Your search keyword '"Zannotti M."' showing total 6 results

1. Proteins encoded by human Down syndrome critical region gene 1-like 2 (DSCR1L2) mRNA and by a novel DSCR1L2 mRNA isoform interact with cardiac troponin I (TNNI3)

Author

Paolo Carinci, Maria Zannotti, Federica Facchin, Silvia Canaider, Luca Lenzi, Pierluigi Strippoli, Flavia Frabetti, Raffaella Casadei, Pietro D'Addabbo, Lorenza Vitale, Cristiana Griffoni, Canaider S, Facchin F, Griffoni C, Casadei R, Vitale L, Lenzi L, Frabetti F, D'Addabbo P, Carinci P, Zannotti M, and Strippoli P

Subjects

Adult, Gene isoform, DNA, Complementary, Protein family, Recombinant Fusion Proteins, Molecular Sequence Data, Biology, TNNI3, Open Reading Frames, Two-hybrid system techniques, Troponin complex, Yeasts, Troponin I, Genetics, Humans, Protein Isoforms, Amino Acid Sequence, RNA, Messenger, Cloning, Molecular, education, Adaptor Proteins, Signal Transducing, education.field_of_study, Reverse Transcriptase Polymerase Chain Reaction, Alternative splicing, Proteins, General Medicine, Glutathione, Molecular biology, Fusion protein, Human heart, DOWN SYNDROME CRITICAL REGION GENE 1, Sequence Alignment, Protein Binding

Abstract

Down syndrome critical region gene 1-like 2 (DSCR1L2) belongs to the human DSCR1-like gene family, which also includes DSCR1 and DSCR1L1. Both DSCR1 and DSCR1L1 proteins interact with calcineurin, a calcium/calmodulin-dependent phosphatase. To date, no interactor has been described for DSCR1L2. The aim of this work was to perform a first functional study of DSCR1L2 using yeast two-hybrid analysis conducted on a human heart cDNA library. Here, we report the interaction between DSCR1L2 and the human cardiac troponin I (TNNI3), the heart-specific inhibitory subunit of the troponin complex, a central component of the contractile apparatus. This interaction was confirmed by both yeast cotransformation and GST (glutathione-sepharose transferase) fusion protein assay. Moreover, a new DSCR1L2 mRNA isoform, generated by alternative splicing, was identified and cloned in different tissues: it lacks two central exons, encoding the most conserved domains among the DSCR1-like protein family. A quantitative relative reverse transcription-polymerase chain reaction (RT-PCR) assay showed that in heart tissue the normalized expression level ratio for DSCR1L2 and DSCR1L2-E2E5 mRNA isoforms is 3.5 : 1, respectively. The yeast cotransformation and GST fusion protein assay demonstrated the interaction between this new DSCR1L2 variant and the human cardiac troponin I and the prominent role of DSCR1L2 exon 2 in determining binding between both DSCR1L2 isoforms and TNNI3. These data indicate an entirely new role for a DSCR1-like family gene, suggesting a possible involvement of DSCR1L2 in cardiac contraction.

Published

2006

2. Sequence, 'subtle' alternative splicing and expression of the CYYR1 (cysteine/tyrosine-rich 1) mRNA in human neuroendocrine tumors

Author

Silvia Canaider, Federica Facchin, Flavia Frabetti, Paolo Carinci, Shane Huntsman, Raffaella Casadei, Maria Zannotti, Domenico Coppola, Pierluigi Strippoli, Lorenza Vitale, Luca Lenzi, Vitale L., Frabetti F., Huntsman S. A., Canaider S., Casadei R., Lenzi L., Facchin F., Carinci P., Zannotti M., Coppola D., and Strippoli P.

Subjects

Adult, Male, Cancer Research, Pan troglodytes, Molecular Sequence Data, Sequence Homology, Sequence alignment, Biology, Digestive System Neoplasms, Polymorphism, Single Nucleotide, lcsh:RC254-282, Evolution, Molecular, Species Specificity, Neoplasms, Genetics, Animals, Humans, Point Mutation, Protein Isoforms, Amino Acid Sequence, RNA, Messenger, RNA, Neoplasm, Codon, Gene, Peptide sequence, Aged, Expressed sequence tag, Messenger RNA, Alanine, Base Sequence, Reverse Transcriptase Polymerase Chain Reaction, Alternative splicing, HUMAN, Membrane Proteins, Middle Aged, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Molecular biology, Gene Expression Regulation, Neoplastic, Alternative Splicing, Neuroendocrine Tumors, Oncology, RNA splicing, Female, Chromosome 21, GENOMICS, Sequence Alignment, Research Article

Abstract

Background CYYR1 is a recently identified gene located on human chromosome 21 whose product has no similarity to any known protein and is of unknown function. Analysis of expressed sequence tags (ESTs) have revealed high human CYYR1 expression in cells belonging to the diffuse neuroendocrine system (DNES). These cells may be the origin of neuroendocrine (NE) tumors. The aim of this study was to conduct an initial analysis of sequence, splicing and expression of the CYYR1 mRNA in human NE tumors. Methods The CYYR1 mRNA coding sequence (CDS) was studied in 32 NE tumors by RT-PCR and sequence analysis. A subtle alternative splicing was identified generating two isoforms of CYYR1 mRNA differing in terms of the absence (CAG- isoform, the first described mRNA for CYYR1 locus) or the presence (CAG+ isoform) of a CAG codon. When present, this specific codon determines the presence of an alanine residue, at the exon 3/exon 4 junction of the CYYR1 mRNA. The two mRNA isoform amounts were determined by quantitative relative RT-PCR in 29 NE tumors, 2 non-neuroendocrine tumors and 10 normal tissues. A bioinformatic analysis was performed to search for the existence of the two CYYR1 isoforms in other species. Results The CYYR1 CDS did not show differences compared to the reference sequence in any of the samples, with the exception of an NE tumor arising in the neck region. Sequence analysis of this tumor identified a change in the CDS 333 position (T instead of C), leading to the amino acid mutation P111S. NE tumor samples showed no significant difference in either CYYR1 CAG- or CAG+ isoform expression compared to control tissues. CYYR1 CAG- isoform was significantly more expressed than CAG+ isoform in NE tumors as well as in control samples investigated. Bioinformatic analysis revealed that only the genomic sequence of Pan troglodytes CYYR1 is consistent with the possible existence of the two described mRNA isoforms. Conclusion A new "subtle" splicing isoform (CAG+) of CYYR1 mRNA, the sequence and the expression of this gene were defined in a large series of NE tumors.

Published

2007

3. Differential expression of alternatively spliced mRNA forms of the insulin-like growth factor 1 receptor in human neuroendocrine tumors

Author

Pierluigi Strippoli, Domenico Coppola, Paolo Carinci, Federica Facchin, Luca Lenzi, Shane Huntsman, Lorenza Vitale, Maria Zannotti, Raffaella Casadei, Flavia Frabetti, Silvia Canaider, Vitale L, Lenzi L, Huntsman SA, Canaider S, Frabetti F, Casadei R, Facchin F, Carinci P, Zannotti M, Coppola D, and Strippoli P

Subjects

Adult, Male, Gene isoform, Cancer Research, Molecular Sequence Data, Biology, Receptor, IGF Type 1, Exon, Humans, Protein Isoforms, Coding region, Amino Acid Sequence, RNA, Messenger, RNA, Neoplasm, Aged, DNA Primers, Insulin-like growth factor 1 receptor, Sequence Homology, Amino Acid, Reverse Transcriptase Polymerase Chain Reaction, Chinese hamster ovary cell, Alternative splicing, Intron, Cell Differentiation, General Medicine, Middle Aged, Molecular biology, body regions, Alternative Splicing, Neuroendocrine Tumors, Oncology, Head and Neck Neoplasms, RNA splicing, Carcinoma, Islet Cell, Female

Abstract

The activation of the insulin-like growth factor 1/IGF1 receptor system (IGF1/IGF1R) is a critical event in the transformation and tumorigenicity processes in a wide variety of human tumors. The IGF1/IGF1R system has been recently studied in carcinoid tumors that often arise in the gastrointestinal tract; these tumors are characterized by hypersecretion of bioamines and neuropeptides, leading to functional tumor disease. Two alternatively spliced IGF1R mRNA transcripts have been described to differ by only three nucleotides (CAG) in the coding sequence, resulting in an amino-acid change from the originally described Thr-Gly to an Arg in the extracellular portion of the receptor beta subunit. In transfected Chinese hamster ovary cells, the form without CAG (CAG-) exhibited an approximate 2-fold increase in IGF1 stimulation of activities required for its mitogenic properties. In this study, we examine the relative expression of the two IGF1R mRNA isoforms by a semiquantitative RT-PCR approach using highly standardized conditions, beta-2 microglobulin (B2M) as a reference gene and gel imaging analysis. We analyzed a large series of human neuroendocrine tumors (32 samples) and 9 normal tissues. A significant higher expression of both isoforms in the tumor samples (approximately 2-fold increase) was found, while a constant CAG+/CAG- IGF1R mRNA isoforms of an approximate 3:1 ratio was observed in all tumoral and normal cell types studied. The phylogenetic study of the IGF1R locus in several species suggests that human IGF1R CAG- mRNA isoform is evolutionarily more recent compared to the IGF1R CAG+ mRNA isoform and it could be used by the splicing apparatus at this intron/exon junction with a lower efficiency. This study highlights the relevance of IGF1R mRNA expression in neuroendocrine tumor cells, and the constant presence of 'subtle' alternative splicing for the IGF1R locus.

Published

2006

4. Uncertainty principle of genetic information in a living cell

Author

Francesco Noferini, Paolo Carinci, Pierluigi Strippoli, Luca Lenzi, Pietro D'Addabbo, Silvia Canaider, Federica Facchin, Lorenza Vitale, Maria Zannotti, Raffaella Casadei, Flavia Frabetti, Strippoli P., Canaider S., Noferini F., D'Addabbo P., Vitale L., Facchin F., Lenzi L., Casadei R., Carinci P., Zannotti M., and Frabetti F.

Subjects

Genotype, Systems biology, Biophysics, Health Informatics, Genomics, Computational biology, Biology, lcsh:Computer applications to medicine. Medical informatics, Models, Biological, Genome, DNA sequencing, GENETIC INFORMATION, chemistry.chemical_compound, Animals, Humans, CELL, lcsh:QH301-705.5, Whole genome sequencing, Genetics, Models, Genetic, Uncertainty, DNA SEQUENCE, DNA, Models, Theoretical, Phenotype, chemistry, lcsh:Biology (General), Modeling and Simulation, GENOME, Commentary, lcsh:R858-859.7, UNCERTAINTY PRINCIPLE

Abstract

Background Formal description of a cell's genetic information should provide the number of DNA molecules in that cell and their complete nucleotide sequences. We pose the formal problem: can the genome sequence forming the genotype of a given living cell be known with absolute certainty so that the cell's behaviour (phenotype) can be correlated to that genetic information? To answer this question, we propose a series of thought experiments. Results We show that the genome sequence of any actual living cell cannot physically be known with absolute certainty, independently of the method used. There is an associated uncertainty, in terms of base pairs, equal to or greater than μs (where μ is the mutation rate of the cell type and s is the cell's genome size). Conclusion This finding establishes an "uncertainty principle" in genetics for the first time, and its analogy with the Heisenberg uncertainty principle in physics is discussed. The genetic information that makes living cells work is thus better represented by a probabilistic model rather than as a completely defined object.

Published

2005

5. mRNA 5' region sequence incompleteness: a potential source of systematic errors in translation initiation codon assignment in human mRNAs

Author

Pietro D'Addabbo, Paolo Carinci, Sandra Giannone, Silvia Canaider, Lorenza Vitale, Luca Lenzi, Federica Facchin, Maria Zannotti, Flavia Frabetti, Pierluigi Strippoli, Raffaella Casadei, Casadei R., Strippoli P., D'Addabbo P., Canaider S., Lenzi L., Vitale L., Giannone S., Frabetti F., Facchin F., Carinci P., and Zannotti M.

Subjects

DNA, Complementary, Chromosomes, Human, Pair 21, Molecular Sequence Data, Codon, Initiator, Muscle Proteins, Human chromosome 21, Biology, Minor Histocompatibility Antigens, Start codon, Full-length mRNA, Genetics, 5′ UTR (5′ untranslated region), Coding region, Humans, Amino Acid Sequence, RNA, Messenger, Gene, Human genome, Sequence Homology, Amino Acid, Nucleic acid sequence, Intracellular Signaling Peptides and Proteins, Mucins, Shine-Dalgarno sequence, Nuclear Proteins, Proteins, Reproducibility of Results, General Medicine, Sequence Analysis, DNA, Genetic code, Stop codon, DNA-Binding Proteins, Open reading frame, Protein Biosynthesis, Genomic, Trefoil Factor-3, 5' Untranslated Regions, Carrier Proteins, Peptides, Sequence Alignment

Abstract

The amino acid sequence of gene products is routinely deduced from the nucleotide sequence of the relative cloned cDNA, according to the rules for recognition of start codon (first-AUG rule, optimal sequence context) and the genetic code. From this prediction stem most subsequent types of product analysis, although all standard methods for cDNA cloning are affected by a potential inability to effectively clone the 5′ region of mRNA. Revision by bioinformatics and cloning methods of 109 known genes located on human chromosome 21 (HC 21) shows that 60 mRNAs lack any in-frame stop upstream of the first-AUG, and that in five cases (DSCR1, KIAA0184, KIAA0539, SON, and TFF3) the coding region at the 5′ end was incompletely characterized in the original descriptions. We describe the respective consequences for genomic annotation, domain and ortholog identification, and functional experiments design. We have also analyzed the sequences of 13,124 human mRNAs (RefSeq databank), discovering that in 6448 cases (49%), an in-frame stop codon is present upstream of the initiation codon, while in the other 6676 mRNAs (51%), identification of additional bases at the mRNA 5′ region could well reveal some new upstream in-frame AUG codons in the optimal context. Proportionally to the HC 21 data, about 550 known human genes might thus be affected by this 5′ end mRNA artifact. © 2003 Elsevier B.V. All rights reserved.

Published

2003

6. Sequence analysis of ADARB1 gene in patients with familial bipolar disorder

Author

Giuseppe Ferrari, Pierluigi Strippoli, Paolo Carinci, Lorenza Vitale, Luca Lenzi, Silvia Canaider, Mario Amore, Raffaella Casadei, Pietro Tagariello, Caterina Laterza, Pietro D'Addabbo, Arianna Torroni, Maria Zannotti, Flavia Frabetti, AMORE M, STRIPPOLI P, LATERZA C, TAGARIELLO P, VITALE L, CASADEI R, FRABETTI F, CANAIDER S, LENZI L, D'ADDABBO P, CARINCI P, TORRONI A, FERRARI G, and ZANNOTTI M.

Subjects

Adult, Male, Bipolar I disorder, Bipolar Disorder, GENETICS, Adolescent, Sequence analysis, Adenosine Deaminase, Chromosomes, Human, Pair 21, DNA Mutational Analysis, Molecular Sequence Data, Glutamic Acid, Context (language use), Biology, Synaptic Transmission, Glutamatergic, ADARB1, HUMAN CHROMOSOME 21, medicine, RNA Precursors, Humans, Genetic Predisposition to Disease, Bipolar disorder, Gene, Genetics, Polymorphism, Genetic, RNA-Binding Proteins, Sequence Analysis, DNA, Middle Aged, medicine.disease, Psychiatry and Mental health, Clinical Psychology, Open reading frame, Mood disorders, Receptors, Glutamate, Anticonvulsants, Female

Abstract

Background : The ADARB1 gene is located in 21q22.3 region, previously linked to familial bipolar disorder, and its product has a documented action in the editing of the pre-mRNA of glutamate receptor B subunit. Dysfunction of glutamatergic neurotransmission could play an important role in the patophysiology of bipolar disorder (BD). Glutamate excitatory neurotransmission regulation is a possible mechanism of the initial effect of anticonvulsants in regulating mood. Methods : To investigate the hypothesis of an involvement of ADARB1 gene in the BD, the ADARB1 cDNA has been cloned and sequenced in seven selected bipolar I disorder patients with evidence of familiarity of mood disorders. A detailed investigation of the gene nucleotide sequence in the open reading frame has been performed. Results : No alteration in the sequence of the ADARB1 gene cDNA was found in any patient, except a common neutral polymorphism in three out of seven patients. Conclusions : Mutations in ADARB1 gene are not commonly associated with bipolar I disorder, therefore other genes in the 21q22 region could be associated with bipolar illness in some families, likely in the context of a multifactorial transmission model.

Published

2003