Genomic constellations of RVA detected in Brazil from 1986 to 2016: a temporal and geographical distribution and occurrence of reassortments / Constelações genômicas de RVA detectadas no Brasil de 1986 a 2016: uma distribuição temporal e geográfica e ocorrência de rearranjos

INTRODUCTION: Species A rotavirus (RVA) infections are a major cause of severe gastroenteritis in children of <5 years worldwide. In Brazil, before vaccination, RVA was associated with 3.5 million episodes of acute diarrheal disease per year. Due to the segmented nature of their genomes, rotaviruses can exchange genes during co-infections, and generate new virus strains and new reinfections. OBJECTIVE: To evaluate the genomic diversity of RVA isolated in Brazil in 30 years, between 1986 to 2016, to investigate possible changes in the frequency of genotype constellations before and after the implementation of the vaccine. METHODS: In total, 4,474 nucleotide sequences were obtained from the Virus Variation Database. Genomic constellation was compared, and the proportion of rotavirus genotypes was analyzed by time and geographic region. RESULTS: Our results showed that major known genotypes were circulating in the country during the period under analysis, with a prevalence of the G1P[8] Wa-like genotype, decreasing only in the period immediately after the introduction of the vaccine. Regarding the geographical distribution, most of our constellations, 62 (39.2%), and 50 (31.6%) were concentrated in the North and Northeast regions. Our analysis also showed the circulation of multiple strains during the periods when the DS-1-like and AU-1-like genotypes were co-circulating with the Wa-like genotype. CONCLUSION: Therefore, it is likely that inter-genogroup reassortments are still occurring in Brazil and so it is important to establish an efficient surveillance system to follow the emergence of novel reassorted strains that might not be targeted by the vaccine.

INTRODUÇÃO: As infecções por rotavírus A (RVA) são uma das principais causas de gastroenterite grave em crianças <5 anos em todo o mundo. No Brasil, antes da vacinação, o RVA estava associado a 3,5 milhões de episódios de diarreia aguda por ano. Devido à natureza segmentada de seus genomas, os rotavírus podem trocar genes durante as coinfecções, gerar novas cepas de vírus e novas reinfecções. OBJETIVO: Avaliar a diversidade genômica de RVA isolados no Brasil entre 1986 a 2016 para investigar possíveis alterações na frequência das constelações de genótipos antes e após a implantação da vacina. MÉTODOS: No total, 4.474 sequências de nucleotídeos foram obtidas do Banco de Dados de Variação de Vírus. A constelação genômica foi comparada e a proporção dos genótipos de rotavírus foi analisada por tempo e região geográfica. RESULTADOS: Nossos resultados mostraram que os principais genótipos conhecidos circulavam no país no período em análise, com prevalência do genótipo G1P[8] Wa-like, diminuindo apenas no período imediatamente após a introdução da vacina. Em relação à distribuição geográfica, a maioria das nossas constelações, 62 (39,2%) e 50 (31,6%), concentrava-se nas regiões Norte e Nordeste. Nossa análise também mostrou a circulação de cepas múltiplas durante os períodos em que os genótipos DS-1-like e AU-1-like estavam co-circulando com o genótipo Wa-like. CONCLUSÃO: Portanto, é provável que rearranjos inter-genogrupos ainda estejam ocorrendo no Brasil e por isso é importante estabelecer um sistema de vigilância eficiente para acompanhar o surgimento de novas cepas rearranjadas que podem não ser protegidas pela vacina.

Precision gene editing technologies based on CRISPR/Cas9: a review / 生物工程学报

Gene editing technology is a genetic operation technology that can modify the DNA sequence at the genomic level. The precision gene editing technology based on CRISPR/Cas9 system is a gene editing technology that is easy to operate and widely used. Unlike the traditional CRISPR/Cas9 system, the precision gene editing technology can perform site-directed mutation of genes without DNA template. This review summarizes the recent development of precision gene editing technology based on CRISPR/Cas9, and prospects the challenges and opportunities of this technology.

Development and application of a rapid gene manipulating toolbox for Pseudomonas aeruginosa / 生物工程学报

Manipulation of genes, including knock-out or knock-in, replacement of gene elements (such as promoters), fusion with a fluorescent protein gene, and construction of in situ gene reporter, is required in most of the biotechnological laboratories. The widely used gene manipulating methods based on two-step allelic exchange are cumbersome in terms of constructing plasmids, transforming and screening. In addition, the efficiency of using this method for long fragment knockout is low. To simplify the process of gene manipulation, we constructed a minimized integrative vector pln2. When a gene needs to be inactivated, an internal fragment of the target gene (non-frameshift) is cloned into the pln2 plasmid. Once the single-crossover recombination between genome and the constructed plasmid occurs, the endogenous gene is segmented by the plasmid backbone and thus inactivated. We developed a toolbox based on pln2 that can be used for different genomic operation mentioned above. With the help of this toolbox, we successfully knocked out large fragments of 20-270 kb.

Biomarcadores convencionales y emergentes en hepatitis B / Conventional and emerging biomarkers in hepatitis B

A nivel mundial, 300 millones de personas están infectadas por el virus de la hepatitis B (VHB). A pesar de que existe una vacuna que previene la infección y se dispone de tratamiento antiviral que suprime la replicación del virus, no hay cura aún. El principal problema que evita la recuperación total del paciente, incluso para aquel que recibe tratamiento, es la persistencia de dos formas del genoma viral en los hepatocitos: el ADN circular covalentemente cerrado (ADNccc), el cual se encuentra en forma de episoma y tiene la capacidad de replicarse, y las secuencias lineales subge-nómicas que se integran en el genoma humano, con potencial oncogénico. Hasta el momento se dispone de unos pocos biomarcadores para monitorear o predecir la progresión de la enfermedad y la respuesta al tratamiento. Estos biomarcadores se detectan durante la infección, y son la base para la monitorización de la enfermedad y hacer un diagnóstico de la fase clínica de la infección. Recientemente han surgido nuevos biomarcadores como el antígeno relacionado con el core del virus de la hepatitis B (HBcrAg) y la detección del ARN del VHB, que parecen correlacionarse con los niveles transcripcionales del ADNccc, además, durante el tratamiento parecen ayudar a predecir la respuesta y podrían identificar aquellos a quienes se les puede suspender la terapia sin riesgo de recaída. En esta revisión, se describe la utilidad de los principales biomarcadores convencionales en hepatitis B, y se abordan los dos biomarcadores emergentes más estudiados que prometen evaluar el curso de la infección, al igual que determinar la progresión de la enfermedad y la respuesta al tratamiento.

Globally, 300 million people are infected with hepatitis B virus (HBV). Although there is a vaccine that prevents infection and antiviral treatment that suppresses the replication of the virus, there is still no cure. The main problem that prevents the total recovery of the patient, even for those who recei-ve treatment, is the persistence of two forms of the viral genome in hepatocytes: covalently close circular DNA (cccDNA), which is in the form of an episome that has the ability to replicate, and linear subgenomic sequences that are integrated into the human genome, with oncogenic potential. Few biomarkers are currently available to monitor or predict disease progression and response to treatment. These biomarkers are detected during infection and are the basis for monitoring the di-sease and making a diagnosis of the clinical phase of the infection. New biomarkers have recently emerged, such as hepatitis B core-related antigen (HBcrAg) and HBV RNA detection, which seem to correlate with cccDNA transcriptional levels while during treatment seem to help predict response, and could identify those for whom therapy can be discontinued without risk of relapse. In this review, the usefulness of the main conventional biomarkers in hepatitis B is described, and the two most studied emerging biomarkers are mentioned, which promise to evaluate the course of the infection, as well as to determine disease progression and treatment response.

The dynamics of genome size and GC contents evolution in genus Nicotiana / A dinâmica do tamanho do genoma e a evolução dos conteúdos de GC no gênero Nicotiana

Hybridization and Polyploidization are most common of the phenomenon observed in plants, especially in the genus Nicotiana leading to the duplication of genome. Although genomic changes associated with these events has been studied at various levels but the genome size and GC content variation is less understood because of absence of sufficient genomic data. In this study the flow cytometry technique was used to uncover the genome size and GC contents of 46 Nicotiana species and we compared the genomic changes associated with the hybridization events along evolutionary time scale. The genome size among Nicotiana species varied between 3.28 pg and 11.88 pg whereas GC contents varied between 37.22% and 51.25%. The tetraploid species in genus Nicotiana including section Polydiclae, Repandae, Nicotiana, Rustica and Sauveolentes revealed both up and downsizing in their genome sizes when compared to the sum of genomes of their ancestral species. The genome sizes of three homoploid hybrids were found near their ancestral species. Loss of large genome sequence was observed in the evolutionary more aged species (>10 Myr) as compared to the recently evolved one’s (<0.2 Myr). The GC contents were found homogenous with a mean difference of 2.46% among the Nicotiana species. It is concluded that genome size change appeared in either direction whereas the GC contents were found more homogenous in genus Nicotiana.

A hibridização e a poliploidização são os fenômenos mais comuns observados em plantas, principalmente no gênero Nicotiana, levando à duplicação do genoma. Embora as mudanças genômicas associadas a esses eventos tenham sido estudadas em vários níveis, o tamanho do genoma e a variação do conteúdo de GC são menos compreendidos devido à ausência de dados genômicos suficientes. Neste estudo, a técnica de citometria de fluxo foi usada para descobrir o tamanho do genoma e o conteúdo de GC de 46 espécies de Nicotiana, e comparamos as mudanças genômicas associadas aos eventos de hibridização ao longo da escala de tempo evolutiva. O tamanho do genoma entre as espécies de Nicotiana variou entre 3,28 pg e 11,88 pg, enquanto os conteúdos de GC variaramentre 37,22% e 51,25%. As espécies tetraploides do gênero Nicotiana, incluindo as seções Polydiclae, Repandae, Nicotiana, Rustica e Sauveolentes, revelaram aumento e redução do tamanho do genoma quando comparados à soma dos genomas de suas espécies ancestrais. Os tamanhos do genoma de três híbridos homoploides foram encontrados perto de suas espécies ancestrais. A perda da grande sequência do genoma foi observada nas espécies evolutivas mais velhas (> 10 Myr) em comparação com as que evoluíram recentemente (< 0,2 Myr). Os teores de GC foram homogêneos com diferença média de 2,46% entre as espécies de Nicotiana. Conclui-se que a mudança no tamanho do genoma apareceu em ambas as direções, enquanto os conteúdos de GC foram encontrados mais homogêneos no gênero Nicotiana.

Tracking the evolutionary pathways among Brazilian Lebiasina species (Teleostei: Lebiasinidae): a chromosomal and genomic comparative investigation

Despite several difficulties in chromosomal analyses of small-sized fishes, the cytogenetics of the Lebiasinidae was largely improved in the last years, showing differential patterns in the chromosomal evolution inside the family. In this context, it has been shown that genus Lebiasina preserves its karyotypic macrostructure, composed of 2n = 36 chromosomes, whereas the other genera generally present higher 2n. This study focused on the comparative cytogenetics of three Lebiasina species, one of them analyzed here for the first time, using conventional and molecular procedures. The results reinforced the differentiated evolutionary path of the genus Lebiasina while, at the same time, highlighted the genomic particularities that have accompanied the evolution of each species. In this sense, the repetitive components of the genome played a significant role in the differentiation of each species. It is also notable that L. minuta and L. melanoguttata, the two species that occur exclusively in the Brazilian territory, show greater chromosomal similarities to each other than to the trans-Andean sister species, L. bimaculata.(AU)

Apesar das dificuldades encontradas em se realizar análises cromossômicas em peixes de pequeno porte, os estudos citogenéticos em Lebiasinidae vêm crescendo nos últimos anos e demonstrando padrões diferenciados na evolução cromossômica entre os membros da família. Nesse contexto, o gênero Lebiasina tem mostrado preservar sua macroestrutura cariotípica, composta por 2n = 36 cromossomos, enquanto os demais gêneros geralmente apresentam 2n maiores. Este estudo tem como foco a citogenética comparativa de três espécies de Lebiasina, sendo uma delas analisada pela primeira vez aqui, através do emprego de técnicas convencionais e moleculares. Os resultados obtidos reforçam a trajetória evolutiva diferenciada do gênero Lebiasina, ao mesmo tempo em que evidenciam as particularidades genômicas que acompanham a evolução de cada uma das espécies. Neste contexto, os componentes repetitivos do genoma tiveram um papel importante na caracterização particular de cada uma das espécies. Também, é notável que L. minuta e L. melanoguttata, duas espécies que ocorrem exclusivamente no território brasileiro, apresentam maior proximidade citogenética entre elas do que com a espécie irmã transandina, L. bimaculata.(AU)

GenoType MTBDRsl for detection of second-line drugs and ethambutol resistance in multidrug-resistant Mycobacterium tuberculosis isolates at a high-throughput laboratory

We assessed the performance of MTBDRsl for detection of resistance to fluoroquinolones, aminoglycosides/cyclic peptides, and ethambutol compared to BACTEC MGIT 960 by subjecting simultaneously to both tests 385 phenotypically multidrug-resistant-Mycobacterium tuberculosis isolates from Sao Paulo, Brazil. Discordances were resolved by Sanger sequencing. MTBDRsl correctly detected 99.7% of the multidrug-resistant isolates, 87.8% of the pre-XDR, and 73.9% of the XDR. The assay showed sensitivity of 86.4%, 100%, 85.2% and 76.4% for fluoroquinolones, amikacin/kanamycin, capreomycin and ethambutol, respectively. Specificity was 100% for fluoroquinolones and aminoglycosides/cyclic peptides, and 93.6% for ethambutol. Most fluoroquinolone-discordances were due to mutations in genome regions not targeted by the MTBDRsl v. 1.0: gyrA_H70R and gyrB_R446C, D461N, D449V, and N488D. Capreomycin-resistant isolates with wild-type rrs results on MTBDRsl presented tlyA mutations. MTBDRsl presented good performance for detecting resistance to second-line drugs and ethambutol in clinical isolates. In our setting, multidrug-resistant. isolates presented mutations not targeted by the molecular assay.

A graph-theory-based method for processing of currency metabolites in metabolic networks / 生物工程学报

Graph-theory-based pathway analysis is a commonly used method for pathway searching in genome-scale metabolic networks. However, such searching often results in many pathways biologically infeasible due to the presence of currency metabolites (e.g. H+, H2O, CO2, ATP etc.). Several methods have been proposed to address the problem but up to now there is no well-recognized methods for processing the currency metabolites. In this study, we proposed a new method based on the function of currency metabolites for transferring of functional groups such as phosphate. We processed most currency metabolites as pairs rather than individual metabolites, and ranked the pairs based on their importance in transferring functional groups, in order to make sure at least one main metabolite link exists for any reaction. The whole process can be done automatically by programming. Comparison with existing approaches indicates that more biologically infeasible pathways were removed by our method and the calculated pathways were more reliable, which may facilitate the graph-theory-based pathway design and visualization.

Thermostable CRISPR/Cas9 genome editing system and its application in construction of cell factories with thermophilic bacteria: a review / 生物工程学报

The diverse thermophilic strains of Thermoanaerobacter, serving as unique platforms with a broad range of application in biofuels and chemicals, have received wide attention from scholars and practitioners. Although biochemical experiments and genome sequences have been reported for a variety of Thermoanaerobacter strains, an efficient genetic manipulation system remains to be established for revealing the biosynthetic pathways of Thermoanaerobacter. In line with this demand, the clustered regularly interspaced short palindromic repeat (CRISPR)/CRISPR-associated (Cas) systems for editing, regulating and targeting genomes have been well developed in thermophiles. Here, we reviewed and discussed the current status, associated challenges, and future perspectives of the construction of thermostable CRISPR/Cas9 genome editing systems for some representative Thermoanaerobacter species. The establishment, optimization, and application of thermostable CRISPR/Cas genome editing systems would potentially provide a foundation for further genetic modification of thermophilic bacteria.

Development of metabolic models with multiple constraints: a review / 生物工程学报

Constraint-based genome-scale metabolic network models (genome-scale metabolic models, GEMs) have been widely used to predict metabolic phenotypes. In addition to stoichiometric constraints, other constraints such as enzyme availability and thermodynamic feasibility may also limit the cellular phenotype solution space. Recently, extended GEM models considering either enzymatic or thermodynamic constraints have been developed to improve model prediction accuracy. This review summarizes the recent progresses on metabolic models with multiple constraints (MCGEMs). We presented the construction methods and various applications of MCGEMs including the simulation of gene knockout, prediction of biologically feasible pathways and identification of bottleneck steps. By integrating multiple constraints in a consistent modeling framework, MCGEMs can predict the metabolic bottlenecks and key controlling and modification targets for pathway optimization more precisely, and thus may provide more reliable design results to guide metabolic engineering of industrially important microorganisms.

Nuclear peripheral chromatin-lamin B1 interaction is required for global integrity of chromatin architecture and dynamics in human cells

The eukaryotic genome is folded into higher-order conformation accompanied with constrained dynamics for coordinated genome functions. However, the molecular machinery underlying these hierarchically organized three-dimensional (3D) chromatin architecture and dynamics remains poorly understood. Here by combining imaging and sequencing, we studied the role of lamin B1 in chromatin architecture and dynamics. We found that lamin B1 depletion leads to detachment of lamina-associated domains (LADs) from the nuclear periphery accompanied with global chromatin redistribution and decompaction. Consequently, the inter-chromosomal as well as inter-compartment interactions are increased, but the structure of topologically associating domains (TADs) is not affected. Using live-cell genomic loci tracking, we further proved that depletion of lamin B1 leads to increased chromatin dynamics, owing to chromatin decompaction and redistribution toward nucleoplasm. Taken together, our data suggest that lamin B1 and chromatin interactions at the nuclear periphery promote LAD maintenance, chromatin compaction, genomic compartmentalization into chromosome territories and A/B compartments and confine chromatin dynamics, supporting their crucial roles in chromatin higher-order structure and chromatin dynamics.

Nueva clasificación molecular del carcinoma de endometrio: impacto en el diagnóstico histopatológico, tratamiento y pronóstico / New molecular classification of endometrial carcinoma: impact on histopathological diagnosis, treatment, and prognosis / Nova classificação molecular do carcinoma de endométrio: impacto no diagnóstico histopatológico, tratamento e prognóstico

Introducción. El carcinoma de endometrio es una patología heterogénea a nivel patogénico, histopatológico y molecular. En los últimos años se han sumado esfuerzos para esclarecer y aumentar el conocimiento de las bases moleculares, logrando así dividir las pacientes en cuatro subgrupos descritos por el Atlas del Genoma del Cáncer (TCGA, por sus siglas en inglés), obteniéndose valiosa información que afecta el diagnóstico, tratamiento y pronóstico de las pacientes con esta enfermedad. El objetivo de la siguiente revisión es exponer la nueva clasificación molecular del carcinoma de endometrio, así como discutir las ventajas que esta trae a la hora de estratificar a las pacientes y tomar decisiones terapéuticas. División de los temas tratados. Se realizó una búsqueda bibliográfica no sistemática en las bases de datos PubMed, Cochrane y Medline desde el año 2014 hasta el 2020 sobre el carcinoma de endometrio y su clasificación molecular. Se expone de manera concreta y actualizada el contexto histórico, los diferentes subgrupos moleculares y cómo estos impactan en el manejo de las pacientes. Conclusiones. El carcinoma de endometrio es una enfermedad heterogénea a nivel histopatológico, clínico y molecular. Con la nueva clasificación y los estudios prospectivos se podrán crear nuevas estrategias que permitan brindar mejores protocolos diagnósticos y terapéuticos.

Introduction. Endometrial carcinoma is a heterogeneous pathology in pathologenic, histopathological, and molecular terms. Over the last years, efforts have been made to clarify and increase knowledge of molecular bases, as such dividing patients into four subgroups described by the The Cancer Genome Atlas (TCGA), obtaining valuable information that affects the diagnosis, treatment, and prognosis of patients with this disease. The objective of this review is to exhibit the new molecular classification of endometrial carcinoma, and to discuss its advantages when stratifying patients and making therapeutic decisions. Division of Covered Topics. A non-systematic bibliographical search was carried out in the PubMed, Cochrane, and Medline databases from 2014 to 2020, on endometrial carcinoma and its molecular classification. The historical context, different molecular subgroups and how these impact patient handling are shown in a concrete and updated way. Conclusions. Endometrial carcinoma is a heterogeneous disease in histopathological, clinical, and molecular terms. With the new classification and the prospective studies, new strategies can be created to provide better diagnostic and therapeutic protocols.

Introdução. O carcinoma de endométrio é uma patologia heterogênea no nível patogênico, histopatológico e molecular. Nos últimos anos, foram feitos esforços para esclarecer e aumentar o conhecimento das bases moleculares, conseguindo dividir as pacientes em quatro subgrupos descritos pelo Atlas do Genoma do Câncer (TCGA, por suas siglas em inglês), obtendo informações valiosas que afetam o diagnóstico, o tratamento e o prognóstico das pacientes com esta doença. O objetivo da seguinte revisão é apresentar a nova classificação molecular do carcinoma de endométrio, bem como discutir as vantagens que ela traz no momento de estratificar as pacientes e tomar decisões terapêuticas. Divisão dos tópicos abordados. Uma pesquisa bibliográfica não sistemática foi realizada nas bases de dados PubMed, Cochrane e Medline de 2014 a 2020 sobre o carcinoma de endométrio e sua classificação molecular. São apresentados de forma concreta e atualizada o contexto histórico, os diferentes subgrupos moleculares e como esses têm impacto no tratamento das pacientes. Conclusões. O carcinoma de endométrio é uma doença heterogênea no nível histopatológico, clínico e molecular. Com a nova classificação e estudos prospectivos, novas estratégias podem ser desenvolvidas para fornecer melhores protocolos diagnósticos e terapêuticos.

First genome sequence of Chilean Brucella canis SCL strain provides insights on the epidemiology and virulence factors, explaining differences between geographical origins

BACKGROUND: Brucella canis is the etiological agent of canine brucellosis, a worldwide neglected zoonosis that constitutes one of the major infectious causes of infertility and reproductive failure in dogs. Although genomic information available for this pathogen has increased in recent years, here we report the first genome sequencing of a B. canis strain in Chile, and the differences in virulence genes with other B. canis strains. RESULTS: Genome assembly produced a total length of 3,289,216 bp, N50 of 95,163 and GC% of 57.27, organized in 54 contigs in chromosome I, and 21 contigs in chromosome II. The genome annotation identified a total of 1981 CDS, 3 rRNA and 36 tRNA in chromosome I, and 1113 CDS and 10 tRNA in chromosome II. There is little variation between the different strains and the SCL isolate. Phylogenetic analysis showed that the Chilean SCL strain is closely related to B. canis and B. suis strains. Small differences were found when compared to the Serbian isolate, but all strains shared the same recent common ancestor. Finally, changes in the sequence of some virulence factors showed that the SCL strain is similar to other South American B. canis strains. CONCLUSIONS: This work sequenced and characterized the complete genome of B. canis strain SCL, evidencing the complete presence of all the genes of the virB operon, and minor changes in outer membrane proteins and in the urease operon. Our data suggest that B. canis was introduced from North America and then spread throughout the South American continent.

Genomics and epidemiology of the P 1 SARS-CoV-2 lineage in Manaus, Brazil

Cases of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection in Manaus, Brazil, resurged in late 2020 despite previously high levels of infection. Genome sequencing of viruses sampled in Manaus between November 2020 and January 2021 revealed the emergence and circulation of a novel SARS-CoV-2 variant of concern. Lineage P.1 acquired 17 mutations, including a trio in the spike protein (K417T, E484K, and N501Y) associated with increased binding to the human ACE2 (angiotensin-converting enzyme 2) receptor. Molecular clock analysis shows that P.1 emergence occurred around mid-November 2020 and was preceded by a period of faster molecular evolution. Using a two-category dynamical model that integrates genomic and mortality data, we estimate that P.1 may be 1.7- to 2.4-fold more transmissible and that previous (non-P.1) infection provides 54 to 79% of the protection against infection with P.1 that it provides against non-P.1 lineages. Enhanced global genomic surveillance of variants of concern, which may exhibit increased transmissibility and/or immune evasion, is critical to accelerate pandemic responsiveness.

O receptor aril de hidrocarbonetos (AhR) em melanomas: associação com mutações BRAF, com a progressão da doença e identificação de ligantes / The aryl hydrocarbon receptor (AhR) in melanomas: association with BRAF mutations, with disease progression and ligand identification

O melanoma é um tipo de câncer de pele geneticamente diverso, que surge diante das transformações em melanócitos. A mutação BRAFV600E está presente em mais de 90% de todas as mutações em BRAF, sendo assim ocorre em cerca de 50% dos casos registrados. As mutações em NRAS, ocupam o segundo lugar entre as mutações mais prevalentes, cerca de 20% dos casos. Informações sobre as assinaturas genéticas, permitiram o desenvolvimento de terapia alvo dirigida. O Vemurafenib, inibidor da quinase BRAFV600E, apresentou inicialmente resultados bastante satisfatórios, contudo existe registro de casos de recidiva e resistência. O receptor aril de hidrocarbonetos é expresso em vários componentes da pele, e assim está relacionado a homeostase e fisiopatologia da pele. Diante disso, a avaliação da expressão do receptor em um painel de linhagens mutadas para NRAS e BRAF, e BRAF resistentes, mostrou-se maior do que a encontrada em melanócitos. Também encontramos maior expressão de mRNA de AhR em linhagens de melanoma derivadas de sítio primário e metastático, mutadas para BRAFV600E, quando comparadas ao melanócito. Agregado a isto, a análise in silico no TCGA (The Cancer Genome Atlas) mostrou que há 18% de alteração genética em AhR, sendo em maior parte a alta regulação de mRNA. Também, a análise do banco público GSE12391, mostrou aumento de mRNA de AhR na fase de crescimento vertical do melanoma. Assim, concluímos que há maior expressão de mRNA e sua importância nas fases de desenvolvimento do melanoma, tanto nos processos iniciais quanto em processos de migração, invasão e metástase. Ainda, encontramos maior mRNA do receptor em linhagens resistentes ao Vemurafenib. Este resultado sustenta a hipótese de que AhR pode ser considerado um marcador de resistência em melanomas. O AhR, inicialmente no citoplasma, quando ativado pode atuar como fator de transcrição regulando vários genes que apresentam sequências definidas, participando de respostas carcinogênicas. Compostos halogenados e moléculas endógenas derivadas das vias de metabolização do triptofano são agonistas do receptor. Anteriormente, nosso grupo mostrou que linhagens de melanoma incubadas com triptamina e DMT exibiram menor clonogenicidade. Diante de uma literatura escassa sobre o papel do DMT no melanoma e com base nestes resultados, nosso objetivo foi avaliar o papel de AhR nesta interface DMT-melanoma. Para isto, nosso objetivo foi construir linhagem editada geneticamente para AhR através da ferramenta CRISPR-Cas9. Vários foram os esforços, sem sucesso, utilizados nas tentativas de comprovar a manutenção de células editadas na cultura. Atrelamos a este resultado a possibilidade de haver duas subpopulações editadas geneticamente pós CRISPR-Cas9, onde uma destas manteve o padrão de crescimento semelhante às células wild type. Devido a este crescimento diferencial, não obtivemos congruências nos ensaios e postulamos a perda do possível nocaute. A partir disso, realizamos ensaios de interactoma para avaliar a interação de DMT-AhR. Nosso resultado sugere a interação de DMT ao receptor sigma 1, e não ao receptor aril de hidrocarbonetos. Desta forma, o interactoma sustenta a hipótese de que DMT não é um ligante de AhR. Para certificar este resultado análises de docking associados a ensaios biológicos, avaliando o papel do receptor, devem ser realizados para averiguar a afinidade e seletividade de DMT como ligante do receptor na linhagem de melanoma

Melanoma is a genetically diverse type of skin cancer, which arises from changes in melanocytes. The BRAFV600E mutation is present in more than 90% of all BRAF mutations, so it occurs in about 50% of registered cases. Mutations in NRAS occupy the second place among the most prevalent mutations, about 20% of cases. Information on genetic signatures allowed the development of targeted therapy. vemurafenib, kinase inhibitor BRAFV600E, initially presented very satisfactory results, however there is a record of cases of relapse and resistance. The aryl hydrocarbon receptor is expressed in several components of the skin and is thus related to homeostasis and skin pathophysiology. Therefore, the evaluation of receptor expression in a panel of strains mutated to NRAS and BRAF, and resistant BRAF, proved to be greater than that found in melanocytes. We also found main expression of AhR mRNA in melanoma strains derived from primary and metastatic site, mutated to BRAFV600E, when compared to melanocyte. Added to this, the in silico analysis in TCGA (The Cancer Genome Atlas) showed that there is 18% of genetic alteration in AhR, being mostly the high regulation of mRNA. Also, an analysis by the public bank GSE12391, showed an increase in AhR mRNA in the vertical growth phase of melanoma. Thus, it is concluded that there is greater expression of mRNA and its importance in the stages of development of melanoma, both in recent processes and in the processes of migration, invasion and metastasis. In addition, we found higher receptor mRNA in strains resistant to vemurafenib. This result supports the hypothesis that AhR can be considered a marker of resistance in melanomas. AhR, initially in the cytoplasm, when activated can act as a transcription factor regulating several genes that have defined sequences, participating in carcinogenic responses. Along with this, we show that along the tumor progression, there is an increase in AhR in the radial growth phase of melanoma. Halogenated compounds and endogenous molecules derived from the tryptophan metabolism pathways are receptor agonists. Previously, our group showed that melanoma strains incubated with tryptamine and DMT exhibited less clonogenicity. In view of a scarce literature on the role of DMT in melanoma and based on these results, our objective was to evaluate the role of AhR in this DMT-melanoma interface. For this, our goal was to build genetically edited strain for AhR using the CRISPR-Cas9 tool. Several efforts were unsuccessful in attempts to prove the maintenance of cells edited in the culture. We linked to this result the possibility of having two subpopulations genetically edited after CRISPR-Cas9, where one of them maintained the growth pattern like wild type cells. Due to this differential growth, we did not obtain congruence in the tests and postulated the loss of the possible knockout. From that, we performed interactome assays to evaluate the DMT-AhR interaction. Our result suggests the interaction of DMT with the sigma 1 receptor, and not the aryl hydrocarbon receptor. Thus, the interactome supports the hypothesis that DMT is not an AhR ligand. To certify this result, docking analyses associated with biological assays, evaluating the role of the receptor, should be performed to ascertain the affinity and selectivity of DMT as a ligand of the receptor in the melanoma lineage

Bioinformática como recurso educativo para enseñar variabilidad genética mediante la comparación de mapas de restricción / Bioinformatics as an educational resource for teaching genetic variability by comparing restriction maps

Uno de los rasgos de la sociedad del siglo XXI es la incorporación de las TIC en la educación, las cuales pueden contribuir en los procesos de enseñanza-aprendizaje. Sin embargo, el maestro es quien le dá el sentido pedagógico a estos recursos educativos. En ese sentido, las herramientas de la bioinformática pueden contribuir en la enseñan-za de temas complejos y abstractos con ejemplos concretos y sin necesidad de realizar prácticas de laboratorio que representen elevados costos económicos. Considerando lo anterior, en esta investigación se presenta el diseño de la guía "Análisis de la variabilidad genética en especies de Pseudomonas mediante comparación de los mapas de restricción del gen ptsN", que utilizó dos sitios web gratuitos y que muestra paso a paso la manera de realizarla. La guía se aplicó a 30 estudiantes de la asignatura "biología molecular" del período 2018-1 de la licenciatura en biología de la UPN. Para la recolección de la información que permitió evaluar el aprendizaje y conocer la percepción de los estudiantes respecto de la pertinencia y viabilidad del recurso educativo se emplearon un cuestionario y una encuesta estructurada. Después de trabajar con la guía, los estudiantes mostraron un progreso signifi cativo en sus bagajes cognitivo, conceptual y procedimental, hecho que se evidencia en las respuestas obtenidas mediante los instrumentos diseña-dos. Tras la experiencia, los estudiantes consideraron que la guía era apropiada y viable para enseñar variabilidad genética. Adicionalmente, se hizo evidente que sí es posible diseñar actividades contextualizadas a bajo costo.

One of the features of the 21st century society is the incorporation of ICT in education, which can contribute to the teaching-learning processes. However, it is the teacher who gives the pedagogical meaning to these educational resources. In this sense, bioinformatics tools can contribute to the teaching of complex and abstract topics with concrete examples and without the need for laboratory practices that represent high economic costs. Considering the above, this research presents the design of the guide "Analysis of genetic variability in Pseudomonas species by comparison of restriction maps of the ptsN gene", which used two free websites and shows step by step how to perform it. The guide was applied to 30 students of the subject "molecular biology" of the period 2018-1 of the bachelor's degree in biology at UPN. A questionnaire and a structured survey were used to collect information to evaluate learning and to know the students' perception of the relevance and feasibility of the educational resource. After working with the guide, students showed signifi cant progress in their cognitive, conceptual and procedural baggage, as evidenced by the answers obtained through the designed instruments. After the experience, the students considered that the guide was appropriate and viable for teaching genetic variability. Additionally, it became evident that it is possible to design contextualized activities at low cost.

Genomic and transcriptomic characterization of the human glioblastoma cell line AHOL1

Cancer cell lines are widely used as in vitro models of tumorigenesis, facilitating fundamental discoveries in cancer biology and translational medicine. Currently, there are few options for glioblastoma (GBM) treatment and limited in vitro models with accurate genomic and transcriptomic characterization. Here, a detailed characterization of a new GBM cell line, namely AHOL1, was conducted in order to fully characterize its molecular composition based on its karyotype, copy number alteration (CNA), and transcriptome profiling, followed by the validation of key elements associated with GBM tumorigenesis. Large numbers of CNAs and differentially expressed genes (DEGs) were identified. CNAs were distributed throughout the genome, including gains at Xq11.1-q28, Xp22.33-p11.1, Xq21.1-q21.33, 4p15.1-p14, 8q23.2-q23.3 and losses at Yq11.21-q12, Yp11.31-p11.2, and 15q11.1-q11.2 positions. Nine druggable genes were identified, including HCRTR2, ETV1, PTPRD, PRKX, STS, RPS6KA6, ZFY, USP9Y, and KDM5D. By integrating DEGs and CNAs, we identified 57 overlapping genes enriched in fourteen pathways. Altered expression of several cancer-related candidates found in the DEGs-CNA dataset was confirmed by RT-qPCR. Taken together, this first comprehensive genomic and transcriptomic landscape of AHOL1 provides unique resources for further studies and identifies several druggable targets that may be useful for therapeutics and biologic and molecular investigation of GBM.

Preface to the special issue: biosynthesis of natural products / 生物工程学报

Natural products, important sources of innovative drugs, food, spices and daily chemicals, are closely related to people's healthy life. With the development and integration of modern biological and chemical technologies of natural products, the researches on biosynthesis of natural products have made great progresses in recent years. The biosynthetic pathways of a number of natural products have been analyzed. Many pathway enzymes and modifying enzymes involved in the biosynthesis of natural products have been mined and functionally characterized. Furthermore, genes encoding pathway enzymes have been introduced into chassis to construct cell factories producing natural products through synthetic biology technologies. Also, other biotechnologies including genome editing and genome mining, have been used in the biosynthesis of natural products. In order to further promote the development of researches on biosynthesis of natural products, we edited a Special Issue on the topic of "biosynthesis of natural products", focusing on the researches progress in three aspects: the analysis of biosynthetic pathways of natural products, genome-wide mining and functional characterization of genes encoding tool enzymes, and the scale preparation of natural products by biosynthetic technology. Also included in this Special Issue was the prospect of the biosynthesis of natural products. This Special Issue can provide reference and guidance for the further development of natural product biosynthesis.

Advances in the development of constraint-based genome-scale metabolic network models / 生物工程学报

Genome-scale metabolic network model (GSMM) is becoming an important tool for studying cellular metabolic characteristics, and remarkable advances in relevant theories and methods have been made. Recently, various constraint-based GSMMs that integrated genomic, transcriptomic, proteomic, and thermodynamic data have been developed. These developments, together with the theoretical breakthroughs, have greatly contributed to identification of target genes, systems metabolic engineering, drug discovery, understanding disease mechanism, and many others. This review summarizes how to incorporate transcriptomic, proteomic, and thermodynamic-constraints into GSMM, and illustrates the shortcomings and challenges of applying each of these methods. Finally, we illustrate how to develop and refine a fully integrated GSMM by incorporating transcriptomic, proteomic, and thermodynamic constraints, and discuss future perspectives of constraint-based GSMM.

CRISPR/Cas-based genome editing in Aspergillus niger / 生物工程学报

Aspergillus niger is a vital industrial workhouse widely used for the production of organic acids and industrial enzymes. This fungus is a crucial cell factory due to its innate tolerance to a diverse range of abiotic conditions, high production titres, robust growth during industrial scale fermentation, and status as a generally recognized as safe (GRAS) organism. Rapid development of synthetic biology and systems biology not only offer powerful approaches to unveil the molecular mechanisms of A. niger productivity, but also provide more new strategies to construct and optimize the A. niger cell factory. As a new generation of genome editing technology, the Clustered Regularly Interspaced Short Palindromic Repeats (CRISPR)/CRISPR associated (Cas) system brings a revolutionary breakthrough in targeted genome modification for A. niger. In this review, we focus on current advances to the CRISPR/Cas genome editing toolbox, its application on gene modification and gene expression regulation in this fungal. Moreover, the future directions of CRISPR/Cas genome editing in A. niger are highlighted.