Your search keyword '"Gerardo M. Nava"' showing total 8 results

1. Tomato Plant Microbiota under Conventional and Organic Fertilization Regimes in a Soilless Culture System

Author

Carolina N. Resendiz-Nava, Fernando Alonso-Onofre, Hilda V. Silva-Rojas, Angel Rebollar-Alviter, Dulce M. Rivera-Pastrana, Matthew J. Stasiewicz, Gerardo M. Nava, and Edmundo M. Mercado-Silva

Subjects

16S rRNA, core microbiota, organic, phyllosphere, rhizosphere, soilless, Biology (General), QH301-705.5

Abstract

Tomato is the main vegetable cultivated under soilless culture systems (SCSs); production of organic tomato under SCSs has increased due to consumer demands for healthier and environmentally friendly vegetables. However, organic tomato production under SCSs has been associated with low crop performance and fruit quality defects. These agricultural deficiencies could be linked to alterations in tomato plant microbiota; nonetheless, this issue has not been sufficiently addressed. Thus, the main goal of the present study was to characterize the rhizosphere and phyllosphere of tomato plants cultivated under conventional and organic SCSs. To accomplish this goal, tomato plants grown in commercial greenhouses under conventional or organic SCSs were tested at 8, 26, and 44 weeks after seedling transplantation. Substrate (n = 24), root (n = 24), and fruit (n = 24) composite samples were subjected to DNA extraction and high-throughput 16S rRNA gene sequencing. The present study revealed that the tomato core microbiota was predominantly constituted by Proteobacteria, Actinobacteria, and Firmicutes. Remarkably, six bacterial families, Bacillaceae, Microbacteriaceae, Nocardioidaceae, Pseudomonadaceae, Rhodobacteraceae, and Sphingomonadaceae, were shared among all substrate, rhizosphere, and fruit samples. Importantly, it was shown that plants under organic SCSs undergo a dysbiosis characterized by significant changes in the relative abundance of Bradyrhizobiaceae, Caulobacteraceae, Chitinophagaceae, Enterobacteriaceae, Erythrobacteraceae, Flavobacteriaceae, Nocardioidaceae, Rhodobacteraceae, and Streptomycetaceae. These results suggest that microbial alterations in substrates, roots, and fruits could be potential factors in contributing to the crop performance and fruit quality deficiencies observed in organic SCSs.

Published

2023

2. A Portable Vibration System to Induce and Evaluate Susceptibility to Red Drupelet Reversion in Blackberry Cultivars

Author

Angel R. Flores-Sosa, Manuel J. Fabela-Gallegos, Mauricio E. Cruz-Acevedo, Dulce M. Rivera-Pastrana, Gerardo M. Nava, and Edmundo M. Mercado-Silva

Subjects

mechanical damage, blackberry color change, cultivars resistance, Plant culture, SB1-1110

Abstract

Red drupelet reversion (RDR) is a physiological disorder in which blackberry drupelets revert from black to red, losing their commercial value. RDR has been associated with mechanical damage caused by vibrations during transport. The goal of the present study was to construct a portable vibration system to quantify RDR progression in different blackberry cultivars. The system was integrated with an electrical signal generator, a monoaural amplifier, a subwoofer type speaker, and an oscilloscope. This system generates vibration intensities reached during fruit commercial transport (10 Hz and 0.5 g’s). To induce RDR, blackberry clamshells cv. ‘Tupi’ were placed in the portable system and subjected to different vibration times. RDR was observed immediately after fruit was subjected to 5 min vibration. To evaluate RDR progression in different cultivars, blackberry clamshells ‘Ak234′, ‘Am151′, and ‘Tupi’ were subjected to vibration during different times; and analyzed after storage (0 to 5 d). ‘Tupi’ blackberries reverted more rapidly than ‘Am151′ and ‘Ak234′ cultivars, suggesting that ‘Tupi’ was more susceptible to RDR. These results highlight that portable vibration system could be a useful and fast tool to evaluate resistance to RDR in blackberries.

Published

2022

3. A Comprehensive Evaluation of Enterobacteriaceae Primer Sets for Analysis of Host-Associated Microbiota

Author

Carolina N. Resendiz-Nava, Hilda V. Silva-Rojas, Angel Rebollar-Alviter, Dulce M. Rivera-Pastrana, Edmundo M. Mercado-Silva, and Gerardo M. Nava

Subjects

Proteobacteria, Enterobacteriaceae, Enterobacterales, 16S rRNA, primer set, taxonomic update, Medicine

Abstract

Enterobacteriaceae is one of the most important bacterial groups within the Proteobacteria phylum. This bacterial group includes pathogens, commensal and beneficial populations. Numerous 16S rRNA gene PCR-based assays have been designed to analyze Enterobacteriaceae diversity and relative abundance, and, to the best of our knowledge, 16 primer pairs have been validated, published and used since 2003. Nonetheless, a comprehensive performance analysis of these primer sets has not yet been carried out. This information is of particular importance due to the recent taxonomic restructuration of Enterobacteriaceae into seven bacterial families. To overcome this lack of information, the identified collection of primer pairs (n = 16) was subjected to primer performance analysis using multiple bioinformatics tools. Herein it was revealed that, based on specificity and coverage of the 16S rRNA gene, these 16 primer sets could be divided into different categories: Enterobacterales-, multi-family-, multi-genus- and Enterobacteriaceae-specific primers. These results highlight the impact of taxonomy changes on performance of molecular assays and data interpretation. Moreover, they underline the urgent need to revise and update the molecular tools used for molecular microbial analyses.

Published

2021

4. A Molecular Tool for Rapid Detection and Traceability of Cyclospora cayetanensis in Fresh Berries and Berry Farm Soils

Author

Carolina N. Resendiz-Nava, Guadalupe E. Orozco-Mosqueda, Edmundo M. Mercado-Silva, Susana Flores-Robles, Hilda V. Silva-Rojas, and Gerardo M. Nava

Subjects

cyclospora cayetanensis, pcr, mexico, berries, soil, Chemical technology, TP1-1185

Abstract

Due to recent outbreaks of cyclosporiasis associated with consumption of fresh berries, producers are demanding modern microbiological tools for the rapid and accurate identification of the human pathogen Cyclospora cayetanensis in berries and environmental samples. The aim of the present work was to develop a molecular tool based on a PCR approach for the rapid and accurate detection of C. cayetanensis. A nested PCR assay was validated for the amplification of a 294 bp size region of the 18S rRNA gene from C. cayetanensis. The limit of detection for the nested PCR assay was validated using 48 berry samples spiked with ~0, 10, 100, and 1000 oocyst per gram of sample. With this assay, it was possible to detect as few as 1 oocyst per gram of berry, in a 50 g sample. Sanger DNA sequencing and phylogenetic analysis were carried out to confirm the presence of C. cayetanensis in berry (n = 17) and soil (n = 5) samples. The phylogenetic analysis revealed that the C. cayetanensis sequences obtained from Mexico clustered within a group recovered from China, Peru, Guatemala-Haiti, and Japan. The PCR protocol designed in the present study could be an important tool for the rapid and accurate detection of this human pathogen in environmental and food samples.

Published

2020

5. Three-Year Longitudinal Study: Prevalence of Salmonella Enterica in Chicken Meat is Higher in Supermarkets Than Wet Markets from Mexico

Author

Iván D. Regalado-Pineda, Rene Rodarte-Medina, Carolina N. Resendiz-Nava, Cinthia E. Saenz-Garcia, Pilar Castañeda-Serrano, and Gerardo M. Nava

Subjects

salmonella, chicken meat, supermarkets, wet markets, prevalence., Chemical technology, TP1-1185

Abstract

Worldwide, chicken meat is considered one of the main sources of Salmonella enterica in humans. To protect consumers from this foodborne pathogen, international health authorities recommend the establishment of continuous Salmonella surveillance programs in meat. However, these programs are scarce in many world regions; thus, the goal of the present study was to perform a longitudinal surveillance of S. enterica in chicken meat in Mexico. A total of 1160 samples were collected and analyzed monthly from 2016 to 2018 in ten chicken meat retailers (supermarkets and wet markets) located in central Mexico. The isolation and identification of S. enterica was carried out using conventional and molecular methods. Overall, S. enterica was recovered from 18.1% (210/1160) of the chicken meat samples. Remarkably, during the three years of evaluation, S. enterica was more prevalent (P < 0.0001) in supermarkets (27.2%, 158/580) than in wet markets (9.0%, 52/580). The study was 3.8 times more likely (odds ratio = 3.8, P < 0.0001) to recover S. enterica from supermarkets than wet markets. Additionally, a higher prevalence (P < 0.05) of this pathogen was observed during the spring, summer, autumn, and winter in supermarkets compared with wet markets. Moreover, the recovery rate of S. enterica from supermarkets showed a gradual increase from 20.78% to 42% (P < 0.0001) from 2016 to 2018. Interestingly, no correlation (P > 0.05) was observed between the S. enterica recovery rate in chicken meat and reported cases of Salmonella infections in humans. Higher levels of S. enterica in chicken meat retailed in supermarkets are not unusual; this phenomenon has also been reported in some European and Asian countries. Together, these results uncover an important health threat that needs to be urgently addressed by poultry meat producers and retailers.

Published

2020

6. Insights into the Identification of the Specific Spoilage Organisms in Chicken Meat

Author

Cinthia E. Saenz-García, Pilar Castañeda-Serrano, Edmundo M. Mercado Silva, Christine Z. Alvarado, and Gerardo M. Nava

Subjects

meat spoilage, pseudomonadaceae, genomic, specific spoilage organisms, chicken, Chemical technology, TP1-1185

Abstract

Poultry meat deterioration is caused by environmental conditions, as well as proliferation of different bacterial groups, and their interactions. It has been proposed that meat spoilage involves two bacterial groups: one group that initiates the deterioration process, known as specific spoilage organisms (SSOs), and the other known as spoilage associated organisms (SAOs) which represents all bacteria groups recovered from meat samples before, during, and after the spoilage process. Numerous studies have characterized the diversity of chicken meat SAOs; nonetheless, the identification of the SSOs remains a long-standing question. Based on recent genomic studies, it is suggested that the SSOs should possess an extensive genome size to survive and proliferate in raw meat, a cold, complex, and hostile environment. To evaluate this hypothesis, we performed comparative genomic analyses in members of the meat microbiota to identify microorganisms with extensive genome size and ability to cause chicken meat spoilage. Our studies show that members of the Pseudomonadaceae family have evolved numerous biological features such as large genomic size, slow-growing potential, low 16S rRNA copy number, psychrotrophic, and oligotrophic metabolism to initiate the spoilage of poultry meat. Moreover, inoculation experiments corroborated that these biological traits are associated with the potential to cause chicken meat deterioration. Together, these results provide new insights into the identification of SSO. Further studies are in progress to elucidate the impact of the SSO on meat quality and microbiota diversity.

Published

2020

7. An Improve Protocol for PCR Using LM1 and LM2 Primers for Listeria monocytogenes Detection in Food Matrices

Author

Angélica Godínez-Oviede, Gerardo M. Nava, Sofía M. Arvizu-Medrano, and Montserrat Hernández-Iturriaga

Subjects

Listeria monocytogenes, hlyA, PCR, Genetics, QH426-470, Microbiology, QR1-502

Abstract

Several studies have observed that use of a conventional PCR protocol with primers LM1 and LM2 for the identification of the hlyA gene of Listeria monocytogenes generates non-specific PCR amplifications and false positives. For this reason, in this study we provide a modified PCR protocol that improves the specificity of the results obtained with LM1 and LM2 primers.

Published

2017

8. On the relationship between sialomucin and sulfomucin expression and hydrogenotrophic microbes in the human colonic mucosa.

Author

Jennifer A Croix, Franck Carbonero, Gerardo M Nava, Mark Russell, Eugene Greenberg, and H Rex Gaskins

Subjects

Medicine, Science

Abstract

The colonic mucus layer is comprised primarily of acidomucins, which provide viscous properties and can be broadly classified into sialomucins or sulfomucins based on the presence of terminating sialic acid or sulfate groups. Differences in acidomucin chemotypes have been observed in diseases such as colorectal cancer and inflammatory bowel disease, and variation in sialo- and sulfomucin content may influence microbial colonization. For example, sulfate derived from sulfomucin degradation may promote the colonization of sulfate-reducing bacteria (SRB), which through sulfate respiration generate the genotoxic gas hydrogen sulfide. Here, paired biopsies from right colon, left colon, and rectum of 20 subjects undergoing routine screening colonoscopies were collected to enable parallel histochemical and microbiological studies. Goblet cell sialo- and sulfomucins in each biopsy were distinguished histochemically and quantified. Quantitative PCR and multivariate analyses were used to examine the abundance of hydrogenotrophic microbial groups and SRB genera relative to acidomucin profiles. Regional variation was observed in sialomucins and sulfomucins with the greatest abundance of each found in the rectum. Mucin composition did not appear to influence the abundance of SRB or other hydrogenotrophic microbiota but correlated with the composition of different SRB genera. A higher sulfomucin proportion correlated with higher quantities of Desulfobacter, Desulfobulbus and Desulfotomaculum, relative to the predominant Desulfovibrio genus. Thus, acidomucin composition may influence bacterial sulfate respiration in the human colon, which may in turn impact mucosal homeostasis. These results stress the need to consider mucus characteristics in the context of studies of the microbiome that target intestinal diseases.

Published

2011