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4. Expression analysis of five zebrafish RXFP3 homologues reveals evolutionary conservation of gene expression pattern

Author

Donizetti A, Fiengo M, Iazzetti G, del Gaudio R, Di Giaimo R, Pariante P, MINUCCI, Sergio, Aniello F., Donizetti, A, Fiengo, M, Iazzetti, G, del Gaudio, R, Di Giaimo, R, Pariante, P, Minucci, Sergio, and Aniello, F.

Subjects
zebrafish, Relaxin peptides, Relaxin receptors, embryogenesis
Abstract

Relaxin peptides exert different functions in reproduction and neuroendocrine processes via interaction with two evolutionarily unrelated groups of receptors: RXFP1 and RXFP2 on one hand, RXFP3 and RXFP4 on the other hand. Evolution of receptor genes after splitting of tetrapods and teleost lineage led to a different retention rate between mammals and fish, with the latter having more gene copies compared to the former. In order to improve our knowledge on the evolution of the relaxin ligands/receptors system and have insights on their function in early stages of life, in the present paper we analyzed the expression pattern of five zebrafish RXFP3 homologue genes during embryonic development. In our analysis, we show that only two of the five genes are expressed during embryogenesis and that their transcripts are present in all the developmental stages. Spatial localization analysis of these transcripts revealed that the gene expression is restricted in specific territories starting from early pharyngula stage. Both genes are expressed in the brain but in different cell clusters and in extra-neural territories, one gene in the interrenal gland and the other in the pancreas. These two genes share expression territories with the homologue mammalian counterpart, highlighting a general conservation of gene expression regulatory processes and their putative function during evolution that are established early in vertebrate embryogenesis.

Published
2015

10. Differential expression of duplicated genes for prothymosin alpha during zebrafish development

Author

Francesco Aniello, Annamaria Locascio, Daniela Liccardo, Sergio Minucci, Daniela Esposito, Aldo Donizetti, Rosanna del Gaudio, Diana Ferrara, Donizetti, A, Liccardo, D, Esposito, D, DEL GAUDIO, R, Locascio, A, Ferrara, D, Minucci, Sergio, Aniello, F., Donizetti, Aldo, DEL GAUDIO, Rosanna, Minucci, S, and Aniello, Francesco

Subjects
Molecular Sequence Data, In situ hybridization, Biology, Prothymosin Alpha, 03 medical and health sciences, Gene duplication, Animals, Humans, Protein Isoforms, zebrafish embryo, Amino Acid Sequence, Protein Precursors, Gene, Zebrafish, In Situ Hybridization, Phylogeny, pronephric duct, 030304 developmental biology, Genetics, Regulation of gene expression, 0303 health sciences, endodermal pouches, fungi, 030302 biochemistry & molecular biology, Embryogenesis, ptma, gene duplication, Gene Expression Regulation, Developmental, Zebrafish Proteins, central nervous system, biology.organism_classification, eye, Embryonic stem cell, Cell biology, Thymosin, placode, Sequence Alignment, Developmental Biology
Abstract

We show that ptma, a single copy gene found in all organisms investigated so far, is duplicated in zebrafish. The two genes, ptmaa and ptmab, are individually controlled as indicated by their different expression patterns during embryonic development. Only the ptmab transcript is observed at 4 and 8 hpf of development in all embryonic cells, whereas both genes are expressed at later stages as revealed by in situ hybridization studies. In most cases, the two genes are expressed in the same territories, but only the ptmaa transcript was found in the trigeminal ganglion and in endodermal pouches. In the eye, at 72 hpf, the ptmaa and ptmab transcripts were found in amacrine cells, whereas only the ptmab transcript appeared in horizontal cells. The existence of two prothymosin genes indicates that their function in cell proliferation and differentiation is more complex in fishes than in mammals. Developmental Dynamics 237:1112–1118, 2008. © 2008 Wiley-Liss, Inc.

Published
2008
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11. In situ hybridization analysis of globin mRNAs in the primitive erythroid cells of the chick embryo

Author

Giuseppe Geraci, R. del Gaudio, Marina Piscopo, Umberto Galderisi, Laura Fucci, Fucci, Laura, Galderisi, U., Piscopo, M., DEL GAUDIO, Rosanna, Geraci, G., Fucci, L, Galderisi, Umberto, Piscopo, M, and DEL GAUDIO, R

Subjects
Erythroid Precursor Cells, Pharmacology, Messenger RNA, Globin chain, Embryo, Chick Embryo, Cell Biology, In situ hybridization, Biology, Sulfur Radioisotopes, Molecular biology, Globins, Cellular and Molecular Neuroscience, Homogeneous, Deoxycytosine Nucleotides, Animals, Molecular Medicine, RNA, Messenger, Hemoglobin, Globin, Embryonic hemoglobin, DNA Probes, Molecular Biology, In Situ Hybridization
Abstract

The possibility that the minor embryonic chick hemoglobins might be present in a particular subgroup of primitive erythroid cells has been investigated by in situ hybridization. Probe to detect the mRNA for the alpha A globin chain of the minor embryonic hemoglobin was used, and the results of the hybridization were compared with those obtained using as probes the cDNAs for total globin mRNAs. All erythroid cells circulating in a 4-day-old chick embryo gave positive signals with both probes at an approximately constant ratio. This shows that all cells contain a similar assortment of hemoglobin types, excluding the possibility that a subgroup might contain the minor primitive hemoglobins exclusively. However, the cells are not homogeneous, since about 10% of them show a distinctly higher concentration of mRNA of all globin types.

Published
1996
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12. Characterization, cDNA cloning and expression pattern of relaxin gene during embryogenesis of Danio rerio

Author

Aldo Donizetti, Rosanna del Gaudio, Marcella Fiengo, Sergio Minucci, Francesco Aniello, Fiengo, M, Donizetti, A, Del Gaudio, R, Minucci, Sergio, Aniello, F., Fiengo, Marcella, Donizetti, Aldo, DEL GAUDIO, Rosanna, Minucci, S, and Aniello, Francesco

Subjects
medicine.medical_specialty, DNA, Complementary, brain, Danio, Embryonic Development, Conserved sequence, Transcription (biology), Internal medicine, medicine, Animals, Amino Acid Sequence, Cloning, Molecular, Zebrafish, Gene, biology, Embryogenesis, Relaxin, Gene Expression Regulation, Developmental, Cell Biology, Sequence Analysis, DNA, Zebrafish Proteins, biology.organism_classification, Cell biology, nucleus incertu, pancrea, Endocrinology, Pharyngula, Otic vesicle, Sequence Alignment, Developmental Biology
Abstract

We report the identification, the cDNA cloning, the temporal and spatial expression pattern analysis of the rln gene in the Zebrafish Danio rerio. The deduced Rln B and A domains show different evolutionary conservation. Rln B domain shows higher similarity when compared to zebrafish and human RLN3 B domain than human RLN1 and RLN2 B domain. Differently, the zebrafish Rln A domain shows relatively low amino acid sequence similarity when compared with the same sequences. The rln gene is transcribed both during embryogenesis and in adult organism, where higher transcript level has been particularly evidenced in the brain. Moreover, we provide the first description of rln spatial expression pattern during embryonic development. In particular, we show restricted transcript localization starting at the pharyngula stage in olfactory placode, branchial arch region, and in a cell cluster near to otic vesicle. In larval stage, new transcription territories have been detected in both neural and non-neural regions. In particular, in the brain, rln expression has been revealed in telencephalic region around anterior commissure, in the preoptic area, and in restricted rombencephalic cell clusters. Expression of rln gene in extra-neural territories has been detected in the pancreatic and thyroid gland regions. Danio rerio rln expression pattern analysis reveals shared features with the mammalian RLN gene, particularly in the brain, where it might have a role in the neurophysiological processes. In addition, expression in the thyroid and pancreas region suggests a function as a paracrine and endocrine hormone.

Published
2011

13. A possible flip-flop genetic mechanism for reciprocal gene expression

Author

Giuseppina Maria Rosaria Russo, Giuseppe Geraci, Rossella Di Giaimo, Nicoletta Potenza, Maria Luisa Chiusano, Rosanna del Gaudio, Chiusano, MARIA LUISA, DI GIAIMO, Rossella, Potenza, Nicoletta, Russo, G. M. R., Geraci, Giuseppe, DEL GAUDIO, Rosanna, M. L., Chiusano, DI GIAIMO, R, Geraci, G, DEL GAUDIO, R., Nicoletta, Potenza, and Giuseppina M. R., Russo

Subjects
INNEXIN, CHAETOPTERUS VARIOPEDATUS, Biophysics, Nerve Tissue Proteins, Innexin, Biochemistry, RNA interference, Structural Biology, POLYCHAETE, Gene expression, ANNELID, Genetics, Melanogaster, Animals, Drosophila Proteins, Protein Isoforms, GENE STRUCTURE ETEROGENEITY, Molecular Biology, Gene, Genomic organization, IN SITU HYBRIDIZATION, EMBRYONIC DEVELOPMENT, Gap junction protein, biology, GAP JUNCTION, Gene Expression Regulation, Developmental, Membrane Proteins, Cell Biology, biology.organism_classification, Transmembrane protein, Cell biology, Drosophila melanogaster, Multigene Family
Abstract

Innexins are a family of transmembrane proteins involved in the formation of gap junctions, specific intercellular channels, in invertebrates. Analyses of the entire innexin family during Drosophila melanogaster embryonic development shows the occurrence of complex and specific patterns of expression of the different genes. Innexins inx-2 and inx-7, in general, do not appear to exhibit extensive co-expression in different D. melanogaster cellular compartments. We propose here a new and robust mechanism, based on our analysis of the genomic organization of inx-2 and inx-7, that structurally justifies the reciprocal expression of genes. © 2005 Federation of European Biochemical Societies. Published by Elsevier B.V. All rights reserved.

Published
2005

14. Specificity of cellular expression of C. variopedatus polychaete innexin in the developing embryo: evolutionary aspects of innexins' heterogeneous gene structures

Author

Maria Luisa Chiusano, Giuseppe Geraci, Giuseppina Maria Rosaria Russo, Nicoletta Potenza, Rosanna del Gaudio, Potenza, N., DEL GAUDIO, Rosanna, Chiusano, MARIA LUISA, Russo, G. M. R., Geraci, G., Potenza, N, Russo, Gm, Geraci, Giuseppe, Potenza, Nicoletta, DEL GAUDIO, R, Chiusano, M. L., and G., Geraci

Subjects
Embryo, Nonmammalian, Cellular differentiation, Gap junction, Gene structure heterogeneity, Molecular Sequence Data, Innexin, Chaetopterus variopedatus, Marine worm, Phylogenetics, Genetics, Chaetopterus variopedatu, Animals, Amino Acid Sequence, Molecular Biology, Gene, Ecology, Evolution, Behavior and Systematics, Phylogeny, Regulation of gene expression, biology, Phylogenetic tree, Annelid, Sequence Homology, Amino Acid, Gene Expression Regulation, Developmental, Membrane Proteins, Polychaeta, biology.organism_classification, Polychaete, Cell biology, Organ Specificity, Larva, Embryonic development, Insect Proteins, In situ hybridization
Abstract

Innexins are a family of membrane proteins involved in the formation of gap junctions in invertebrates. They have been found to participate in several aspects of cell differentiation and in embryonic patterning through the formation of specific intercellular communication channels. We present here data showing that the recently identified innexin of the marine worm Chaetopterus variopedatus is expressed only in particular cells of the early stage, demonstrating cell specificity of innexin expression also in polychaete annelids. Phylogenetic analysis of all known innexins results in a phylogenetic tree clearly distinguishing insect, nematode, and other invertebrate innexins. Comparative analysis of proteins and known related genes shows that the apparent similarity of protein composition, overall structural organization, and specificity of cellular expression, typical of innexins of all studied organisms, correspond to highly heterogeneous gene structures even for genes that are in close contiguity on the same chromosome. A possible evolutionary motive producing this situation is discussed.

Published
2004

15. CLONING AND MOLECULAR CHARACTERIZATION OF the first innexin of the phylum annelida-expression of the gene during development

Author

Loredana Rivieccio, Rosanna del Gaudio, Giuseppe Geraci, Giuseppina Maria Rosaria Russo, Nicoletta Potenza, Potenza, N, Rivieccio, L, DEL GAUDIO, Rosanna, Russo, G. M. R., Geraci, Giuseppe, Potenza, N., Rivieccio, L., Potenza, Nicoletta, DEL GAUDIO, R, RUSSO G. M., R, and G., Geraci

Subjects
Sequence analysis, Molecular Sequence Data, Innexin, Biology, Connexins, Complementary DNA, Gene expression, Chaetopterus variopedatu, Gap junctional protein, Genetics, Coding region, Animals, Invertebrate, Amino Acid Sequence, Molecular Biology, Gene, Ecology, Evolution, Behavior and Systematics, Phylogeny, Regulation of gene expression, Intronless gene, Polycheate, Gene Expression Regulation, Developmental, Polychaeta, Sequence Analysis, DNA, innexin, genomic DNA, Chaetopterus variopedatus, Invertebrate intercellular channel, Sequence Alignment
Abstract

A novel member of the innexin family (cv-inx) has been isolated from the annelid polychaete worm Chaetopterus variopedatus using a PCR approach on genomic DNA and sequence analysis on genomic DNA clones. The gene is present in a HindIII-HindIII segment of 2250 bp containing an uninterrupted open reading frame of 1196 bp encoding a protein of 399 amino acids. The predicted protein shows the typical structural features of innexins and consensus sites for phosphorylation. Analyses on genomic DNA demonstrate that cv-inx is a single copy gene with no introns in the coding region, exactly corresponding to the cDNA sequence. The gene expression is regulated during development as shown by Northern blots analyses of the RNA and by immunoreaction with antibodies against the protein at several embryonic stages. The finding of an innexin in the phylum Annelida, outside of the Ecdysozoa clade, and its peculiar gene structure suggest the necessity to reconsider the current hypothesis on the origin and evolution of gap junctional proteins.

Published
2002

16. DNA (cytosine-5) methyltransferase turnover and cellular localization in developing Paracentrotus lividus sea urchin embryo

Author

Giuseppe Geraci, Rossella Di Giaimo, Annamaria Locascio, Francesco Aniello, Nicoletta Potenza, Rosanna del Gaudio, Margherita Branno, DI GIAIMO, R, LOCASCIO A., ANIELLO F, Branno, M, DEL GAUDIO, R, Potenza, Nicoletta, Geraci, G., DI GIAIMO, Rossella, Annamaria, Locascio, Aniello, Francesco, Margherita, Branno, DEL GAUDIO, Rosanna, Nicoletta, Potenza, Giuseppe, Geraci, Lacascio, A, Aniello, F, and Potenza, N

Subjects
Embryo, Nonmammalian, Cellular differentiation, Blotting, Western, Embryonic Development, Dnmt1 immunolocalization, Biology, Paracentrotus lividus, Substrate Specificity, 03 medical and health sciences, 0302 clinical medicine, Dnmt1 in neuron, Antibody Specificity, Genetics, Animals, DNA (Cytosine-5-)-Methyltransferases, Cellular localization, 030304 developmental biology, chemistry.chemical_classification, 0303 health sciences, DNA methylation, Embryogenesis, Antibodies, Monoclonal, General Medicine, DNA, Blastula, biology.organism_classification, Precipitin Tests, Gastrulation, Isoenzymes, Molecular Weight, Enzyme, chemistry, Biochemistry, Sea Urchins, embryonic structures, DNMT1, Dnmt1 expression, 030217 neurology & neurosurgery
Abstract

The turnover and localization of the enzyme DNA (cytosine-5) methyltransferase (Dnmt1) were studied during Paracentrotus lividus sea urchin embryo development using antibody preparations against the NH2 and COOH-terminal regions of the molecule. The antibodies reveal, by Western blots and whole-mount analyses, that the enzyme is differently required during embryonic development. The changeover point is at blastula stage, where a proteolytic mechanism hydrolyses the enzyme present in all embryonic cells by removing a peptide of about 45 kDa from the amino terminal region of the 190 kDa enzyme initially synthesized on maternal transcripts. The resulting 145 kDa enzyme shows modified catalytic properties, different antibody reactivity and is rapidly destroyed in the few hours before gastrulation. At more advanced stages of development the enzyme is newly synthesized but only in particular cell types, among which neurons. The data show that Dnmt1 is removed from embryonic cells before gastrulation to be synthesized again at different levels in different cell types, indicating that the concentration of Dnmt1 is critical for the various differentiated cells of the developing sea urchin embryo. © 2001 Elsevier Science B.V. All rights reserved.

Published
2001

17. Microbes in rocks and meteorites: A new form of life unaffected by time, temperature, pressure

Author

Bruno D'Argenio, Giuseppe Geraci, Rosanna del Gaudio, D'Argenio, B., Geraci, G., and del Gaudio, R.

Subjects
Mineral, Life in rock, Microorganism, Metamorphic rock, Life in meteorite, Bioastronomy, Present day, Early Earth, Astrobiology, Igneous rock, Microbes, Meteorite, General Earth and Planetary Sciences, Earth (chemistry), General Agricultural and Biological Sciences, Geology, General Environmental Science
Abstract

Crystals, rocks and mineral ores of different origins contain viable microbial life that appears actively swimming under the microscope when the sample is properly fragmented and suspended in a nutrient medium. This form of life in rocks is unaffected by time, since microbes have been found in samples of all geological ages, from about 2.8 Ga to recent rocks, and by pressure and temperature, since it is present in metamorphic and in igneous rocks. From the tests performed, among which those to secure from sample pollution, it emerges that this form of life is not destroyed, as indeed expected, when the rock is heated above 500 °C in a kiln. However, all cloned microbes are sensitive to growth inhibition by specific antibiotics. A similar search, for the presence of microbes in meteorites, shows that also these materials are rich in microorganisms, indicating that these already existed in early Earth formation stages. Some different microbial species, derived from different samples of rocks and meteorites, have been cultured, cloned and classified by 16S rDNA typing and found to be not essentially different from present day organisms. An interesting consequence of these findings, among others, is the support to the hypothesis that life came from outside Earth with the additional indication that it was already present in those materials that accreted to form the solar planetary system.

Published
2001

19. Characterization of a new variant DNA (cytosine-5)-methyltransferase unable to methylate double stranded DNA isolated from the marine annelid worm Chaetopterus variopedatus

Author

Rossella Di Giaimo, Nicoletta Potenza, Francesco Aniello, Margherita Branno, Giuseppe Geraci, Rosanna del Gaudio, DEL GAUDIO, Rosanna, DI GIAIMO, Rossella, N., Potenza, M., Branno, Aniello, Francesco, Geraci, Giuseppe, Potenza, N, Branno, M, Aniello, F, Geraci, G., DEL GAUDIO, R, DI GIAIMO, R, and Potenza, Nicoletta

Subjects
Time Factors, Methyltransferase, animal structures, Annelida, Blotting, Western, Biophysics, DNA methyltransferase, Biology, Chaetopterus variopedatus, DNA (cytosine-5)-methyltransferase, Annelid polychaete, Biochemistry, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, Structural Biology, biology.animal, Chaetopterus variopedatu, Genetics, Animals, DNA (Cytosine-5-)-Methyltransferases, Invertebrate, Molecular Biology, Sea urchin, Chromatography, High Pressure Liquid, 030304 developmental biology, 0303 health sciences, Dose-Response Relationship, Drug, Cell Biology, Methylation, Anatomy, DNA Methylation, biology.organism_classification, Kinetics, Micrococcus luteus, 5-Methylcytosine, chemistry, 030220 oncology & carcinogenesis, embryonic structures, DNMT1, gene expression, annelid, DNA
Abstract

The enzyme S-adenosylmethionine-DNA (cytosine-5)-methyltransferase has been identified, first time for invertebrates, in embryos of the marine polychaete annelid worm Chaetopterus variopedatus. The molecule has been isolated from embryos at 15 h of development. It is a single peptide of about 200 kDa molecular weight, cross-reacting with antibodies against sea urchin DNA methyltransferase. The enzymatic properties of the molecule are similar to those of Dnmt1 methyltransferases isolated from other organisms, but with the peculiarity to be unable to make 'de novo' methylation on double stranded DNA. Copyright (C) 1999 Federation of European Biochemical Societies.

Published
1999

20. Cooperative mechanism in the homodimeric myoglobin from Nassa mutabilis

Author

M Piscopo, Massimo Coletta, Paolo Ascenzi, F Polizio, Giulietta Smulevich, R Del Gaudio, G. Geraci, Coletta, M, Ascenzi, Paolo, Polizio, F, Smulevich, G, DEL GAUDIO, R, Piscopo, M, Geraci, G., Massimo, Coletta, Paolo, Ascenzi, Francesca, Polizio, Giulietta, Smulevich, DEL GAUDIO, Rosanna, Piscopo, Marina, Geraci, Giuseppe, Coletta, M., Ascenzi, P., Polizio, F., and Smulevich, G.

Subjects
Circular dichroism, Hemeprotein, nassa mutabilis, Myoglobin, Protein Conformation, Circular Dichroism, Snails, chemistry.chemical_element, Cooperativity, Ligands, Biochemistry, Oxygen, Dissociation (chemistry), Bivalvia, chemistry.chemical_compound, Crystallography, Hemoglobins, chemistry, Animals, Protein quaternary structure, Oxygen binding, Protein Binding
Abstract

Oxygen binding and spectroscopic properties of the homodimeric myoglobin (Mb) from the prosobranchia sea snail Nassa mutabilis have been investigated. Oxygen equilibrium curves are pH-independent and cooperative with P50 = 5 +/- 1 mmHg and n approximately 1.5. Circular dichroism spectra of the oxygenated and deoxygenated form of N. mutabilis Mb are superimposable between 190 and 250 nm, suggesting a mechanism for cooperative ligand binding that does not involve changes in the alpha-helical content of the whole protein. The oxygen dissociation process is biphasic and pH-dependent, with different pKa values (=6.7 +/- 0.2 and 8.5 +/- 0.3) for the two phases. Moreover, the activation energy is essentially the same for both oxygen dissociation processes (Ea = 56.4 +/- 2.1 kJ/mol for the fast phase, and Ea = 53.8 +/- 1.9 kJ/mol for the slow phase), indicating that the rate difference for O2 dissociation between the diliganded and the monoliganded species is mostly dependent on a variation of the activation entropy. Ferrous nitrosylated N. mutabilis Mb shows, at alkaline and neutral pH, axial and rhombic X-band EPR signals, respectively, which display below pH 6 a three-hyperfine pattern typical of five-coordination. The results presented here suggest that in N.mutabilis Mb the kinetic control of cooperativity operates through a mechanism never observed before in other hemoproteins, which requires a ligand-linked large enhancement for the value of the oxygen association process in a molecule not undergoing changes in quaternary structure.

Published
1998

21. Organization and nucleotide sequence of the cluster of five histone genes in the polichaete worm Chaetopterus variopedatus: First record of a H1 histone gene in the phylum Annelida

Author

Giuseppe Geraci, Rosanna del Gaudio, Maria Luisa Chiusano, Patrizia Stefanoni, Nicoletta Potenza, DEL GAUDIO, R, Potenza, Nicoletta, Stefanoni, P, Chiusano, M. L., Geraci, G., DEL GAUDIO, Rosanna, Nicoletta, Potenza, Patrizia, Stefanoni, Chiusano, MARIA LUISA, and Geraci, Giuseppe

Subjects
Annelida, Molecular Sequence Data, Gene Dosage, Chaetopterus variopedatus, Marine worm, Histones, Histone H1, Phylogenesi, C. variopedatu, mRNA double termination signal, Chaetopterus variopedatu, Genetics, Animals, Amino Acid Sequence, RNA, Messenger, Cloning, Molecular, histone gene, Molecular Biology, Gene, Peptide sequence, Ecology, Evolution, Behavior and Systematics, Gene Library, H1 gene, biology, Phylogenetic tree, Base Sequence, Nucleic acid sequence, Polychaeta, biology.organism_classification, Polychaete, Histone, H1 histone, Multigene Family, biology.protein, Histone gene cluster, Nucleotide sequence
Abstract

Histone genes were identified and their nucleotide sequences were determined in the polychaete marine worm Chaetopterus variopedatus. The genes are organized in about 390 clusters of 7.3 kbp. Each cluster contains one copy of the five histone genes. The H1 histone gene present in the clusters is the first ever isolated in the phylum Annelida. The cluster has the unique peculiarity that all genes contain both the replication-dependent and the replication-independent 3' mRNA termination signals. Despite the differences in cluster organization and transcription polarity of the individual histone genes between C. variopedatus and Platynereis dumerilii, the other annelid in which histone genes have been studied, phylogenetic analysis of the encoded amino acid sequences clearly groups together those two organisms in a tree in which the other studied worms find closely related positions on the same evolutionary branch.

Published
1998

22. Alteration of the proximal bond energy in the unliganded form of the homodimeric myoglobin from Nassa mutabilis. Kinetic and spectroscopic evidence

Author

Marina Piscopo, Anna R. Mantini, Rosanna del Gaudio, Giulietta Smulevich, Massimo Coletta, Giuseppe Geraci, Paolo Ascenzi, Coletta, M, Ascenzi, Paolo, Smulevich, G, Mantini, Ar, DEL GAUDIO, R, Piscopo, M, Geraci, G., Coletta, M., Ascenzi, P., Smulevich, G., Mantini, A. R., DEL GAUDIO, Rosanna, Piscopo, Marina, and Piscopo, M.

Subjects
Hemeprotein, Stereochemistry, Protein Conformation, Protein subunit, Resonance Raman spectroscopy, Snails, Biophysics, Protonation, Animal, Carbon Monoxide, Heme, Hydrogen-Ion Concentration, Kinetics, Ligands, Myoglobin, Protein Conformation, Sequence Homology, Nucleic Acid, Snails, Spectrum Analysi, Heme, CO binding kinetics, Resonance Raman spectroscopic property, Ligands, Spectrum Analysis, Raman, Biochemistry, chemistry.chemical_compound, Protein structure, Structural Biology, Sequence Homology, Nucleic Acid, Nassa mutabilis homodimeric Mb, pH effect, Genetics, Animals, Bond energy, Molecular Biology, Raman, Carbon Monoxide, Myoglobin, CO binding kinetics, Myoglobin, Nassa mutabilis homodimeric Mb, pH effect, Resonance Raman spectroscopic property, Cell Biology, Hydrogen-Ion Concentration, Kinetics, chemistry
Abstract

CO binding kinetics to the homodimeric myoglobin (Mb) from Nassa mutabilis has been investigated between pH 1.9 and 7.0. Protonation of the proximal imidazole at low pH (less than or equal to 3.0) and the consequent cleavage of the HisF8NE2-Fe proximal bond brings about a approximately 20-fold increase of the second-order rate constant for CO binding. This process displays a pKa = 4.0 +/- 0.2, significantly higher than that observed in all other deoxygenated hemoproteins investigated up to now. Such a feature underlies a decreased energy for the HisF8NE2-Fe proximal bond in the unliganded form and it also appears supported by resonance Raman spectroscopy in the low frequency region of the Fe(II) deoxygenated hemoprotein. Further, the pH-rate profile of N. mutabilis Mb, like that of the homodimeric hemoglobin (Hb) from Scapharca inaequivalvis (Coletta, M., Boffi, A., Ascenzi, P., Brunori, M. and Chiancone, E. (1990) J. Biol. Chem. 265, 4828-4830), can be described only by assuming a concerted proton-linked transition with n = 1.8 +/- 0.1. Such a characteristic suggests, also on the basis of the amino acid sequence homology between N. mutabilis Mb and S. inaequivalvis Hb in the region forming the subunit interface, that the interaction mechanism is similar for the two homodimeric proteins, and drastically different Hb in the region forming the subunit interface, that the interaction mechanism is similar for the two homodimeric proteins, and drastically different from that operative in other hemoproteins.

Published
1992

23. Expression of Insl3 Protein in Adult Danio rerio .

Author

Donizetti A, Calicchio M, Romano MZ, Rosati L, Turco M, Carrese AM, Del Gaudio R, Ferrandino I, and Aniello F

Subjects
Animals, Male, Amino Acid Sequence, Leydig Cells metabolism, Receptors, G-Protein-Coupled metabolism, Receptors, G-Protein-Coupled genetics, Spermatogenesis genetics, Testis metabolism, Insulins metabolism, Insulins genetics, Zebrafish genetics, Zebrafish metabolism, Zebrafish Proteins genetics, Zebrafish Proteins metabolism
Abstract

Insulin-like peptide 3 (INSL3) is a biomarker for Leydig cells in the testes of vertebrates, and it is principally involved in spermatogenesis through specific binding with the RXFP2 receptor. This study reports the insl3 gene transcript and the Insl3 prepropeptide expression in both non-reproductive and reproductive tissues of Danio rerio . An immunohistochemistry analysis shows that the hormone is present at a low level in the Leydig cells and germ cells at all stages of Danio rerio testis differentiation. Considering that the insl3 gene is transcribed in Leydig cells, our results highlight an autocrine and paracrine function of this hormone in the Danio rerio testis, adding new information on the Insl3 mode of action in reproduction. We also show that Insl3 and Rxfp2 belonging to Danio rerio and other vertebrate species share most of the amino acid residues involved in the ligand-receptor interaction and activation, suggesting a conserved mechanism of action during vertebrate evolution.

Published
2024
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24. Expression pattern of zebrafish rxfp2 homologue genes during embryonic development.

Author

Donizetti A, Fiengo M, Del Gaudio R, Iazzetti G, Pariante P, Minucci S, and Aniello F

Subjects
Animals, Brain embryology, Brain metabolism, Embryo, Nonmammalian, Embryonic Development, Gene Expression Regulation, Developmental, Larva growth & development, Larva metabolism, Mouth Mucosa embryology, Mouth Mucosa growth & development, Mouth Mucosa metabolism, Receptors, G-Protein-Coupled genetics, Retina embryology, Retina growth & development, Retina metabolism, Zebrafish growth & development, Zebrafish metabolism, Receptors, G-Protein-Coupled metabolism, Zebrafish embryology
Abstract

RXFP2 is one of the 4 receptors for relaxin insulin-like peptides, in particular it binds with high affinity the INSL3 peptide. INSL3/RXFP2 pair is essential for testicular descent during placental mammalian development. The evolutionary history of this ligand/receptor pair has received much attention, since its function in vertebrate species lacking testicular descent, such as the fishes, remains elusive. Herein, we analyzed the expression pattern of three rxfp2 homologue genes in zebrafish embryonic development. For all the three rxfp2 genes (rxfp2a, rxfp2b, and rxfp2-like) we showed the presence of maternally derived transcripts. Later in the development, rxfp2a is only expressed at larval stage, whereas rxfp2b is expressed in all the analyzed stage with highest level in the larvae. The rxfp2-like gene is expressed in all the analyzed stage with a transcript level that increased starting at early pharyngula stage. The spatial localization analysis of rxfp2-like gene showed that it is expressed in many cell clusters in the developing brain. In addition, other rxfp2-like-expressing cells were identified in the retina and oral epithelium. This analysis provides new insights to elucidate the evolution of rxfp2 genes in vertebrate lineage and lays the foundations to study their role in vertebrate embryonic development., (© 2015 Wiley Periodicals, Inc.)

Published
2015
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25. Developmental expression pattern of two zebrafish rxfp3 paralogue genes.

Author

Fiengo M, del Gaudio R, Iazzetti G, Di Giaimo R, Minucci S, Aniello F, and Donizetti A

Subjects
Animals, Brain metabolism, Circadian Rhythm genetics, Cloning, Molecular, DNA Primers genetics, In Situ Hybridization, Protein Isoforms genetics, Protein Isoforms metabolism, Retinal Ganglion Cells metabolism, Reverse Transcriptase Polymerase Chain Reaction, Species Specificity, Vision, Ocular genetics, Zebrafish metabolism, Gene Expression Regulation, Developmental genetics, Receptors, Peptide genetics, Receptors, Peptide metabolism, Zebrafish genetics, Zebrafish Proteins genetics, Zebrafish Proteins metabolism
Abstract

In mammals, the RXFP3 is the cognate receptor of the relaxin-3 peptide (RLN3). In teleosts, many different orthologue genes for RXFP3 are present. In particular, two paralogue genes, rxfp3-2a and rxfp3-2b, likely encode the receptors for the Rln3a peptide. The transcription of these two rxfp3 genes is differentially regulated early during zebrafish embryogenesis. Indeed, reverse transcription-polymerase chain reaction analyses show that the rxfp3-2b transcript is always present during embryo development, while the rxfp3-2a transcript is detectable only at larval stage. By in situ hybridization experiments on embryos and larvae, the rxfp3-2b transcript was revealed in the brain and in the retinal ganglion cell layer and thymus. Particularly in the brain, many territories are involved in the rxfp3-2b expression, among them the optic tectum, thalamus, preoptic area, different nerve nuclei, habenula and pineal gland. The RXFP3 spatiotemporal expression pattern appears to be conserved between Danio rerio and mammals, as also previously showed for the corresponding ligand, the RLN3. Interestingly, the brain areas expressing the rxfp3-2b receptor gene are involved in the visual system, emotional behaviors and circadian rhythm and could be functionally related to the neurotransmitter Rln3a-expressing territories., (© 2013 The Authors Development, Growth & Differentiation © 2013 Japanese Society of Developmental Biologists.)

Published
2013
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26. A network system for vitellogenin synthesis in the mussel Mytilus galloprovincialis (L.).

Author

Agnese M, Verderame M, De Meo E, Prisco M, Rosati L, Limatola E, Del Gaudio R, Aceto S, and Andreuccetti P

Subjects
Animals, Female, Immunohistochemistry, In Situ Hybridization, Microscopy, Electron, Transmission, Mytilus genetics, Mytilus ultrastructure, Oocytes metabolism, Oocytes ultrastructure, Ovary anatomy & histology, Ovary metabolism, RNA, Messenger genetics, RNA, Messenger metabolism, Vitellogenins genetics, Mytilus metabolism, Vitellogenins biosynthesis
Abstract

The aim of this study is to assess, by RT-PCR, in situ hybridization, electron microscopy, and immunohistochemistry, the site/s of vitellogenin (VTG) synthesis in the mussel Mytilus galloprovincialis. Our investigations demonstrate that, among the analyzed tissues, the synthesis of VTG occurs only in the female gonad, that is, within the oocyte and follicle and connective cells. Such a synthesis is just evident in early vitellogenic oocytes, whose cytoplasm is characterized by numerous RER cisternae and an extended Golgi complex surrounded by nascent yolk platelets. The synthesis of VTG goes on in vitellogenic oocytes assuming a pear form, and progressively reduces once the oocyte shows the pear or polygonal form, typical of those oocytes that have concluded the growth. The expression of VTG occurs also within follicle (auxiliary) and connective cells. In particular, it is noteworthy that follicle cells are characterized by numerous RER cisternae and an active Golgi complex surrounded by numerous vesicles and vacuoles containing electron dense material. The same material is also present along their plasma membrane, within the intercellular space between oocyte and follicle cells, and finally within invaginations of the oocyte surface, thus suggesting a VTG transfer to the oocyte via endocytosis. Differently, no VTG synthesis was observed within digestive gland. All together the findings here reported strongly suggest that in M. galloprovincialis, inside the gonad, the VTG synthesis occurs in the oocyte (autosynthesis) and in the follicle and adipogranular cells (heterosynthesis)., (Copyright © 2012 Wiley Periodicals, Inc.)

Published
2013
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27. Characterization, cDNA cloning and expression pattern of relaxin gene during embryogenesis of Danio rerio.

Author

Fiengo M, Donizetti A, del Gaudio R, Minucci S, and Aniello F

Subjects
Amino Acid Sequence, Animals, Cloning, Molecular, DNA, Complementary, Embryonic Development genetics, Relaxin metabolism, Sequence Alignment, Sequence Analysis, DNA, Zebrafish Proteins metabolism, Gene Expression Regulation, Developmental, Relaxin genetics, Zebrafish embryology, Zebrafish genetics, Zebrafish Proteins genetics
Abstract

We report the identification, the cDNA cloning, the temporal and spatial expression pattern analysis of the rln gene in the zebrafish Danio rerio. The deduced Rln B and A domains show different evolutionary conservation. Rln B domain shows higher similarity when compared to zebrafish and human RLN3 B domain than human RLN1 and RLN2 B domain. Differently, the zebrafish Rln A domain shows relatively low amino acid sequence similarity when compared with the same sequences. The rln gene is transcribed both during embryogenesis and in adult organism, where higher transcript level has been particularly evidenced in the brain. Moreover, we provide the first description of rln spatial expression pattern during embryonic development. In particular, we show restricted transcript localization starting at the pharyngula stage in olfactory placode, branchial arch region, and in a cell cluster near to otic vesicle. In larval stage, new transcription territories have been detected in both neural and non-neural regions. In particular, in the brain, rln expression has been revealed in telencephalic region around anterior commissure, in the preoptic area, and in restricted rombencephalic cell clusters. Expression of rln gene in extra-neural territories has been detected in the pancreatic and thyroid gland regions. Danio rerio rln expression pattern analysis reveals shared features with the mammalian RLN gene, particularly in the brain, where it might have a role in the neurophysiological processes. In addition, expression in the thyroid and pancreas region suggests a function as a paracrine and endocrine hormone., (© 2012 The Authors Development, Growth & Differentiation © 2012 Japanese Society of Developmental Biologists.)

Published
2012
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28. Design and production of a chimeric resilin-, elastin-, and collagen-like engineered polypeptide.

Author

Bracalello A, Santopietro V, Vassalli M, Marletta G, Del Gaudio R, Bochicchio B, and Pepe A

Subjects
Base Sequence, Blotting, Western, Circular Dichroism, Collagen chemical synthesis, Collagen genetics, DNA Primers, Elastin chemical synthesis, Elastin genetics, Insect Proteins chemical synthesis, Insect Proteins genetics, Microscopy, Atomic Force, Polymerase Chain Reaction, Spectroscopy, Fourier Transform Infrared, Biocompatible Materials, Collagen chemistry, Elastin chemistry, Insect Proteins chemistry, Protein Engineering
Abstract

Protein-inspired biomaterials have gained great interest as an alternative to synthetic polymers, in particular, for their potential use as biomedical devices. The potential inspiring models are mainly proteins able to confer mechanical properties to tissues and organs, such as elasticity (elastin, resilin, spider silk) and strength (collagen, silk). The proper combination of repetitive sequences, each of them derived from different proteins, represents a useful tool for obtaining biomaterials with tailored mechanical properties and biological functions. In this report we describe the design, the production, and the preliminary characterization of a chimeric polypeptide, based on sequences derived from the highly resilient proteins resilin and elastin and from collagen-like sequences. The results show that the obtained chimeric recombinant material exhibits promising self-assembling properties. Young's modulus of the fibers was determined by AFM image analysis and lies in the range of 0.1-3 MPa in agreement with the expectations for elastin-like and resilin-like materials.

Published
2011
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29. Characterization and developmental expression pattern of the relaxin receptor rxfp1 gene in zebrafish.

Author

Donizetti A, Fiengo M, del Gaudio R, Di Giaimo R, Minucci S, and Aniello F

Subjects
Amino Acid Sequence, Animals, Cloning, Molecular, Molecular Sequence Data, Reverse Transcriptase Polymerase Chain Reaction, Sequence Alignment, Receptors, G-Protein-Coupled genetics, Receptors, Peptide genetics, Zebrafish genetics, Zebrafish Proteins genetics
Abstract

We report the gene characterization, the cDNA cloning and the temporal and spatial expression pattern of the relaxin receptor rxfp1 gene in the zebrafish Danio rerio. The zebrafish rxfp1 gene has the same syntenic genomic organization, and a similar exon-intron structure to the homologue human gene. Furthermore, the deduced Rxfp1 protein sequence shows a high degree of amino acid similarity when compared with the human protein and the conservation of all amino acid identity necessary for the binding with relaxin. Our results show that rxfp1 gene is active either during embryogenesis or in the adult organism, showing a wide expression pattern. Moreover, we provide the first description of rxfp1 spatial expression pattern during embryo development, showing that the transcript is already present at the early developmental stage and is distributed in all of the embryonic cells until somitogenesis. Starting at the pharyngula stage the gene expression becomes mainly restricted in the brain territories. In fact, at the larval stage, the transcript is detectable in the epiphysis, postoptic region, posterior tuberculum, hypothalamus, optic tectum, tegmentum/pons, medulla and also in the structure of a peripheral nervous system, the terminal nerve. The rxfp1 expression pattern in Danio rerio embryos is very similar to that reported in the adult mammalian brain, suggesting a pivotal role of this receptor in the neurophysiology processes already at very early developmental stages., (© 2010 The Authors. Journal compilation © 2010 Japanese Society of Developmental Biologists.)

Published
2010
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30. Evidence of genetic instability in tumors and normal nearby tissues.

Author

Geraci G, D'Elia I, del Gaudio R, and Di Giaimo R

Subjects
Aged, Colorectal Neoplasms pathology, DNA, Complementary genetics, DNA, Neoplasm genetics, Exons genetics, Gene Expression Regulation, Neoplastic, Genetic Heterogeneity, Glucosephosphate Dehydrogenase genetics, Humans, Hypoxanthine Phosphoribosyltransferase genetics, Introns genetics, Male, Reverse Transcriptase Polymerase Chain Reaction, Tumor Suppressor Protein p53 genetics, Young Adult, Colon metabolism, Colorectal Neoplasms genetics, Genomic Instability, Mutation
Abstract

Background: Comprehensive analyses have recently been performed on many human cancer tissues, leading to the identification of a number of mutated genes but providing no information on the variety of mutations present in each of them. This information is of interest to understand the possible origin of gene mutations that cause tumors., Methodology/principal Findings: We have analyzed the sequence heterogeneity of the transcripts of the human HPRT and G6PD single copy genes that are not considered tumor markers. Analyses have been performed on different colon cancers and on the nearby histologically normal tissues of two male patients. Several copies of each cDNA, which were produced by cloning the RT-PCR-amplified fragments of the specific mRNA, have been sequenced. Similar analyses have been performed on blood samples of two ostensibly healthy males as reference controls. The sequence heterogeneity of the HPRT and G6PD genes was also determined on DNA from tumor tissues. The employed analytical approach revealed the presence of low-frequency mutations not detectable by other procedures. The results show that genetic heterogeneity is detectable in HPRT and G6PD transcripts in both tumors and nearby healthy tissues of the two studied colon tumors. Similar frequencies of mutations are observed in patient genomic DNA, indicating that mutations have a somatic origin. HPRT transcripts show genetic heterogeneity also in healthy individuals, in agreement with previous results on human T-cells, while G6PD transcript heterogeneity is a characteristic of the patient tissues. Interestingly, data on TP53 show little, if any, heterogeneity in the same tissues., Conclusions/significance: These findings show that genetic heterogeneity is a peculiarity not only of cancer cells but also of the normal tissue where a tumor arises.

Published
2010
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31. Differential expression of duplicated genes for prothymosin alpha during zebrafish development.

Author

Donizetti A, Liccardo D, Esposito D, Del Gaudio R, Locascio A, Ferrara D, Minucci S, and Aniello F

Subjects
Amino Acid Sequence, Animals, Humans, In Situ Hybridization, Molecular Sequence Data, Phylogeny, Protein Isoforms classification, Protein Isoforms metabolism, Protein Precursors classification, Protein Precursors metabolism, Sequence Alignment, Thymosin classification, Thymosin genetics, Thymosin metabolism, Zebrafish anatomy & histology, Zebrafish genetics, Zebrafish Proteins classification, Zebrafish Proteins metabolism, Gene Duplication, Gene Expression Regulation, Developmental, Protein Isoforms genetics, Protein Precursors genetics, Thymosin analogs & derivatives, Zebrafish embryology, Zebrafish metabolism, Zebrafish Proteins genetics
Abstract

We show that ptma, a single copy gene found in all organisms investigated so far, is duplicated in zebrafish. The two genes, ptmaa and ptmab, are individually controlled as indicated by their different expression patterns during embryonic development. Only the ptmab transcript is observed at 4 and 8 hpf of development in all embryonic cells, whereas both genes are expressed at later stages as revealed by in situ hybridization studies. In most cases, the two genes are expressed in the same territories, but only the ptmaa transcript was found in the trigeminal ganglion and in endodermal pouches. In the eye, at 72 hpf, the ptmaa and ptmab transcripts were found in amacrine cells, whereas only the ptmab transcript appeared in horizontal cells. The existence of two prothymosin genes indicates that their function in cell proliferation and differentiation is more complex in fishes than in mammals., ((c) 2008 Wiley-Liss, Inc.)

Published
2008
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32. A possible flip-flop genetic mechanism for reciprocal gene expression.

Author

Chiusano ML, Di Giaimo R, Potenza N, Russo GM, Geraci G, and del Gaudio R

Subjects
Animals, Drosophila Proteins metabolism, Drosophila melanogaster anatomy & histology, Membrane Proteins metabolism, Multigene Family, Nerve Tissue Proteins metabolism, Protein Isoforms metabolism, Drosophila Proteins genetics, Drosophila melanogaster embryology, Gene Expression Regulation, Developmental, Membrane Proteins genetics, Nerve Tissue Proteins genetics, Protein Isoforms genetics
Abstract

Innexins are a family of transmembrane proteins involved in the formation of gap junctions, specific intercellular channels, in invertebrates. Analyses of the entire innexin family during Drosophila melanogaster embryonic development shows the occurrence of complex and specific patterns of expression of the different genes. Innexins inx-2 and inx-7, in general, do not appear to exhibit extensive co-expression in different D. melanogaster cellular compartments. We propose here a new and robust mechanism, based on our analysis of the genomic organization of inx-2 and inx-7, that structurally justifies the reciprocal expression of genes.

Published
2005
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33. The expression of de novo DNA methylase DNMT3b, of the methyl-CpG binding protein MBD2b and of 5-MCDG glycosylase shows two waves of induction during CaCO-2 cell differentiation.

Author

Di Giaimo R, Russo GM, Bevilacqua MA, Iovine B, Del Gaudio R, Geraci G, and Russo T

Subjects
Blotting, Southern, Blotting, Western, Caco-2 Cells, DNA (Cytosine-5-)-Methyltransferases metabolism, DNA Glycosylases metabolism, DNA Methylation, DNA, Neoplasm genetics, DNA, Neoplasm metabolism, DNA-Binding Proteins metabolism, Humans, RNA, Messenger genetics, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Time Factors, DNA Methyltransferase 3B, Cell Differentiation genetics, DNA (Cytosine-5-)-Methyltransferases genetics, DNA Glycosylases genetics, DNA-Binding Proteins genetics, Gene Expression genetics
Abstract

DNA methylation plays a central role in the control of gene expression during development and cell differentiation, thus DNA methylation and demethylation processes are expected to be strictly regulated during these events. We have explored the expression levels of the genes encoding DNA methylases, methyl-CpG binding proteins and demethylases during in vitro differentiation of human carcinoma colon cells (CaCO-2) used as a model system. The results show that the global DNA methylation pattern remains constant during CaCO-2 cells differentiation indicating that required genome methylation pattern in cell differentiation was already established in the seeded cells. On the contrary, the timing of expression of several of the explored genes is tightly regulated, suggesting they are involved in the regulation of the differentiation program. In particular, the timing of expression of DNMT3b and of MBD2b and 5-MCDG shows two peaks not observed in the time courses of the expression of other genes belonging to the same families. These events, not dependent on the cell cycle synchronization, have apparently no significant impact on the overall methylation status of the genome.

Published
2005
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34. Specificity of cellular expression of C. variopedatus polychaete innexin in the developing embryo: evolutionary aspects of innexins' heterogeneous gene structures.

Author

Potenza N, del Gaudio R, Chiusano ML, Russo GM, and Geraci G

Subjects
Amino Acid Sequence, Animals, Embryo, Nonmammalian cytology, Insect Proteins genetics, Larva, Membrane Proteins metabolism, Molecular Sequence Data, Organ Specificity, Phylogeny, Polychaeta cytology, Sequence Homology, Amino Acid, Gene Expression Regulation, Developmental, Membrane Proteins genetics, Polychaeta embryology, Polychaeta genetics
Abstract

Innexins are a family of membrane proteins involved in the formation of gap junctions in invertebrates. They have been found to participate in several aspects of cell differentiation and in embryonic patterning through the formation of specific intercellular communication channels. We present here data showing that the recently identified innexin of the marine worm Chaetopterus variopedatus is expressed only in particular cells of the early stage, demonstrating cell specificity of innexin expression also in polychaete annelids. Phylogenetic analysis of all known innexins results in a phylogenetic tree clearly distinguishing insect, nematode, and other invertebrate innexins. Comparative analysis of proteins and known related genes shows that the apparent similarity of protein composition, overall structural organization, and specificity of cellular expression, typical of innexins of all studied organisms, correspond to highly heterogeneous gene structures even for genes that are in close contiguity on the same chromosome. A possible evolutionary motive producing this situation is discussed.

Published
2003
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35. Cloning and molecular characterization of the first innexin of the phylum annelida-expression of the gene during development.

Author

Potenza N, del Gaudio R, Rivieccio L, Russo GM, and Geraci G

Subjects
Amino Acid Sequence, Animals, Connexins physiology, Gene Expression Regulation, Developmental physiology, Molecular Sequence Data, Phylogeny, Polychaeta embryology, Polychaeta physiology, Sequence Alignment, Sequence Analysis, DNA, Connexins genetics, Gene Expression Regulation, Developmental genetics, Polychaeta genetics
Abstract

A novel member of the innexin family (cv-inx) has been isolated from the annelid polychaete worm Chaetopterus variopedatus using a PCR approach on genomic DNA and sequence analysis on genomic DNA clones. The gene is present in a HindIII-HindIII segment of 2250 bp containing an uninterrupted open reading frame of 1196 bp encoding a protein of 399 amino acids. The predicted protein shows the typical structural features of innexins and consensus sites for phosphorylation. Analyses on genomic DNA demonstrate that cv-inx is a single copy gene with no introns in the coding region, exactly corresponding to the cDNA sequence. The gene expression is regulated during development as shown by Northern blots analyses of the RNA and by immunoreaction with antibodies against the protein at several embryonic stages. The finding of an innexin in the phylum Annelida, outside of the Ecdysozoa clade, and its peculiar gene structure suggest the necessity to reconsider the current hypothesis on the origin and evolution of gap junctional proteins.

Published
2002
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36. DNA (cytosine-5) methyltransferase turnover and cellular localization in developing Paracentrotus lividus sea urchin embryo.

Author

Di Giaimo R, Locascio A, Aniello F, Branno M, del Gaudio R, Potenza N, and Geraci G

Subjects
Animals, Antibodies, Monoclonal immunology, Antibody Specificity, Blotting, Western, DNA genetics, DNA metabolism, DNA (Cytosine-5-)-Methyltransferases chemistry, DNA (Cytosine-5-)-Methyltransferases immunology, Embryonic Development, Isoenzymes chemistry, Isoenzymes metabolism, Molecular Weight, Precipitin Tests, Substrate Specificity, DNA (Cytosine-5-)-Methyltransferases metabolism, Embryo, Nonmammalian enzymology, Sea Urchins enzymology
Abstract

The turnover and localization of the enzyme DNA (cytosine-5) methyltransferase (Dnmt1) were studied during Paracentrotus lividus sea urchin embryo development using antibody preparations against the NH(2) and COOH-terminal regions of the molecule. The antibodies reveal, by Western blots and whole-mount analyses, that the enzyme is differently required during embryonic development. The changeover point is at blastula stage, where a proteolytic mechanism hydrolyses the enzyme present in all embryonic cells by removing a peptide of about 45 kDa from the amino terminal region of the 190 kDa enzyme initially synthesized on maternal transcripts. The resulting 145 kDa enzyme shows modified catalytic properties, different antibody reactivity and is rapidly destroyed in the few hours before gastrulation. At more advanced stages of development the enzyme is newly synthesized but only in particular cell types, among which neurons. The data show that Dnmt1 is removed from embryonic cells before gastrulation to be synthesized again at different levels in different cell types, indicating that the concentration of Dnmt1 is critical for the various differentiated cells of the developing sea urchin embryo.

Published
2001
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37. Characterization of a new variant DNA (cytosine-5)-methyltransferase unable to methylate double stranded DNA isolated from the marine annelid worm Chaetopterus variopedatus.

Author

del Gaudio R, Di Giaimo R, Potenza N, Branno M, Aniello F, and Geraci G

Subjects
Animals, Blotting, Western, Chromatography, High Pressure Liquid, Dose-Response Relationship, Drug, Gene Expression, Kinetics, Micrococcus luteus genetics, Time Factors, Annelida enzymology, DNA (Cytosine-5-)-Methyltransferases chemistry, DNA Methylation
Abstract

The enzyme S-adenosylmethionine-DNA (cytosine-5)-methyltransferase has been identified, first time for invertebrates, in embryos of the marine polychaete annelid worm Chaetopterus variopedatus. The molecule has been isolated from embryos at 15 h of development. It is a single peptide of about 200 kDa molecular weight, cross-reacting with antibodies against sea urchin DNA methyltransferase. The enzymatic properties of the molecule are similar to those of Dnmt1 methyltransferases isolated from other organisms, but with the peculiarity to be unable to make 'de novo' methylation on double stranded DNA.

Published
1999
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38. Cooperative mechanism in the homodimeric myoglobin from Nassa mutabilis.

Author

Coletta M, Ascenzi P, Polizio F, Smulevich G, del Gaudio R, Piscopo M, and Geraci G

Subjects
Animals, Bivalvia, Circular Dichroism, Hemoglobins chemistry, Ligands, Myoglobin metabolism, Oxygen metabolism, Protein Binding, Protein Conformation, Snails, Myoglobin chemistry
Abstract

Oxygen binding and spectroscopic properties of the homodimeric myoglobin (Mb) from the prosobranchia sea snail Nassa mutabilis have been investigated. Oxygen equilibrium curves are pH-independent and cooperative with P50 = 5 +/- 1 mmHg and n approximately 1.5. Circular dichroism spectra of the oxygenated and deoxygenated form of N. mutabilis Mb are superimposable between 190 and 250 nm, suggesting a mechanism for cooperative ligand binding that does not involve changes in the alpha-helical content of the whole protein. The oxygen dissociation process is biphasic and pH-dependent, with different pKa values (=6.7 +/- 0.2 and 8.5 +/- 0.3) for the two phases. Moreover, the activation energy is essentially the same for both oxygen dissociation processes (Ea = 56.4 +/- 2.1 kJ/mol for the fast phase, and Ea = 53.8 +/- 1.9 kJ/mol for the slow phase), indicating that the rate difference for O2 dissociation between the diliganded and the monoliganded species is mostly dependent on a variation of the activation entropy. Ferrous nitrosylated N. mutabilis Mb shows, at alkaline and neutral pH, axial and rhombic X-band EPR signals, respectively, which display below pH 6 a three-hyperfine pattern typical of five-coordination. The results presented here suggest that in N.mutabilis Mb the kinetic control of cooperativity operates through a mechanism never observed before in other hemoproteins, which requires a ligand-linked large enhancement for the value of the oxygen association process in a molecule not undergoing changes in quaternary structure.

Published
1998
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39. Organization and nucleotide sequence of the cluster of five histone genes in the polichaete worm Chaetopterus variopedatus: first record of a H1 histone gene in the phylum Annelida.

Author

del Gaudio R, Potenza N, Stefanoni P, Chiusano ML, and Geraci G

Subjects
Amino Acid Sequence, Animals, Base Sequence, Cloning, Molecular, Gene Dosage, Gene Library, Molecular Sequence Data, RNA, Messenger, Histones genetics, Multigene Family, Polychaeta genetics
Abstract

Histone genes were identified and their nucleotide sequences were determined in the polychaete marine worm Chaetopterus variopedatus. The genes are organized in about 390 clusters of 7.3 kbp. Each cluster contains one copy of the five histone genes. The H1 histone gene present in the clusters is the first ever isolated in the phylum Annelida. The cluster has the unique peculiarity that all genes contain both the replication-dependent and the replication-independent 3' mRNA termination signals. Despite the differences in cluster organization and transcription polarity of the individual histone genes between C. variopedatus and Platynereis dumerilii, the other annelid in which histone genes have been studied, phylogenetic analysis of the encoded amino acid sequences clearly groups together those two organisms in a tree in which the other studied worms find closely related positions on the same evolutionary branch.

Published
1998
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40. Genome methylation of the marine annelid worm Chaetopterus variopedatus: methylation of a CpG in an expressed H1 histone gene.

Author

del Gaudio R, Di Giaimo R, and Geraci G

Subjects
Animals, Blotting, Northern, DNA-Cytosine Methylases metabolism, Female, Gene Expression, Male, Mass Spectrometry, CpG Islands, DNA Methylation, Histones genetics, Polychaeta genetics
Abstract

Hydrolysis by methylation-dependent restriction enzymes shows that the genomic DNA of the polychaete annelid worm Chaetopterus variopedatus is methylated. Electrophoretic analyses of the digestion products indicate that the degree of methylation is lower in adult tissues than in sperm and embryonic DNA. 5-Methylcytosine was identified by HPLC, absorption spectroscopy and mass spectrometry analyses of free bases obtained by acid hydrolysis of the DNA. An average value of 1.6% methylated cytosines was determined in sperm DNA. Partial methylation was also found in an actively expressed H1 histone gene. This is the first time that genomic DNA methylation is demonstrated to occur in a worm.

Published
1997
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41. Alteration of the proximal bond energy in the unliganded form of the homodimeric myoglobin from Nassa mutabilis. Kinetic and spectroscopic evidence.

Author

Coletta M, Ascenzi P, Smulevich G, Mantini AR, Del Gaudio R, Piscopo M, and Geraci G

Subjects
Animals, Heme metabolism, Hydrogen-Ion Concentration, Kinetics, Ligands, Myoglobin metabolism, Protein Conformation, Sequence Homology, Nucleic Acid, Spectrum Analysis, Raman, Carbon Monoxide metabolism, Myoglobin chemistry, Snails chemistry
Abstract

CO binding kinetics to the homodimeric myoglobin (Mb) from Nassa mutabilis has been investigated between pH 1.9 and 7.0. Protonation of the proximal imidazole at low pH (less than or equal to 3.0) and the consequent cleavage of the HisF8NE2-Fe proximal bond brings about a approximately 20-fold increase of the second-order rate constant for CO binding. This process displays a pKa = 4.0 +/- 0.2, significantly higher than that observed in all other deoxygenated hemoproteins investigated up to now. Such a feature underlies a decreased energy for the HisF8NE2-Fe proximal bond in the unliganded form and it also appears supported by resonance Raman spectroscopy in the low frequency region of the Fe(II) deoxygenated hemoprotein. Further, the pH-rate profile of N. mutabilis Mb, like that of the homodimeric hemoglobin (Hb) from Scapharca inaequivalvis (Coletta, M., Boffi, A., Ascenzi, P., Brunori, M. and Chiancone, E. (1990) J. Biol. Chem. 265, 4828-4830), can be described only by assuming a concerted proton-linked transition with n = 1.8 +/- 0.1. Such a characteristic suggests, also on the basis of the amino acid sequence homology between N. mutabilis Mb and S. inaequivalvis Hb in the region forming the subunit interface, that the interaction mechanism is similar for the two homodimeric proteins, and drastically different Hb in the region forming the subunit interface, that the interaction mechanism is similar for the two homodimeric proteins, and drastically different from that operative in other hemoproteins.

Published
1992
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