Examinando por Materia "Flora microbiana"

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Age-dependent changes in protist and fungal microbiota in a peruvian cattle genetic nucleus
(MDPI, 2024-08-14) Estrada Cañari, Richard; Romero Avila, Yolanda Madelein; Quilcate Pairazamán, Carlos Enrique; Dipaz Berrocal, Deisy Juana; Alejos Asencio, Carol Silvia; Leon Trinidad, Silvia Eliana; Alvarez García, Wesley Yusmein; Rojas, Diorman; Alvarado, Wigoberto; Maicelo Quintana, Jorge Luis; Arbizu, Carlos Irvin
In this research, the connection between age and microbial diversity in cattle was explored, revealing significant changes in both protist diversity and fungal microbiota composition with age. Using fecal samples from 21 Simmental cattle, microbial communities were analyzed through 18S rRNA gene sequencing. Results indicated significant differences in alpha protist diversity among the three age groups, while fungal composition varied notably with age and was linked to hematological parameters. Despite the stability of fungal alpha diversity, compositional changes suggest the gut as a stable niche for microbial colonization influenced by diet, clinical parameters, and microbial interactions. All cattle were maintained on a consistent diet, tailored to meet the specific nutritional needs of each age group. These findings emphasize the importance of understanding age-related microbial dynamics to enhance livestock management and animal health, contributing to broader ecological and biomedical research. This study was limited by the lack of comprehensive metabolic analyses correlating microbiota changes with specific age-related variations, indicating a need for further research in this área.
Alterations in the gut microbial composition and diversity associated with diarrhea in neonatal Peruvian alpacas
(Elsevier, 2024-05-09) Zapata Coacalla, Celso; Estrada Cañari, Richard; Oros Butron, Oscar; Sánchez Herencia, Diana; Maicelo Quintana, Jorge L.; Arbizu Berrocal, Carlos I.; Coila Añasco, Pedro
Diarrhea in alpacas is a clinically significant condition and the primary cause of morbidity in neonatal Peruvian alpacas. This study aimed to correlate early diarrhea in crias of alpaca with changes in the microbiota community. A total of 19 alpacas (aged 1–2 months) were collected, including nine with a health condition and ten healthy ones. Fecal samples were obtained under sterile conditions and their DNA was extracted. Sequencing of the V3-V4 region of the 16S rRNA gene was conducted in the Illumina platform, followed by bioinformatics analysis. Reduced microbial diversity was evident in alpacas afflicted with diarrhea, delineating contrasting microbial compositions in comparison to their healthy counterparts. The study characterized the predominant bacterial classes and phyla within the gut microbiota, with Firmicutes, Verrucomicrobiota, and Bacteroidota collectively constituting approximately 80% of the total bacterial population. Substantial disparities in these microbial compositions were observed between the two groups, a variance that appeared to be influenced by both age and the health status of the alpacas. The bacterial class Verrucomicrobiae exhibited a significant presence within the group of alpacas suffering from illness. Furthermore, specific pathogenic species such as Clostridium spiroforme, Blautia, and Bacteroides fragilis were detected in significantly higher proportions among the afflicted alpacas. The functional diversity across the two groups was also found to be markedly different, a distinction that is graphically represented in a heat map illustrating the fifty principal differential KEGGs. This study provides valuable insights into the role of gut microbiota in alpaca health and may have implications for veterinary care and management.
Effects of age in fecal microbiota and correlations with blood parameters in genetic nucleus of cattle
(MDPI, 2024-06-29) Estrada Cañari, Richard; Romero Avila, Yolanda Madelein; Figueroa Venegas, Deyanira Antonella; Coila, Pedro; Hañari Quispe, Renán Dilton; Aliaga, Mery; Galindo, Walter; Alvarado, Wigoberto; Casanova Nuñez-Melgar, David Pavel; Quilcate Pairazamán, Carlos Enrique
This study aimed to determine the impact of age on the fecal microbiota in the genetic nucleus of cattle, with a focus on microbial richness, composition, functional diversity, and correlations with blood parameters. Fecal and blood samples from 21 cattle were analyzed using 16S rRNA gene sequencing. Older cattle exhibited greater bacterial diversity and abundance, with significant changes in alpha diversity indices (p < 0.05). Beta diversity analysis revealed significant variations in microbial composition between age groups and the interaction of age and sex (p < 0.05). Correlations between alpha diversity, community composition, and hematological values highlighted the influence of microbiota on bovine health. Beneficial butyrate-producing bacteria, such as Ruminococcaceae, were more abundant in older cattle, suggesting a role in gut health. Functional diversity analysis indicated that younger cattle had significantly more abundant metabolic pathways in fermentation and anaerobic chemoheterotrophy. These findings suggest management strategies including tailored probiotic therapies, dietary adjustments, and targeted health monitoring to enhance livestock health and performance. Further research should include comprehensive metabolic analyses to better correlate microbiota changes with age-related variations, enhancing understanding of the complex interactions between microbiota, age, and reproductive status.