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Introduction: As tick-borne diseases rise to become the second most prevalent arthropod-transmitted disease globally, the increasing investigations focus on ticks correspondingly. Factors contributed to this increase include anthropogenic influences, changes in vertebrate faunal composition, social-recreational shifts, and climatic variation. Employing the 16S gene sequence method in next-generation sequencing (NGS) allows comprehensive pathogen identification in samples, facilitating the development of refined approaches to tick research omnidirectionally. Methods: In our survey, we compared the microbial richness and biological diversity of ticks in Wuwei City, Gansu province, differentiating between questing ticks found in grass and parasitic ticks collected from sheep based on 16S NGS method. Results: The results show Rickettsia, Coxiella, and Francisella were detected in all 50 Dermacentor nuttalli samples, suggesting that the co-infection may be linked to specific symbiotic bacteria in ticks. Our findings reveal significant differences in the composition and diversity of microorganisms, with the Friedmanniella and Bordetella genera existing more prevalent in parasitic ticks than in questing ticks (p < 0.05). Additionally, the network analysis demonstrates that the interactions among bacterial genera can be either promotive or inhibitive in ticks exhibiting different lifestyles with the correlation index |r| > 0.6. For instance, Francisella restrains the development of 10 other bacteria in parasitic ticks, whereas Phyllobacterium and Arthrobacter enhance colonization across all tick species. Discussion: By leveraging NGS techniques, our study reveals a high degree of species and phylogenetic diversity within the tick microbiome. It further highlights the potential to investigate the interplay between bacterial genera in both parasitic and questing ticks residing in identical habitat environments.
RESUMEN
Aim To investigate the inhibitory effects of the novel compounds YZG-330 and YZG-331 in central nervous system. Methods The sedative effect was investigated by recording the spontaneous locomotor ac-tivity in mice. The hypnotic effect was evaluated by the latency and duration of the loss of righting reflex ( LORR) in the threshold dosage of sodium pentobarbi-tal treated mice. The two compounds induced the mice that had woken up after a threshold dosage pentobarbi-tal sodium to fall asleep again. The levels of GABA and Glu in brain were measured by HPLC-ECD. Re-sults The results showed that spontaneous locomotor activities decreased in YZG-330 (0.125, 0.5,2 mg·kg-1 ) treated mice and YZG-331 (1.25, 5, 20 mg· kg-1 ) treated mice. YZGs could extend the duration of the loss of righting reflex in threshold dosage of sodium pentobarbital treated mice, and significantly shorten sleep latency. YZGs were able to allow the mice that had woken up after a threshold dosage pentobarbital so-dium to fall asleep again. YZG-331 (40 mg·kg-1 ,i. g. ) could significantly increase GABA level in hypo-thalamus and cerebral cortex. The content of GABA had no significant change after YZG-330 ( 2 mg · kg-1 , ig. ) administration. Conclusions YZG-330 and YZG-331 have potent sedative and hypnotic effects. The efficacy of YZG-330 is stronger than that of YZG-331 , but the mechanism of two compounds sounds different.
