Your search keyword '"Changjun Shao"' showing total 7 results

1. T2T-YAO: A Telomere-to-telomere Assembled Diploid Reference Genome for Han Chinese

Author

Yukun He, Yanan Chu, Shuming Guo, Jiang Hu, Ran Li, Yali Zheng, Xinqian Ma, Zhenglin Du, Lili Zhao, Wenyi Yu, Jianbo Xue, Wenjie Bian, Feifei Yang, Xi Chen, Pingan Zhang, Rihan Wu, Yifan Ma, Changjun Shao, Jing Chen, Jian Wang, Jiwei Li, Jing Wu, Xiaoyi Hu, Qiuyue Long, Mingzheng Jiang, Hongli Ye, Shixu Song, Guangyao Li, Yue Wei, Yu Xu, Yanliang Ma, Yanwen Chen, Keqiang Wang, Jing Bao, Wen Xi, Fang Wang, Wentao Ni, Moqin Zhang, Yan Yu, Shengnan Li, Yu Kang, and Zhancheng Gao

Subjects

Reference genome, Telomere-to-telomere assembly, Han Chinese, Haplotype-resolved assembly, Diploid, Biology (General), QH301-705.5, Computer applications to medicine. Medical informatics, R858-859.7

Abstract

Since its initial release in 2001, the human reference genome has undergone continuous improvement in quality, and the recently released telomere-to-telomere (T2T) version — T2T-CHM13 — reaches its highest level of continuity and accuracy after 20 years of effort by working on a simplified, nearly homozygous genome of a hydatidiform mole cell line. Here, to provide an authentic complete diploid human genome reference for the Han Chinese, the largest population in the world, we assembled the genome of a male Han Chinese individual, T2T-YAO, which includes T2T assemblies of all the 22 + X + M and 22 + Y chromosomes in both haploids. The quality of T2T-YAO is much better than those of all currently available diploid assemblies, and its haploid version, T2T-YAO-hp, generated by selecting the better assembly for each autosome, reaches the top quality of fewer than one error per 29.5 Mb, even higher than that of T2T-CHM13. Derived from an individual living in the aboriginal region of the Han population, T2T-YAO shows clear ancestry and potential genetic continuity from the ancient ancestors. Each haplotype of T2T-YAO possesses ∼ 330-Mb exclusive sequences, ∼ 3100 unique genes, and tens of thousands of nucleotide and structural variations as compared with CHM13, highlighting the necessity of a population-stratified reference genome. The construction of T2T-YAO, an accurate and authentic representative of the Chinese population, would enable precise delineation of genomic variations and advance our understandings in the hereditability of diseases and phenotypes, especially within the context of the unique variations of the Chinese population.

Published

2023

2. Enhanced intestinal protein fermentation in schizophrenia

Author

Ying Liang, Xing Shi, Yang Shen, Zhuoran Huang, Jian Wang, Changjun Shao, Yanan Chu, Jing Chen, Jun Yu, and Yu Kang

Subjects

Schizophrenia, Gut microbiota, Protein fermentation, Macronutrient metabolism, Nutrition care, Dysbiosis, Medicine

Abstract

Abstract Background Emerging findings highlighted the associations of mental illness to nutrition and dysbiosis in the intestinal microbiota, but the underlying mechanisms, especially in schizophrenia (SZ), remain unclarified. Methods We conducted a case-control study of SZ patients (case to control=100:52) by performing sequencing of the gut metagenome; measurement of fecal and plasma non-targeted metabolome; including short-, medium-, and long-chain fatty acids; and targeted metabolites, along with recorded details of daily intakes of food. Results The metagenome analysis uncovered enrichment of asaccharolytic species and reduced abundance of carbohydrate catabolism pathways and enzymes in the gut of SZ patients, but increased abundance of peptidases in contrast to their significantly reduced protein intake. Fecal metabolome analysis identified increased concentrations of many protein catabolism products, including amino acids (AAs), urea, branched short-chain fatty acids, and various nitrogenous derivates of aromatic AAs in SZ patients. Protein synthesis, represented by the abundance of AA-biosynthesis pathways and aminoacyl-tRNA transferases in metagenome, was significantly decreased. The AUCs (area under the curve) of the diagnostic random forest models based on their abundance achieved 85% and 91%, respectively. The fecal levels of AA-fermentative enzymes and products uniformly showed positive correlations with the severity of psychiatric symptoms. Conclusions Our findings revealed apparent dysbiosis in the intestinal microbiome of SZ patients, where microbial metabolism is dominated by protein fermentation and shift from carbohydrate fermentation and protein synthesis in healthy conditions. The aberrant macronutrient metabolism by gut microbes highlights the importance of nutrition care and the potential for developing microbiota-targeted therapeutics in SZ.

Published

2022

3. Gut lactate-producing bacteria promote CD4 T cell recovery on Anti-retroviral therapy in HIV-infected patients

Author

Wei Lyu, Qingren Meng, Jingfa Xiao, Jing Li, Jian Wang, Zhifeng Qiu, Xiaojing Song, Hua Zhu, Changjun Shao, Yanan Chu, Qian Zhou, Taisheng Li, Routy Jean-Pierre, Jun Yu, Yang Han, and Yu Kang

Subjects

Lactic acid bacteria, Metagenome, HIV, Immune recovery, Biotechnology, TP248.13-248.65

Abstract

Anti-retroviral therapy (ART) effectively suppresses viral replication in HIV-infected patients, however CD4 + cell restoration to normal value is not achieved by 15–20% of patients who are called immune non-responders. Gut microbiota composition has been shown to influence host immunity. Herein, to identify intestinal microbial agents that may influence the CD4 recovery in HIV-infected patients, we utilized a “Quasi-paired cohort” method to analyze intestinal metagenome data from immunological responders (IRs) and immunological non-responders (INRs). This method identified significant enrichment for Streptococcus sp. and related lactate-producing bacteria (LAB) in IRs. In a validation cohort, positive correlations between the abundance of these LAB and the post-ART CD4 + recovery was observed, and a prediction model based on these LAB performed well in predicting immune recovery. Finally, experiments using a germ-free mouse model of antibody-induced CD4 + cell depletion showed that supplementation with a lactate-producing commensal Streptococcus thermophilus strongly promoted CD4 recovery. In conclusion, our study identified a group of LAB that was associated with enhanced immune recovery in post-ART HIV-infected patients and promotes CD4 + cell restoration in a mouse model. These findings favour supplementation of LAB commensal as a therapeutic strategy for CD4 + cell count improvement in HIV-infected patients.

Published

2021

4. Microfluidics-Based Enrichment and Whole-Genome Amplification Enable Strain-Level Resolution for Airway Metagenomics

Author

Xing Shi, Changjun Shao, Chunxiong Luo, Yanan Chu, Jian Wang, Qingren Meng, Jun Yu, Zhancheng Gao, and Yu Kang

Subjects

emulsion, metagenomics, microfluidic chip, respiratory microbiome, Microbiology, QR1-502

Abstract

ABSTRACT Dysbiosis of airway microbiomes has been found in various respiratory diseases, but its molecular details in terms of taxonomic profile, metabolic characteristics, defensive function, and inhabit adaption are far from clear. Shotgun metagenome sequencing provides detailed information for microbes, whereas its application is rather limited in airways due to host DNA contaminants that overwhelm a minute amount of microbial content. Here, we describe a microfluidics-based enrichment device and an emulsion-based whole-genome amplification procedure (MEEA) for the preparation of DNA from sputa for shotgun sequencing in a metagenomics study. The two protocols coupled in MEEA are first separately assayed with mock samples and are both promising in efficiency and bias. The efficiency and consistency of MEEA are further evaluated in six clinical sputum samples against direct sequencing without enrichment, and MEEA enables 2 to 14 times enrichment for microbial reads, which take 14.68% to 33.52% of total reads. The dominant pathogens detected in MEEA are in excellent agreement with those from clinical etiological tests. Meanwhile, MEEA presents much more microbiome complexity and genome information at a strain level than direct sequencing, exhibiting high sensitivity for identifying prophages and DNA viruses. MEEA provides better microbiome profiling than direct sequencing without a preference for specific microorganisms. The more detailed functional and taxonomic characterization of their species constituents, including both bacterium and virus, facilitates metagenomics studies on the pathogenesis of respiratory microbiomes. IMPORTANCE The airway microbial community, which takes important pathogenic roles for respiratory diseases, is far from clear in terms of taxonomy and gene functions. One of the critical reasons is the heavy contamination of host cell/DNA in airway samples, which hinders the subsequent sequencing of the whole genomic contents of the microbial community—the metagenome. Here, we describe a protocol for airway sample preparation which couples a microbe enrichment microfluidic device and a DNA amplification method performed in numerous droplets. When evaluated with mock and clinical sputum samples, the microfluidics-based enrichment device and emulsion-based whole-genome amplification (MEEA) procedure efficiently removes host cells, amplifies the microbial genome, and shows no obvious bias among microbes. The efficiency of MEEA makes it a promising method in research of respiratory microbial communities and their roles in diseases.

Published

2019

5. Roles of host small RNAs in the evolution and host tropism of coronaviruses.

Author

Qingren Meng, Yanan Chu, Changjun Shao, Jing Chen, Jian Wang 0065, Zhancheng Gao, Jun Yu 0004, and Yu Kang 0004

Published

2021

6. Intestinal butyrate-metabolizing species contribute to autoantibody production and bone erosion in rheumatoid arthritis

Author

Jing He, Yanan Chu, Jing Li, Qingren Meng, Yudong Liu, Jiayang Jin, Yifan Wang, Jian Wang, Bo Huang, Lianjie Shi, Xing Shi, Jiayi Tian, Yunzhi Zhufeng, Ruiling Feng, Wenjing Xiao, Yuzhou Gan, Jianping Guo, Changjun Shao, Yin Su, Fanlei Hu, Xiaolin Sun, Jun Yu, Yu Kang, and Zhanguo Li

Subjects

Arthritis, Rheumatoid, Butyrates, Mice, Multidisciplinary, Anti-Inflammatory Agents, Animals, Humans, T-Lymphocytes, Regulatory, Gastrointestinal Microbiome

Abstract

The imbalance between pathogenic and beneficial species of the intestinal microbiome and metabolism in rheumatoid arthritis (RA) remains unclarified. Here, using shotgun-based metagenome sequencing for a treatment-naïve patient cohort and a “quasi-paired cohort” method, we observed a deficiency of butyrate-producing species and an overwhelming number of butyrate consumers in RA patients. These outcomes mainly occurred in patients with positive ACPA, with a mean AUC of 0.94. This panel was also validated in established RA with an AUC of 0.986 in those with joint deformity. In addition, we showed that butyrate promoted T regs , while suppressing T convs and osteoclasts, due to potentiation of the reduction in HDAC expression and down-regulation of proinflammatory cytokine genes. Dietary butyrate supplementation conferred anti-inflammatory benefits in a mouse model by rebalancing T FH cells and T regs , as well as reducing antibody production. These findings reveal the critical role of butyrate-metabolizing species and suggest the potential of butyrate-based therapies for RA patients.

Published

2022

7. An acoustic-optical fiber NDE technique for interfacial debonding detection in FRP-retrofitted structures

Author

Zhian Liu, Ying Xu, Changjun Shao, and Rui Chen

Subjects

Optical fiber, Materials science, business.industry, Mechanical Engineering, Fibre-reinforced plastic, Condensed Matter Physics, Finite element method, law.invention, Vibration, Interferometry, law, Nondestructive testing, General Materials Science, Fiber, Composite material, business, Beam (structure)

Abstract

Based on the theory of free vibration of a thin plate, the acoustic-optical fiber NDE technique is proposed for the detection of interfacial debonding in FRP-retrofitted structures. A focused sound beam generated from a variable frequency loudspeaker source can be controlled to form a local vibration field at the surface of an FRP-retrofitted structure. Local vibration anomalies caused by interfacial debonding in the structure can be measured by the surface-mounted optical fiber interferometer, and thus, interfacial debonding can be detected, mapped, and quantified. Based on the results from both numerical and experimental studies, the feasibility of interfacial debonding detection in FRP-retrofitted structures with the proposed technique is demonstrated.

Published

2015