Cristina Miceli

The Marine Microbial Eukaryote Transcriptome Sequencing Project (MMETSP): Illuminating the Functional Diversity of Eukaryotic Life in the Oceans through Transcriptome Sequencing.

Current sampling of genomic sequence data from eukaryotes is relatively poor, biased, and inadequate to address important questions about their biology, evolution, and ecology; this Community Page describes a resource of 700 transcriptomes from marine microbial eukaryotes to help understand their role in the worlds oceans.

Chemical Signaling in Ciliates

ABSTRACT. For long, our knowledge of the biology of ciliate pheromones has long relied solely upon the study of the two structurally unrelated “gamones” identified in culture filtrates of a Blepharisma species. However, the characterization of a number of polypeptide pheromones secreted by Euplotes raikovi and E. octocarinatus has now established that structural relationships of homology usually link these molecules, which is consistent with the genetic basis of the mating type systems evolved by these species. In this context, our growing appreciation of the conserved and variable elements of the pheromone architecture should foster progress in the understanding of pheromone‐receptor interactions and thus, provide important clues into pheromone mechanisms of action.

Cadmium metallothionein gene of Tetrahymena pyriformis.

A genomic sequence from Tetrahymena pyriformis, encoding a cadmium-induced metallothionein has been cloned. The gene encodes a transcript of 487 bases, with an intronless coding region of 324 nt, using TGA as the stop codon, TAA coding for glutamine, and the translational initiation sequence AAAATGG. Two regions of internal similarity in the coding sequence support the hypothesis that the Tetrahymena protein arose by gene duplication. The sequences of untranslated regions show some similarities with nematode MT-1 and MT-2 transcripts. Sequence of 525 bases upstream of the transcription start contains a TATA box, a CAAT box reverse complement, and many short stretches partially matching the AP-1 and ACE-1 binding sites, but no characteristic sequences found in other metallothionein promoters.

Large-scale phylogenomic analysis reveals the phylogenetic position of the problematic taxon Protocruzia and unravels the deep phylogenetic affinities of the ciliate lineages

The Ciliophora is one of the most studied protist lineages because of its important ecological role in the microbial loop. While there is an abundance of molecular data for many ciliate groups, it is commonly limited to the 18S ribosomal RNA locus. There is a paucity of data when it comes to availability of protein-coding genes especially for taxa that do not belong to the class Oligohymenophorea. To address this gap, we have sequenced EST libraries for 11 ciliate species. A supermatrix was constructed for phylogenomic analysis based on 158 genes and 42,158 characters and included 16 ciliates, four dinoflagellates and nine apicomplexans. This is the first multigene-based analysis focusing on the phylum Ciliophora. Our analyses reveal two robust superclades within the Intramacronucleata; one composed of the classes Spirotrichea, Armophorea and Litostomatea (SAL) and another with Colpodea and Oligohymenophorea. Furthermore, we provide corroborative evidence for removing the ambiguous taxon Protocruzia from the class Spirotrichea and placing it as incertae sedis in the phylum Ciliophora.

Cold-adapted microtubules: characterization of tubulin posttranslational modifications in the Antarctic ciliate Euplotes focardii.

In cold poikilotherm organisms, microtubule assembly is promoted at temperatures below 4 degrees C and cold-induced depolymerization is prevented. On the basis of the results of investigations on cold-adapted fishes, the property of cold adaptation is ascribed to intrinsic characteristics of the tubulins. To fully understand cold adaptation, we studied the tubulins of Euplotes focardii, an Antarctic ciliated protozoan adapted to temperatures ranging from -2 to +4 degrees C. In this organism, we had previously sequenced one beta-tubulin gene and, then identified three other genes (denoted as beta-T1, beta-T2, beta-T3 and beta-T4). Here we report that the amino acid sequence of the carboxy-terminal domain predicted from the beta-T3 gene (apparently the most expressed of the gene family) contains six modifications (five substitutions and one insertion) of conserved residues, unique with respect to all the other known beta-tubulin sequences. These modifications can change the structural conformation of the carboxy-terminal domain. Furthermore, in the variable terminal end of that domain, a consensus sequence for a phosphorylation site is present, and the residue Glu-438, the most frequent site for polyglutamylation in beta-tubulin, is substituted by Asp. Starting from these observations, we showed that in E. focardii only alpha-tubulin is polyglutamylated, while beta-tubulin undergoes phosphorylation. Polyglutamylated microtubules appear to colocalize with cilia and microtubular bundles, all structures in which microtubules undergo a sliding process. This finding supports the idea that alpha-tubulin polyglutamylation is involved in the interaction between tubulin and motor microtubule-associated proteins. Phosphorylation, usually a rare posttranslational modification of beta-tubulin, which is found extensively distributed in the beta-tubulin of this cold-adapted organism, may play a determinant role in the dynamic of polymerization and depolymerization at low temperatures.

Autocrine, Mitogenic Pheromone Receptor Loop of the Ciliate Euplotes raikovi: Pheromone-Induced Receptor Internalization

ABSTRACT The ciliate Euplotes raikovi produces a family of diffusible signal proteins (pheromones) that function as prototypic growth factors. They may either promote cell growth, by binding to pheromone receptors synthesized by the same cells from which they are secreted (autocrine activity), or induce a temporary cell shift from the growth stage to a mating (sexual) one by binding to pheromone receptors of other, conspecific cells (paracrine activity). In cells constitutively secreting the pheromone Er-1, it was first observed that the expression of the Er-1 receptor “p15,” a type II membrane protein of 130 amino acids, is quantitatively correlated with the extracellular concentration of secreted pheromone. p15 expression on the cell surface rapidly and markedly increased after the removal of secreted Er-1 and gradually decreased in parallel with new Er-1 secretion. It was then shown that p15 is internalized through endocytic vesicles following Er-1 binding and that the internalization of p15/Er-1 complexes is specifically blocked by the paracrine p15 binding of Er-2, a pheromone structurally homologous to, and thus capable of fully antagonizing, Er-1. Based on previous findings that the p15 pheromone-binding site is structurally equivalent to Er-1 and that Er-1 molecules polymerize in crystals following a pattern of cooperative interaction, it was proposed that p15/Er-1 complexes are internalized as a consequence of their unique property (not shared by p15/Er-2 complexes) of undergoing clustering.

Characterization of the cold-adapted α-tubulin from the psychrophilic ciliate Euplotes focardii

Abstract. Tubulin dimers of psychrophilic organisms can polymerize into microtubules at temperatures below 4°C, at which non-cold-adapted microtubules disassemble. This capacity requires specificities in the structure and/or in the posttranslational modifications of the tubulin subunits. A contribution to the knowledge of these specificities was provided by the finding that the amino acid sequence of the α-tubulin of the Antarctic ciliate Euplotes focardii contains substitutions that, in addition to conferring an increased hydrophobicity to the molecule, modify sites that are involved in α-/α-tubulin lateral contacts between protofilaments. At the level of the coding sequence, the α-tubulin gene of E. focardii revealed an A+T content appreciably higher than in its homologs in ciliates of temperate waters. This was interpreted as an adaptation to favor DNA strand separation in an environment which is energetically adverse.

Isolation of the mating-inducing factor of the ciliate Euplotes☆

Numerous strains of different mating types of the marine ciliate Euplotes raikovi have been found to be autonomous excreters into the surrounding medium of specific mating-inducing factors (gamones) (Luporini, P et al., J exp zool 226 (1983) 1 [9]). The gamone from the mating type represented by strain 13 has been isolated and identified as a glycoprotein with a molecular weight (MW) of about 12 kD and a pI of 4. It has been termed euplomone r 13. At a concentration of 3 X 10(-12) M, euplomone r 13 specifically induces cells of a complementary mating type to unite in conjugation within 2 h.

Relationship between genome and epigenome--challenges and requirements for future research.

Understanding the links between genetic, epigenetic and non-genetic factors throughout the lifespan and across generations and their role in disease susceptibility and disease progression offer entirely new avenues and solutions to major problems in our society. To overcome the numerous challenges, we have come up with nine major conclusions to set the vision for future policies and research agendas at the European level.

Cu,Zn Superoxide Dismutases from Tetrahymena thermophila: Molecular Evolution and Gene Expression of the First Line of Antioxidant Defenses

In the present study, we describe the molecular and functional characterization of two Cu,Zn superoxide dismutase (SOD) genes, named tt-sod1a and tt-sod1b from Tetrahymena thermophila, a free-living ciliated protozoan widely used as model organism in biological research. The cDNAs and the putative amino acid sequences were compared with Cu,Zn SODs from other Alveolata. The primary sequences of T. thermophila Cu,Zn SODs are unusually long if compared to orthologous proteins, but the catalytically important residues are almost fully conserved. Both phylogenetic and preliminary homology modeling analyses provide some indications about the evolutionary relationships between the Cu,Zn SODs of Tetrahymena and the Alveolata orthologous enzymes. Copper-dependent regulation of Cu,Zn SODs expression was investigated by measuring mRNA accumulation and enzyme activity in response to chronic exposure to non-toxic doses of the metal. Our in silico analyses of the tt-sod1a and tt-sod1b promoter regions revealed putative consensus sequences similar to half Antioxidant Responsive Elements (hARE), suggesting that the transcription of these genes directly depends on ROS formation. These data emphasize the importance of complex metal regulation of tt-sod1a and tt-sod1b activation, as components of an efficient detoxification pathway allowing the survival of T. thermophila in continued, elevated presence of metals in the environment.