Margherita Branno

Publications (73) View all

• Article: PLAUF binding to the 3'UTR of the H3.3 histone transcript affects mRNA stability.

  G Pulcrano, R Leonardo, M Piscopo, E Nargi, A Locascio, F Aniello, M Branno, L Fucci
  [show abstract] [hide abstract]
  ABSTRACT: In P. lividus sea urchin the H3.3 histone variant is coded by an mRNA characterized by a long 3'UTR containing ARE (AU-Rich element) motifs. RNA stability assays performed in rabbit reticulocyte lysate showed that such 3'UTR affects the degradation rate of the transcripts. In fact, chimeric molecules containing the 3'UTR of H3.3 transcript, ligated to the coding region of the rabbit beta-globin transcript, were unstable whereas chimeric molecules containing mainly the coding region of the H3.3 transcript were stable as the wild-type globin mRNA. Three proteins (45kDa, 32kDa and 25kDa) that bind specifically the 3'UTR have been revealed in the whole protein extracts of embryos at different stages of development. PLAUF, a P. lividus RNA-binding protein similar to human and rodent AUF1 proteins, was identified as the 32kDa factor using anti-PLAUF antibody in Western blot and supershift mobility assays. Moreover the recombinant GST-PLAUF protein specifically binds part of the H3.3 3'UTR and in vitro affects the half-life of the transcript. In addition in situ hybridization experiments demonstrated that PLAUF and H3.3 histone mRNAs co-localize in embryos at different stages of development. In conclusion all the reported results suggest that PLAUF can bind in vivo the 3'UTR of the H3.3 histone mRNA and plays some role in the stability of the mRNA.
  Gene 01/2008; 406(1-2):124-33. · 2.34 Impact Factor
• Article: PLAUF is a novel P. lividus sea urchin RNA-binding protein.

  G Pulcrano, R Leonardo, F Aniello, P Mancini, M Piscopo, M Branno, L Fucci
  [show abstract] [hide abstract]
  ABSTRACT: Preliminary results have shown that various proteins bind long 3'UTR of the transcript for Paracentrotus lividus sea urchin H3.3 histone variant and are probably implicated in mRNA instability. In order to identify these RNA-binding proteins, we screened a lambda-ZAPII cDNA expression library prepared from poly(A) mRNA extracted from sea urchin embryos at blastula stage. We isolated a cDNA that codes for a novel RNA-binding protein homologous to rat and human AUF1 family proteins and we refer to it as PLAUF. Proteins present in the whole lysate of the phages expressing PLAUF bound specifically in vitro the 3'UTR of the H3.3 histone transcript. Northern blot analysis revealed three PLAUF transcripts that are already present in unfertilized eggs; during development their amount increased starting from 4-blastomere embryos and reached the plateau at blastula stage. While the transcription start point was unique, longer 3'UTRs were revealed by 3'RACE approach and further cDNA library screening. Moreover RT-PCR showed the presence of at least one alternative spliced mRNA that codes for a protein with different COOH terminus. The structure of the PLAUF gene was determined by screening a P. lividus sea urchin genomic library with the PLAUF cDNA as probe. Analysis of the positive clones showed that the PLAUF gene is split in 10 exons and 9 introns spanning a distance of about 10 kb. Moreover we demonstrated that the exon 9 was alternative spliced during mRNA processing.
  Gene 03/2005; 347(1):99-107. · 2.34 Impact Factor
• Article: A new family of "H3L-like" histone genes.

  P Mancini, G Pulcrano, M Piscopo, F Aniello, M Branno, L Fucci
  [show abstract] [hide abstract]
  ABSTRACT: The H3L histone variant gene in Paracentrotus lividus (sea urchin) shows almost all typical features of the replication-dependent histone genes, but it codes for the H3.3 histone protein with the S.//. A.IG amino acid motif, which is typical of the variants synthesized in a replication-independent manner. "H3L-like" histone genes have been found in several unrelated organisms. These genes are intronless and encode for the typical H3.3 histone proteins. The newly described family of H3L-like variants, nearly ubiquitous within the animal kingdom, could represent the common ancestor of H3 and H3.3 histone genes.
  Journal of Molecular Evolution 11/2004; 59(4):458-63. · 2.27 Impact Factor
• Article: DNA (cytosine-5) methyltransferase turnover and cellular localization in developing Paracentrotus lividus sea urchin embryo.

  R Di Giaimo, A Locascio, F Aniello, M Branno, R del Gaudio, N Potenza, G Geraci
  [show abstract] [hide abstract]
  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.
  Gene 08/2001; 272(1-2):199-208. · 2.34 Impact Factor
• Article: Isolation and characterization of a novel member of the relaxin/insulin family from the testis of the frog Rana esculenta.

  G de Rienzo, F Aniello, M Branno, S Minucci
  [show abstract] [hide abstract]
  ABSTRACT: A complementary DNA (cDNA) encoding a frog relaxin/insulin member family (fRLX) from testis cDNA library was isolated and characterized. The fRLX cDNA predicted a 155-amino acid protein with a low homology to mammalian RLF and relaxin. Northern blot analysis revealed a single transcript expressed in the interstitial compartment, RT-PCR, evidenced that fRLX is expressed at low levels in the oviduct and ovary too. The predicted mature fRLX protein, composed of the signal peptide, B, C, and A domains, has conserved amino acid sequences in the characteristic functional domains. A different expression of the transcript was found during the frog reproductive cycle, with a peak in Spring. After administration of ethane dimethane sulfonate, by in situ hybridization, fRLX messenger RNA disappeared from the interstitial compartment and reappeared again at the time of generating of a new population of Leydig cells (LC), strongly indicating that LC are the interstitial cell type expressing fRLX. Preliminary results obtained by in situ hybridization, performed on testis of hypophysectomized frogs evidenced a pituitary control of fRLX expression. This study is the first cloning of a relaxin/insulin family member in a nonmammalian vertebrate. In addition, because fRLX expression changes during the annual cycle suggesting its involvement in spermatogenesis, fRLX may be considered a new marker for the study of spermatogenesis in the Rana esculenta.
  Endocrinology 08/2001; 142(7):3231-8. · 4.46 Impact Factor