Thorough Characterization of ETHQB3.5, a QTL Involved in Melon Fruit Climacteric Behavior and Aroma Volatile Composition.

The effect of the QTL involved in climacteric ripening ETHQB3.5 on the fruit VOC composition was studied using a set of Near-Isogenic Lines (NILs) containing overlapping introgressions from the Korean accession PI 16375 on the chromosome 3 in the climacteric 'Piel de Sapo' (PS) genetic background. ETHQB3.5 was mapped in an interval of 1.24 Mb that contained a NAC transcription factor. NIL fruits also showed differences in VOC composition belonging to acetate esters, non-acetate esters, and sulfur-derived families. Cosegregation of VOC composition (23 out of 48 total QTLs were mapped) and climacteric ripening was observed, suggesting a pleiotropic effect of ETHQB3.5. On the other hand, other VOCs (mainly alkanes, aldehydes, and ketones) showed a pattern of variation independent of ETHQB3.5 effects, indicating the presence of other genes controlling non-climacteric ripening VOCs. Network correlation analysis and hierarchical clustering found groups of highly correlated compounds and confirmed the involvement of the climacteric differences in compound classes and VOC differences. The modification of melon VOCs may be achieved with or without interfering with its physiological behavior, but it is likely that high relative concentrations of some type of ethylene-dependent esters could be achieved in climacteric cultivars.

Asistencia a la gestante con diabetes. Guía de práctica clínica actualizada en 2014 / Care of pregnancies complicated by diabetes. Clinical practice guidelines: 2014 update

La diabetes es una de las complicaciones metabólicas más frecuentes de la gestación y se asocia a un incremento del riesgo de morbimortalidad maternal y fetal, que pueden evitarse y/o reducirse con un adecuado control. En la diabetes pregestacional, la preparación específica previa a la gestación es indispensable para intentar conseguir un control glucémico lo más próximo a la normalidad, evaluar complicaciones y revisar las pautas de tratamientos farmacológicos. En el caso de la diabetes gestacional, el tratamiento de esta entidad ha demostrado disminuir la tasa de complicaciones maternas y perinatales, por lo que su diagnóstico está justificado. En relación con la estrategia diagnóstica, ante la falta de consenso y la controversia desatada tras la aparición de los nuevos criterios IADPSG, el grupo ha decidido mantener la misma estrategia diagnóstica en 2 pasos y con los mismos puntos de corte hasta disponer de datos sólidos que avalen la introducción de nuevos criterios

Diabetes is one of the most common metabolic complications of pregnancy, and is associated with an increased risk of maternal and foetal morbidity and mortality that can be prevented and/or reduced with adequate glycaemic control. In pre-gestational diabetes, specific preparation prior to the pregnancy is essential in order to achieve glycaemic control near to normal as possible and to evaluate complications and review pharmacologic treatment prescription. The treatment of gestational diabetes has been shown to decrease the rate of maternal and perinatal complications, thus its diagnosis is justified. As regards the diagnostic strategy and due to the lack of consensus and the controversy arising after the publication of the new International Association of the Diabetes and Pregnancy Study Groups (IADPSG), the group has decided to keep the same diagnostic strategy in two stages, and with the same cut-off points, until there are solid data available that support the introduction of new criteria

Shaping melons: agronomic and genetic characterization of QTLs that modify melon fruit morphology.

The consistency of quantitative trait locus (QTL) effects among genetic backgrounds is a key factor for introgressing QTLs from initial mapping experiments into applied breeding programs. We have selected four QTLs (fs6.4, fw4.3, fw4.4 and fw8.1) involved in melon fruit morphology that had previously been detected in a collection of introgression lines derived from the cross between a Spanish cultivar, "Piel de Sapo," and the Korean accession PI161375 (Songwan Charmi). Introgression lines harboring these QTLs were crossed with an array of melon inbred lines representative of the most important cultivar types. Hybrids of the introgression and inbred lines, with the appropriate controls, were evaluated in replicated agronomic trials. The effects of the QTLs were consistent among the different genetic backgrounds, demonstrating the utility of these QTLs for applied breeding programs in modifying melon fruit morphology. Three QTLs, fw4.4, fs6.4 and fs12.1 were subjected to further study in order to map them more accurately by substitution mapping using a new set of introgression lines with recombination events within the QTL chromosome region. The position of the QTLs was narrowed down to 36-5 cM, depending on the QTL. The results presented in the current study set the basis for the use of these QTLs in applied breeding programs and for the molecular characterization of the genes underlying them.

On the genetic control of heterosis for fruit shape in melon (Cucumis melo L.).

The objective of the present work is to study the genetic basis of heterosis for fruit shape (FS) in melon observed in a cross between the Spanish cultivar "Piel de Sapo" (PS) and the Korean accession PI 161375 (Songwang Charmi [SC]) using a set of near-isogenic lines (NILs) with contrasting phenotypes for FS, each carrying a single chromosomal introgression from SC within the genetic background of PS. We investigated the FS of homozygous NILs, hybrids NIL x PS, and all 2-way crosses between NILs to test the main heterosis hypotheses (dominance, overdominance, and epistatic interactions). Gene action of alleles of quantitative trait loci inducing fruit enlargement was dominance, whereas those inducing rounder fruit were additive or recessive. Only minor epistatic interactions were found. Therefore, the most plausible explanation for FS heterosis in this cross is in agreement with the dominance complementation hypothesis. Over 70% of the hybrid heterosis could be achieved by combining just 2 loci, indicating that the genetic control of FS heterosis in this cross is relatively simple. FS is proposed as a reproductive trait in melon because of the high correlation to the number of seeds produced along the fruit longitudinal axis.

Candidate genes and QTLs for fruit ripening and softening in melon.

Different factors affect the quality of melon fruit and among them long shelf life is critical from the consumer's point of view. In melon, cultivars showing both climacteric and non-climacteric ripening types are found. In this study we have investigated climacteric ripening and fruit softening using a collection of near-isogenic lines (NILs) derived from the non-climacteric melon parental lines PI 161375 (SC) and "Piel de Sapo" (PS). Surprisingly, we found that QTL eth3.5 in NIL SC3-5b induced a climacteric-ripening phenotype with increased respiration and ethylene levels. Data suggest that the non-climacteric phenotypes from PI 161375 and "Piel de Sapo" may be the result of mutations in different genes. Several QTLs for fruit flesh firmness were also detected. Candidate genes putatively involved in ethylene regulation, biosynthesis and perception and cell wall degradation were mapped and some colocations with QTLs were observed. These results may provide additional data towards understanding of non-climacteric ripening in melon.