Laís Silva Batalha scite author profile

We have estimated the incidence and molecular basis of alpha-thalassemia in a Portuguese population, mostly from the Greater Lisbon area. In a group of 100 consecutive cord blood samples, the gene frequency of the rightward deletion (-alpha 3.7) was 0.035, and the leftward deletion (-alpha 4.2) was 0.015. In this group, we have also found four heterozygotes for the triple alpha-globin gene rearrangement (alpha alpha alpha anti 3.7. gene frequency 0.020). We have characterized the subtypes of -alpha 3.7 and alpha alpha alpha anti 3.7 rearrangements. On the whole, these results give an incidence of 10% for deletional alpha-thalassemia carriers in the studied Portuguese population. In a group of 342 subjects presenting beta-thalassemia, or Hb S trait, beta-thalassemia major sickle cell disease or low red blood cell indices, the -alpha 3.7, -alpha 4.2, -SEA, -MED, (alpha alpha)MM, and alpha alpha alpha anti 3.7 haplotypes were found in different combinations. Only one nondeletional alpha-thalassemia determinant (a 5 nucleotide deletion in the alpha 2-globin gene in the second intervening sequence donor site) was detected, which might suggest a low incidence of these defects in the Portuguese population.

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Evaluation of microencapsulation of the UFV-AREG1 bacteriophage in alginate-Ca microcapsules using microfluidic devices

Boggione

Batalha

Gontijo

et al. 2017

Colloids and Surfaces B: Biointerfaces

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A B S TR A C TThe indiscriminate use of antibiotics and the emergence of resistant microorganisms have become a major challenge for the food industry. The purpose of this work was to microencapsulate the bacteriophage UFV-AREG1 in a calcium alginate matrix using microfluidic devices and to study the viability and efficiency of retention. The microcapsules were added to gel of propylene glycol for use as an antimicrobial in the food industry. The technique showed the number of the phage encapsulation, yielding drops with an average 100-250 µm of diameter, 82.1 ± 2% retention efficiency and stability in the gel matrix for 21 days. The gel added to the microencapsulated phage showed efficiency (not detectable on the surface) in reducing bacterial contamination on the surface at a similar level to antimicrobial chemicals (alcohol 70%). Therefore, it was possible to microencapsulate bacteriophages in alginate-Ca and apply the microcapsules in gels for use as sanitizers in the food industry.

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Encapsulation in alginate-polymers improves stability and allows controlled release of the UFV-AREG1 bacteriophage

Batalha

Gontijo

Teixeira

et al. 2021

Food Research International

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Microbiological Contamination in Foods and Beverages: Consequences and Alternatives in the Era of Microbial Resistance

Lopez

Gontijo

Boggione

et al. 2018

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Genome Sequence of the Enterohemorrhagic Escherichia coli Bacteriophage UFV-AREG1

et al. 2016

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Bio-Sanitization Using Specific Bacteriophages to Control <em>Escherichia coli</em> O157:H7 in Cherry Tomatoes

Lopez¹,

Gontijo²,

Batalha³

et al. 2018

AJFST

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Expanding the genomes insight of Streptococcus thermophilus phages through a multifaceted approach

Batalha

Vidigal

Gontijo

et al. 2022

RSD

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Viruses have complex evolutionary relationships, and several strategies have been used in an attempt to classify the phages that infect S. thermophilus. In this study, we used a wide range of complementary methods, including comparative genomics, core genome analysis, and signature genes phylogenetics, to show that the S. thermophilus phages are organized into 142 species and five genera (three of them new) and that due to their genetic diversity, the classification at family level varies according to the classification criteria used. No significantly conserved genes were identified among the 183 genomes evaluated. However, the genes encoding holin protein were conserved in more than 95% of genomes. The holins analysis suggests that at least two α-helix are required for protein function within S. thermophilus phages. This study expanded the of knowledge about the genetic diversity and evolution of streptococcal phages, both fundamental to promoting control strategies and minimizing failures in milk fermentation processes.

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