Your search keyword '"Grattapaglia, Dario"' showing total 10 results

1. A cost-effective approach to DNA methylation detection by Methyl Sensitive DArT sequencing.

Author

Pereira, Wendell Jacinto, Pappas, Marília de Castro Rodrigues, Grattapaglia, Dario, and Pappas, Georgios Joannis

Subjects

DNA methylation, EUCALYPTUS grandis, NUCLEOTIDE sequence, HUMAN phenotype, SOURCE code, CHROMOSOMES, PLANT DNA, DNA

Abstract

Several studies suggest the relation of DNA methylation to diseases in humans and important phenotypes in plants drawing attention to this epigenetic mark as an important source of variability. In the last decades, several methodologies were developed to assess the methylation state of a genome. However, there is still a lack of affordable and precise methods for genome wide analysis in large sample size studies. Methyl sensitive double digestion MS-DArT sequencing method emerges as a promising alternative for methylation profiling. We developed a computational pipeline for the identification of DNA methylation using MS-DArT-seq data and carried out a pilot study using the Eucalyptus grandis tree sequenced for the species reference genome. Using a statistic framework as in differential expression analysis, 72,515 genomic sites were investigated and 5,846 methylated sites identified, several tissue specific, distributed along the species 11 chromosomes. We highlight a bias towards identification of DNA methylation in genic regions and the identification of 2,783 genes and 842 transposons containing methylated sites. Comparison with WGBS, DNA sequencing after treatment with bisulfite, data demonstrated a precision rate higher than 95% for our approach. The availability of a reference genome is useful for determining the genomic context of methylated sites but not imperative, making this approach suitable for any species. Our approach provides a cost effective, broad and reliable examination of DNA methylation profile on MspI/HpaII restriction sites, is fully reproducible and the source code is available on GitHub (https://github.com/wendelljpereira/ms-dart-seq). [ABSTRACT FROM AUTHOR]

Published

2020

2. Examining the cause of high inbreeding depression: analysis of whole-genome sequence data in 28 selfed progeny of Eucalyptus grandis.

Author

Hedrick, Philip W., Hellsten, Uffe, and Grattapaglia, Dario

Subjects

MYRTACEAE, EUCALYPTUS, GENETIC carriers, EUCALYPTUS grandis, INBREEDING

Abstract

The genome-wide heterozygosity at 9590 genes, all heterozygous in a single Eucalyptus grandis parent tree, was examined in a group of 28 S1 offspring. Heterozygosity ranged from 52-79%, averaging 65.5%, much higher than the 50% expected under random segregation, supporting the occurrence of strong (47%) selection against homozygosity. The expected pattern of heterozygosity from theoretical calculations and simulations for recessive detrimentals (pseudo-overdominance) and intrinsic heterozygote advantage was examined and compared with that observed. The observed patterns are consistent with at least several detrimental loci with large effects on both parental chromosomes of the 11 pairs. It is likely that 100 or more genes, many with substantial effects on viability, are contributing to this inbreeding depression. Although our genome-wide analysis of nearly 10 000 genes strongly suggested that pseudo-overdominance was responsible for the observed high inbreeding depression, heterozygote advantage could not be excluded. Finding inconvertible evidence of the cause of inbreeding depression still presents a difficult challenge. This study is the first theoretical examination of the genomic effect of inbreeding in a forest tree and provides an approach to analyze these data to determine the extent and cause of inbreeding depression across other plant genomes. [ABSTRACT FROM AUTHOR]

Published

2016

3. A novel genome-wide microsatellite resource for species of Eucalyptus with linkage-to-physical correspondence on the reference genome sequence.

Author

Grattapaglia, Dario, Mamani, Eva M. C., Silva‐Junior, Orzenil B., and Faria, Danielle A.

Subjects

*EUCALYPTUS, *KEYSTONE species, *MICROSATELLITE repeats, *NUCLEOTIDE sequence, *SUSTAINABLE forestry

Abstract

Keystone species in their native ranges, eucalypts, are ecologically and genetically very diverse, growing naturally along extensive latitudinal and altitudinal ranges and variable environments. Besides their ecological importance, eucalypts are also the most widely planted trees for sustainable forestry in the world. We report the development of a novel collection of 535 microsatellites for species of Eucalyptus, 494 designed from ESTs and 41 from genomic libraries. A selected subset of 223 was evaluated for individual identification, parentage testing, and ancestral information content in the two most extensively studied species, Eucalyptus grandis and Eucalyptus globulus. Microsatellites showed high transferability and overlapping allele size range, suggesting they have arisen still in their common ancestor and confirming the extensive genome conservation between these two species. A consensus linkage map with 437 microsatellites, the most comprehensive microsatellite-only genetic map for Eucalyptus, was built by assembling segregation data from three mapping populations and anchored to the Eucalyptus genome. An overall colinearity between recombination-based and physical positioning of 84% of the mapped microsatellites was observed, with some ordering discrepancies and sporadic locus duplications, consistent with the recently described whole genome duplication events in Eucalyptus. The linkage map covered 95.2% of the 605.8-Mbp assembled genome sequence, placing one microsatellite every 1.55 Mbp on average, and an overall estimate of physical to recombination distance of 618 kbp/ cM. The genetic parameters estimates together with linkage and physical position data for this large set of microsatellites should assist marker choice for genome-wide population genetics and comparative mapping in Eucalyptus. [ABSTRACT FROM AUTHOR]

Published

2015

4. The genome of Eucalyptus grandis.

Author

Myburg, Alexander A., Grattapaglia, Dario, Tuskan, Gerald A., Hellsten, Uffe, Hayes, Richard D., Grimwood, Jane, Jenkins, Jerry, Lindquist, Erika, Tice, Hope, Bauer, Diane, Goodstein, David M., Dubchak, Inna, Poliakov, Alexandre, Mizrachi, Eshchar, Kullan, Anand R. K., Hussey, Steven G., Pinard, Desre, van der Merwe, Karen, Singh, Pooja, and van Jaarsveld, Ida

Subjects

*EUCALYPTUS grandis, *RENEWABLE energy sources, *PLANT genes, *COMPARATIVE biology, *TREE breeding, *BIOTECHNOLOGY

Abstract

Eucalypts are the world's most widely planted hardwood trees. Their outstanding diversity, adaptability and growth have made them a global renewable resource of fibre and energy. We sequenced and assembled >94% of the 640-megabase genome of Eucalyptus grandis. Of 36,376 predicted protein-coding genes, 34% occur in tandem duplications, the largest proportion thus far in plant genomes. Eucalyptus also shows the highest diversity of genes for specialized metabolites such as terpenes that act as chemical defence and provide unique pharmaceutical oils. Genome sequencing of the E. grandis sister species E. globulus and a set of inbred E. grandis tree genomes reveals dynamic genome evolution and hotspots of inbreeding depression. The E. grandis genome is the first reference for the eudicot order Myrtales and is placed here sister to the eurosids. This resource expands our understanding of the unique biology of large woody perennials and provides a powerful tool to accelerate comparative biology, breeding and biotechnology. [ABSTRACT FROM AUTHOR]

Published

2014

5. A high-density transcript linkage map with 1,845 expressed genes positioned by microarray-based Single Feature Polymorphisms (SFP) in Eucalyptus.

Author

Neves, Leandro G, MC Mamani, Eva, Alfenas, Acelino C, Kirst, Matias, and Grattapaglia, Dario

Subjects

NUCLEIC acid probes, EUCALYPTUS grandis, GENE mapping, ANIMAL species, GERMPLASM, EUCALYPTUS

Abstract

Background: Technological advances are progressively increasing the application of genomics to a wider array of economically and ecologically important species. High-density maps enriched for transcribed genes facilitate the discovery of connections between genes and phenotypes. We report the construction of a high-density linkage map of expressed genes for the heterozygous genome of Eucalyptus using Single Feature Polymorphism (SFP) markers. Results: SFP discovery and mapping was achieved using pseudo-testcross screening and selective mapping to simultaneously optimize linkage mapping and microarray costs. SFP genotyping was carried out by hybridizing complementary RNA prepared from 4.5 year-old trees xylem to an SFP array containing 103,000 25-mer oligonucleotide probes representing 20,726 unigenes derived from a modest size expressed sequence tags collection. An SFP-mapping microarray with 43,777 selected candidate SFP probes representing 15,698 genes was subsequently designed and used to genotype SFPs in a larger subset of the segregating population drawn by selective mapping. A total of 1,845 genes were mapped, with 884 of them ordered with high likelihood support on a framework map anchored to 180 microsatellites with average density of 1.2 cM. Using more probes per unigene increased by two-fold the likelihood of detecting segregating SFPs eventually resulting in more genes mapped. In silico validation showed that 87% of the SFPs map to the expected location on the 4.5X draft sequence of the Eucalyptus grandis genome. Conclusions: The Eucalyptus 1,845 gene map is the most highly enriched map for transcriptional information for any forest tree species to date. It represents a major improvement on the number of genes previously positioned on Eucalyptus maps and provides an initial glimpse at the gene space for this global tree genome. A general protocol is proposed to build high-density transcript linkage maps in less characterized plant species by SFP genotyping with a concurrent objective of reducing microarray costs. HIgh-density gene-rich maps represent a powerful resource to assist gene discovery endeavors when used in combination with QTL and association mapping and should be especially valuable to assist the assembly of reference genome sequences soon to come for several plant and animal species. [ABSTRACT FROM AUTHOR]

Published

2011

6. High-throughput gene and SNP discovery in Eucalyptus grandis, an uncharacterized genome.

Author

Novaes, Evandro, Drost, Derek R., Farmerie, William G., Pappas Jr., Georgios J., Grattapaglia, Dario, Sederoff, Ronald R., and Kirst, Matias

Subjects

GENETIC polymorphisms, PLANT genomes, NUCLEOTIDE sequence, EUCALYPTUS grandis, PLANT species

Abstract

Background: Benefits from high-throughput sequencing using 454 pyrosequencing technology may be most apparent for species with high societal or economic value but few genomic resources. Rapid means of gene sequence and SNP discovery using this novel sequencing technology provide a set of baseline tools for genome-level research. However, it is questionable how effective the sequencing of large numbers of short reads for species with essentially no prior gene sequence information will support contig assemblies and sequence annotation. Results: With the purpose of generating the first broad survey of gene sequences in Eucalyptus grandis, the most widely planted hardwood tree species, we used 454 technology to sequence and assemble 148 Mbp of expressed sequences (EST). EST sequences were generated from a normalized cDNA pool comprised of multiple tissues and genotypes, promoting discovery of homologues to almost half of Arabidopsis genes, and a comprehensive survey of allelic variation in the transcriptome. By aligning the sequencing reads from multiple genotypes we detected 23,742 SNPs, 83% of which were validated in a sample. Genome-wide nucleotide diversity was estimated for 2,392 contigs using a modified theta (θ) parameter, adapted for measuring genetic diversity from polymorphisms detected by randomly sequencing a multi-genotype cDNA pool. Diversity estimates in non-synonymous nucleotides were on average 4x smaller than in synonymous, suggesting purifying selection. Non-synonymous to synonymous substitutions (Ka/Ks) among 2,001 contigs averaged 0.30 and was skewed to the right, further supporting that most genes are under purifying selection. Comparison of these estimates among contigs identified major functional classes of genes under purifying and diversifying selection in agreement with previous researches. Conclusion: In providing an abundance of foundational transcript sequences where limited prior genomic information existed, this work created part of the foundation for the annotation of the E. grandis genome that is being sequenced by the US Department of Energy. In addition we demonstrated that SNPs sampled in large-scale with 454 pyrosequencing can be used to detect evolutionary signatures among genes, providing one of the first genome-wide assessments of nucleotide diversity and Ka/Ks for a non-model plant species. [ABSTRACT FROM AUTHOR]

Published

2008

7. Genetic mapping of quantitative trait loci controlling growth and wood quality traits in...

Author

Grattapaglia, Dario and Bertolucci, Fernando L.G.

Subjects

*GENE mapping, *EUCALYPTUS grandis

Abstract

Presents a QTL mapping analysis using a maternal open pollinated half-sib family of Eucalyptus grandis. Traits measured; Linkage map construction; Selective genotyping; Cosegregation analysis; Sequential approach to quantitative trait loci mapping.

Published

1996

8. Patterns of DNA methylation changes in elite Eucalyptus clones across contrasting environments.

Author

Jacinto Pereira, Wendell, de Castro Rodrigues Pappas, Marília, Camargo Campoe, Otávio, Stape, José Luiz, Grattapaglia, Dario, and Joannis Pappas Jr, Georgios

Subjects

EUCALYPTUS, DNA methylation, DNA analysis, ROBUST control, EUCALYPTUS grandis, SESSILE organisms

Abstract

• Epigenetic changes play an important role in the adaptation response of forest trees. • Eucalyptus is a robust system to track epigenetic changes in response to environment. • Site-specific DNA methylation changes were identified for each of five eucalypt clones. • No consistently shared epigenetic marks were found for all clones across environments. • Results showed that the observed epigenetic variation is mainly genotype dependent. Phenotypic plasticity refers to the ability of a single genotype to express distinct phenotypes in response to the environment, a crucial feature for sessile organisms like forest trees, especially in a scenario of global climate change. Several studies show that epigenetic regulation plays an important role in this plastic adaptation response, driving the search for associations between natural epigenetic variation with environmental cues and phenotypic traits based on patterns of cytosine methylation. Clonally propagated trees across variable sites offer a robust system to control for the confounding effect of the background genetic variation among genotypes, allowing the analysis of epigenetic modifications in response to variable environments. In this study we investigated the overall patterns of epigenetic changes by the analysis of the genome-wide DNA methylation status based on high throughput MS-DArT-seq (Methyl Sensitive DArT-seq sequencing) of reduced genome complexity representations. We compared patterns of DNA methylation of biological replicates of leaf and xylem tissue samples of four commercially planted elite Eucalyptus grandis × Eucalyptus urophylla clones and one Eucalyptus urophylla in two contrasting sites in Brazil, and the association of these methylation patterns with the environments and growth traits. DNA sequence reads were mapped against the Eucalyptus grandis reference genome, counting and annotating differentially methylated sites. A total of 90,378 MS-DArT-seq sites were identified, the majority (~70%) located in genes and 10% in transposable elements. The distribution of methylation sites showed extensive variation between the five genotypes and the environments. Sets of methylation sites exclusive to each location were identified for each clone but no consistently shared epigenetic marks for all five clones were found across environments. Multiple correspondence analysis suggests a significant contribution of the genetic background on the distribution of methylation changes. We used a gene-environment association analysis to search for association of methylation patterns with growth traits. A total of 445 methylation sites across all 11 Eucalyptus chromosomes were found significantly associated with one or more of the three measured traits (total height, estimated volume and breast high diameter). The absence of clustered differentially methylated sites is consistent with the fact that complex growth traits are governed by a large number of loci of small effect across the entire genome suggesting that this same pattern will likely hold for what regards epigenetic marks. [ABSTRACT FROM AUTHOR]

Published

2020

9. The Eucalyptus grandis Genome Project: Genome and transcriptome resources for comparative analysis of woody plant biology.

Author

Myburg, Alexander, Grattapaglia, Dario, Tuskan, Gerald, Jenkins, Jerry, Schmutz, Jeremy, Mizrachi, Eshchar, Hefer, Charles, Pappas, Georgios, Sterck, Lieven, Van De Peer, Yves, Hayes, Richard, and Rokhsar, Daniel

Subjects

*EUCALYPTUS grandis

Abstract

An abstract of the conference paper "The Eucalyptus grandis Genome Project: Genome and transcriptome resources for comparative analysis of woody plant biology," by Andrew Eckert is presented.

Published

2011

10. A genetic linkage map for a Full sib population of Eucalyptus grandis using SSR, DArT, CG-SSR and EST-SSR markers.

Author

García, Martín, Villalba, Pamela, Acuña, Cintia, Oberschelp, Javier, Harrand, Leonel, Surenciski, Mauro, Martínez, María, Petroli, César, Sansaloni, Carolina, Faria, Danielle, Grattapaglia, Dario, and Poltri, Susana Marcucci

Subjects

GENE mapping, EUCALYPTUS grandis

Abstract

An abstract of the conference paper "A genetic linkage map for a Full sib population of Eucalyptus grandis using SSR, DArT, CG-SSR and EST-SSR markers," by Martín García and colleagues is presented.

Published

2011