Elena Confalone scite author profile

Phylogenetic analysis, based on the primary structures of mammalian pancreatic-type ribonucleases, indicated that gene duplication events, which occurred during the evolution of ancestral ruminants, gave rise to the three paralogous enzymes present in the bovine species. Herein we report data that demonstrate the existence of the orthologues of the bovine pancreatic, seminal, and cerebral ribonucleases coding sequences in the genomes of giraffe and sheep. The "seminal" sequence is a pseudogene in both species. We also report an analysis of the transcriptional expression of ribonuclease genes in sheep tissues. The data presented support a model for positive selection acting on the molecular evolution of ruminant ribonuclease genes.

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Sequences related to the ox pancreatic ribonuclease coding region in the genomic DNA of mammalian species

Beintema

Confalone

et al. 1993

J Mol Evol

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Mammalian pancreatic ribonucleases form a family of homologous proteins that has been extensively investigated. The primary structures of these enzymes were used to derive phylogenetic trees. These analyses indicate that the presence of three strictly homologous enzymes in the bovine species (the pancreatic, seminal, and cerebral ribonucleases) is due to gene duplication events which occurred during the evolution of ancestral ruminants. In this paper we present evidence that confirms this finding and that suggests an overall structural conservation of the putative ribonuclease genes in ruminant species. We could also demonstrate that the sequences related to ox ribonuclease coding regions present in genomic DNA of the giraffe species are the orthologues of the bovine genes encoding the three ribonucleases mentioned above.

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Molecular cloning of the gene encoding the bovine brain ribonucelase and its expression in different regions of the brain

Sasso¹,

Carsana

Confalone³

et al. 1991

Nucl Acids Res

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In this paper we report the molecular cloning of the gene encoding the bovine brain ribonuclease. The nucleotide sequence determined in this work shows a high degree of identity to the homologous gene encoding the bovine pancreatic ribonuclease. Processing of the primary transcripts of these genes also follows a similar pathway, splicing of the unique intron in the 5' untranslated region occurs at corresponding positions. Expression of the bovine brain ribonuclease gene can be detected both at the transcriptional and translational levels in all the regions of the brain examined.

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The ribonuclease/angiogenin inhibitor is also present in mitochondria and nuclei

Furia

Moscato

Calı̀

et al. 2011

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Edited by Vladimir SkulachevKeywords: Ribonuclease/angiogenin inhibitor Reactive oxygen species Reactive oxygen species scavenger Mitochondria Nucleus a b s t r a c tThe data presented here show for the first time that the protein known as ''ribonuclease (RNase) inhibitor'' (RI or RNH1) is present not only in the cell cytosol, but also in mitochondria, the central organelles in cell redox homeostasis. This finding directly correlates with the reported ability of RI to protect the cell from oxidative stress, with its sensitivity to oxidation and reactivity as a reactive oxygen species scavenger. While this study was carried out we also surprisingly discovered the presence of RI in the cell nucleus. We deem that these data open new views in the investigation on the cellular role(s) of the RI.

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Structure of the bovine pancreatic ribonuclease gene: the unique intervening sequence in the 5′ untranslated region contains a promoter-like element

Carsana¹,

Confalone²,

Palmieri³

et al. 1988

Nucl Acids Res

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Although pancreatic ribonucleases are extensively studied proteins, little information is available on nucleic acids coding for these enzymes. Here, for the first time, the structure of a gene coding for such an enzyme, the well known bovine pancreatic ribonuclease, is reported. The coding region of this gene is devoid of introns, whereas the 5' untranslated sequence of the pancreatic transcript contains an intron of 735 nucleotides. This intervening sequence is endowed with signals (CAAT and TATA boxes) which might act as regulatory elements. The structural organization of this gene suggests that the sequence coding for the bovine pancreatic ribonuclease might be expressed under the control of two different promoters.

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Elena Confalone

Molecular evolution of genes encoding ribonucleases in ruminant species

Sequences related to the ox pancreatic ribonuclease coding region in the genomic DNA of mammalian species

Molecular cloning of the gene encoding the bovine brain ribonucelase and its expression in different regions of the brain

The ribonuclease/angiogenin inhibitor is also present in mitochondria and nuclei

Structure of the bovine pancreatic ribonuclease gene: the unique intervening sequence in the 5′ untranslated region contains a promoter-like element

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