Your search keyword '"Bobokalonov J"' showing total 14 results

1. Characterization of cellulose based sponges for wound dressings

Author

Gustaite, Sandra, Kazlauske, J., Bobokalonov, J., Perni, Stefano, Dutschk, Victoria, Liesiene, J., and Prokopovich, Polina

Published

2015

2. Kinetics of piroxicam release from low-methylated pectin/zein hydrogel microspheres

Author

Bobokalonov, J. T., Kasimova, G. F., Muhidinov, Z. K., Jonmurodov, A. S., Khalikov, D. Kh., and Liu, LinShu

Published

2012

3. Xerodrymionorientale mediterraneum gorges of the Karatag river

Author

Davlatov Sayfiddin Khairiddin, Sattorov Rakhmatullo Boboevich, and Bobokalonov Jamoliddin Murotalievich

Subjects

Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991

Abstract

The Karatag gorge is one of the natural areas where valuable genetic resources (wild, fruit and many valuable species) are preserved. A characteristic feature of the region is the richness of the diversity of flora and vegetation, where the main formations of Tajik vegetation are noted (maple, hazel, almond, frame, juniper). The article summarizes the results of the authors’ field research on the study of the state of xerophilic forests in the Karatag gorge. For the first time, the authors cite original materials on the phytocenology of all formations of this type of composition. According to the results of our research, the Shibleak communities in the study area are distributed in high-altitude belts from low-hilly 600–800 m to middle mountains 800–1800, 2000 m. The main formations of this type in the study area are: Acer regelii, Crataegus pontica, Celtis caucasic, Pistacia vera, Amygdalis bucharica, Ampelopsis vitifolia, Atraphaxis pyrifolia. As a result of the study, 340 plant species, 6 formations and more than 25 vegetation associations were identified in the composition of the flora of this type of the study area.

Published

2021

4. Variability of Platanus orientalis leaves under a heterogeneous environment in the Hissar Valley of Tajikistan

Author

Davlatzoda Saifiddin, Bobokalonov Jamoliddin, and Baikova Elena

Subjects

Microbiology, QR1-502, Physiology, QP1-981, Zoology, QL1-991

Abstract

Geospatial monitoring of leaves variability has been performed for Platanus orientalis L. (Platanaceae) in Hissar Valley of Tajikistan. 17 local populations were clustered in four territorial groups and investigated by 11 morphometric variables and four indices. Six levels of variability were taken in the classification of S.A. Mamaev. All tested parameters were ranked due to the total score of variability levels. It was established, that indicators which have the combination of high, increased, and medium levels of variability, can be recommended for the purpose of geospatial monitoring. In the studied set of variables are two such ones: (1) the ratio of the length of leaf blade to the lengh of petiole, and (2) the petiole lengh. These two indicators reliably respond to point sources of industrial environmental pollution (Aluminum and Cement factories). Six indicators with domination of the middle level of variability, are of diagnostic value to differ loci inside territorial groups of populations. The results of the experiment confirmed, that set of variability levels for 8 of 15 studied parameters has diagnostic matter for geospatial monitoring of environment conditions in Hissar Valley of Tajikistan.

Published

2020

5. Supplementation with soluble or insoluble rice-bran fibers increases short-chain fatty acid producing bacteria in the gut microbiota in vitro .

Author

Mahalak KK, Liu L, Bobokalonov J, Narrowe AB, Firrman J, Bittinger K, Hu W, Jones SM, and Moustafa AM

Abstract

Introduction: Studies have shown that a diet high in fiber and prebiotics has a positive impact on human health due largely to the fermentation of these compounds by the gut microbiota. One underutilized source of fiber may be rice bran, a waste product of rice processing that is used most frequently as an additive to livestock feed but may be a good source of fibers and other phenolic compounds as a human diet supplement. Previous studies focused on specific compounds extracted from rice bran showed that soluble fibers extracted from rice bran can improve glucose response and reduce weight gain in mouse models. However, less is known about changes in the human gut microbiota in response to regular rice bran consumption., Methods: In this study, we used a Simulator of the Human Intestinal Microbial Ecology (SHIME®) to cultivate the human gut microbiota of 3 different donors in conditions containing either soluble or insoluble fiber fractions from rice bran. Using 16S rRNA amplicon sequencing and targeted metabolomics via Gas Chromatography-Mass Spectrometry, we explored how gut microbial communities developed provided different supplemental fiber sources., Results: We found that insoluble and soluble fiber fractions increased short-chain fatty acid production, indicating that both fractions were fermented. However, there were differences in response between donors, for example the gut microbiota from donor 1 increased acetic acid production with both fiber types compared with control; whereas for donors 2 and 3, butanoic acid production increased with ISF and SF supplementation. Both soluble and insoluble rice bran fractions increased the abundance of Bifidobacterium and Lachnospiraceae taxa., Discussion: Overall, analysis of the effect of soluble and insoluble rice bran fractions on the human in vitro gut microbiota and the metabolites produced revealed individually variant responses to these prebiotics., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Mahalak, Liu, Bobokalonov, Narrowe, Firrman, Bittinger, Hu, Jones and Moustafa.)

Published

2024

6. Modulation of the Gut Microbiota Structure and Function by Two Structurally Different Lemon Pectins.

Author

Firrman J, Mahalak K, Bobokalonov J, Liu L, Lee JJ, Bittinger K, Mattei LM, Gadaingan R, Narrowe AB, and Lemons JMS

Abstract

Pectins are plant polysaccharides consumed as part of a diet containing fruits and vegetables. Inside the gastrointestinal tract, pectin cannot be metabolized by the mammalian cells but is fermented by the gut microbiota in the colon with the subsequent release of end products including short-chain fatty acids (SCFA). The prebiotic effects of pectin have been previously evaluated but reports are inconsistent, most likely due to differences in the pectin chemical structure which can vary by molecular weight (MW) and degree of esterification (DE). Here, the effects of two different MW lemon pectins with varying DEs on the gut microbiota of two donors were evaluated in vitro. The results demonstrated that low MW, high DE lemon pectin (LMW-HDE) altered community structure in a donor-dependent manner, whereas high MW, low DE lemon pectin (HMW-LDE) increased taxa within Lachnospiraceae in both donors. LMW-HDE and HMW-LDE lemon pectins both increased total SCFAs (1.49- and 1.46-fold, respectively) and increased acetic acid by 1.64-fold. Additionally, LMW-HDE lemon pectin led to an average 1.41-fold increase in butanoic acid. Together, these data provide valuable information linking chemical structure of pectin to its effect on the gut microbiota structure and function, which is important to understanding its prebiotic potential.

Published

2022

7. Persistence of the Probiotic Lacticaseibacillus rhamnosus Strain GG (LGG) in an In Vitro Model of the Gut Microbiome.

Author

Mahalak KK, Firrman J, Bobokalonov J, Narrowe AB, Bittinger K, Daniel S, Tanes C, Mattei LM, Zeng WB, Soares JW, Kobori M, Lemons JMS, Tomasula PM, and Liu L

Subjects

Humans, RNA, Ribosomal, 16S genetics, Fatty Acids, Volatile, Gastrointestinal Microbiome, Lacticaseibacillus rhamnosus, Probiotics

Abstract

The consumption of probiotics is widely encouraged due to reports of their positive effects on human health. In particular, Lacticaseibacillus rhamnosus strain GG (LGG) is an approved probiotic that has been reported to improve health outcomes, especially for gastrointestinal disorders. However, how LGG cooperates with the gut microbiome has not been fully explored. To understand the interaction between LGG and its ability to survive and grow within the gut microbiome, this study introduced LGG into established microbial communities using an in vitro model of the colon. LGG was inoculated into the simulated ascending colon and its persistence in, and transit through the subsequent transverse and descending colon regions was monitored over two weeks. The impact of LGG on the existing bacterial communities was investigated using 16S rRNA sequencing and short-chain fatty acid analysis. LGG was able to engraft and proliferate in the ascending region for at least 10 days but was diminished in the transverse and descending colon regions with little effect on short-chain fatty acid abundance. These data suggest that the health benefits of the probiotic LGG rely on its ability to transiently engraft and modulate the host microbial community.

Published

2022

8. A xylan assisted surface-enhanced Raman scattering substrate for rapid food safety detection.

Author

Xiang Z, He M, Li L, Bobokalonov J, Dzhonmurodov A, and Ji X

Abstract

Cellulose fiber/paper-based surface-enhanced Raman scattering (SERS) is considered as a promising food safety detection technology due to its non-toxicity, low cost, flexibility, and hygroscopicity for possible rapid on-site agricultural product contaminant detection. However, it faces the problems of poor noble metal adhesion and toxic noble metal reducing agent. In this study, a natural macromolecule-xylan was used as both a reducing agent and a stabilizing agent to prepare stable Au-Ag bimetal nanoparticles, which were anchored on the paper surface by xylans in order to fabricate a paper-based Au-Ag bimetallic SERS substrate. The results show that the SERS substrate has a high Raman enhancement performance and reproductively. The substrate can effectively detect trace pesticide, i.e., thiram, and the limit of detection is as low as 1 × 10 -6  mol/L (0.24 ppm). In addition, the paper-based SERS substrate can be used for direct detection of pesticide residues on the surface of fruit. The paper-based SERS substrate developed in this study has great potential in applications for rapid food safety detection., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2022 Xiang, He, Li, Bobokalonov, Dzhonmurodov and Ji.)

Published

2022

9. The impact of environmental pH on the gut microbiota community structure and short chain fatty acid production.

Author

Firrman J, Liu L, Mahalak K, Tanes C, Bittinger K, Tu V, Bobokalonov J, Mattei L, Zhang H, and Van den Abbeele P

Subjects

Bacteroidetes, Fatty Acids, Volatile, Feces microbiology, Firmicutes, Hydrogen-Ion Concentration, Gastrointestinal Microbiome physiology

Abstract

Environmental pH is a critical parameter for maintenance of the gut microbiota. Here, the impact of pH on the gut microbiota luminal and mucosal community structure and short chain fatty acid (SCFA) production was evaluated in vitro, and data compiled to reveal a donor-independent response to an increase or decrease in environmental pH. The results found that raising environmental pH significantly increased luminal community richness and decreased mucosal community evenness. This corresponded with an increased abundance of Ruminococcaceae Ruminococcus and Erysipelotrichaceae Erysipelatoclostridium, and a decreased abundance of Coriobacteriaceae Collinsella and Enterobacteriaceae Shigella for both the luminal and mucosal communities. Total SCFA levels were significantly higher, primarily due to an increase in acetic and 2-methylbutanoic acids. Lowering pH decreased luminal community evenness and decreased mucosal community evenness and richness. This corresponded with an increased abundance of Lachnospiraceae Enterocloster, Veillonellaceae Megasphaera, Veillonellaceae Sporomusa, Erysipelotrichaceae Eubacterium, and Alcaligenaceae Sutterella, and decreased abundance of Odoribacteraceae Butyricimonas, Fusobacteriaceae Fusobacterium, Veillonellaceae Phascolarctobacterium, and multiple Enterobacteriaceae species for both the luminal and mucosal communities. Total SCFA levels were significantly lower, with an observed drop in acetic and propionic acids, and increased butyric and valeric acids. Taken together, these results indicate that alterations to environmental pH can modulate the gut microbiota community structure and function, and some changes may occur in a donor-independent manner., (Published by Oxford University Press on behalf of FEMS 2022.)

Published

2022

10. Analysis of the Ability of Capsaicin to Modulate the Human Gut Microbiota In Vitro.

Author

Mahalak KK, Bobokalonov J, Firrman J, Williams R, Evans B, Fanelli B, Soares JW, Kobori M, and Liu L

Subjects

Capsaicin pharmacology, Diet, Humans, Obesity, Gastrointestinal Microbiome physiology

Abstract

Previous studies on capsaicin, the bioactive compound in chili peppers, have shown that it may have a beneficial effect in vivo when part of a regular diet. These positive health benefits, including an anti-inflammatory potential and protective effects against obesity, are often attributed to the gut microbial community response to capsaicin. However, there is no consensus on the mechanism behind the protective effect of capsaicin. In this study, we used an in vitro model of the human gut microbiota to determine how regular consumption of capsaicin impacts the gut microbiota. Using a combination of NextGen sequencing and metabolomics, we found that regular capsaicin treatment changed the structure of the gut microbial community by increasing diversity and certain SCFA abundances, particularly butanoic acid. Through this study, we determined that the addition of capsaicin to the in vitro cultures of the human gut microbiome resulted in increased diversity of the microbial community and an increase in butanoic acid. These changes may be responsible for the health benefits associated with CAP consumption.

Published

2022

11. Evaluation of Extended-release of Piroxicam-loaded Pectin-zein Hydrogel Microspheres: In vitro , Ex vivo , and In vivo Studies.

Author

Bobokalonov J, Muhidinov Z, Nasriddinov A, Jomnurodov A, Khojaeva F, Komilova G, Yusufi S, and Liu L

Subjects

Delayed-Action Preparations, Hydrogels, Microspheres, Pectins, Polymers, Piroxicam, Zein

Abstract

Objective: This study evaluated drug delivery systems based on Pectin (P) and Zein (Z) hydrogel microspheres. Piroxicam (Px) loaded P/Z hydrogel microspheres (P/Z HM) were developed, and their extended-release pharmacokinetic properties were evaluated., Methods: Experiments were executed under three different conditions: in vitro, ex vivo, and in vivo. Then, the in vitro-in vivo correlations (IVIVC) and ex vivo-in vivo correlations (EVIVC) were examined., Results: Analysis of drug release mechanisms were evaluated by fitting the in vitro data into the Ritger- Peppas equation, showing the contribution of both polymers' relaxation and drug diffusion from the hydrogel microspheres. The fraction absorbed in vivo was determined by the deconvolution of plasma concentration data using the Loo-Riegelman method. After oral single-dose administration of the two formulations, their basic independent model parameters were calculated., Conclusion: P/Z HM had different drug release behaviors in in vitro and in vivo conditions. However, the ex vivo and in vivo characteristics were similar (R² = 0.99). It seemed reasonable to use the ex vivo method to predict the in vivo drug absorption behavior during the polymeric drug delivery system developmental studies. The P/Z HM formulation maintained the drug dose at the colon site for a long duration and could be applied for delivery of active pharmaceutical and food ingredients to the colon site., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2022

12. Comparative analysis of the gut microbiota cultured in vitro using a single colon versus a 3-stage colon experimental design.

Author

Firrman J, Liu L, Mahalak K, Tanes C, Bittinger K, Bobokalonov J, Mattei L, Zhang H, and Van den Abbeele P

Subjects

Colon, Fatty Acids, Volatile, Humans, Research Design, Gastrointestinal Microbiome, Microbiota

Abstract

The importance of the gut microbiota in human health and disease progression makes it a target for research in both the biomedical and nutritional fields. To date, a number of in vitro systems have been designed to recapitulate the gut microbiota of the colon ranging in complexity from the application of a single vessel to cultivate the community in its entirety, to multi-stage systems that mimic the distinct regional microbial communities that reside longitudinally through the colon. While these disparate types of in vitro designs have been employed previously, information regarding similarities and differences between the communities that develop within was less defined. Here, a comparative analysis of the population dynamics and functional production of short-chain fatty acids (SCFAs) was performed using the gut microbiota of the same donor cultured using a single vessel and a 3-stage colon system. The results found that the single vessel communities maintained alpha diversity at a level comparable to the distal regions of the 3-stage colon system. Yet, there was a marked difference in the type and abundance of taxa, particularly between families Enterobacteriaceae, Bacteroidaceae, Synergistaceae, and Fusobacteriaceae. Functionally, the single vessel community produced significantly less SCFAs compared to the 3-stage colon system. These results provide valuable information on how culturing technique effects gut microbial composition and function, which may impact studies relying on the application of an in vitro strategy. This data can be used to justify experimental strategy and provides insight on the application of a simplified versus complex study design. KEY POINTS : • A mature gut microbiota community can be developed in vitro using different methods. • Beta diversity metrics are affected by the in vitro culturing method applied. • The type and amount of short-chain fatty acids differed between culturing methods.

Published

2021

13. Triclosan has a robust, yet reversible impact on human gut microbial composition in vitro.

Author

Mahalak KK, Firrman J, Lee JJ, Bittinger K, Nuñez A, Mattei LM, Zhang H, Fett B, Bobokalonov J, Arango-Argoty G, Zhang L, Zhang G, and Liu LS

Subjects

Biodiversity, Dose-Response Relationship, Drug, Gastrointestinal Microbiome genetics, Humans, Gastrointestinal Microbiome drug effects, Triclosan pharmacology

Abstract

The recent ban of the antimicrobial compound triclosan from use in consumer soaps followed research that showcased the risk it poses to the environment and to human health. Triclosan has been found in human plasma, urine and milk, demonstrating that it is present in human tissues. Previous work has also demonstrated that consumption of triclosan disrupts the gut microbial community of mice and zebrafish. Due to the widespread use of triclosan and ubiquity in the environment, it is imperative to understand the impact this chemical has on the human body and its symbiotic resident microbes. To that end, this study is the first to explore how triclosan impacts the human gut microbial community in vitro both during and after treatment. Through our in vitro system simulating three regions of the human gut; the ascending colon, transverse colon, and descending colon regions, we found that treatment with triclosan significantly impacted the community structure in terms of reduced population, diversity, and metabolite production, most notably in the ascending colon region. Given a 2 week recovery period, most of the population levels, community structure, and diversity levels were recovered for all colon regions. Our results demonstrate that the human gut microbial community diversity and population size is significantly impacted by triclosan at a high dose in vitro, and that the community is recoverable within this system., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

14. Effect of ultrasonication, pH and heating on stability of apricot gum-lactoglobuline two layer nanoemulsions.

Author

Shamsara O, Muhidinov ZK, Jafari SM, Bobokalonov J, Jonmurodov A, Taghvaei M, and Kumpugdee-Vollrath M

Subjects

Chromatography, Gel, Hot Temperature, Hydrogen-Ion Concentration, Protein Stability, Sonication, Static Electricity, Temperature, Time Factors, Emulsions chemistry, Lactoglobulins chemistry, Nanoparticles chemistry, Plant Gums chemistry, Prunus armeniaca chemistry, Ultrasonics

Abstract

The objectives of this study were to evaluate the effect of apricot gum-lactoglobuline (AG/LgC) ratio, thermal treatment, sonication with different times and amplitudes and pH, on double layer sunflower oil in water emulsion stability. The emulsion stability was determined by the evaluation of emulsion performance indices including particle size, zeta potential, creaming and emulsion volume stability during 10 days of storage. Applying AG and LgC with the ratio of 12.5:1 AG:LgC, in order to obtain double layer oil in water emulsion, could result in a completely stable nano-emulsions during 10 days storage in room temperature. The ultrasound treatment significantly increased the emulsion stability. A 10min ultrasound treatment with the amplitude of 25% was the optimum conditions for ultra-sonication. The best temperature for thermal treatment and the best pH, in order to improve the emulsion's stability, was 50°C and 3, respectively., (Copyright © 2015 Elsevier B.V. All rights reserved.)

Published

2015