Your search keyword '"Domenico Catalano"' showing total 2 results

1. Identification of candidate MLO powdery mildew susceptibility genes in cultivated Solanaceae and functional characterization of tobacco NtMLO1

Author

Luigi Ricciardi, Yuling Bai, Stefano Pavan, Michela Appiano, Richard G. F. Visser, Valentina Bracuto, Zheng Zheng, Domenico Catalano, and Concetta Lotti

Subjects

MLO, Molecular Sequence Data, Resistance, Locus (genetics), Plant breeding, Fungal Proteins, Laboratorium voor Plantenveredeling, Powdery mildew, Ascomycota, Tobacco, Genetics, Gene family, Amino Acid Sequence, Gene, Phylogeny, Solanaceae, Molecular breeding, Fungal protein, Original Paper, Mildew, biology, Sequence Homology, Amino Acid, food and beverages, biology.organism_classification, Plants, Genetically Modified, Reverse genetics, Animal Science and Zoology, EPS, Agronomy and Crop Science, Biotechnology

Abstract

Specific homologs of the plant Mildew Locus O (MLO) gene family act as susceptibility factors towards the powdery mildew (PM) fungal disease, causing significant economic losses in agricultural settings. Thus, in order to obtain PM resistant phenotypes, a general breeding strategy has been proposed, based on the selective inactivation of MLO susceptibility genes across cultivated species. In this study, PCR-based methodologies were used in order to isolate MLO genes from cultivated solanaceous crops that are hosts for PM fungi, namely eggplant, potato and tobacco, which were named SmMLO1, StMLO1 and NtMLO1, respectively. Based on phylogenetic analysis and sequence alignment, these genes were predicted to be orthologs of tomato SlMLO1 and pepper CaMLO2, previously shown to be required for PM pathogenesis. Full-length sequence of the tobacco homolog NtMLO1 was used for a heterologous transgenic complementation assay, resulting in its characterization as a PM susceptibility gene. The same assay showed that a single nucleotide change in a mutated NtMLO1 allele leads to complete gene loss-of-function. Results here presented, also including a complete overview of the tobacco and potato MLO gene families, are valuable to study MLO gene evolution in Solanaceae and for molecular breeding approaches aimed at introducing PM resistance using strategies of reverse genetics. Electronic supplementary material The online version of this article (doi:10.1007/s11248-015-9878-4) contains supplementary material, which is available to authorized users.

2. In-silico and in-vivo analyses of EST databases unveil conserved miRNAs from Carthamus tinctorius and Cynara cardunculus

Author

Gabriella Sonnante, Domenico Catalano, M. M. Finetti-Sialer, and Domenico Pignone

Subjects

Sequence analysis, In silico, Molecular Sequence Data, Carthamus tinctorius, Cynara, Biology, lcsh:Computer applications to medicine. Medical informatics, Biochemistry, MiRBase, Structural Biology, Databases, Genetic, microRNA, RNA, Messenger, lcsh:QH301-705.5, Molecular Biology, Expressed Sequence Tags, Regulation of gene expression, Genetics, Expressed sequence tag, Base Sequence, Sequence Analysis, RNA, Research, Applied Mathematics, biology.organism_classification, Computer Science Applications, MicroRNAs, lcsh:Biology (General), RNA, Plant, Nucleic Acid Conformation, lcsh:R858-859.7, DNA microarray

Abstract

Background MicroRNAs (miRNAs) are small RNAs (21-24 bp) providing an RNA-based system of gene regulation highly conserved in plants and animals. In plants, miRNAs control mRNA degradation or restrain translation, affecting development and responses to stresses. Plant miRNAs show imperfect but extensive complementarity to mRNA targets, making their computational prediction possible, useful when data mining is applied on different species. In this study we used a comparative approach to identify both miRNAs and their targets, in artichoke and safflower. Results Two complete expressed sequence tags (ESTs) datasets from artichoke (3.6·104 entries) and safflower (4.2·104), were analysed with a bioinformatic pipeline and in vitro experiments, identifying 17 potential miRNAs. For each EST, using RNAhybrid program and 953 non redundant miRNA mature sequences, available in mirBase as reference, we searched matching putative targets. 8730 out of 42011 ESTs from safflower and 7145 of 36323 ESTs from artichoke showed at least one predicted miRNA target. BLAST analysis showed that 75% of all ESTs shared at least a common homologous region (E-value < 10-4) and about 50% of these displayed 400 bp or longer aligned sequences as conserved homologous/orthologous (COS) regions. 960 and 890 ESTs of safflower and artichoke organized in COS shared 79 different miRNA targets, considered functionally conserved, and statistically significant when compared with random sequences (signal to noise ratio > 2 and specificity ≥ 0.85). Four highly significant miRNAs selected from in silico data were experimentally validated in globe artichoke leaves. Conclusions Mature miRNAs and targets were predicted within EST sequences of safflower and artichoke. Most of the miRNA targets appeared highly/moderately conserved, highlighting an important and conserved function. In this study we introduce a stringent parameter for the comparative sequence analysis, represented by the identification of the same target in the COS region. After statistical analysis 79 targets, found on the COS regions and belonging to 60 miRNA families, have a signal to noise ratio > 2, with ≥ 0.85 specificity. The putative miRNAs identified belong to 55 dicotyledon plants and to 24 families only in monocotyledon.