Home About us Contact
|
Home About us Contact | ||
|
|
||
Coding Genes (coding + gene)
Kinds of Coding Genes Selected AbstractsOn bivalve phylogeny: a high-level analysis of the Bivalvia (Mollusca) based on combined morphology and DNA sequence dataINVERTEBRATE BIOLOGY, Issue 4 2002Gonzalo Giribet Abstract. Bivalve classification has suffered in the past from the crossed-purpose discussions among paleontologists and neontologists, and many have based their proposals on single character systems. More recently, molecular biologists have investigated bivalve relationships by using only gene sequence data, ignoring paleontological and neontological data. In the present study we have compiled morphological and anatomical data with mostly new molecular evidence to provide a more stable and robust phylogenetic estimate for bivalve molluscs. The data here compiled consist of a morphological data set of 183 characters, and a molecular data set from 3 loci: 2 nuclear ribosomal genes (18S rRNA and 28S rRNA), and 1 mitochondrial coding gene (cytochrome c oxidase subunit I), totaling ,3 Kb of sequence data for 76 molluscs (62 bivalves and 14 outgroup taxa). The data have been analyzed separately and in combination by using the direct optimization method of Wheeler (1996), and they have been evaluated under 12 analytical schemes. The combined analysis supports the monophyly of bivalves, paraphyly of protobranchiate bivalves, and monophyly of Autolamellibranchiata, Pteriomorphia, Heteroconchia, Palaeoheterodonta, and Heterodonta s.l., which includes the monophyletic taxon Anomalodesmata. These analyses strongly support the conclusion that Anomalodesmata should not receive a class status, and that the heterodont orders Myoida and Veneroida are not monophyletic. Among the most stable results of the analysis are the monophyly of Palaeoheterodonta, grouping the extant trigoniids with the freshwater unionids, and the sister-group relationship of the heterodont families Astartidae and Carditidae, which together constitute the sister taxon to the remaining heterodont bivalves. Internal relationships of the main bivalve groups are discussed on the basis of node support and clade stability. [source] Evidence from a protein-coding gene that acanthocephalans are rotifersINVERTEBRATE BIOLOGY, Issue 1 2000David B. Mark Welch Abstract. Rotifera and Acanthocephala are generally regarded as separate phyla sharing a basal position among triploblast protostomes. This paper presents the first molecular phylogenetic examination of the relationship of Acanthocephala to all three rotifer classes, Seisonidea, Monogononta, and Bdelloidea. Inclusion of Acanthocephala within Rotifera, probably as a sister-taxon to a clade composed of Bdelloidea and Monogononta (the Eurotatoria), is strongly supported by both parsimony and distance methods, using a region of the nuclear coding gene hsp82. Previous molecular evidence for the inclusion of Acanthocephala in the Rotifera suggested that Acanthocephala is a sister-taxon of Bdelloidea, forming the clade Lemniscea. No support is found for this clade, and evidence is presented that the monogonont rotifer used in those analyses, Brachionus plicatilis, may be evolving in an anomalous manner. [source] Isolation and characterization of cgchi3, a nodule-specific gene from Casuarina glauca encoding a class III chitinasePHYSIOLOGIA PLANTARUM, Issue 3 2007Ana Fortunato Chitinases (EC 3.2.1.14) catalyse the hydrolysis of chitin, a homopolymer of ,-1,4-linked N -acetyl- d -glucosamine residues. Plant chitinases are involved in a wide variety of processes; in particular, their expression has been found to be enhanced in symbiotic and pathogenic plant,microbe interactions. During this work we have cloned and characterized a gene encoding a class III chitinase from actinorhizal nodules of Casuarina glauca (cgchi3). CGCHI3 was found to be encoded by a single gene that was specifically activated in nodules as compared with uninoculated control roots and leaves. The expression of this gene was further enhanced in nodules after salicylic acid treatment and completely repressed after wounding. In situ hybridisation analysis revealed that cgchi3 is an early nodulin gene, being expressed in the meristem and in the uninfected cortical cells of young nodules. Based on the obtained results we suggest that this gene is involved in nodule development. This is the first report on a class III chitinase coding gene that is specifically activated during actinorhizal symbiosis. [source] The Glycine Decarboxylase Complex is not Essential for the Cyanobacterium Synechocystis sp.PLANT BIOLOGY, Issue 1 2005Strain PCC 680 Abstract: In order to investigate the metabolic importance of glycine decarboxylase (GDC) in cyanobacteria, mutants were generated defective in the genes encoding GDC subunits and the serine hydroxymethyl-transferase (SHMT). It was possible to mutate the genes for GDC subunits P, T, or H protein in the cyanobacterial model strain Synechocystis sp. PCC 6803, indicating that GDC is not necessary for cell viability under standard conditions. In contrast, the SHMT coding gene was found to be essential. Almost no changes in growth, pigmentation, or photosynthesis were detected in the GDC subunit mutants, regardless of whether or not they were cultivated at ambient or high CO2 concentrations. The mutation of GDC led to an increased glycine/serine ratio in the mutant cells. Furthermore, supplementation of the medium with low glycine concentrations was toxic for the mutants but not for wild type cells. Conditions stimulating photorespiration in plants, such as low CO2 concentrations, did not induce but decrease the expression of the GDC and SHMT genes in Synechocystis. It appears that, in contrast to heterotrophic bacteria and plants, GDC is dispensable for Synechocystis and possibly other cyanobacteria. [source] A 2-DE MALDI-TOF study to identify disease regulated serum proteins in lung cancer of c-myc transgenic micePROTEINS: STRUCTURE, FUNCTION AND BIOINFORMATICS, Issue 4 2009Bijon Chatterji Abstract We previously reported targeted overexpression of c-myc to alveolar epithelium to cause lung cancer. We now extended our studies to the serum proteome of tumor bearing mice. Proteins were extracted with a thiourea-containing lysis buffer and separated by 2-DE at pH,4,7 and 3,10 followed by MALDI-TOF/TOF analysis. Forty-six proteins were identified in tumor bearing mice of which n,=,9 were statistically significant. This included disease regulated expression of orosomucoid-8, ,-2-macroglobulin, apolipoprotein-A1, apolipoprotein-C3, glutathione peroxidase-3, plasma retinol-binding protein, and transthyretin, while expression of apolipoprotein-E was decreased at late stages of disease. Moreover, serum amyloid P component was uniquely expressed at late stages of cancer. It is of considerable importance that most disease regulated proteins carried the E-Box sequence (CACGTG) in the promoter of the coding gene, therefore providing evidence for their regulation by c-myc. Notably, expression of ,-2-macroglobulin, transthyretin, ,-1-antitrypsin, and properdin was in common in different lung tumor models, but regulation of orosomucoid-8, apolipoprotein-A1, apolipoprotein-C3, apolipoprotein-E, glutathione peroxidase-3, plasma retinol-binding protein, and serum amyloid P component was unique when the serum proteomes of c-myc and c-raf tumor bearing mice were compared. Therefore, candidate biomarkers to differentiate between atypical adenomatous hyperplasias (AAH) and bronchiolo-alveolar carcinomas (BAC)/papillary adenocarcinomas (PLAC) can be proposed. [source] Two different CC-NBS-LRR genes are required for Lr10 -mediated leaf rust resistance in tetraploid and hexaploid wheatTHE PLANT JOURNAL, Issue 6 2009Caroline Loutre Summary Comparative study of disease resistance genes in crop plants and their relatives provides insight on resistance gene function, evolution and diversity. Here, we studied the allelic diversity of the Lr10 leaf rust resistance gene, a CC-NBS-LRR coding gene originally isolated from hexaploid wheat, in 20 diploid and tetraploid wheat lines. Besides a gene in the tetraploid wheat variety ,Altar' that is identical to the hexaploid wheat Lr10, two additional, functional resistance alleles showing sequence diversity were identified by virus-induced gene silencing in tetraploid wheat lines. In contrast to most described NBS-LRR proteins, the N-terminal CC domain of LR10 was found to be under strong diversifying selection. A second NBS-LRR gene at the Lr10 locus, RGA2, was shown through silencing to be essential for Lr10 function. Interestingly, RGA2 showed much less sequence diversity than Lr10. These data demonstrate allelic diversity of functional genes at the Lr10 locus in tetraploid wheat, and these new genes can now be analyzed for agronomic relevance. Lr10 -based resistance is highly unusual both in its dependence on two, only distantly, related CC-NBS-LRR proteins, as well as in the pattern of diversifying selection in the N-terminal domain. This indicates a new and complex molecular mechanism of pathogen detection and signal transduction. [source] A new model Gondwanan taxon: systematics and biogeography of the harvestman family Pettalidae (Arachnida, Opiliones, Cyphophthalmi), with a taxonomic revision of genera from Australia and New ZealandCLADISTICS, Issue 4 2007Sarah L. Boyer The phylogeny of the temperate Gondwanan harvestman family Pettalidae is investigated by means of a new morphological matrix of 45 characters, and DNA sequence data from five markers, including two nuclear ribosomal genes (18S rRNA and 28S rRNA), one nuclear protein coding gene (histone H3), and two mitochondrial genes,one protein coding (cytochrome c oxidase subunit I) and one ribosomal (16S rRNA). Phylogenetic analyses using an array of homology schemes (dynamic and static), criteria (parsimony and maximum likelihood), and sampling strategies (optimal trees versus Bayesian phylogenetics) all agree on the monophyly of Pettalidae as well as several of its subclades, each of which is restricted to a modern landmass. While most genera as traditionally defined are monophyletic, Rakaia and Neopurcellia, distributed across Queensland (Australia) and New Zealand, are not. Instead, the species from Queensland, previously described under three genera, constitute a well-supported clade, suggesting that in this case biogeography prevails over traditional taxonomy. A taxonomic emendation of the genera from Queensland and New Zealand is presented, and the new genus Aoraki is erected to include the species of the New Zealand denticulata group. A biogeographical hypothesis of the relationships of the former temperate Gondwana landmasses (with the exception of Madagascar) is presented, although ambiguity in the deep nodes of the pettalid tree renders such inference provisional. The data suggest that neither the South African fauna, the New Zealand fauna nor the Australian fauna is monophyletic but instead monophyly is found at smaller geographic scales (e.g., Western Australia, Queensland, NE South Africa). © The Willi Hennig Society 2007. [source] DOMESTICATION OF MAIZE, SORGHUM, AND SUGARCANE DID NOT DRIVE THE DIVERGENCE OF THEIR SMUT PATHOGENSEVOLUTION, Issue 2 2007Andrew B. Munkacsi We investigated two alternative hypotheses for the origin of crop pathogen species: that human-mediated agricultural practices drove the divergence of many crop plant pathogen species or that coevolutionary processes in natural populations of the crops' ancestors drove divergence of pathogen species. We distinguished between these two hypotheses by constructing a robust multigene phylogeny and estimating the dates of divergence among four, monophyletic species of smut fungi (Ustilago maydis, U. scitaminea, Sporisorium reilianum, S. sorghi) known to specifically infect maize, sorghum, sugarcane, and their wild ancestors. Without a fossil record for smut fungi, we calibrated the pathogen species' divergence times to their plant host divergence times. Specifically, a calibration date of 10,000 years was employed to test the hypothesis that the fungal species originated at the time of domestication of their current hosts and a calibration date of 50 million years was employed to test the hypothesis that the fungal species originated on wild ancestors of their domesticated hosts. Substitution rates at five protein coding genes were calculated and rates obtained for the 10,000 year calibration date were orders of magnitude faster than those commonly reported for eukaryotes, thus rejecting the hypothesis that these smut pathogen species diverged at the time of domestication. In contrast, substitution rates obtained for the 50 million year calibration were comparable to eukaryotic substitution rates. We used the 50 million year calibration to estimate divergence times of taxa in two datasets, one comprised solely the focal species and one comprised the focal species and additional related taxa. Both datasets indicate that all taxa diverged millions of years ago, strongly supporting the hypothesis that smut species diverged before the time of domestication and modern agriculture. Thus, smut species diverged in the ecological context of natural host plant and fungal populations. [source] Prevalence and diversity of insertion sequences in the genome of Bacillus thuringiensis YBT-1520 and comparison with other Bacillus cereus group membersFEMS MICROBIOLOGY LETTERS, Issue 1 2010Ning Qiu Abstract Members of the Bacillus cereus group are closely related bacteria that exhibit highly divergent pathogenic properties. Sequencing of Bacillus thuringiensis ssp. kurstaki strain YBT-1520 revealed an increased number of insertion sequences (ISs) compared with those of the published B. cereus group genomes. Although some of these ISs have been observed and summarized in B. thuringiensis previously, a genomic characterization of their content is required to reveal their distribution and evolution. The result shows that the larger number of transposase coding genes on YBT-1520 chromosome is mainly caused by the amplification of IS231C, IS232A and ISBth166. Some functional genes have been disrupted through the insertion of ISs, preferentially IS231C. By comparing the Southern hybridization profiles of different B. thuringiensis strains, the existence of ISBth166 was mainly found in serovar kurstaki and the recent expansion of IS231C between different kurstaki isolates was suggested. In addition to revealing the ISs profile in YBT-1520 as well as the comparison in the B. cereus group, this study will contribute to further comparative analyses of multiple B. thuringiensis strains aimed at understanding the IS-mediated genomic rearrangements among them. [source] Molecular analyses and identification of promising candidate genes for loci on mouse chromosome 1 affecting alcohol physical dependence and associated withdrawalGENES, BRAIN AND BEHAVIOR, Issue 5 2008D. L. Denmark We recently mapped quantitative trait loci (QTLs) with large effects on predisposition to physical dependence and associated withdrawal severity following chronic and acute alcohol exposure (Alcdp1/Alcw1) to a 1.1-Mb interval of mouse chromosome 1 syntenic with human chromosome 1q23.2-23.3. Here, we provide a detailed analysis of the genes within this interval and show that it contains 40 coding genes, 17 of which show validated genotype-dependent transcript expression and/or non-synonymous coding sequence variation that may underlie the influence of Alcdp1/Alcw1 on ethanol dependence and associated withdrawal. These high priority candidates are involved in diverse cellular functions including intracellular trafficking, oxidative homeostasis, mitochondrial respiration, and extracellular matrix dynamics, and indicate both established and novel aspects of the neurobiological response to ethanol. This work represents a substantial advancement toward identification of the gene(s) that underlies the phenotypic effects of Alcdp1/Alcw1. Additionally, a multitude of QTLs for a variety of complex traits, including diverse behavioral responses to ethanol, have been mapped in the vicinity of Alcdp1/Alcw1, and as many as four QTLs on human chromosome 1q have been implicated in human mapping studies for alcoholism and associated endophenotypes. Thus, our results will be primary to further efforts to identify genes involved in a wide variety of behavioral responses to alcohol and may directly facilitate progress in human alcoholism genetics. [source] A deficit of detoxification enzymes: pesticide sensitivity and environmental response in the honeybeeINSECT MOLECULAR BIOLOGY, Issue 5 2006C. Claudianos Abstract The honeybee genome has substantially fewer protein coding genes (, 11 000 genes) than Drosophila melanogaster (, 13 500) and Anopheles gambiae (, 14 000). Some of the most marked differences occur in three superfamilies encoding xenobiotic detoxifying enzymes. Specifically there are only about half as many glutathione-S-transferases (GSTs), cytochrome P450 monooxygenases (P450s) and carboxyl/cholinesterases (CCEs) in the honeybee. This includes 10-fold or greater shortfalls in the numbers of Delta and Epsilon GSTs and CYP4 P450s, members of which clades have been recurrently associated with insecticide resistance in other species. These shortfalls may contribute to the sensitivity of the honeybee to insecticides. On the other hand there are some recent radiations in CYP6, CYP9 and certain CCE clades in A. mellifera that could be associated with the evolution of the hormonal and chemosensory processes underpinning its highly organized eusociality. [source] Comparative mtDNA sequence (control region, ATPase 6 and NADH-1) divergence in Hucho taimen(Pallas) across four Siberian river basinsJOURNAL OF FISH BIOLOGY, Issue 4 2005E. Froufe Hucho taimen from eight populations spanning four drainage basins (Amur, Lena, Enisei and Khatanga) were analysed for nucleotide sequence variation across three mitochondrial genes (ATP6, NADH-1 and control region). Samples of H. hucho, Brachymystax lenok(sharp-snouted and blunt-snouted forms) and Parahucho perryi were also included for comparison. Nucleotide variation across a total of 1826 base pairs in H. taimen revealed shared haplotypes between the Amur and Lena basins, further supporting a previous hypothesis of late to post-Pleistocene hydrological exchange between these now disjunct basins. In contrast to an earlier study using the control region alone, clear phylogeographic structure was seen at a large geographic scale, reflected by two phylogroups, one corresponding to the Amur and Lena basins, and the other to the Enisei and Khatanga basins. Comparative rates of divergence revealed considerably faster and less heterogeneous substitution rates for the two coding genes, especially at interspecific levels compared to the mtDNA control region. [source] There are High Levels of Functional and Genetic Diversity in Oxyrrhis marinaTHE JOURNAL OF EUKARYOTIC MICROBIOLOGY, Issue 3 2005CHRIS D. LOWE Abstract. Oxyrrhis marina, a widely distributed marine protist, is used to model heterotrophic flagellate responses in microbial food webs. Although clonal variability occurs in protists, assessments of intraspecific diversity are rare; such assessments are critical, particularly where species are used as models in ecological studies. To address the extent of intraspecific variation within O. marina, we assessed diversity among 11 strains using 5.8S rDNA and ITS sequences. The 5.8S rDNA and ITS regions revealed high divergence between strains: 63.1% between the most diverse. To compare O. marina diversity relative to other alveolates, 18S rDNA sequences for five strains were analysed with sequences from representatives of the major alveolate groups. 18S rDNA also revealed high divergence in O. marina. Additionally, consistent with phylogenies based on protein coding genes, maximum likelihood analysis indicated that O. marina was monophyletic and ancestral to the dinoflagellates. To assess ecophysiological differences, growth rates of seven O. marina strains were measured at 10 salinities (10,55,). Two salinity responses occurred: one group achieved highest growth rates at high salinities; the other grew best at low salinities. There was no clear correlation between molecular, ecophysiological, or geographical differences. However, salinity tolerance was associated with habitat type: intertidal strains grew best at high salinities; open-water strains grew best at low salinities. These data indicate the need to examine many strains of a species in both phylogenetic and ecological studies, especially where key-species are used to model ecological processes. [source] Developmental genome processing and protein evolution in the ciliate Chilodonella uncinataTHE JOURNAL OF EUKARYOTIC MICROBIOLOGY, Issue 2 2005REBECCA A. ZUFALL Ciliates are microbial eukaryotes with dual genomes, one present in the transcriptionally inactive germline micronucleus (MIC) and the other in the somatic macronucleus (MAC). In the development of the MAC from the MIC, ciliates process their genomes by chromosomal fragmentation, excision of internal excised sequences (IESs), and amplification of chromosomes. Chilodonella uncinata is in a class of ciliates, Phyllopharyngea, that undergo extensive processing to generate MACs containing thousands of gene-sized chromosomes. Previous analyses suggest that sequences involved in this processing are highly variable among ciliate lineages. In this study, we examine cis-acting signals involved in the elimination of IESs in C. uncinata in order to understand the phylogenetic level at which processing signals are conserved. In addition, we are testing the hypothesis that the differential selection on dual genomes in ciliates allows unusually rapid divergence among paralogs of protein coding genes. [source] Alloplasmic effects on mitochondrial transcriptional activity and RNA turnover result in accumulated transcripts of Arabidopsis orfs in cytoplasmic male-sterile Brassica napusTHE PLANT JOURNAL, Issue 4 2005Matti Leino Summary Mitochondrial transcription was investigated in a cytoplasmic male-sterile (CMS) Brassica napus line with rearranged mitochondrial (mt) DNA mostly inherited from Arabidopsis thaliana. The transcript patterns were compared with the corresponding male-fertile progenitors, B. napus and A. thaliana, and a fertility-restored line. Transcriptional activities, gene stoichiometry and transcript steady-state levels were analysed for all protein and rRNA coding genes and for several orfs present in the A. thaliana mitochondrial genome. The transcriptional activities were highly variable when comparing the parental species, while the CMS and restored lines displayed similar activities. For several ribosomal protein genes transcriptional activity was reduced while it was increased for orf139 in comparison with the parental species. The differences in transcriptional activity observed could be related to differences in relative promoter strength, as gene stoichiometry between lines was very limited. Transcript steady-state levels were more homogenous than the transcriptional activities demonstrating RNA turnover as a compensating mechanism. In the CMS line higher transcript abundance and novel transcript patterns in comparison with the parental lines were found for several genes. Of those, the transcripts for orf139, orf240a and orf294 were less abundant in the fertility-restored line. These putative CMS-associated transcripts were mapped by cRT-PCR. In conclusion we show that (mt) DNA from A. thaliana was non-correctly transcribed and processed/degraded in the B. napus nuclear background. Furthermore, the introgressed nuclear A. thaliana DNA in the fertility-restored line contributes to a more rapid degradation of transcripts accumulated from A. thaliana derived orfs in the CMS line. [source] Metabolic engineering of Escherichia coli for the production of putrescine: A four carbon diamineBIOTECHNOLOGY & BIOENGINEERING, Issue 4 2009Zhi-Gang Qian Abstract A four carbon linear chain diamine, putrescine (1,4-diaminobutane), is an important platform chemical having a wide range of applications in chemical industry. Biotechnological production of putrescine from renewable feedstock is a promising alternative to the chemical synthesis that originates from non-renewable petroleum. Here we report development of a metabolically engineered strain of Escherichia coli that produces putrescine at high titer in glucose mineral salts medium. First, a base strain was constructed by inactivating the putrescine degradation and utilization pathways, and deleting the ornithine carbamoyltransferase chain I gene argI to make more precursors available for putrescine synthesis. Next, ornithine decarboxylase, which converts ornithine to putrescine, was amplified by a combination of plasmid-based and chromosome-based overexpression of the coding genes under the strong tac or trc promoter. Furthermore, the ornithine biosynthetic genes (argC-E) were overexpressed from the trc promoter, which replaced the native promoter in the genome, to increase the ornithine pool. Finally, strain performance was further improved by the deletion of the stress responsive RNA polymerase sigma factor RpoS, a well-known global transcription regulator that controls the expression of ca. 10% of the E. coli genes. The final engineered E. coli strain was able to produce 1.68,g,L,1 of putrescine with a yield of 0.168,g,g,1 glucose. Furthermore, high cell density cultivation allowed production of 24.2,g,L,1 of putrescine with a productivity of 0.75,g,L,1,h,1. The strategy reported here should be useful for the bio-based production of putrescine from renewable resources, and also for the development of strains capable of producing other diamines, which are important as nitrogen-containing platform chemicals. Biotechnol. Bioeng. 2009; 104: 651,662 © 2009 Wiley Periodicals, Inc. [source] 4144: Retinal blood vessel phenotyping in miceACTA OPHTHALMOLOGICA, Issue 2010J RUBERTE Purpose In the retina there is a compromise between optimal visual function and optimal oxygenation. Retinal blood vessels have a relative sparse distribution and their size is small in order to minimise optical interference with the light path. Hence, the blood flow volume in the retina is relatively low. This fact, together with the high oxygen consumption of the retinal tissue, could facilitate the development of retinal hypoxia and subsequent retinopathy when the vascular bed is altered. Thus, the analysis of retinal blood vessel must be a crucial step during retinal phenotyping in mutant mice. Methods Different technologies and methods have been used in order to analyze structure, distribution and function of retinal blood vessels, among others: retinal digest preparations, retinal whole mount immunohistochemistry, transmission and scanning electron microscopy, fluorescein and Mercox vascular injections and scanner laser ophthalmoscopy. Results In our laboratory, morphological and topographic alterations of retinal blood vessels in Bmi1 and Sirt1 knockout mice, as well as in IGF-1 and IL-10 transgenic mice, have been observed and documented Conclusion The mouse genome is fully sequenced. 99% of the coding genes present in man are also present in mouse. Moreover, the majority of disease-related genes have been conserved since the emergence of the bony fishes about 400 million years ago. These facts and the development during the last two decades of an extensive toolbox to study the functional effects of genetic variation in mice, make them the ideal model organism for the study of human eye diseases. In this sense, morphological and functional analyses of retinal blood vessel in mutant mice could help to understand vascular gene-based mechanisms that lead to retinopathy [source] Phylogeny of Mysis (Crustacea, Mysida): history of continental invasions inferred from molecular and morphological dataCLADISTICS, Issue 6 2005Asta Audzijonyt We studied the phylogenetic history of opossum shrimps of the genus Mysis Latreille, 1802 (Crustacea: Mysida) using parsimony analyses of morphological characters, DNA sequence data from mitochondrial (16S, COI and CytB) and nuclear genes (ITS2, 18S), and eight allozyme loci. With these data we aimed to resolve a long-debated question of the origin of the non-marine (continental) taxa in the genus, i.e., "glacial relicts" in circumpolar postglacial lakes and "arctic immigrants" in the Caspian Sea. A simultaneous analysis of the data sets gave a single tree supporting monophyly of all continental species, as well as monophyly of the taxa from circumpolar lakes and from the Caspian Sea. A clade of three circumarctic marine species was sister group to the continental taxa, whereas Atlantic species had more distant relationships to the others. Small molecular differentiation among the morphologically diverse endemic species from the Caspian Sea suggested their recent speciation, while the phenotypically more uniform "glacial relict" species from circumpolar lakes (Mysis relicta group) showed deep molecular divergences. For the length-variable ITS2 region both direct optimization and a priori alignment procedures gave similar topologies, although the former approach provided a better overall resolution. In terms of partitioned Bremer support (PBS), mitochondrial protein coding genes provided the largest contribution (83%) to the total tree resolution. This estimate however, appears to be partly spurious, due to the concerted inheritance of mitochondrial characters and probable cases of introgression or ancestral polymorphism. © The Willi Hennig Society 2005. [source] | |||||||||||||||||||||||||