Antonia Martiradonna scite author profile

In this paper we report the comparison of the sequences of the cytochrome oxidase subunit III from three different sea urchin species. Both nucleotide and amino acid sequences have been analyzed. The nucleotide sequence analysis reveals that the sea urchin sequences obey some rules already found in mammals. The base substitution analysis carried out on the sequences of the three species pairs, shows that the evolutionary dynamics of the first and the second codon positions are so slow that do not allow a quantitative measurement of their genetic distances, thus demonstrating that also in these species the COIII gene is strongly conserved during evolution. Changes occurring at the third codon positions indicate that the three species evolved from a common ancestor under different directional mutational pressure. The multi-alignment of the sea urchin proteins indicates the existence of the amino acid sequence motif N R T that represents a possible glycosylation site. Another glycosylation site has been detected in the mammalian cytochrome oxidase subunit III, in a position slightly different. Such an analysis revealed, for the first time, a new functional aspect of this sequence.

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The mitochondrial genome in sea urchin

Giorgi

Martiradonna

Lanave

et al. 1995

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Giorgi

Martiradonna

Pesole

et al. 1997

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Peculiar evolutionary properties of the subunit 8 of mitochondrial ATP synthase (ATPase8) are revealed by comparative analyses carried out between both closely and distantly related species of echinoderms. The analysis of nucleotide substitution in the three echinoids demonstrated a relaxation of amino acid functional constraints. The deduced protein sequences display a well conserved domain at the N-terminus, while the central part is very variable. At the C-terminus, the broad distribution of positively charged amino acids, which is typical of other organisms, is not conserved in the two different echinoderm classes of the sea urchins and of the sea stars. Instead, a motif of three amino acids, so far not described elsewhere, is conserved in sea urchins and is found to be very similar to the motif present in the sea stars. Our results indicate that the N-terminal region seems to follow the same evolutionary pattern in different organisms, while the maintenance of the C-terminal part in a phylum-specific manner may reflect the co-evolution of mitochondrial and nuclear genes.

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Evolutionary analysis of sea urchin mitochondrial tRNAs: folding of the molecules as suggested by the non-random occurrence of nucleotides

1996

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Comparative analyses of the mitochondrial tRNA sequences of the sea urchins Arbacia lixula, Paracentrotus lividus and Strongylocentrotus purpuratus revealed that conserved nucleotides may be involved in determining the typical L-shaped spatial conformation of tRNAs. These results shed light on the specific tertiary interactions that allow the folding of the atypical mitochondrial tRNAs into a functional form. A consensus mitochondrial tRNA secondary structure was derived. It shows the presence of nucleotides virtually conserved only in these organisms that represent a sort of molecular signature in sea urchins and suggests a possible physiological role. Finally, we speculate that the non-canonical structure of animal tRNAs, as well as the deviations from the universality of the genetic code, may be due to the reduction in size of the metazoan mitochondrial genome, with the concomitant acquisition of new functions by the mitochondrial tRNAs.

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