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Milk is an essential food, widely consumed by the population. Brazil is one of the world's largest producers of milk. Milk quality is influenced by several factors in all its stages of production. The aim of this study was to determine the microbiological profile of refrigerated and processed raw bovine milk from industries in Vale do Taquari, state of Rio Grande do Sul, Brazil, using metagenomic analysis. A total of six samples were collected, one of refrigerated raw milk from the tanker truck, one of pasteurized milk and one of milk sterilized by the ultra-high temperature (UHT) process, in each of the industries. The identification of the milk microbiota was performed by sequencing the 16S rRNA gene. The results show that refrigerated raw milk has a greater number of microorganisms, followed by pasteurized milk and sterilized milk, successively. Processed milk showed the presence of beneficial microorganisms such as Streptococcus thermophilus and Streptococcus macedonicus. Nevertheless, even UHT milk showed the presence of microorganisms considered harmful, such as the Bacillus cereus group, Aeromonas dhakensis, Enterobacter bacterium and Acinetobacter haemolyticus. Metagenomics is a valuable tool for the thorough evaluation of the milk microbiota in order to implement the processing stages in industries.

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This work presents a new method and tool to solve a common problem of molecular biologists and geneticists who use molecular markers in their scientific research and developments: curation of sequences. Omic studies conducted by molecular biologists and geneticists usually involve the use of molecular markers. AFLP, cDNA-AFLP, and MSAP are examples of markers that render information at the genomics, transcriptomics, and epigenomics levels, respectively. These three types of molecular markers use adaptors that are the template for PCR amplification. The sequences of the adaptors have to be eliminated for the analysis of the results. Since a large number of sequences are usually obtained in these studies, this clean-up of the data could demand long time and work. To automate this work, an R package, named CleanBSequences, was created that allows the sequences to be curated massively, quickly, without errors and can be used offline. The curating is performed by aligning the forward and/or reverse primers or ends of cloning vectors with the sequences to be removed. After the alignment, new subsequences are generated without biological fragments not desired by the user, i.e., sequences needed by the techniques. In conclusion, the CleanBSequences tool facilitates the work of researchers, reducing time, effort, and working errors. Therefore, the present tool would respond to the problems related to the curation of sequences obtained from the use of some types of molecular markers. In addition to the above, being an open source, CleanBSequences is a flexible tool that has the potential to be used in future improvements to respond to new problems.

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Precision cytopathology refers to therapeutically linked biomarker testing in cytopatology, a dynamically growing area of the discipline. This review describes basic steps to expand precision cytopathology services. Focusing exclusively on solid tumors, the review is divided into four sections: Section 1: Overview of precision pathology- opportunities and challenges; Section 2: Basic steps in establishing or expanding a precision cytopathology laboratory; Section 3: Cytopathology specimens suitable for next generation sequencing platforms; and Section 4: Summary. precision cytopathology continues to rapidly evolve in parallel with expanding targeted therapy options. Biomarker assays (companion diagnostics) comprise a multitude of test types including immunohistochemistry, in situ hybridization and molecular genetic tests such as PCR and next generation sequencing all of which are performable on cytology specimens. Best practices for precision cytopathology will incorporate traditional diagnostic approaches allied with careful specimen triage to enable successful biomarker analysis. Beyond triaging, cytopathologists knowledgeable about molecular test options and capabilities have the opportunity to refine diagnoses, prognoses and predictive information thereby assuming a lead role in precision oncology biomarker testing.

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The Poaceae constitute a taxon of flowering plants (grasses) that cover almost all Earth's inhabitable range and comprises some of the genera most commonly used for human and animal nutrition. Many of these crops have been sequenced, like rice, Brachypodium, maize and, more recently, wheat. Some important members are still considered orphan crops, lacking a sequenced genome, but having important traits that make them attractive for sequencing. Among these traits is apomixis, clonal reproduction by seeds, present in some members of the Poaceae like Eragrostis curvula. A de novo, high-quality genome assembly and annotation for E. curvula have been obtained by sequencing 602 Mb of a diploid genotype using a strategy that combined long-read length sequencing with chromosome conformation capture. The scaffold N50 for this assembly was 43.41 Mb and the annotation yielded 56,469 genes. The availability of this genome assembly has allowed us to identify regions associated with forage quality and to develop strategies to sequence and assemble the complex tetraploid genotypes which harbor the apomixis control region(s). Understanding and subsequently manipulating the genetic drivers underlying apomixis could revolutionize agriculture.

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Steroids, including testosterone, estrone, 17β-estradiol, estriol and 17β-ethinyl estradiol, are harmful not only to the population dynamics of aquatic life forms but also to public health. In this study, a marine testosterone-degrading bacterium (strain N3) was isolated from Nanao Island in the South China Sea. In addition, the strain could also use 17β-estradiol (E2), 17β-ethinyl estradiol (EE2), estriol (E3) or cholesterol as a sole carbon source. According to the 16S rRNA gene sequence analysis, strain N3 was identified as Vibrio sp. Further characterization showed that the strain is aerobic, gram-negative, and mobile and exhibits resistance to ampicillin, carbenicillin, penicillin and spectinomycin. For enhancing its capacity of testosterone degradation, the Plackett-Burman factorial design and the central composite design were used to optimize the culture condition. Under optimal conditions, 92% of testosterone was degraded by Vibrio sp. N3 in 48 h.

Los esferoides-que incluyen la testosterona, la estrona, el 17 β-estradiol, el estriol y el 17 p-etinilestradiol-son nocivos no solo para la población dinámica de las formas de vida acuática, sino también para la salud pública. En este estudio se aisló una bacteria marina degradadora de testosterona de la isla de Nanao, en el Mar del Sur de China, a la que se denominó cepa N3. Se determinó que esta cepa también podría usar 17 β-estradiol (E2), 17 p-etinilestradiol (EE2), estriol (E3) o colesterol como únicas fuentes de carbono. De acuerdo con el análisis de la secuencia del gen 16S rRNA, la cepa N3 se identificó como Vibrio sp. La caracterización adicional mostró que dicha bacteria es un organismo aerobio, gram negativo y móvil, y que presenta resistencia a ampicilina, carbenicilina, penicilina y espectinomicina. Para optimizar la condición de cultivo en relación con su capacidad de degradar la testosterona, se utilizaron el diseño factorial Plackett-Burman y el diseno compuesto central. En condiciones óptimas, el 92% de la testosterona fue degradada por Vibrio sp. N3 en 48 h.

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Most of the exact algorithms for biological sequence comparison obtain the optimal result by calculating dynamic programming (DP) matrices with quadratic time and space complexity. Fickett prunes the DP matrices by only computing values inside a band of size k, thus reducing time and space complexity to [Formula: see text]. Myers and Miller (MM) proposed a linear space algorithm that splits a sequence comparison into multiple comparisons of subsequences, using a divide-and-conquer approach. In this article, we propose a parallel strategy that combines the Fickett and MM algorithms, thus adding pruning capability to the MM algorithm. By using an appropriate Fickett band in each subsequence comparison, we can significantly reduce the number of cells computed in the DP matrices. Our strategy was integrated to stages 3 and 4 of CUDAlign, a state-of-the-art parallel tool for optimal biological sequence comparison, generating two implementations: Fickett-MM-4 and Fickett-MM-3-4. These implementations were used to compare real DNA sequences, reaching a speedup of 101.19 × in the 10 × 10 millions of base pairs comparison when compared with CUDAlign stages 3 and 4. In this case, the execution time was reduced from 71.42 to 0.7 seconds.

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Sistemas de Secreção Tipo IV (T4SSs), normalmente compostos por 12 proteínas (VirB1-VirB11 e VirD4) são tipicamente associados às funções de conjugação bacteriana e transferência de fatores de patogenicidade para células hospedeiras. Mas também, muitas espécies da ordem Xanthomonadales possuem um T4SS associado a matar bactérias. O modelo atual de morte de uma célula-alvo mediada pelo T4SS é baseado na secreção de toxinas denominadas XVIPs ("Xanthomonas VirD4 interacting proteins") ou X-Tfe (Xanthomonadaceae-T4SS effector) no qual cada XVIP/X-Tfe apresenta uma proteína de imunidade cognata denominada X-Tfi (Xanthomonadaceae-T4SS immunity protein). Demonstramos que um XVIP, XAC2609, é secretado através do T4SS de modo que depende de contato célula-célula e do seu domínio XVIPCD ("XVIP conserved domains"). A porção N-terminal de XAC2609 codifica um domínio GH19 que cliva a peptideoglicana de E. coli, mas perde a sua atividade na presença do seu inibidor cognato, o X-Tfi XAC2610. Portanto, XAC2609/XAC2610 formam um par de proteínas efetora/imunidade associado ao T4SS de X. citri. Através de diferentes técnicas de microscopias utilizando a cepa Δxac2610, foi observado que XAC2610 protege o envelope celular de X. citri contra efeitos de autólise celular promovidos pela atividade de XAC2609. Ensaios funcionais baseados nas observações de fenótipos de colônias e de formação de biofilme mostraram que XAC2610 confere imunidade para X. citri contra uma atividade 7 intrínseca de XAC2609. A proteína com o papel de reconhecer os substratos através da interação com os sinais de secreção do T4SS é VirD4. No T4SS de X. citri, existe a hipótese de que o domínio XVIPCD seja o sinal de secreção presente nas XVIPs. Logo, os aspectos bioquímicos e biofísicos da interação VirD4-XVIPCD foram investigados através de experimentos de co-purificação por cromatografia de afinidade e exclusão molecular, RMN e SAXS. Demonstramos que o domínio AAD de VirD4 (VirD4AAD) está associado a interagir especificamente com o domínio XVIPCD de XAC2609 (XAC2609XVIPCD), formando um heterodímero em solução. VirD4AAD é um domínio globular e monomérico e XAC2609XVIPCD é desenovelado mas se enovela concomitante à interação com VirD4AAD. Construções de XAC2609 contendo mutações pontuais no domínio XVIPCD foram utilizadas em ensaios in vivo de secreção pela X. citri e ensaios in vitro de interação com VirD4AAD por titulação monitorada por calorimetria isotérmica (ITC). Através desses experimentos, observamos que uma forte interação entre VirD4AAD-XAC2609XVIPCD é essencial para secreção de XAC2609 via o T4SS. Esses resultados permitem concluir que o domínio XVIPCD é o sinal de secreção dos substratos do T4SS de X. citri e que o AAD confere especificidade à VirD4 por interagir com o XVIPCD. Finalmente, através de ensaios de competições bacterianas entre E. coli e X. citri, foram observados diferentes fenótipos associados à função do T4SS: i) nocautes gênicos das subunidades estruturais VirB5, VirB11 abolem a função do T4SS em X. citri.; ii) nocautes de xac2611, apresentaram uma maior vantagem adaptativa do que a cepa selvagem de X. citri em competições e a expressão epissomal de XAC2611 inibe fortemente a função do T4SS e iii) a atividade ATPásica de VirD4 é essencial para a função do sistema e a expressão de mutantes 8 de VirD4 exerce um fenótipo de dominância negativa sobre a função do T4SS em X. citri

The Type IV secretion System (T4SS) is typically associated with the function of bacterial conjugation and as a pathogenicity factor. T4SSs are normally composed of 12 proteins, VirB1-VirB11 and VirD4. Many species of the order Xanthomonadales possess a T4SS associated with killing bacteria. The current model of the T4SS killing is based on the secretion of toxins denominated XVIPs/X-Tfes (Xanthomonas VirD4 interacting proteins) /(Xanthomonadaceae-T4SS effector) in which each XVIP/X-Tfe has a cognate immunity protein denominated X-Tfi (Xanthomonadaceae-T4SS immunity protein). We demonstrate that an XVIP, XAC2609, is secreted through the T4SS so that it depends on cell-cell contact and its XVIPCD domain ("XVIP conserved domains"). The N-terminal portion of XAC2609 encodes a GH19 domain which cleaves the E. coli peptidoglycan but loses its activity in the presence of its cognate inhibitor, X-Tfi XAC2610. Therefore, XAC2609 /XAC2610 form a pair of effector/immunity proteins associated with X. citri T4SS. By using the X. citri Δxac2610 strain, has been shown through different microscopic techniques that XAC2610 protects the cell envelope of X. citri against the effects of cellular autolysis promoted by XAC2609 activity. Functional assays based on observations of colony phenotypes and biofilm formation has shown that XAC2610 confers immunity to X. citri against an intrinsic activity of XAC2609. VirD4 is the protein that recognizes the substrates through the interaction with the T4SS secretion signals. In the T4SS of X. citri, is hypothesized that the XVIPCD domain is the secretion signal present in the XVIPs. Here, the biochemical and biophysical aspects of the VirD4-XVIPCD interaction were investigated through Pull- Down, Molecular Exclusion Chromatography, NMR and SAXS assays. It has been shown the AAD domain of VirD4 (VirD4AAD) is associated with specifically interacting with the XAC2609XVIPCD domain (XAC2609XVIPCD), forming a heterodimer in solution. VirD4AAD is a globular and monomeric domain while XAC2609XVIPCD is elongated, but upon interaction with VirD4AAD goes through structural compaction process. Constructs of XAC2609 containing point mutations in the XVIPCD domain were used to perform secretion experiments in X. citri and Isothermal titration calorimetry against VirD4AAD. Through these assays, it has been characterized that a strong interaction between VirD4AAD-XAC2609XVIPCD is essential for secretion of XAC2609 via T4SS. Consequently, these results allow concluding that the XVIPCD domain is the secretion signal of X. citri T4SS substrate and the AAD confer specificity to VirD4 by interact with the XVIPCD domains. Finally, bacterial competitions between E. coli and X. citri showed different phenotypes associated with T4SS function: i) virB5, virB11 knockouts abolish the function of T4SS in X. citri.; ii) knockouts of xac2611 exhibited a higher adaptive efficiency than the wild-type X. citri strain in competitions, but the expression of XAC2611 abolishes the function of T4SS in the wild strain of X. citri; iii) The ATPase activity of VirD4 is essential and exerts a negative dominance over the T4SS function in X.citri

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OBJECTIVES: To investigate the presence of Y-chromosome sequences and determine their frequency in patients with Turner syndrome. METHODS: The study included 23 patients with Turner syndrome from Brazil, who gave written informed consent for participating in the study. Cytogenetic analyses were performed in peripheral blood lymphocytes, with 100 metaphases per patient. Genomic DNA was also extracted from peripheral blood lymphocytes, and gene sequences DYZ1, DYZ3, ZFY and SRY were amplified by Polymerase Chain Reaction. RESULTS: The cytogenetic analysis showed a 45,X karyotype in 9 patients (39.2 %) and a mosaic pattern in 14 (60.8 %). In 8.7 % (2 out of 23) of the patients, Y-chromosome sequences were found. This prevalence is very similar to those reported previously. The initial karyotype analysis of these patients did not reveal Y-chromosome material, but they were found positive for Y-specific sequences in the lymphocyte DNA analysis. CONCLUSION: The PCR technique showed that 2 (8.7 %) of the patients with Turner syndrome had Y-chromosome sequences, both presenting marker chromosomes on cytogenetic analysis.

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Mitochondrial genes and genomes have long been applied in phylogenetics. Current protocols to sequence mitochondrial genomes rely almost exclusively on long range PCR or on the direct sequencing. While long range PCR includes unnecessary biases, the purification of mtDNA for direct sequencing is not straightforward. We used total RNA extracted from liver and Illumina HiSeq technology to sequence mitochondrial transcripts from three fish (Ancistrus spp.) and assemble their mitogenomes. Based on the mtDNA sequence of a close related species, we estimate to have sequenced 92%, 95% and 99% of the mitogenomes. Taken the sequences together, we sequenced all the 13 protein-coding genes, two ribosomal RNAs, 22 tRNAs and the D-loop known in vertebrate mitogenomes. The use of transcriptomic data allowed the observation of the punctuation pattern of mtRNA maturation, to analyze the transcriptional profile, and to detect heteroplasmic sites. The assembly of mtDNA from transcriptomic data is complementary to other approaches and overcomes some limitations of traditional strategies for sequencing mitogenomes. Moreover, this approach is faster than traditional methods and allows a clear identification of genes, in particular for tRNAs and rRNAs.

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