specimens as representatives of more divergent cytochrome b haploclades were sequenced (together about 950 bp). Six phylogeographical main groups were found, three representing samples of the nominate subspecies Podarcis sicula sicula and closely related subspecies and the other three comprising Podarcis sicula campestris as well as all subspecies described from northern and eastern Adriatic islands. In southern Italy a population group with morphological characters of P. s. sicula but with the mitochondrial DNA features of P. s. campestris was detected indicating a probably recent hybridization zone. The present distribution patterns were interpreted as the consequence of natural events like retreats to glacial refuges and postglacial area expansions, but also as the results of multiple introductions by man.

Published

2005

6. Phylogeny of antigen-processing enzymes: cathepsins of a cephalochordate, an agnathan and a bony fish.

Author

Uinuk-Ool TS, Takezaki N, Kuroda N, Figueroa F, Sato A, Samonte IE, Mayer WE, and Klein J

Subjects

Amino Acid Sequence, Animals, Antigen Presentation genetics, Base Sequence, Chordata, Nonvertebrate enzymology, DNA, Complementary, Molecular Sequence Data, Sequence Alignment, Cathepsins genetics, Chordata, Nonvertebrate genetics, Cichlids genetics, Lampreys genetics, Phylogeny

Abstract

Cathepsins are enzymes that have been cleaving peptide bonds of lysosomal proteins probably since lysosomes appeared in early eucaryotes. When the adaptive system emerged in gnathostomes, cathepsins were recruited to produce peptides for loading onto the major histocompatibility complex class II molecules and for degrading the class II-associated invariant chain just before the loading. The circumstances under which this recruitment took place are unclear because the knowledge about vertebrate cathepsins is limited largely to mammals. To shed light on the recruitment, 10 amphioxus, one lamprey and one cichlid fish cathepsin cDNA clone were characterized and analysed phylogenetically. Disregarding cathepsin O, whose phylogenetic position is uncertain, the analysis confirms the existence of two old lines of descent, the B and the L lineages of cathepsins, which diverged from each other early in the evolution of eucaryotes. The B lineage encompasses cathepsins B, C and Z (X). The L lineage splits off sublineages encompassing cathepsins F and W before the plant-animal separation and cathepsin H early in the evolution of the metazoa. The remaining cathepsins belonging to the L lineage diverged from one another during the evolution of vertebrates: S, K and L before the emergence of bony fishes, and the group of rodent placentally expressed cathepsins [J (P), M, Q, R, 3, 6, 7 and 8] as well as the testis/ova-expressed cathepsins (testins) probably after the divergence of rodents from primates. The part possibly played by the adaptive immune system in some of these divergences is discussed.

Published

2003

7. Classification and phylogenetic relationships of African tilapiine fishes inferred from mitochondrial DNA sequences.

Author

Nagl S, Tichy H, Mayer WE, Samonte IE, McAndrew BJ, and Klein J

Subjects

Animals, Base Sequence, DNA chemistry, DNA genetics, Genetic Variation, Molecular Sequence Data, Sequence Alignment, Sequence Analysis, DNA, Sequence Homology, Nucleic Acid, Tilapia classification, Time Factors, DNA, Mitochondrial genetics, Phylogeny, Tilapia genetics

Abstract

African cichlid fishes are composed of two major lineages, the haplochromines and the tilapiines. Whereas the phylogenetic relationships of the haplochromines have been studied extensively, primarily because of their spectacular adaptive radiations in the Great Lakes of East Africa, little is known about the relationships among the tilapiine species, despite the fact that they have become an important component of African, indeed world, aquaculture. To remedy this situation, molecular phylogenetic analysis of tilapiine fishes was undertaken. A segment of mitochondrial DNA encompassing the terminal part of the tRNA(Pro) gene and the most variable part of the control region was amplified by the polymerase chain reaction with DNA samples isolated from 42 tilapiine species, and the amplification products were subjected to heteroduplex analysis and sequencing. Phylogenetic trees based on 68 sequences revealed the existence of 11 sequence groups and 11 single-sequence branches. The groups, designated Ti1 through Ti11, were distinguished by specific combinations of diagnostic substitutions, formation of monophyletic clusters, and separation by genetic distances in excess of 0.04. Although the relationships among the groups could not be resolved, the sequences separated Oreochromis and Sarotherodon from Tilapia, as defined by Trewavas. The Oreochromis sequences clustered with the Sarotherodon sequences and thus supported the hypothesis that the mouthbrooding behavior of the tilapiine fishes evolved only once from the substrate-spawning behavior. Since on phylogenetic trees the O. alcalicus (sub)species were always separated from O. amphimelas by other Oreochromis species, it was concluded that the adaptation to life in water with a high salt concentration and high pH values evolved independently at least twice in the tilapiine fishes. The tilapiines diverged from the haplochromines more than 8 million years ago; most of the intragroup divergences among the tilapiines took place an estimated 1.1 to 6 million years ago., (Copyright 2001 Academic Press.)

Published

2001

8. Molecular phylogeny of Philippine freshwater sardines based on mitochondrial DNA analysis.

Author

Samonte IE, Pagulayan RC, and Mayer WE

Subjects

Animals, Base Sequence, Cytochrome c Group genetics, DNA, Mitochondrial chemistry, Evolution, Molecular, Fresh Water, Geography, Molecular Sequence Data, Philippines, Sequence Alignment, Sequence Analysis, DNA, Sequence Homology, Nucleic Acid, DNA, Mitochondrial genetics, Fishes genetics, Phylogeny

Abstract

The commercially important Sardinella species (family Clupeidae or herrings) usually thrive in marine environments. An exception is Sardinella tawilis of Taal Lake, Batangas, Philippines, the only known freshwater sardine. This species is believed to have immigrated from Balayan Bay to the lake when it was formed in the course of volcanic eruptions some 240 years ago. To determine the relationship of S. tawilis to the marine species S. albella, S. fimbriata, and S. longiceps from the Balayan Bay we sequenced 358 bp of the cytochrome b gene and the mitochondrial control region. The cytochrome b gene was highly conserved and contained little phylogenetic information. The control region sequences, however, demonstrated two highly diversified main haplotypes grouping S. tawilis with S. albella, as shown by maximum parsimony and neighbor-joining analysis. The haplotypes are characterized by the presence of an 81 bp indel and up to eight 35 bp tandem repeat elements. The repeat copy number varied within individuals of S. tawilis and S. albella, thus showing heteroplasmy in these two species only. The analysis of two subpopulations of S. tawilis revealed restricted substitutions that may indicate the beginning of genetic differentiation of the two subpopulations.

Published

2000

9. Fish trypanosomes: their position in kinetoplastid phylogeny and variability as determined from 12S rRNA kinetoplast sequences.

Author

Figueroa F, Mayer WE, Lom J, Dyková I, Weller M, Pecková H, and Klein J

Subjects

Animals, Base Sequence, DNA, Kinetoplast genetics, Fish Diseases parasitology, Genes, rRNA, Molecular Sequence Data, Polymerase Chain Reaction methods, RNA, Protozoan genetics, RNA, Ribosomal genetics, Trypanosoma classification, Fishes parasitology, Genetic Variation, Phylogeny, Trypanosoma genetics, Trypanosomiasis veterinary

Abstract

Fish trypanosomes have traditionally been classified according to the host species from which they were isolated, each isolate being regarded as a distinct species. To test the soundness of this practice, the genetic variabilities of the kinetoplast 12S rRNA-encoding genes of different fish trypanosomes isolates were compared. The DNAs were extracted from trypanosomes cloned from blood samples of 15 donors representing ten different fish species in four orders from waters of three major river systems of Central and Northern Europe. Comparison with other trypanosomatid sequences revealed that the fish trypanosomes form a monophyletic group with Trypanosoma brucei as a sister group. Pairwise comparisons of genetic distances yielded a wide range of continuous variation with no indication of any discontinuities attributable to barriers to gene flow. The genetic distances did not correlate with either the identity of the host species or geography. The host specificity of fish trypanosomes appears to be limited.

Published

1999

10. Phylogeny of African cichlid fishes as revealed by molecular markers.

Author

Mayer WE, Tichy H, and Klein J

Subjects

Africa, Eastern, Animals, Base Sequence, Consensus Sequence, DNA Primers, Evolution, Molecular, Fresh Water, Genetic Markers, Molecular Sequence Data, Polymerase Chain Reaction, Sequence Alignment, Sequence Deletion, Sequence Homology, Nucleic Acid, Tilapia genetics, Perches genetics, Phylogeny

Abstract

The species flocks of cichlid fish in the three great East African Lakes, Victoria, Malawi, and Tanganyika, have arisen in each lake by explosive adaptive radiation. Various questions concerning their phylogeny have not yet been answered. In particular, the identity of the ancestral founder species and the monophyletic origin of the haplochromine cichlids from the East African lakes have not been established conclusively. In the present study, we used the anonymous nuclear DNA marker DXTU1 as a step towards answering these questions. A 280 bp-fragment of the DXTU1 locus was amplified by the polymerase chain reaction from East African lacustrine species, the East African riverine cichlid species Haplochromis bloyeti, H. burtoni and H. sparsidens, and other African cichlids. Sequencing revealed several indels and substitutions that were used as cladistically informative markers to support a phylogenetic tree constructed by the neighbor-joining method. The topology, although not supported by high bootstrap values, corresponds well to the geographical distribution and previous classification of the cichlids. Markers could be defined that: (i) differentiate East African from West African cichlids; (ii) distinguish the riverine and Lake Victoria/Malawi haplochromines from Lake Tanganyika cichlids; and (iii) indicate the existence of a monophyletic Lake Victoria cichlid superflock which includes haplochromines from satellite lakes and East African rivers. In order to resolve further the relationship of East African riverine and lacustrine species, mtDNA cytochrome b and control region segments were sequenced. The mtDNA-based trees support the notion of the monophyly of the Lake Victoria superflock but are ambiguous with respect to the phylogenetic position of the Lake Malawi flock.

Published

1998

11. Mhc-DRB genes and the origin of New World monkeys.

Author

Trtkova K, Mayer WE, O'Huigin C, and Klein J

Subjects

Amino Acid Sequence, Animals, Base Sequence, Cebidae classification, Conserved Sequence, DNA Primers genetics, Exons, Founder Effect, HLA-DR Antigens genetics, Humans, Introns, Molecular Sequence Data, Polymerase Chain Reaction, Sequence Homology, Amino Acid, Sequence Homology, Nucleic Acid, Cebidae genetics, Major Histocompatibility Complex, Phylogeny

Abstract

The major histocompatibility complex (Mhc) is a family of loci characterized by its relatively rapid evolutionary turnover, large genetic distances between genes, and long persistence of allelic lineages effected by balancing selection. These features render the Mhc highly suitable for answering questions concerning speciation and adaptive radiation. The aim of the present study was to use Mhc-DRB genes to make inferences about the founding population of the Platyrrhini. Three segments, each approximately 300 base pairs in length, of the platyrrhine DRB genes were amplified by the polymerase chain reaction and sequenced. The segments were derived from intron 2, exon 3, and exon 6 of DRB genes from different species of New World monkeys. The results of the study have revealed that on a phylogenetic tree, all of the tested platyrrhine genes appear to form a single cluster, while all catarrhine DRB genes form a distinct cluster, although the bootstrap values fail to provide statistically significant support for the separation of these two clades. This observation suggests that the multiple platyrrhine genes originated from a single ancestral gene after the divergence of the Platyrrhini and Catarrhini and thus contradicts the results of an earlier study in which some exon 2 DRB sequences appeared to predate the split of the two primate groups. The inconsistency in the DRB gene phylogeny can be explained by postulating convergent evolution for the peptide-binding region of the DRB exon 2 sequences. The phylogeny of the platyrrhine DRB genes (except for exon 2) is relatively "shallow"; the distances between genes are relatively short (in comparison to the catarrhine DRB genes), and there is a tendency for sequences of individual species to cluster together. The phylogeny of the platyrrhine DRB genes is consistent with the postulate that a small population founded the group and that there is an ongoing adaptive radiation from small, relatively isolated founding populations.

Published

1995

12. Phylogenetic analysis of cichlid fishes using nuclear DNA markers.

Author

Sültmann H, Mayer WE, Figueroa F, Tichy H, and Klein J

Subjects

Africa, Eastern, Animals, Base Sequence, Cell Nucleus, Molecular Sequence Data, Polymerase Chain Reaction, Polymorphism, Single-Stranded Conformational, Random Amplified Polymorphic DNA Technique, Sequence Alignment, Species Specificity, DNA genetics, Evolution, Molecular, Genetic Markers, Perches genetics, Phylogeny

Abstract

The recent explosive adaptive radiation of cichlids in the great lakes of Africa has attracted the attention of both morphologists and molecular biologists. To decipher the phylogenetic relationships among the various taxa within the family Cichlidae is a prerequisite for answering some fundamental questions about the nature of the speciation process. In the present study, we used the random amplification of polymorphic DNA (RAPD) technique to obtain sequence differences between selected cichlid species. We then designed specific primers based on these sequences and used them to amplify template DNA from a large number of species by the polymerase chain reaction (PCR). We sequenced the amplified products and searched the sequences for indels and shared substitutions. We identified a number of such characters at three loci--DXTU1, DXTU2, and DXTU3--and used them for phylogenetic and cladistic analysis of the relationships among the various cichlid groups. Our studies assign an outgroup position to Neotropical cichlids in relation to African cichlids, provide evidence for a sister-group relationship of tilapiines to the haplochromines, group Cyphotilapia frontosa with the lamprologines of Lake Tanganyika, place Astatoreochromis alluaudi to an outgroup position with respect to other haplochromines of Lakes Victoria and Malawi, and provide additional support for the monophyly of the remaining Lake Victoria haplochromines and the Lake Malawi haplochromines. The described approach holds great promise for further resolution of cichlid phylogeny.

Published

1995

13. Complete mitochondrial genomes of three lizard species and the systematic position of the Lacertidae (Squamata).

Author

Podnar, M., Pinsker, W., and Mayer, W.

Subjects

GENOMES, LACERTIDAE, TRANSFER RNA, SQUAMATA -- Generative organs, PHYLOGENY

Abstract

Complete mitochondrial (mt) genomes were sequenced from representatives of three lacertid lizards: Podarcis siculus, Podarcis muralis and Phoenicolacerta kulzeri. In all three genomes the arrangement of the 22 tRNAs, the two rRNAs and the 13 protein-coding genes conforms to the common vertebrate arrangement. The phylogenetic position of Lacertidae within the order Squamata was determined through sequence analyses based on large sections of complete mt genomes. The number of nucleotide sites used for tree construction was 9234 when outgroup taxa were included, and 10 499 when only Squamata were compared. The phylogenetic analyses confirmed the sister group relationship between Lacertidae and Amphisbaenia as previously proposed on the basis of molecular data. Additionally, Bayesian analysis revealed a well supported clade comprising (Gekkonidae (Lacertidae + Amphisbaenia)), which is not in accordance with the traditional morphological view and most of the previous molecular studies. It confirms, however, the close relationship between Gekkonidae and Amphisbaenia as revealed in a recent study based on complete mt genomes from a smaller number of taxa. Intra- and intergeneric sequence comparisons of six commonly used marker genes showed rather high levels of divergence within the Lacertidae. In the intrageneric comparison the control region proved to be considerably more conserved than the protein coding genes. [ABSTRACT FROM AUTHOR]

Published

2009

14. Phylogenetic relationships of the European lacertid genera Archaeolacerta and Iberolacerta and their relationships to some other ‘Archaeolacertae’ (sensu lato ) from Near East, derived from mitochondrial DNA sequences.

Author

Mayer, W. and Arribas, O.

Subjects

*PHYLOGENY, *LACERTIDAE, *LIZARDS, *MONTICOLA, *MOLECULAR genetics

Abstract

Abstract Parts of the mitochondrial genes coding for 12SrRNA and 16SrRNA (together about 960 bp) were sequenced for all Mediterranean species of ‘Mountain lizards’ of the genera Archaeolacerta (sensu lato ) and Iberolacerta . All subspecies of the Iberian species Iberolacerta cyreni and I. monticola were included in this study. In addition, samples of Apathya cappadocica and Darevskia rudis were analysed to elucidate the relationships of the European ‘Mountain lizards’ to their possible relatives in the Near East. Maximum parsimony and neighbour joining analyses lead to the following major conclusions: (i) the monophyly of the genus Iberolacerta is very well supported; (ii) Archaeolacerta bedriagae (the type species of the genus) is most basal with respect to the ingroup taxa. If we accept Iberolacerta as a genus, Archaeolacerta becames paraphyletic. Therefore, we propose to restrict Archaeolacerta to the type species and to treat A. mosorensis and A. oxycephala provisionally as members of the collective genus Lacerta ; (iii) within the genus Iberolacerta three groups were found: a Pyrenean group, an Iberian group and I. horvathi . The relationships among these groups remain unresolved; and (iv) the Peña de Francia lizards, described originally as a subspecies of I. cyreni , are in fact more closely related to I. monticola . [ABSTRACT FROM AUTHOR]

Published

2003

15. Identification of Two Ikaros-like Transcription Factors in Lamprey.

Author

Mayer, W, O'Huigin, C, Tichy, H, Terzic, J, and Saraga-Babic, M

Subjects

*TRANSCRIPTION factors, *LAMPREYS, *PHYLOGENY, *IMMUNOGENETICS, *GENETICS

Abstract

The jawless Agnatha (lampreys and hagfishes) represent the phylogenetically oldest order of vertebrates that are believed to lack the adaptive immune system of jawed vertebrates. In order to search for molecular markers specific for cellular components of the adaptive immune system in lampreys, we used the polymerase chain reaction (PCR) to identify genes for transcription factors of the Ikaros family in genomic DNA and cDNA libraries from two species of lampreys, Petromyzon marinus and Lampetra fluviatilis . The mammalian Ikaros-like family of transcription factors consists of five members, Ikaros, Helios, Aiolos, Eos and Pegasus, of which the first three appear to be essential for lymphocyte development. Two different Ikaros -like genes, named IKLF1 and IKLF2 , were identified in lamprey. They both have the conserved exon–intron structure of seven exons and show alternative splicing like their counterparts in jawed vertebrates. The genes code for predicted proteins of 589 and 513 amino acid residues, respectively. The proteins contain six highly conserved zinc finger motifs that are 83–91% identical to the mammalian members of the Ikaros-like family. The remaining parts of the sequences are, however, mostly unalignable. Phylogenetic analysis based on the alignable segments of the sequences does not identify the orthologous gene in jawed vertebrates but rather shows equidistance of the lamprey Ikaros-like factors to each other and to Ikaros, Helios, Aiolos and Eos. Expression studies by reverse transcription (RT)–PCR and in situ hybridization (ISH), however, provide evidence for moderate expression in presumed lymphoid tissues like the gut epithelium and for high levels of expression in the gonads, especially in the ovary. [ABSTRACT FROM AUTHOR]

Published

2002