Network


Latest external collaboration on country level. Dive into details by clicking on the dots.

Hotspot


Dive into the research topics where Leandro Costa do Nascimento is active.

Publication


Featured researches published by Leandro Costa do Nascimento.


BMC Genomics | 2011

Identification of novel soybean microRNAs involved in abiotic and biotic stresses

Franceli Rodrigues Kulcheski; Luiz Fv de Oliveira; Lorrayne Gomes Molina; Mauricio Pereira Almerão; Fabiana Aparecida Rodrigues; Juliana Marcolino; Joice F Barbosa; Renata Stolf-Moreira; Alexandre Lima Nepomuceno; Francismar Corrêa Marcelino-Guimarães; Ricardo V. Abdelnoor; Leandro Costa do Nascimento; Marcelo Falsarella Carazzolle; Gonçalo Ag Pereira; Rogério Margis

BackgroundSmall RNAs (19-24 nt) are key regulators of gene expression that guide both transcriptional and post-transcriptional silencing mechanisms in eukaryotes. Current studies have demonstrated that microRNAs (miRNAs) act in several plant pathways associated with tissue proliferation, differentiation, and development and in response to abiotic and biotic stresses. In order to identify new miRNAs in soybean and to verify those that are possibly water deficit and rust-stress regulated, eight libraries of small RNAs were constructed and submitted to Solexa sequencing.ResultsThe libraries were developed from drought-sensitive and tolerant seedlings and rust-susceptible and resistant soybeans with or without stressors. Sequencing the library and subsequent analyses detected 256 miRNAs. From this total, we identified 24 families of novel miRNAs that had not been reported before, six families of conserved miRNAs that exist in other plants species, and 22 families previously reported in soybean. We also observed the presence of several isomiRNAs during our analyses. To validate novel miRNAs, we performed RT-qPCR across the eight different libraries. Among the 11 miRNAs analyzed, all showed different expression profiles during biotic and abiotic stresses to soybean. The majority of miRNAs were up-regulated during water deficit stress in the sensitive plants. However, for the tolerant genotype, most of the miRNAs were down regulated. The pattern of miRNAs expression was also different for the distinct genotypes submitted to the pathogen stress. Most miRNAs were down regulated during the fungus infection in the susceptible genotype; however, in the resistant genotype, most miRNAs did not vary during rust attack. A prediction of the putative targets was carried out for conserved and novel miRNAs families.ConclusionsValidation of our results with quantitative RT-qPCR revealed that Solexa sequencing is a powerful tool for miRNA discovery. The identification of differentially expressed plant miRNAs provides molecular evidence for the possible involvement of miRNAs in the process of water deficit- and rust-stress responses.


Genetics and Molecular Biology | 2012

Identification of SNPs in RNA-seq data of two cultivars of Glycine max (soybean) differing in drought resistance.

Ramon Vidal; Leandro Costa do Nascimento; Jorge Maurício Costa Mondego; Gonçalo Amarante Guimarães Pereira; Marcelo Falsarella Carazzolle

The legume Glycine max (soybean) plays an important economic role in the international commodities market, with a world production of almost 260 million tons for the 2009/2010 harvest. The increase in drought events in the last decade has caused production losses in recent harvests. This fact compels us to understand the drought tolerance mechanisms in soybean, taking into account its variability among commercial and developing cultivars. In order to identify single nucleotide polymorphisms (SNPs) in genes up-regulated during drought stress, we evaluated suppression subtractive libraries (SSH) from two contrasting cultivars upon water deprivation: sensitive (BR 16) and tolerant (Embrapa 48). A total of 2,222 soybean genes were up-regulated in both cultivars. Our method identified more than 6,000 SNPs in tolerant and sensitive Brazilian cultivars in those drought stress related genes. Among these SNPs, 165 (in 127 genes) are positioned at soybean chromosome ends, including transcription factors (MYB, WRKY) related to tolerance to abiotic stress.


BMC Genomics | 2013

Xylem transcription profiles indicate potential metabolic responses for economically relevant characteristics of Eucalyptus species

Marcela Salazar; Leandro Costa do Nascimento; Eduardo Leal Oliveira Camargo; Danieli Cristina Gonçalves; Jorge Lepikson Neto; Wesley Marques; Paulo José Pereira Lima Teixeira; Piotr A. Mieczkowski; Jorge Maurício Costa Mondego; Marcelo Falsarella Carazzolle; Ana Carolina Deckmann; Gonçalo Amarante Guimarães Pereira

BackgroundEucalyptus is one of the most important sources of industrial cellulose. Three species of this botanical group are intensively used in breeding programs: E. globulus, E. grandis and E. urophylla. E. globulus is adapted to subtropical/temperate areas and is considered a source of high-quality cellulose; E. grandis grows rapidly and is adapted to tropical/subtropical climates; and E. urophylla, though less productive, is considered a source of genes related to robustness. Wood, or secondary xylem, results from cambium vascular differentiation and is mostly composed of cellulose, lignin and hemicelluloses. In this study, the xylem transcriptomes of the three Eucalyptus species were investigated in order to provide insights on the particularities presented by each of these species.ResultsData analysis showed that (1) most Eucalyptus genes are expressed in xylem; (2) most genes expressed in species-specific way constitutes genes with unknown functions and are interesting targets for future studies; (3) relevant differences were observed in the phenylpropanoid pathway: E. grandis xylem presents higher expression of genes involved in lignin formation whereas E. urophylla seems to deviates the pathway towards flavonoid formation; (4) stress-related genes are considerably more expressed in E. urophylla, suggesting that these genes may contribute to its robustness.ConclusionsThe comparison of these three transcriptomes indicates the molecular signatures underlying some of their distinct wood characteristics. This information may contribute to the understanding of xylogenesis, thus increasing the potential of genetic engineering approaches aiming at the improvement of Eucalyptus forest plantations productivity.


Genetics and Molecular Biology | 2012

Subtractive libraries for prospecting differentially expressed genes in the soybean under water deficit

Fabiana Aparecida Rodrigues; Juliana Marcolino-Gomes; Josirlei de Fátima Corrêa Carvalho; Leandro Costa do Nascimento; Norman Neumaier; José Renato Bouças Farias; Marcelo Falsarella Carazzolle; Francismar Corrêa Marcelino; Alexandre Lima Nepomuceno

Soybean has a wide range of applications in the industry and, due to its crop potential, its improvement is widely desirable. During drought conditions, soybean crops suffer significant losses in productivity. Therefore, understanding the responses of the soybean under this stress is an effective way of targeting crop improvement techniques. In this study, we employed the Suppressive Subtractive Hybridization (SSH) technique to investigate differentially expressed genes under water deficit conditions. Embrapa 48 and BR 16 soybean lines, known as drought-tolerant and -sensitive, respectively, were grown hydroponically and subjected to different short-term periods of stress by withholding the nutrient solution. Using this approach, we have identified genes expressed during the early response to water deficit in roots and leaves. These genes were compared among the lines to assess probable differences in the plant transcriptomes. In general, similar biochemical processes were predominant in both cultivars; however, there were more considerable differences between roots and leaves of Embrapa 48. Moreover, we present here a fast, clean and straightforward method to obtain drought-stressed root tissues and a large enriched collection of transcripts expressed by soybean plants under water deficit that can be useful for further studies towards the understanding of plant responses to stress.


BMC Plant Biology | 2014

Contrasting nitrogen fertilization treatments impact xylem gene expression and secondary cell wall lignification in Eucalyptus

Eduardo Leal Oliveira Camargo; Leandro Costa do Nascimento; Marçal Soler; Marcela Salazar; Jorge Lepikson-Neto; Wesley Marques; Ana C.R Alves; Paulo José Pereira Lima Teixeira; Piotr A. Mieczkowski; Marcelo Falsarella Carazzolle; Yves Martinez; Ana Carolina Deckmann; José Carlos Rodrigues; Jacqueline Grima-Pettenati; Gonçalo Amarante Guimarães Pereira

BackgroundNitrogen (N) is a main nutrient required for tree growth and biomass accumulation. In this study, we analyzed the effects of contrasting nitrogen fertilization treatments on the phenotypes of fast growing Eucalyptus hybrids (E. urophylla x E. grandis) with a special focus on xylem secondary cell walls and global gene expression patterns.ResultsHistological observations of the xylem secondary cell walls further confirmed by chemical analyses showed that lignin was reduced by luxuriant fertilization, whereas a consistent lignin deposition was observed in trees grown in N-limiting conditions. Also, the syringyl/guaiacyl (S/G) ratio was significantly lower in luxuriant nitrogen samples. Deep sequencing RNAseq analyses allowed us to identify a high number of differentially expressed genes (1,469) between contrasting N treatments. This number is dramatically higher than those obtained in similar studies performed in poplar but using microarrays. Remarkably, all the genes involved the general phenylpropanoid metabolism and lignin pathway were found to be down-regulated in response to high N availability. These findings further confirmed by RT-qPCR are in agreement with the reduced amount of lignin in xylem secondary cell walls of these plants.ConclusionsThis work enabled us to identify, at the whole genome level, xylem genes differentially regulated by N availability, some of which are involved in the environmental control of xylogenesis. It further illustrates that N fertilization can be used to alter the quantity and quality of lignocellulosic biomass in Eucalyptus, offering exciting prospects for the pulp and paper industry and for the use of short coppices plantations to produce second generation biofuels.


Genetics and Molecular Biology | 2012

A web-based bioinformatics interface applied to the GENOSOJA project: databases and pipelines

Leandro Costa do Nascimento; Gustavo G.L. Costa; Eliseu Binneck; Gonçalo Amarante Guimarães Pereira; Marcelo Falsarella Carazzolle

The Genosoja consortium is an initiative to integrate different omics research approaches carried out in Brazil. Basically, the aim of the project is to improve the plant by identifying genes involved in responses against stresses that affect domestic production, like drought stress and Asian Rust fungal disease. To do so, the project generated several types of sequence data using different methodologies, most of them sequenced by next generation sequencers. The initial stage of the project is highly dependent on bioinformatics analysis, providing suitable tools and integrated databases. In this work, we describe the main features of the Genosoja web database, including the pipelines to analyze some kinds of data (ESTs, SuperSAGE, microRNAs, subtractive cDNA libraries), as well as web interfaces to access information about soybean gene annotation and expression.


Molecular Plant Pathology | 2017

Prediction of the in planta P. pachyrhizi secretome and potential effector families.

Mayra Costa da Cruz Gallo de Carvalho; Leandro Costa do Nascimento; Luana M. Darben; Adriana Polizel-Podanosqui; Valéria Stefania Lopes-Caitar; Mingsheng Qi; Carolina S. Rocha; Marcelo Falsarella Carazzolle; Marcia Kamogae Kuwahara; Gonçalo Amarante Guimarães Pereira; Ricardo V. Abdelnoor; Steven A. Whitham; Francismar Corrêa Marcelino-Guimarães

Asian soybean rust (ASR), caused by the obligate biotrophic fungus Phakopsora pachyrhizi, can cause losses greater than 80%. Despite its economic importance, there is no soybean cultivar with durable ASR resistance. In addition, the P. pachyrhizi genome is not yet available. However, the availability of other rust genomes, as well as the development of sample enrichment strategies and bioinformatics tools, has improved our knowledge of the ASR secretome and its potential effectors. In this context, we used a combination of laser capture microdissection (LCM), RNAseq and a bioinformatics pipeline to identify a total of 36 350 P. pachyrhizi contigs expressed in planta and a predicted secretome of 851 proteins. Some of the predicted secreted proteins had characteristics of candidate effectors: small size, cysteine rich, do not contain PFAM domains (except those associated with pathogenicity) and strongly expressed in planta. A comparative analysis of the predicted secreted proteins present in Pucciniales species identified new members of soybean rust and new Pucciniales- or P. pachyrhizi-specific families (tribes). Members of some families were strongly up-regulated during early infection, starting with initial infection through haustorium formation. Effector candidates selected from two of these families were able to suppress immunity in transient assays, and were localized in the plant cytoplasm and nuclei. These experiments support our bioinformatics predictions and show that these families contain members that have functions consistent with P. pachyrhizi effectors.


Genetics and Molecular Biology | 2012

In silico identification of known osmotic stress responsive genes from Arabidopsis in soybean and Medicago

Nina da Mota Soares-Cavalcanti; Luis Carlos Belarmino; Ederson Akio Kido; Ana Carolina Wanderley-Nogueira; João Pacífico Bezerra-Neto; Rafaela Cavalcanti-Lira; Valesca Pandolfi; Alexandre Lima Nepomuceno; Ricardo V. Abdelnoor; Leandro Costa do Nascimento; Ana Maria Benko-Iseppon

Plants experience various environmental stresses, but tolerance to these adverse conditions is a very complex phenomenon. The present research aimed to evaluate a set of genes involved in osmotic response, comparing soybean and medicago with the well-described Arabidopsis thaliana model plant. Based on 103 Arabidopsis proteins from 27 categories of osmotic stress response, comparative analyses against Genosoja and Medicago truncatula databases allowed the identification of 1,088 soybean and 1,210 Medicago sequences. The analysis showed a high number of sequences and high diversity, comprising genes from all categories in both organisms. Genes with unknown function were among the most representative, followed by transcription factors, ion transport proteins, water channel, plant defense, protein degradation, cellular structure, organization & biogenesis and senescence. An analysis of sequences with unknown function allowed the annotation of 174 soybean and 217 Medicago sequences, most of them concerning transcription factors. However, for about 30% of the sequences no function could be attributed using in silico procedures. The establishment of a gene set involved in osmotic stress responses in soybean and barrel medic will help to better understand the survival mechanisms for this type of stress condition in legumes.


Plant Growth Regulation | 2013

Identification of four Eucalyptus genes potentially involved in cell wall biosynthesis and evolutionarily related to SHINE transcription factors

Wesley Marques; Marcela Salazar; Eduardo Leal Oliveira Camargo; Jorge Lepikson-Neto; Ricardo Augusto Tiburcio; Leandro Costa do Nascimento; Gonçalo Amarante Guimarães Pereira

Recently, a new Arabidopsis thaliana master regulator of plant cell wall biosynthesis was characterized. It was named SHINE transcription factor (SHINE TF). This work searched for homologous genes in Eucalyptus grandis genome draft. RNAseq data, phylogeny analysis and qRT-PCR experiments were performed to complement SHINE gene analysis. By similarity searches using A. thaliana SHINE genes, four sequences were identified in Eucalyptus. Two of them contain all conserved motifs and characteristic features of this family, being assumed as true SHINE TFs and named EgrSHN1 and EgrSHN2. The other two sequences contain an incomplete ‘mm’ motif and were not considered true SHINE TFs, being further referred as Egr33m and Egr40m. Expression analysis revealed that EgrSHN1 is more expressed in flowers than in leaves and immature xylem, and both EgrSHN1 and EgrSHN2 are absent from adult xylem RNAseq libraries. This expression profile is similar to A. thaliana orthologues. On the other hand, Egr33m and Egr40m expression was detected in adult xylems. The phylogenetic studies indicate that both EgrSHNs were originated by gene duplication events which, together with gene loss, are hypothesized as common events in SHINE evolution. In conclusion, it is possible that the overexpression of SHINE genes in Eucalyptus xylem can generate information about wood formation processes, allowing an effective increase in forest plantation productivity.


BMC Plant Biology | 2014

Flavonoid supplementation affects the expression of genes involved in cell wall formation and lignification metabolism and increases sugar content and saccharification in the fast-growing eucalyptus hybrid E. urophylla x E. grandis

Jorge Lepikson-Neto; Leandro Costa do Nascimento; Marcela Salazar; Eduardo Leal Oliveira Camargo; João Paulo L. Franco Cairo; Paulo José Pereira Lima Teixeira; Wesley Marques; Fabio M. Squina; Piotr A. Mieczkowski; Ana Carolina Deckmann; Gonçalo Amarante Guimarães Pereira

BackgroundEucalyptus species are the most widely planted hardwood species in the world and are renowned for their rapid growth and adaptability. In Brazil, one of the most widely grown Eucalyptus cultivars is the fast-growing Eucalyptus urophylla x Eucalyptus grandis hybrid. In a previous study, we described a chemical characterization of these hybrids when subjected to flavonoid supplementation on 2 distinct timetables, and our results revealed marked differences between the wood composition of the treated and untreated trees.ResultsIn this work, we report the transcriptional responses occurring in these trees that may be related to the observed chemical differences. Gene expression was analysed through mRNA-sequencing, and notably, compared to control trees, the treated trees display differential down-regulation of cell wall formation pathways such as phenylpropanoid metabolism as well as differential expression of genes involved in sucrose, starch and minor CHO metabolism and genes that play a role in several stress and environmental responses. We also performed enzymatic hydrolysis of wood samples from the different treatments, and the results indicated higher sugar contents and glucose yields in the flavonoid-treated plants.ConclusionsOur results further illustrate the potential use of flavonoids as a nutritional complement for modifying Eucalyptus wood, since, supplementation with flavonoids alters its chemical composition, gene expression and increases saccharification probably as part of a stress response.

Collaboration


Dive into the Leandro Costa do Nascimento's collaboration.

Top Co-Authors

Avatar
Top Co-Authors

Avatar
Top Co-Authors

Avatar
Top Co-Authors

Avatar

Marcela Salazar

State University of Campinas

View shared research outputs
Top Co-Authors

Avatar

Jorge Lepikson-Neto

State University of Campinas

View shared research outputs
Top Co-Authors

Avatar

Wesley Marques

State University of Campinas

View shared research outputs
Top Co-Authors

Avatar
Top Co-Authors

Avatar
Top Co-Authors

Avatar

Piotr A. Mieczkowski

University of North Carolina at Chapel Hill

View shared research outputs
Top Co-Authors

Avatar
Researchain Logo
Decentralizing Knowledge