Héctor Romero scite author profile

The oral cavity of humans is inhabited by hundreds of bacterial species and some of them have a key role in the development of oral diseases, mainly dental caries and periodontitis. We describe for the first time the metagenome of the human oral cavity under health and diseased conditions, with a focus on supragingival dental plaque and cavities. Direct pyrosequencing of eight samples with different oral-health status produced 1 Gbp of sequence without the biases imposed by PCR or cloning. These data show that cavities are not dominated by Streptococcus mutans (the species originally identified as the ethiological agent of dental caries) but are in fact a complex community formed by tens of bacterial species, in agreement with the view that caries is a polymicrobial disease. The analysis of the reads indicated that the oral cavity is functionally a different environment from the gut, with many functional categories enriched in one of the two environments and depleted in the other. Individuals who had never suffered from dental caries showed an overrepresentation of several functional categories, like genes for antimicrobial peptides and quorum sensing. In addition, they did not have mutans streptococci but displayed high recruitment of other species. Several isolates belonging to these dominant bacteria in healthy individuals were cultured and shown to inhibit the growth of cariogenic bacteria, suggesting the use of these commensal bacterial strains as probiotics to promote oral health and prevent dental caries.

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Arabidopsis HAP2/GCS1 is a gamete fusion protein homologous to somatic and viral fusogens

Valansi

Moi

Leikina

et al. 2017

153

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Oncogene-induced senescence results in marked metabolic and bioenergetic alterations

et al. 2012

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Molecular Evolution of Hepatitis A Virus: a New Classification Based on the Complete VP1 Protein

Costa-Mattioli

Cristina

Romero

et al. 2002

J Virol

144

129

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Aerobiosis Increases the Genomic Guanine Plus Cytosine Content (GC%) in Prokaryotes

Naya

Romero

Zavala

et al. 2002

Journal of Molecular Evolution

130

112

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The huge variation in the genomic guanine plus cytosine content (GC%) among prokaryotes has been explained by two mutually exclusive hypotheses, namely, selectionist and neutralist. The former proposals have in common the assumption that this feature is a form of adaptation to some ecological or physiological condition. On the other hand, the neutralist interpretation states that the variations are due only to different mutational biases. Since all of the traits that have been proposed by the selectionists either appeared to be limited to certain genera or were invalidated by the availability of more data, they cannot be considered as a selective force influencing the genomic GC% across all prokaryotes. In this report we show that aerobic prokaryotes display a significant increment in genomic GC% in relation to anaerobic ones. This is the first time that a link between a metabolic character and GC% has been found, independently of phylogenetic relationships and with a statistically significant amount of data.

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Untitled

Zhang

Romero

Salinas³

et al. 2006

Genome Biol

133

103

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Correlations between genomic GC levels and optimal growth temperatures in prokaryotes

et al. 2004

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In prokaryotes, GC levels range from 25% to 75%, and T opt from %0°C to >100°C. When all species are considered together, no correlation is found between the two variables. Correlations are found, however, when Families of prokaryotes are analysed. Indeed, when Families comprising at least 10 species were studied (a set of 20 Families), positive correlations are found for 15 of them. Furthermore, a comparative analysis by independent contrasts made within the Families in order to control for phylogenetic non-independence showed qualitatively equivalent results. We conclude that T opt is one of the factors that influences genomic GC in prokaryotes.

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Codon usage in Chlamydia trachomatis is the result of strand-specific mutational biases and a complex pattern of selective forces

Romero

Zavala²,

Musto³

2000

172

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The patterns of synonymous codon choices of the completely sequenced genome of the bacterium Chlamydia trachomatis were analysed. We found that the most important source of variation among the genes results from whether the sequence is located on the leading or lagging strand of replication, resulting in an over representation of G or C, respectively. This can be explained by different mutational biases associated to the different enzymes that replicate each strand. Next we found that most highly expressed sequences are located on the leading strand of replication. From this result, replicational-transcriptional selection can be invoked. Then, when the genes located on the leading strand are studied separately, the correspondence analysis detects a principal trend which discriminates between lowly and highly expressed sequences, the latter displaying a different codon usage pattern than the former, suggesting selection for translation, which is reinforced by the fact that Ks values between orthologous sequences from C. trachomatis and Chlamydia pneumoniae are much smaller in highly expressed genes. Finally, synonymous codon choices appear to be influenced by the hydropathy of each encoded protein and by the degree of amino acid conservation. Therefore, synonymous codon usage in C.trachomatis seems to be the result of a very complex balance among different factors, which rises the problem of whether the forces driving codon usage patterns among microorganisms are rather more complex than generally accepted.

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Héctor Romero

The oral metagenome in health and disease

Arabidopsis HAP2/GCS1 is a gamete fusion protein homologous to somatic and viral fusogens

Oncogene-induced senescence results in marked metabolic and bioenergetic alterations

Molecular Evolution of Hepatitis A Virus: a New Classification Based on the Complete VP1 Protein

Aerobiosis Increases the Genomic Guanine Plus Cytosine Content (GC%) in Prokaryotes

Untitled

Correlations between genomic GC levels and optimal growth temperatures in prokaryotes

Codon usage in Chlamydia trachomatis is the result of strand-specific mutational biases and a complex pattern of selective forces

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