Juliana Camargo Martinati scite author profile

BackgroundA successful development of herbivorous insects into plant tissues depends on coordination of metabolic processes. Plants have evolved complex mechanisms to recognize such attacks, and to trigger a defense response. To understand the transcriptional basis of this response, we compare gene expression profiles of two coffee genotypes, susceptible and resistant to leaf miner (Leucoptera coffella). A total of 22000 EST sequences from the Coffee Genome Database were selected for a microarray analysis. Fluorescence probes were synthesized using mRNA from the infested and non-infested coffee plants. Array hybridization, scanning and data normalization were performed using Nimble Scan® e ArrayStar® platforms. Genes with foldchange values +/-2 were considered differentially expressed. A validation of 18 differentially expressed genes was performed in infected plants using qRT-PCR approach.ResultsThe microarray analysis indicated that resistant plants differ in gene expression profile. We identified relevant transcriptional changes in defense strategies before insect attack. Expression changes (>2.00-fold) were found in resistant plants for 2137 genes (1266 up-regulated and 873 down-regulated). Up-regulated genes include those responsible for defense mechanisms, hypersensitive response and genes involved with cellular function and maintenance. Also, our analyses indicated that differential expression profiles between resistant and susceptible genotypes are observed in the absence of leaf-miner, indicating that defense is already build up in resistant plants, as a priming mechanism. Validation of selected genes pointed to four selected genes as suitable candidates for markers in assisted-selection of novel cultivars.ConclusionsOur results show evidences that coffee defense responses against leaf-miner attack are balanced with other cellular functions. Also analyses suggest a major metabolic reconfiguration that highlights the complexity of this response.

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Phylogenetic Relationships of Xylella fastidiosa Strains Based on 16S–23S rDNA Sequences

Martinati¹,

Pacheco²,

Miranda

et al. 2005

Curr Microbiol

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In spite of the lack of resolution of Xylella fastidiosa phylogenetic relationships, parsimony analysis of the 16S-23S rDNA sequence from a wide range of hosts has been evaluated in this research. In order to establish an easier method for sequencing the spacer region completely, a new primer pair was designed. The sequences obtained revealed a higher level of variation than that found in 16S gene sequences, with similarity values ranging from 0.80 to 1.00. The cladogram constructed allowed the clustering of two major clades. From these results it has been possible to recognize the monophyletic grouping of some strains belonging to the same host, possibly representing only one infection process. However, for other hosts there is paraphyletic and polyphyletic grouping. This methodology followed from promising results regarding strain-host clustering. With the parsimony approach, hypothetical genealogical relationship among Xylella strains may be inferred.

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The Potential Use of a Silicon Source as a Component of an Ecological Management of Coffee Plants

Martinati¹,

Harakava²,

Guzzo³

et al. 2008

Journal of Phytopathology

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Coffee is one of the most important agricultural export commodities in the world and it represents the main export from some developing countries. Therefore, the development of new methods of coffee management that improves production without causing any damage to the environment is an attractive alternative for producers. Much effort has been invested towards understanding the mode of action of compounds that can induce resistance against several pathogens without injuring the environment. Many researches have considered silicon efficient in avoiding plant pathogen penetration and development. Our aim was to verify the effect of potassium silicate and calcium ⁄ magnesium silicate in the development of coffee seedlings (Coffea arabica cv. Mundo Novo) as well as to evaluate the incidence of coffee leaf rust development under greenhouse conditions. The experiment was a completely randomized design with 12 treatments with 10 plants per treatment. The treatments were 0, 0.25, 1.25, 2.5, 4 and 5 lm of Si for each source of silicon incorporated into the soil. The seedlings were inoculated with a urediniospores suspension of Hemileia vastatrix (2 mg ⁄ ml) at the seventh month after planting (six pair of leaves). Evaluations were performed by counting the number of lesions per leaf. The statistical analysis showed that the number of lesions reduced by up to 66% at the highest silicon dose when compared to the number of lesions in control plants. Infected plants were found to have a linear decrease of lesions with the increase of silicate concentration. The lowest number of lesions per leaf area was observed in plants that received 5 lm of Si from potassium silicate. This result indicates the use of silicon as an alternative for an ecological management system for coffee disease protection.

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Effects of somatic embryogenesis on gene expression of cloned coffee heterozygous hybrids

et al. 2019

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16s-23S rDNA: polymorphisms and their use for detection and identification of Xylella fastidiosa strains

Martinati¹,

Pacheco²,

Miranda³

et al. 2007

Braz. J. Microbiol.

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Strains of Xylella fastidiosa from several hosts (coffee, citrus, grape, almond, oleander, peach, plum, etc.) were characterized by analyzing the content of the nucleotide sequences of 16S-23S rDNA (coding for a small subunit ribosomal RNA) spacer region (ITS). Current methods for sequencing the ITS region yields partial sequences that do not contribute with significant information. According to this fact, new primers have been designed in order to obtain a complete sequence and facilitate the sequencing. The complete 16S-23S sequences from 08 strains were amplified through PCR using the primers designed in our lab. The 16S-23S sequences obtained were compared with 52 others sequences entries in GenBank database. The results revealed a higher level of variation than that found in 16S gene sequences, with similarity values ranging from 0.79-1.00. The dendogram based on similarity data revealed 5 main groups. This spacer sequence contains two genes for tRNA (tRNA ala and tRNA ile ). The sequence analysis of the tRNA content showed a conserved region with a few differences in the nucleotide composition.

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