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Evolutionary fate of duplicate genes encoding aspartic proteinases. Nothepsin case study

Authors :
Elio Parisi
Francesca Trinchella
Rosaria Scudiero
Roberta De Stasio
Silvana Filosa
Marilisa Riggio
Lucia Borrelli
L., Borrelli
R., DE STASIO
Filosa, Silvana
E., Parisi
M., Riggio
Scudiero, Rosaria
F., Trinchella
Source :
Gene (Amst.) 368 (2006): 101–109., info:cnr-pdr/source/autori:Borrelli L., De Stasio R., Filosa S., Parisi E., Riggio M., Scudiero R., Trinchella F./titolo:Evolutionary fate of duplicate genes encoding aspartic proteinases. Nothepsin case study./doi:/rivista:Gene (Amst.)/anno:2006/pagina_da:101/pagina_a:109/intervallo_pagine:101–109/volume:368
Publication Year :
2006
Publisher :
North-Holland :, Shannon ;, Paesi Bassi, 2006.

Abstract

Gene duplication is considered an important evolutionary mechanism leading to new gene functions. According to the classical model, one gene copy arising from gene duplication retains the ancestral function, whilst the other becomes subject to directional selection for some novel functions. Hence, according to this model, long-term persistence of two paralogous genes is possible only with the acquisition of functional innovation. In the absence of neofunctionalization, one of the duplicate genes may be lost following accumulation of deleterious mutations, ultimately leading to the loss of function. Recently, new mechanisms have been proposed according to which both paralogs are maintained without apparent neofunctionalization. In this paper we describe the molecular evolution of the aspartic proteinase gene family, with particular regard for the nothepsin gene, a sex- and tissue-specific form of aspartic proteinase active in fish. The finding of nothepsin in a reptile is indicative of the presence of this gene in organisms other than fish. However, the failure to find any nothepsin-like gene in avian, murine and human genome suggests that the gene has been lost in certain lineages during evolution. At variance with piscine nothepsin expressed exclusively in female liver under the estrogens action, the reptilian counterpart lacks both tissue and sex specificity, as it is constitutively expressed in different tissues of male and female specimens. The expression of the nothepsin gene in fish and lizard is accompanied by the expression of a paralogous gene encoding for cathepsin D. Functional divergence analysis indicates that cathepsin D accumulated amino acid substitutions, whereas nothepsin retained most of the ancestral functions. Phylogenetic analysis shows a preponderance of replacement substitutions compared to silent substitutions in the branch leading to the cathepsin D clade, whilst nothepsin evolves under negative selection. To explain the loss of the nothepsin gene in certain lineages, we propose a model that takes into account the complementary degenerative mutations occurring in regulatory elements of the promoter regions of the two genes. According to this model, gene loss occurs whenever the two genes acquire the same expression pattern. The coexistence of cathepsin D and nothepsin is explained in terms of metabolic cooperation of the two enzymes.

Details

Database :
OpenAIRE
Journal :
Gene (Amst.) 368 (2006): 101–109., info:cnr-pdr/source/autori:Borrelli L., De Stasio R., Filosa S., Parisi E., Riggio M., Scudiero R., Trinchella F./titolo:Evolutionary fate of duplicate genes encoding aspartic proteinases. Nothepsin case study./doi:/rivista:Gene (Amst.)/anno:2006/pagina_da:101/pagina_a:109/intervallo_pagine:101–109/volume:368
Accession number :
edsair.doi.dedup.....36029757126745e3c2e08d8b6092e610