Santiago Moreno-Vázquez scite author profile

Santiago Moreno-Vázquez

5Publications

56Citation Statements Received

102Citation Statements Given

How they've been cited

How they cite others

389

102

Affiliations

Universidad Politécnica de Madrid

Publications

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hATpin, a Family of MITE-like hAT Mobile Elements Conserved in Diverse Plant Species that Forms Highly Stable Secondary Structures

Moreno-Vázquez

Ning

2005

Plant Mol Biol

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We identified a 178 bp mobile DNA element in lettuce with characteristic CGAGC/GCTCG repeats in the subterminal regions. This element has terminal inverted repeats and 8-bp target site duplications typical of the hAT superfamily of class II mobile elements, but its small size and potential to form a single-stranded stable hairpin-like secondary structure suggest that it is related to MITE elements. In silico searches for related elements identified 252 plant sequences with 8-bp target site duplications and sequence similarity in their terminal and subterminal regions. Some of these sequences were predicted to encode transposases and may be autonomous elements; these constituted a separate clade within the phylogram of hAT transposases. We demonstrate that the CGAGC/GCTCG pentamer maximizes the hairpin stability compared to any other pentamer with the same C + G content, and the secondary structures of these elements are more stable than for most MITEs. We named these elements collectively as hATpin elements because of the hAT similarity and their hairpin structures. The nearly complete rice genome sequence and the highly advanced genome annotation allowed us to localize most rice elements and to deduce insertion preferences. hATpin elements are distributed on all chromosomes, but with significant bias for chromosomes 1 and 10 and in regions of moderate gene density. This family of class II mobile elements is found primarily in monocot species, but is also present in dicot species.

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SNP-based codominant markers for a recessive gene conferring resistance to corky root rot (Rhizomonas suberifaciens) in lettuce (Lactuca sativa)

Moreno-Vázquez¹,

Ochoa²,

Faber³

et al. 2003

Genome

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The analysis of F2 progeny and derived F3 families of Lactuca sativa segregating for resistance to corky root rot caused by Rhizomonas suberifaciens permitted the identification of restriction fragment length polymorphism (RFLP) and single nucleotide polymorphism (SNP) markers linked to the recessive resistance gene cor. PCR-based markers were identified by bulked segregant analysis (BSA). Allele-specific primers were generally designed with the 3 terminal base coinciding with an SNP, matching one of the alleles and mismatching the other, and with an additional subterminal 3 base mismatching both alleles. Codominant, robust, and inexpensive molecular markers were obtained that used standardized PCR conditions. Some of the markers could be analyzed in multiple Lactuca mapping populations that did not segregate for disease resistance allowing the cor locus to be located on several maps. The consistent low density of markers around cor in these maps suggests that cor may be in an area with an elevated rate of recombination. Evaluation of these markers in a large sample of cultivars and landraces identified pairs of flanking polymorphic markers that can be used for marker-assisted selection of corky root resistance.

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Bacterial contamination of in vitro plant cultures: confounding effects on somaclonal variation and detection of contamination in plant tissues

Moreno-Vázquez

Larrañaga

Uberhuaga

et al. 2014

Plant Cell Tiss Organ Cult

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Bacterial contamination represents a serious problem for plant tissue culture research and applications. Bacterial interference with normal plant physiology and morphology can generate misleading conclusions if the presence of bacteria is ignored. Bacterial contaminants in in vitro plant culture are typically detected by direct observation; thus, it is assumed that cultures without visible symptoms are bacteria free. Here, we demonstrate that contaminating Bacillus DNA in plant DNA solutions from asymptomatic plants can interfere with the analysis of somaclonal variation in chrysanthemum. We studied somaclonal variation in chrysanthemum using short semispecific PCR primers based on conserved motifs in NBS-LRR disease resistance genes and in mobile elements. Instead of true somaclonal variation we found three polymorphic bands derived from contaminant bacterial DNA in plant extracts. Although the detection of asymptomatic bacteria in in vitro plant cultures is a major issue, we found that it has not been adequately addressed to date, particularly for studies on somaclonal variation. We reviewed the most commonly cited contaminant bacteria in in vitro plant culture and designed specific 16S rRNA gene-based PCR primers for the main genera causing contamination (Bacillus, Pseudomonas, Staphylococcus, Lactobacillus, Erwinia/Enterobacter and Xanthomonas). Using a panel of pure bacterial DNAs, artificial mixes of bacterial/plant DNAs, and in vitro plant cultures with and without visible contamination we demonstrated that our primers are in most instances both reliable and sensitive, and appropriate for the identification and tracking of the most frequent bacterial contaminants in plant in vitro cultures. Implications of bacterial identification to molecular analysis of somaclonal variation and plant culture decontamination are discussed.

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Genomic-Based Breeding for Climate-Smart Peach Varieties

Gogorcena

Sánchez

Moreno-Vázquez

et al. 2020

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Quantitative evaluation of Heterodera avenae females in soil and root extracts by digital image analysis

Grillo¹,

Andrés

Moreno-Vázquez

2016

Crop Protection

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