Transcriptome Analysis of Soursop (Annona muricata L.) Fruit under Postharvest Storage Identifies Genes Families Involved in Ripening.

Soursop (Annona muricata L.) is climacteric fruit with a short ripening period and postharvest shelf life, leading to a rapid softening. In this study, transcriptome analysis of soursop fruits was performed to identify key gene families involved in ripening under postharvest storage conditions (Day 0, Day 3 stored at 28 ± 2 °C, Day 6 at 28 ± 2 °C, Day 3 at 15 ± 2 °C, Day 6 at 15 ± 2 °C, Day 9 at 15 ± 2 °C). The transcriptome analysis showed 224,074 transcripts assembled clustering into 95, 832 unigenes, of which 21, 494 had ORF. RNA-seq analysis showed the highest number of differentially expressed genes on Day 9 at 15 ± 2 °C with 9291 genes (4772 up-regulated and 4519 down-regulated), recording the highest logarithmic fold change in pectin-related genes. Enrichment analysis presented significantly represented GO terms and KEGG pathways associated with molecular function, metabolic process, catalytic activity, biological process terms, as well as biosynthesis of secondary metabolites, plant hormone signal, starch, and sucrose metabolism, plant-pathogen interaction, plant-hormone signal transduction, and MAPK-signaling pathways, among others. Network analysis revealed that pectinesterase genes directly regulate the loss of firmness in fruits stored at 15 ± 2 °C.

DIVERSIDAD GENÉTICA DE POBLACIONES DE GUANÁBANA (Annona muricata L.) EN NAYARIT, MÉXICO MEDIANTE MARCADORES SSR Y SRAP / Genetic diversity of soursop populations (Annona muricata L.) in Nayarit, Mexico using SSR and SRAP markers

RESUMEN La guanábana (Annona muricata L.) es un cultivo de importancia económica para Nayarit, México. Los frutos han tenido una excelente aceptación en el mercado regional, dificultando su comercialización a lugares lejanos porque la producción es altamente perecedera, aunado a que los árboles de los huertos de guanábana son en su mayoría ecotipos o fenotipos sin ningún plan de mejoramiento genético. Debido a la falta de variedades comerciales y de un banco de germoplasma, es importante conocer la diversidad genética para identificar y seleccionar genotipos; una de las herramientas para este propósito es el uso de marcadores moleculares. El objetivo de esta investigación fue analizar la diversidad genética de guanábana de las principales zonas productoras de Nayarit. Se extrajo ADN genómico de hojas de guanábana, las cuales fueron recolectadas de 11 huertos (poblaciones) de las siguientes zonas: Compostela (cinco poblaciones), Tepic (tres poblaciones) y San Blas (tres poblaciones). Posteriormente, se realizó un análisis mediante marcadores moleculares SSR y SRAP. Los resultados indicaron que los SSR no mostraron polimorfismo entre las poblaciones. Por otro lado, en los marcadores SRAP se obtuvieron 116 loci polimórficos con un promedio de porcentaje de loci polimórfico (P) entre las zonas productoras de 29,55 %. Asimismo, se realizó un AMOVA, el cual mostró que el mayor porcentaje de varianza se encuentra dentro de las poblaciones. Además, los análisis de agrupamiento demostraron la formación de tres grupos independientes. Por tanto, se obtuvo una alta homocigocidad y baja diversidad genética de guanábana entre las zonas y poblaciones estudiadas.

ABSTRACT Soursop (Annona muricata L.) is a crop of economic importance for Nayarit, Mexico. Soursop fruits have had an excellent acceptance in the regional market, making it difficult its commercialization to distant places because the production is highly perishable, in addition to the fact that the trees in the soursop orchards are mostly ecotypes or phenotypes without any genetic improvement plan. Due to the lack of commercial varieties and a germplasm bank, it is important to know the genetic diversity to identify and select genotypes; one of the tools for this purpose is the use of molecular markers. The objective of this research was to analyze the genetic diversity of soursop in the main producing areas of Nayarit. Genomic DNA was extracted from soursop leaves from 11 orchards (populations) in the following areas: Compostela (five populations), Tepic (three populations) and San Blas (three populations). Subsequently, we performed molecular analysis using SSR and SRAP molecular markers. The results indicated that the SSRs showed no polymorphism between the populations. On the other hand, we found 116 polymorphic loci in the SRAP markers with an average percentage of polymorphic loci (P) among the producing areas of 29.55 %. Likewise, an AMOVA was performed, showing that the highest percentage of variance is found within the populations. Furthermore, cluster analyzes demonstrated the formation of three independent groups. Therefore, a high homozygosity and low genetic diversity of soursop were obtained between the areas and populations studied.

Bioprospecting of Sechium spp. varieties for the selection of characters with pharmacological activity.

Bioprospecting identifies new sources of compounds with actual or potential economic value that come from biodiversity. An analysis was performed regarding bioprospecting purposes in ten genotypes of Sechium spp., through a meta-analysis of 20 information sources considering different variables: five morphological, 19 biochemical, anti-proliferative activity of extracts on five malignant cell lines, and 188 polymorphic bands of amplified fragment length polymorphisms, were used in order to identify the most relevant variables for the design of genetic interbreeding. Significant relationships between morphological and biochemical characters and anti-proliferative activity in cell lines were obtained, with five principal components for principal component analysis (SAS/ETS); variables were identified with a statistical significance (< 0.7 and Pearson values ≥ 0.7), with 80.81% of the accumulation of genetic variation and 110 genetic bands. Thirty-nine (39) variables were recovered using NTSYSpc software where 30 showed a Pearson correlation (> 0.5) and nine variables (< 0.05), Finally, using a cladistics analysis approach highlighted 65 genetic bands, in addition to color of the fruit, presence of thorns, bitter flavor, piriform and oblong shape, and also content of chlorophylls a and b, presence of cucurbitacins, and the IC50 effect of chayote extracts on the four cell lines.

Swine virome on rural backyard farms in Mexico: communities with different abundances of animal viruses and phages.

Domestic swine have been introduced by humans into a wide diversity of environments and have been bred in different production systems. This has resulted in an increased risk for the occurrence and spread of diseases. Although viromes of swine in intensive farms have been described, little is known about the virus communities in backyard production systems around the world. The aim of this study was to describe the viral diversity of 23 healthy domestic swine maintained in rural backyards in Morelos, Mexico, through collection and analysis of nasal and rectal samples. Next-generation sequencing was used to identify viruses that are present in swine. Through homology search and bioinformatic analysis of reads and their assemblies, we found that rural backyard swine have a high degree of viral diversity, different from those reported in intensive production systems or under experimental conditions. There was a higher frequency of bacteriophages and lower diversity of animal viruses than reported previously. In addition, sapoviruses, bocaparvoviruses, and mamastroviruses that had not been reported previously in our country were identified. These findings were correlated with the health status of animals, their social interactions, and the breeding/rearing environment (which differed from intensive systems), providing baseline information about viral communities in backyard swine.

Natural Bioactive Compounds of Sechium spp. for Therapeutic and Nutraceutical Supplements.

Natural products are in great demand because certain secondary metabolites (SMs) are sources of antioxidants, flavorings, active substances, or anticancer agents with less aggressiveness and selectivity, among which triterpenes and flavonoids are of importance because they inhibit carcinogenesis. For Sechium spp. P. Br. (chayotes), there is scientific evidence of antiproliferative activity that has occurred when cancer cell lines have been treated with this fruit. In order to compare future therapeutic designs and identify new and ancestral characteristics, triterpenes and flavonoids were determined in contrasting Sechium genotypes. The obtained data were analyzed via a cladistics approach, with the aim of identifying the characteristics and state of phytochemicals and genetic variables. The concentrations of flavonoids and triterpenes were determined, and a more complex composition of secondary metabolites was found in the wild types as compared to their domesticated genotypes. Bitter fruits contained a higher number of SMs, followed by those with a neutral and sweet flavor. A cladogram showed the differentiation of the three groups based on the flavor of the fruits. The diversity of SMs decreases in evolutionary terms, in response to domestication and environmental adaptation. Therefore, genotypes can be feasibly selected based on fruit flavor for gross-breeding, and cytotoxicity can be reduced without losing possible therapeutic effects.

Genetic Structure and Selection of a Core Collection for Long Term Conservation of Avocado in Mexico.

Mexico, as the center of origin of avocado (Persea americama Mill.), harbors a wide genetic diversity of this species, whose identification may provide the grounds to not only understand its unique population structure and domestication history, but also inform the efforts aimed at its conservation. Although molecular characterization of cultivated avocado germplasm has been studied by several research groups, this had not been the case in Mexico. In order to elucidate the genetic structure of avocado in Mexico and the sustainable use of its genetic resources, 318 avocado accessions conserved in the germplasm collection in the National Avocado Genebank were analyzed using 28 markers [9 expressed sequence tag-Simple Sequence Repeats (SSRs) and 19 genomic SSRs]. Deviation from Hardy Weinberg Equilibrium and high inter-locus linkage disequilibrium were observed especially in drymifolia, and guatemalensis. Total averages of the observed and expected heterozygosity were 0.59 and 0.75, respectively. Although clear genetic differentiation was not observed among 3 botanical races: americana, drymifolia, and guatemalensis, the analyzed Mexican population can be classified into two groups that correspond to two different ecological regions. We developed a core-collection by K-means clustering method. The selected 36 individuals as core-collection successfully represented more than 80% of total alleles and showed heterozygosity values equal to or higher than those of the original collection, despite its constituting slightly more than 10% of the latter. Accessions selected as members of the core collection have now become candidates to be introduced in cryopreservation implying a minimum loss of genetic diversity and a back-up for existing field collections of such important genetic resources.