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1. Microwave electrometry with Rydberg atoms in a vapor cell using microwave amplitude modulation

Author

Hao, Jianhai, Jia, Fengdong, Cui, Yue, Wang, Yuhan, Zhou, Fei, Liu, Xiubin, Zhang, Jian, Xie, Feng, and Zhong, Zhiping

Subjects
Physics - Atomic Physics, Quantum Physics
Abstract

We have theoretically and experimentally studied the dispersive signal of the Rydberg atomic electromagnetically induced transparency (EIT) - Autler-Townes (AT) splitting spectra obtained using amplitude modulation of the microwave (MW) field. In addition to the two zero-crossing points, the dispersion signal has two positive maxima with an interval defined as the shoulder interval of the dispersion signal $\Delta f_{\text{sho}}$. The relationship of MW field strength $E_{\text{MW}}$ and $\Delta f_{\text{sho}}$ are studied at the MW frequencies of 31.6 GHz, 22.1 GHz, and 9.2 GHz respectively. The results show that $\Delta f_{\text{sho}}$ can be used to character the much weaker $E_{\text{MW}}$ than the interval of two zero-crossing points $\Delta f_{\text{zeros}}$ and the traditional EIT-AT splitting interval $\Delta f_{\text{m}}$, the minimum $E_{\text{MW}}$ measured by $\Delta f_{\text{sho}}$ is about 30 times smaller than that by $\Delta f_{\text{m}}$. As an example, the minimum $E_{\text{MW}}$ at 9.2 GHz that can be characterized by $\Delta f_{\text{sho}}$ is 0.056 mV/cm, which is the minimum value characterized by frequency interval using vapour cell without adding any auxiliary fields. The proposed method can improve the weak limit and sensitivity of $E_{\text{MW}}$ measured by spectral frequency interval, which is important in the direct measurement of weak $E_{\text{MW}}$.

Published
2023

4. Lactation-promoting ingredients of Hemerocallis citrina Borani and the corresponding mechanisms.

Author

Fang, Jinpeng, Xu, Mengtao, Qiu, ZhengYue, Ye, Tian, Jiang, HongLing, Qin, FengYi, Hu, Yuan, Jiang, Faying, Zhong, JuHua, Zhu, Yishuo, Zhao, Lewei, Liu, Xiubin, Zeng, Jianguo, Xu, Yuqin, and Qing, Zhixing

Abstract

Hemerocallis citrina Borani is a traditional folk food used to promote the lactation of postpartum mothers in China; however, the active ingredients and corresponding mechanisms are still unknown. In this study, the lactogenic effect of alcoholic and aqueous extracts of H. citrina was primarily evaluated, and the aqueous extract (1,000 and 2,000 mg/kg) displayed significant lactation-promoting effects. Three eluates of the aqueous extract (0%, 30%, and 50%HCW) were further evaluated for their lactogenic effect, and 30% and 50% HCW showed significant lactation-promoting activity. Nineteen ingredients, including those with a high content of rutin and isoquercetin, were then identified from 30% and 50%HCW using the ultra-performance liquid chromatography-quadrupole-time-of-flight-mass spectrometry (UPLC-Q-TOF-MS) method. Finally, the lactogenic effect of rutin and isoquercetin was evaluated, and both compounds displayed significant lactation-promoting activity. The mechanisms relative to the lactation-promoting active ingredients for H. citrina extracts and compounds are to stimulate the release of prolactin (PRL) and progesterone (P), as well as to induce the expression of prolactin receptor (PRLR) and improve the morphology of mammary tissue. This study first clarified the lactation-promoting active ingredients of H. citrina and the corresponding mechanisms, which provide a new insight into the new lactation-promoting drug and promote the high-value utilization of H. citrina resources. [ABSTRACT FROM AUTHOR]

Published
2024
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7. A Dynamical Evolution Approach to High Placement Performance and Low Fault-Tolerant Cost for Bio-Inspired Self-Repairing Hardware

Author

Liu Xiubin, Li Duo, and Li Yue

Subjects
Bio-inspired self-repairing hardware, dynamical evolution, placement performance, fault-tolerant cost, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Bio-inspired self-repairing hardware is a reconfigurable system characterized by high fault-tolerant ability. To further increase the placement performance and reduce the fault-tolerant cost, a dynamical evolution approach to multi-objective dynamic placement is developed. A primary challenge for our study is computational complexity. Based on group theory, the computing task was divided on the dimensions of time and space to increase the utilization of online computing resources. By introducing the multi-step placement transformation, a discrete dynamical system model was built and the multi-objective dynamic placement was converted into a stability problem of constrained systems. In order to satisfy the dynamical requirements, an artificial particle system model was built and its evolution laws were verified by dynamic analysis. By simulating the evolution laws, a dynamical evolution algorithm was proposed, which could avoid large-scale iterative calculation used in the conventional optimization search algorithms. Experiments have shown that the dynamical evolution method could offer high placement performance with low fault-tolerant cost. Besides, it also has the advantage of high design flexibility since there is no initial placement constraint.

Published
2020
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8. Dynamic Placement Optimization for Bio-Inspired Self-Repairing Hardware

Author

Liu Xiubin, Qian Yanling, Feng Xiangli, Zhuo Qingqi, and Li Yue

Subjects
Bio-inspired self-repairing hardware, dynamic placement optimization, P systems, computing model, membrane optimization algorithms, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Bio-inspired self-repairing hardware is a distributed self-adaptive system, characterized by powerful fault-tolerant ability and environment adaptivity. However, it suffers from some difficulties such as large resource consumption and degraded circuit performances. From the viewpoint of cybernetics and computer science, the cellular differentiation and substitution process of bio-inspired self-repairing hardware can be converted into dynamic placement problems on a reconfigurable system. Current systems can only generate some predefined fault-free placements from a finite number of initial placements. The aim of this paper was to achieve high-quality placements from arbitrary initial placements. Based on P systems, an analysis has been made on the limitations of current systems and an improved computing system has been developed to achieve the ergodic property. Its computational power has been verified by a constructive proof. Moreover, centering on the problem how to improve the placement quality on a distributed platform, the optimization model, task allocation, optimization strategy, and membrane optimization algorithm have been designed and developed. The optimization performances were verified and the calculation amount was exhibited by experiments. Finally, it indicated by comparison that the proposed approach would reduce the resource consumption and maintain good circuit performances.

Published
2020
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12. The chicken gut metagenome and the modulatory effects of plant-derived benzylisoquinoline alkaloids

Author

Huang, Peng, Zhang, Yan, Xiao, Kangpeng, Jiang, Fan, Wang, Hengchao, Tang, Dazhi, Liu, Dan, Liu, Bo, Liu, Yisong, He, Xi, Liu, Hua, Liu, Xiubin, Qing, Zhixing, Liu, Conghui, Huang, Jialu, Ren, Yuwei, Yun, Long, Yin, Lijuan, Lin, Qian, Zeng, Cheng, Su, Xiaogang, Yuan, Jingyang, Lin, Li, Hu, Nanxi, Cao, Hualiang, Huang, Sanwen, Guo, Yuming, Fan, Wei, and Zeng, Jianguo

Published
2018
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18. A Dynamical Evolution Approach to High Placement Performance and Low Fault-Tolerant Cost for Bio-Inspired Self-Repairing Hardware

Author

Li Duo, Liu Xiubin, and Li Yue

Subjects
dynamical evolution, General Computer Science, business.industry, Computer science, fault-tolerant cost, General Engineering, Fault tolerance, placement performance, Bio-inspired self-repairing hardware, Embedded system, Self repairing, General Materials Science, lcsh:Electrical engineering. Electronics. Nuclear engineering, business, lcsh:TK1-9971
Abstract

Bio-inspired self-repairing hardware is a reconfigurable system characterized by high fault-tolerant ability. To further increase the placement performance and reduce the fault-tolerant cost, a dynamical evolution approach to multi-objective dynamic placement is developed. A primary challenge for our study is computational complexity. Based on group theory, the computing task was divided on the dimensions of time and space to increase the utilization of online computing resources. By introducing the multi-step placement transformation, a discrete dynamical system model was built and the multi-objective dynamic placement was converted into a stability problem of constrained systems. In order to satisfy the dynamical requirements, an artificial particle system model was built and its evolution laws were verified by dynamic analysis. By simulating the evolution laws, a dynamical evolution algorithm was proposed, which could avoid large-scale iterative calculation used in the conventional optimization search algorithms. Experiments have shown that the dynamical evolution method could offer high placement performance with low fault-tolerant cost. Besides, it also has the advantage of high design flexibility since there is no initial placement constraint.

Published
2020

19. Dynamic Placement Optimization for Bio-Inspired Self-Repairing Hardware

Author

Zhuo Qingqi, Liu Xiubin, Qian Yanling, Feng Xiangli, and Li Yue

Subjects
General Computer Science, business.industry, Property (programming), Computer science, media_common.quotation_subject, dynamic placement optimization, P systems, General Engineering, membrane optimization algorithms, Power (physics), Bio-inspired self-repairing hardware, Task (computing), computing model, General Materials Science, Quality (business), lcsh:Electrical engineering. Electronics. Nuclear engineering, business, Finite set, lcsh:TK1-9971, Computer hardware, media_common
Abstract

Bio-inspired self-repairing hardware is a distributed self-adaptive system, characterized by powerful fault-tolerant ability and environment adaptivity. However, it suffers from some difficulties such as large resource consumption and degraded circuit performances. From the viewpoint of cybernetics and computer science, the cellular differentiation and substitution process of bio-inspired self-repairing hardware can be converted into dynamic placement problems on a reconfigurable system. Current systems can only generate some predefined fault-free placements from a finite number of initial placements. The aim of this paper was to achieve high-quality placements from arbitrary initial placements. Based on P systems, an analysis has been made on the limitations of current systems and an improved computing system has been developed to achieve the ergodic property. Its computational power has been verified by a constructive proof. Moreover, centering on the problem how to improve the placement quality on a distributed platform, the optimization model, task allocation, optimization strategy, and membrane optimization algorithm have been designed and developed. The optimization performances were verified and the calculation amount was exhibited by experiments. Finally, it indicated by comparison that the proposed approach would reduce the resource consumption and maintain good circuit performances.

Published
2020

24. A genome assembly of decaploid Houttuynia cordataprovides insights into the evolution of Houttuyniaand the biosynthesis of alkaloids

Author

Huang, Peng, Li, Zhu, Wang, Huan, Huang, Jinqiang, Tan, Guifeng, Fu, Yue, Liu, Xiubin, Zheng, Shang, Xu, Peng, Sun, Mengshan, and Zeng, Jianguo

Abstract

Houttuynia cordataThunb., commonly known as yuxingcao in China, is known for its characteristic fishy smell and is widely recognized as an important herb and vegetable in many parts of Asia. However, the lack of genomic information on H. cordatalimits the understanding of its population structure, genetic diversity, and biosynthesis of medicinal compounds. Here we used single-molecule sequencing, Illumina paired-end sequencing, and chromosome conformation capture technology to construct the first chromosome-scale decaploid H. cordatareference genome. The genome assembly was 2.63 Gb in size, with 1348 contigs and a contig N50 of 21.94 Mb further clustered and ordered into 88 pseudochromosomes based on Hi-C analysis. The results of genome evolution analysis showed that H. cordata underwent a whole-genome duplication (WGD) event ~17 million years ago, and an additional WGD event occurred 3.3 million years ago, which may be the main factor leading to the high abundance of multiple copies of orthologous genes. Here, transcriptome sequencing across five different tissues revealed significant expansion and distinct expression patterns of key gene families, such as l-amino acid/l-tryptophan decarboxylase and strictosidine synthase, which are essential for the biosynthesis of isoquinoline and indole alkaloids, along with the identification of genes such as TTM3, which is critical for root development. This study constructed the first decaploid medicinal plant genome and revealed the genome evolution and polyploidization events of H. cordata.

Published
2024
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25. Dynamic Placement Approach Based on Mass Spring Model for Bio-inspired Self-Repairing Hardware

Author

Liu Xiubin, Feng Xiangli, Li Duo, and Yue Li

Subjects
business.industry, Computer science, media_common.quotation_subject, Reliability (computer networking), Mass spring model, Potential energy, Spare part, Self repairing, Quality (business), Resource consumption, business, Function (engineering), Computer hardware, media_common
Abstract

Bio-inspired self-repairing hardware a fault-tolerant electronic system, characterized by high reliability and environment adaptivity. However, there are some challenges for effective applications, such as large resource consumption and degraded circuit performances. As a result, we will develop a dynamic placement method based on mass spring model to improve system performances. In this method, function blocks are considered as mass blocks that can move under the joint action of spring force and extrusion force. This system will evolve until the potential energy reaches a minimum. Besides, self-adaptive algorithms are designed for dynamic placement. Experiments are conducted to verify performances. It has been shown that our proposed approach can make an efficient use of spare eCells and improve placement quality.

Published
2020

31. Achievements, challenges, and developing directions of bio-inspired self-repairing technology

Author

Qian Yanling, Li Yue, Liu Xiubin, Zhuo Qingqi, and Li Duo

Subjects
010302 applied physics, Structure (mathematical logic), Quantitative design, Computer science, 020208 electrical & electronic engineering, Configuration information, Design flow, General Engineering, 02 engineering and technology, 01 natural sciences, Realizability, Self repairing, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Systems engineering
Abstract

Bio-inspired self-repairing technology (BISRT), inspired by biological self-healing processes and multicellular structure, can dynamically adjust its structure to the faulty region on a flexible artificial multicellular substrate. The topic of bio-inspired self-repairing technology has been widely discussed since the 1990s, and over the past decades, this technology has been increasingly acknowledged in various domains. Though many initiatives were proposed, there are still bottlenecks hindering effective applications. In this paper, various methods and structures used in bio-inspired self-repairing technology are exhibited in a systematic way. Main challenges toward effective applications are elucidated and analyzed. The performance of different hardware structures is compared. Based on the studies of configuration information, a design flow of bio-inspired self-repairing technology is also presented. Moreover, the realizability of quantitative design at each phase is discussed and some future works are identified.

Published
2021

33. Improvement of antifungal activity of a culture filtrate of endophytic Bacillus amyloliquefaciens isolated from kiwifruit and its effect on postharvest quality of kiwifruit.

Author

Pang, Li, Xia, Bo, Liu, Xiubin, Yi, Youjin, Jiang, Liwen, Chen, Chao, Li, Pao, Zhang, Min, Deng, Xinbei, and Wang, Rencai

Subjects
KIWIFRUIT, BACILLUS amyloliquefaciens, RESPONSE surfaces (Statistics), LIQUID chromatography-mass spectrometry, KIWIFRUIT industry, FRUIT rots
Abstract

This study reports the optimization of culture conditions and medium components of M9, an endophytic strain of Bacillus amyloliquefaciens, which we had previously isolated from kiwifruit, and evaluation of its effect on kiwifruit postharvest protection against soft rot. The method of one‐factor‐at‐a‐time was used to determine the optimum culture conditions, and response surface methodology was applied to optimize the medium constituents. After optimization, a high rate of antifungal activity (73.12% decrease in decay rate) by M9 culture filtrate against the soft rot fungal pathogen, Botryosphaeria dothidea, was obtained. Compared with the initial culture conditions, the antifungal activity of M9 culture filtrate was increased by 19.5%. Furthermore, a postharvest storage experiment on kiwifruit showed that M9 culture filtrate could maintain the quality of stored kiwifruit, delay fruit senescence, and significantly enhance the storability of kiwifruit. Using liquid chromatography–mass spectrometry, we found that the antifungal activity of M9 was associated with the presence of the C12‐surfactin A lipopeptide. Practical applications: Soft rot caused by Botryosphaeria dothidea is one of the most important diseases of kiwifruit, causing postharvest fruit rot. The disease progresses rapidly and is difficult to control, posing a great threat to the kiwifruit industry. In this study, the culture conditions and medium composition for culture of the strain M9 (kiwifruit endophytic Bacillus amyloliquefaciens) were optimized to maximize the inhibition of B. dothidea. A postharvest storage experiment showed that M9 culture filtrate could improve the disease resistance of kiwifruits, delay the senescence of the fruits, and maintain the quality of kiwifruit during storage. Because M9 is a natural endophyte of kiwifruit, the strategy used in this study was both effective and safe. This work will contribute to the exploitation of B. amyloliquefaciens in controlling the pathogens of kiwifruit and the development of safer and more advanced strategies for the postharvest protection of kiwifruits. [ABSTRACT FROM AUTHOR]

Published
2021
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34. A novel design of fully connected communication network for Bio-inspired hardware

Author

Yin Su, Liu Xiubin, Qian Yanling, Li Yue, and Zhuo Qingqi

Subjects
Multi-core processor, Computer science, business.industry, 020208 electrical & electronic engineering, Arbiter, 02 engineering and technology, ComputerSystemsOrganization_PROCESSORARCHITECTURES, Telecommunications network, 020202 computer hardware & architecture, 0202 electrical engineering, electronic engineering, information engineering, Multiplier (economics), Architecture, Polling, business, Computer network
Abstract

This paper presents a novel design of fully connected communication network for Bio-inspired Electronic Array. The network mainly comprises neighbor connection, bus connection and NoC network. Neighbor connection and NoC network are used to transfer computing results of adjacent and nonadjacent electronic cells, respectively. Bus connection is responsible for self-repairing. In order to avoid conflict, Round-Robin algorithm and a polling arbiter is used to arbitrate. Meanwhile, we design a 4×4 multiplier based on this architecture. The experimental verify the fully connected communication ability.

Published
2017

35. A novel model-driven method for lithium-ion battery remaining useful life prediction

Author

Li Yue, Wang Long, Wang Nantian, and Liu Xiubin

Subjects
Battery (electricity), Computer science, 020209 energy, 0202 electrical engineering, electronic engineering, information engineering, Process (computing), Effective method, Fading, 02 engineering and technology, Particle filter, Temperature measurement, Lithium-ion battery, Reliability engineering, Compensation (engineering)
Abstract

Accurate prediction of lithium-ion battery remaining useful life (RUL) is a critical technology for battery management system. It can help maximize the battery performance and avoid accidents. By comprehensive comparison, model-driven method is an effective method for revealing the mechanism of ageing process and compensating the effects of temperature on capacity. This paper presents a novel model-driven method based on capacity fading micro model (CFM) and temperature-related capacity compensation model (TRCC). These two models are obtained based on the state transition of lithium ions in the micro level. CFM has the same form as dual-exponential empirical model. By mutual authenticating, they strengthen the effectiveness and credibility. TRCC is a parabolic model. It can compensate for the capacity related to temperature. The novel RUL prediction method consists of compensation and Particle Filter process. An experiment system is built to verify the models and RUL prediction method. According to the experiment results, it can be seen that this novel method can improve the accuracy of RUL prediction.

Published
2017

37. Convergence and divergence of cucurbitacin biosynthesis and regulation in Cucurbitaceae

Author

Zhou, Yuan, Ma, Yongshuo, Zeng, Jianguo, Duan, Lixin, Xue, Xiaofeng, Wang, Huaisong, Lin, Tao, Liu, Zhiqiang, Zeng, Kewu, Zhong, Yang, Zhang, Shu, Hu, Qun, Liu, Min, Zhang, Huimin, Reed, James, Moses, Tessa, Liu, Xinyan, Huang, Peng, Qing, Zhixing, Liu, Xiubin, Tu, Pengfei, Kuang, Hanhui, Zhang, Zhonghua, Osbourn, Anne, Ro, Dae-Kyun, Shang, Yi, and Huang, Sanwen

Subjects
Citrullus, Cucurbitaceae, Species Specificity, Cucumis melo, Cucumis sativus, Synteny, Article, Genome, Plant, Plant Proteins, Transcription Factors
Abstract

Differentiation of secondary metabolite profiles in closely related plant species provide clues for unravelling biosynthetic pathways and regulatory circuits, an area that is still under-investigated. Cucurbitacins, a group of bitter and highly oxygenated tetracyclic triterpenes, are mainly produced by the plant family Cucurbitaceae. These compounds have similar structures, but differ in their anti-tumor activities and eco-physiological roles. By comparative analyses of the genomes of cucumber, melon, and watermelon, we uncovered conserved syntenic loci encoding metabolic genes for distinct cucurbitacins. Characterization of the cytochrome P450s (CYPs) identified from these loci enabled us to unveil a novel multi-oxidation CYP for the tailoring of the cucurbitacin core skeleton as well as two other CYPs responsible for the key structural variations among cucurbitacins C, B and E. We also discovered a syntenic gene cluster of transcription factors that regulate the tissue-specific biosynthesis of cucurbitacins and that may confer the loss of bitterness phenotypes associated with convergent domestication of wild cucurbits. This study illustrates the potential to exploit comparative genomics to identify enzymes and transcription factors that control the biosynthesis of structurally related yet unique natural products.

Published
2016

38. The Genome of Medicinal Plant Macleaya cordata Provides New Insights into Benzylisoquinoline Alkaloids Metabolism

Author

Liu, Xiubin, primary, Liu, Yisong, additional, Huang, Peng, additional, Ma, Yongshuo, additional, Qing, Zhixing, additional, Tang, Qi, additional, Cao, Huifen, additional, Cheng, Pi, additional, Zheng, Yajie, additional, Yuan, Zejun, additional, Zhou, Yuan, additional, Liu, Jinfeng, additional, Tang, Zhaoshan, additional, Zhuo, Yixiu, additional, Zhang, Yancong, additional, Yu, Linlan, additional, Huang, Jialu, additional, Yang, Peng, additional, Peng, Qiong, additional, Zhang, Jinbo, additional, Jiang, Wenkai, additional, Zhang, Zhonghua, additional, Lin, Kui, additional, Ro, Dae-Kyun, additional, Chen, Xiaoya, additional, Xiong, Xingyao, additional, Shang, Yi, additional, Huang, Sanwen, additional, and Zeng, Jianguo, additional

Published
2017
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41. Hierarchical built-in test equipment of circuit system based on boundary scan

Author

Liu Xiubin, Wang Nantian, Hu Zheng, and Li Yue

Subjects
Stuck-at fault, Engineering, Data processing, Boundary scan, business.industry, Real-time computing, Fault coverage, Built-in test equipment, Automatic test pattern generation, business, Fault (power engineering), Fault detection and isolation, Simulation
Abstract

A hierarchical built-in test equipment of circuit system based on boundary scan, which consists of subsystem-level BITE, board-level BITE and component-level BITE, is presented. Structure and working principle of each level BITE is introduced in detail, after giving the hierarchical structure. Experiment is also carried out to verify the design. The system could combine the strong information obtaining ability in the inferior level BITE and the powerful information processing ability in superior level BITE to enhance the overall test capability of complex circuit system. It can be used for fault diagnosis and isolation of complex hierarchical circuit system in satellite and other spacecraft.

Published
2015

42. The diffusion polarization model of lithium-ion battery relaxation effect

Author

Zhuo Qingqi, Li Yue, Liu Xiubin, Wang Nantian, and Li Tingpeng

Subjects
Materials science, Nuclear magnetic resonance, Attenuation, Relaxation effect, Mechanism analysis, Model parameters, Battery capacity, Mechanics, Polarization (electrochemistry), Lithium-ion battery, Ion
Abstract

Lithium-ion battery capacity fades with the cycle number increment, and regenerates after a relaxation period. This phenomenon is called the relaxation effect of lithium-ion batteries. Studies have confirmed the relaxation effect is a key element within the remaining useful life prediction. However, due to the lack of related mechanism analysis for the relaxation effect, it's hard to deduce a convincing model. This paper tries to deduce a diffusion polarization model to describe relaxation effect by mechanism analysis. Subsequently, the model parameters are estimated and the simulation experiment is conducted to verify the model. The result is found to be satisfactory to quantify regeneration capacity and reflect the attenuation of relaxation effect.

Published
2015

43. Effects of dietary stevia extract supplementation on growth performance, serum biochemical indices, and intestinal health of yellow-feathered broilers

Author

Liu, Xiubin, Jing, Yidan, Li, Zhen, Wang, Xin, Song, Yunfei, Zeng, Jianguo, and Lin, Qian

Abstract

Stevia, a perennial shrub from the genus Stevia in the Asteraceaefamily, contains active ingredients like chlorogenic acid and shows promise as a natural feed additive. Despite this potential, there is limited research on the impact of stevia extract specifically on yellow-feather broilers. The study aimed to evaluate the effects of dietary stevia extract with varying concentrations of chlorogenic acid on the growth performance, serum biochemical indices, and intestinal health of yellow-feathered broilers. A total of 425 1-d-old female yellow-feathered broilers were randomly allocated into five treatment groups with five replicates of 17 broilers each, and the feeding trial lasted 63 d. The groups included control and those supplemented with stevia extract at concentrations of 100, 200, 300, and 400 mg/kg. Results showed that adding 100 mg/kg of stevia extract to the basal diet significantly increased the daily weight gain (ADG) of the broilers while reducing the average daily feed intake and feed conversion ratio (F/G). However, supplementation with stevia extract at concentrations up to 300 mg/kg led to decreased final weight and ADG. Conversely, dietary supplementation with 100-200 mg/kg of stevia extract improved serum antioxidant capacity and reduced serum total cholesterol levels compared to the control group. Additionally, the cecum n-butyric acid level was significantly higher in the 200 mg/kg stevia extract group than in the control group. In conclusion, supplementing yellow-feathered broilers’ diets with stevia extract can enhance growth performance, antioxidant and immune capacity, and intestinal health. The optimal concentration of stevia extract for these benefits is between 100 and 200 mg/kg.Supplementation of 100-200 mg/kg of stevia extract in the diet of yellow-feather broilers has been shown to enhance growth performance, antioxidant and immune capabilities, and intestinal health of the birds.Stevia rebaudianaBertoni, a perennial shrub belonging to the genus Stevia in the Asteraceaefamily, is renowned for its high-intensity sweetness due to its stevioside content (6%-12%). Notably, stevia extract also contains chlorogenic acid, isochlorogenic acid, terpenoids, steroids, flavonoids, and other active compounds. Research has demonstrated the potent antioxidant properties of stevia extract, making it a viable option for enhancing animal feed, particularly in pig and sheep diets, resulting in improved economic benefits and meat quality. Despite these findings, limited information exists regarding the impact of stevia leaf extract on yellow-feathered broilers. This study reveals that incorporating stevia leaf extract into the diet of yellow-feathered broilers can enhance their quality without any adverse effects, offering valuable insights for utilizing stevia extract as a natural feed additive.

Published
2024
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44. Development of multi-motor synchronous control system based on network-on-chip

Author

Feng, Xiangli, Zhuo, Qingqi, Liu, Xiubin, Qian, Yanlin, and Li, Yue

Abstract

This article presents a novel system architecture based on network-on-chip for multi-motor synchronous control. The system integrates several servo motor controllers in a single chip which permits an increase to the number of motors according to the application requirements. Compared with traditional multi-motor control architectures, such as bus-based distributed architecture and single-core microprocessor architecture, network-on-chip-based architecture supports high-precision multi-axis real-time control with high network bandwidth and parallel processing. A four-wheel drive intelligent car experiment platform is developed for performance testing. It has a convenient process for parameter tuning. Several experiments are conducted to demonstrate the feasibility and real-time performances of the system. The research work has a good potential in integration, real-time performance of multi-motor synchronous control system.

Published
2024
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45. Convergence and divergence of bitterness biosynthesis and regulation in Cucurbitaceae

Author

Zhou, Yuan, primary, Ma, Yongshuo, additional, Zeng, Jianguo, additional, Duan, Lixin, additional, Xue, Xiaofeng, additional, Wang, Huaisong, additional, Lin, Tao, additional, Liu, Zhiqiang, additional, Zeng, Kewu, additional, Zhong, Yang, additional, Zhang, Shu, additional, Hu, Qun, additional, Liu, Min, additional, Zhang, Huimin, additional, Reed, James, additional, Moses, Tessa, additional, Liu, Xinyan, additional, Huang, Peng, additional, Qing, Zhixing, additional, Liu, Xiubin, additional, Tu, Pengfei, additional, Kuang, Hanhui, additional, Zhang, Zhonghua, additional, Osbourn, Anne, additional, Ro, Dae-Kyun, additional, Shang, Yi, additional, and Huang, Sanwen, additional

Published
2016
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49. Tissue-specific metabolite profiling of benzylisoquinoline alkaloids in the root of Macleaya cordata by combining laser microdissection with ultra-high-performance liquid chromatography/tandem mass spectrometry.

Author

Zuo, Zi, Zheng, Yajie, Liang, Zhitao, Liu, Yisong, Tang, Qi, Liu, Xiubin, Zhao, Zhongzhen, and Zeng, Jianguo

Subjects
MEDICINAL plants, ALKALOIDS, MASS spectrometry, USEFUL plants, MICROBIAL metabolites
Abstract

Rationale Tissue-specific metabolite profiling helps to find trace alkaloids masked during organ analysis, which contributes to understanding the alkaloid biosynthetic pathways in vivo and evaluating the quality of medical plants by morphology. As Macleaya cordata contains diverse types of benzylisoquinoline alkaloids (BIAs), the alkaloid metabolite profiling was carried out on various tissues of the root. Methods Laser microdissection with fluorescence detection was used to recognize and dissect different tissues from the root of M. cordata. Ultra-high-performance liquid chromatography/quadrupole time-of-flight mass spectrometry was applied to analyze the trace alkaloids in tissues. These detected alkaloids were elucidated using their accurate molecular weights, MS/MS data, MS fragmentation patterns and the known biosynthetic pathways of BIAs. Finally, the distribution of alkaloids in dissected tissues and whole sections was mapped. Results Forty-nine alkaloids were identified from five microdissected tissues, and 24 of them were detected for the first time in M. cordata. Some types of alkaloids occurred specifically in dissected tissues. More alkaloids were detected in the cork and xylem vascular bundles which emit strong fluorescence under fluorescence microscopy. Some of the screened alkaloids were intermediates in sanguinarine and chelerythrine biosynthetic pathways, and others were speculated to be involved in the new branches of biosynthetic pathways. Conclusions The integrated method is sensitive, specific and reliable for determining trace alkaloids, which is also a powerful tool for metabolite profiling of tissue-specific BIAs in situ. The present findings should contribute to a better understanding of the biosynthesis of BIAs in M. cordata root and provide scientific evidence for its quality evaluation based on morphological characteristics. Copyright © 2016 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published
2017
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