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Your search keyword '"Bubo Zhou"' showing total 7 results
Start Over Author "Bubo Zhou" Topic general medicine
7 results on '"Bubo Zhou"'

2. Detecting Single Nucleotide Polymorphisms in MEF2B and UCP3 and Elucidating Their Association with Sheep Growth Traits

Author

Wenxin Li, Jiangbo Cheng, Xiaobin Yang, Xiaolong Li, Yukun Zhang, Bubo Zhou, Weimin Wang, Lvfeng Yuan, Changchun Lin, Xiaoxue Zhang, Jianghui Wang, Liming Zhao, Qizhi Song, Deyin Zhang, Yuan Zhao, Fadi Li, and Dan Xu

Subjects
Silent mutation, medicine.medical_specialty, Single-nucleotide polymorphism, Cell Biology, General Medicine, Biology, Body weight, DNA sequencing, Endocrinology, Internal medicine, Genotype, Correlation analysis, Genetics, medicine, Synonymous substitution, Molecular Biology, UCP3
Abstract

Herein we detected single nucleotide polymorphisms in MEF2B and UCP3 by DNA sequencing and the KASPar technology and analyzed their association with sheep growth traits. Two synonymous mutations, g.1826 C > T and g.10266 G > C, were detected, respectively, and they were found to be significantly associated with sheep growth traits (p T, the average body weight and chest and cannon circumference of sheep with the CC genotype were significantly higher than those of sheep with the CT and TT genotypes (p C, the average body weight and chest and cannon circumference of sheep with the GG genotype were significantly higher than those of sheep with the GC and CC genotypes (p < 0.05). Moreover, the average body weight of sheep with the CC/GG genotype was higher compared with those of other genotype combinations. We also assessed MEF2B and UCP3 expression in different sheep tissues, confirming their expression in all examined tissues. To summarize, we believe that the polymorphisms identified in MEF2B and UCP3 can serve as molecular markers for sheep growth traits.

Published
2021

3. Sheep fecal transplantation affects growth performance in mouse models by altering gut microbiota

Author

Jiangbo Cheng, Xiaoxue Zhang, Deyin Zhang, Yukun Zhang, Xiaolong Li, Yuan Zhao, Dan Xu, Liming Zhao, Wenxin Li, Jianghui Wang, Bubo Zhou, Changchun Lin, Xiaobin Yang, Rui Zhai, Panpan Cui, Xiwen Zeng, Yongliang Huang, Zongwu Ma, Jia Liu, and Weimin Wang

Subjects
Gastrointestinal Tract, Mice, Feces, Sheep, Bacteria, Genetics, Animals, Animal Science and Zoology, General Medicine, Fecal Microbiota Transplantation, Gastrointestinal Microbiome, Food Science
Abstract

Animal growth traits are important and complex traits that determine the productivity of animal husbandry. There are many factors that affect growth traits, among which diet digestion is the key factor. In the process of animal digestion and absorption, the role of gastrointestinal microbes is essential. In this study, we transplanted two groups of sheep intestinal microorganisms with different body weights into the intestines of mice of the same age to observe the effect of fecal bacteria transplantation on the growth characteristics of the mouse model. The results showed that receiving fecal microbiota transplantation (FMT) had an effect on the growth traits of recipient mice (P 0.05). Interestingly, only mice receiving high-weight donor microorganisms showed differences. Use 16S rDNA sequencing technology to analyze the stool microorganisms of sheep and mice. The microbial analysis of mouse feces showed that receiving FMT could improve the diversity and richness of microorganisms (P 0.05), and the microbial composition of mouse feces receiving low-weight donor microorganisms was similar to that of the control group, which was consistent with the change trend of growth traits. The feces of high-weight sheep may have higher colonization ability. The same five biomarkers were identified in the donor and recipient, all belonging to Firmicutes, and were positively correlated with the body weight of mice at each stage. These results suggest that FMT affects the growth traits of receptors by remodeling their gut microflora.The rate of development of growth traits determines the productivity of sheep. Shortening the fattening cycle of sheep can effectively improve economic efficiency. Gut microbes have important effects on host growth traits. In this study, the method of fecal microbiota transplantation (FMT) was used to transplant the intestinal microbes of sheep into the mouse model, and the changes of the growth traits and intestinal microbes of the mice were observed. The results suggest that FMT can effectively affect growth traits by altering recipient gut microbes. This provides a new idea for the regulation of sheep growth traits.

Published
2022

4. Relationship between rumen microbial differences and traits among Hu sheep, Tan sheep, and Dorper sheep

Author

Jiangbo Cheng, Xiaoxue Zhang, Dan Xu, Deyin Zhang, Yukun Zhang, Qizhi Song, Xiaolong Li, Yuan Zhao, Liming Zhao, Wenxin Li, Jianghui Wang, Bubo Zhou, Changchun Lin, Xiaobin Yang, Rui Zhai, Panpan Cui, Xiwen Zeng, Yongliang Huang, Zongwu Ma, Jia Liu, and Weimin Wang

Subjects
Butyrates, Rumen, Sheep, Isobutyrates, Fermentation, Genetics, Animals, Animal Science and Zoology, General Medicine, DNA, Ribosomal, Food Science
Abstract

Rumen microbes play an important role in the growth and development of ruminants. Differences in variety will affect the rumen community structure. The three excellent sheep breeds were selected for this study (Hu sheep, Tan sheep, and Dorper sheep) have different uses and origins. The sheep were raised on the same diet to 180 d of age in a consistent environment. 16S rDNA V3 to V4 region sequencing was used to assess the rumen microbes of 180 individuals (60 per breed). There were differences in microbial diversity among different sheep breeds (P0.05). Principal coordinate analysis showed that the three varieties were separated, but also partially overlapped. Linear discriminant analysis effect size identified a total of 19 biomarkers in three breeds. Of these biomarkers, five in Hu sheep were significantly negatively correlated with average feed conversion rate (P0.05). Six biomarkers were identified in the rumen of Dorper sheep, among which Ruminococcus was significantly positively correlated with body weight at 80 d (P0.05). In Tan sheep, Rikenellaceae_RC9_gut_group was significantly positively correlated with meat fat, and significantly positively correlated with volatile fatty acids (VFAs), such as butyric acid and isobutyric acid (P0.05). The Rikenellaceae_RC9_gut_group may regulate Tan mutton fat deposition by affecting the concentration of VFAs. Functional prediction revealed enrichment differences of functional pathways among different sheep breeds were small. All were enriched in functions, such as fermentation and chemoheterotrophy. The results show that there are differences in the rumen microorganisms of the different sheep breeds, and that the microorganisms influence the host.The rumen is the most important digestive organ of ruminants, and the rumen microflora plays an important role in the process of digestion. This study compared the differences in rumen microbes of different breeds of sheep, identified key biomarkers of each breed, and analyzed their correlation with important economic traits of sheep. The results showed that the biomarkers of various breeds were significantly correlated with key traits. Therefore, we believe that there is a link between sheep rumen microbes and the differential traits of different breeds of sheep. This provides a new idea for sheep trait improvement.

Published
2022

5. Molecular characterization and expression of RPS23 and HPSE and their association with hematologic parameters in sheep

Author

Jianghui Wang, Xiaojuan Wang, null WeiminWang, Fadi Li, Deyin Zhang, Xiaolong Li, Yukun Zhang, Yuan Zhao, Liming Zhao, Dan Xu, Jiangbo Cheng, Wenxin Li, Bubo Zhou, Changchun Lin, Xiaobin Yang, Rui Zhai, Xiwen Zeng, and Xiaoxue Zhang

Subjects
Sheep, Liver Neoplasms, Genetics, Animals, General Medicine, Glucuronidase
Abstract

Ribosomal protein S23 (RPS23) and Heparanase (HPSE) were located on chromosome 5 and chromosome 6, respectively, which play vital roles in protein synthesis and immunity. The objective of this study was to clone RPS23 and HPSE and to detect the expression levels of RPS23 and HPSE and the polymorphisms of RPS23 and HPSE associated with the hematologic parameters by using qRT-PCR, DNA sequencing and KASPar assay. The quantitative real-time PCR (RT-qPCR) showed that the two genes were expressed widely in the ten tissues of sheep. The expression levels of RPS23 and HPSE were the highest in lung and liver, respectively. The expression levels of RPS23 and HPSE in lung and liver increased from 0 to 3 months, decreased from 3 to 6 months, respectively. Furthermore, two mutations g.720 A G and g.1077 G A were detected in the RPS23 and HPSE, respectively, which were confirmed to be significantly associated with hematologic parameters. These results supported RPS23 g.720 A G and HPSE g.1077 G A as genetic markers of sheep.

Published
2022

6. Expression of ovine CTNNA3 and CAP2 genes and their association with growth traits

Author

Jiangbo Cheng, Bubo Zhou, Weimin Wang, Changchun Lin, Wenxin Li, Qizhi Song, Xiaolong Li, Fadi Li, Yukun Zhang, Lvfeng Yuan, Xiaoxue Zhang, Liming Zhao, Yuan Zhao, Deyin Zhang, Dan Xu, and Jianghui Wang

Subjects
Genetic Markers, Male, China, Genotype, Body height, Single-nucleotide polymorphism, Chest circumference, Biology, Polymorphism, Single Nucleotide, Linkage Disequilibrium, Animal science, Polymorphism (computer science), Genetics, Animals, Humans, Gene, Genetic association, Adaptor Proteins, Signal Transducing, Sheep, Body Weight, Membrane Proteins, General Medicine, Animal husbandry, Phenotype, Haplotypes, Trait, alpha Catenin
Abstract

Growth traits is a critical economic trait for animal husbandry. In this study, the SNPs of CTNNA3 and CAP2 genes were investigated to check whether they are associated with growth traits (body weight, body height, body length and chest circumference) in Hu sheep. The result of the association analysis indicated that the mutation in CTNNA3 (g.2018018 A G) were associated significantly with body weight, body height, body length and chest circumference (P 0.05), the mutation in CAP2 (g.8588 T C) were associated significantly with body height at 140, 160, 180 days (P 0.05), AA and CC of CTNNA3 and CAP2 were the dominant genotypes associated with growth traits in Hu sheep. Moreover, combined effect analyses indicated that the growth traits with combined genotypes AA

Published
2021

7. Ovine ELOVL5 and FASN genes polymorphisms and their correlations with sheep tail fat deposition

Author

Weimin Wang, Xiaoxue Zhang, Fadi Li, Jianghui Wang, Xiaolong Li, Wenxin Li, Qizhi Song, Lvfeng Yuan, Teng Liu, Liming Zhao, Changchun Lin, Yukun Zhang, Yuan Zhao, Deyin Zhang, Bubo Zhou, Jiangbo Cheng, and Dan Xu

Subjects
Tail, Polymorphism, Genetic, Sheep, Genotype, Fatty Acid Elongases, General Medicine, Biology, Real-Time Polymerase Chain Reaction, Feed conversion ratio, Fatty Acid Synthase, Type I, Animal science, Feeding behavior, Adipose Tissue, Polymorphism (computer science), Genetics, Animals, Body Weights and Measures, Deposition (chemistry), Gene, Adiposity, Body fat distribution
Abstract

Reducing tail fat deposition can increase the economic value of a carcass and improve feed efficiency. This study aimed to explore ELOVL5 and FASN polymorphisms associated with tail fat deposition and their expression levels of sheep. Association analysis showed that ELOVL5 synonymous mutation g.62534 C T was associated with tail width, tail fat weight, and relative tail fat weight (P 0.05). FASN synonymous mutation g.12694 A G was associated with tail length and width (P 0.05). Combined effect analyses indicated significant differences between the combined genotypes and tail fat deposition. Quantitative real-time reverse transcription PCR indicated that the ELOVL5 and FASN expression levels were significantly higher in tail fat than in other tissues (P 0.05). ELOVL5 expression levels in tail-fat tissue of big-tail sheep was significantly higher than that in small-tail sheep (P 0.01). FASN expression levels were significantly higher in tail-fat tissue of small-tail sheep than in that of big-tail sheep (P 0.05). During development, ELOVL5 tail fat expression increased significantly from 0 to 6 months old (P 0.05), and FASN expression at 3 months old was significantly higher than that at 0 (minimum) and 6 months old (P 0.05). Therefore, ELOVL5 and FASN polymorphisms could represent new candidate molecular markers and targets to reduce tail fat deposition in sheep.

Published
2022

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