Your search keyword '"Cui, Jilai"' showing total 15 results

1. Effect of storage time on aroma profiles of wuyi rock tea

Author

Cui, Jilai, Wu, Bin, Wang, Jingming, Jing, Ting, Jin, Jieyang, Zhao, Mingyue, Hu, Yunqing, Wu, Yi, Yu, Feng, Zhang, Na, Luo, Zhengwei, Wang, Qiang, Jiang, Hao, Schwab, Wilfried G., and Song, Chuankui

Published

2024

2. Molecular mechanism of lycopene cyclases regulating carotenoids ratio in different branches during tea leaf and flower development

Author

Peng, Anqi, Tang, Xiaoyan, Feng, Yingying, Huang, Yun, Cui, Jilai, Tian, Kai, Lu, Mengqian, Zhao, Yifan, Pan, Yuting, Wang, Sanjin, Hu, Yutong, Zhao, Wei, Song, Chuankui, and Wang, Qiang

Published

2023

3. 2,4‐Dihydroxybenzoic Acid, a Novel SA Derivative, Controls Plant Immunity via UGT95B17‐Mediated Glucosylation: A Case Study in Camellia Sinensis.

Author

Lu, Mengqian, Zhao, Yifan, Feng, Yingying, Tang, Xiaoyan, Zhao, Wei, Yu, Keke, Pan, Yuting, Wang, Qiang, Cui, Jilai, Zhang, Mengting, Jin, Jieyang, Wang, Jingming, Zhao, Mingyue, Schwab, Wilfried, and Song, Chuankui

Subjects

SALICYLIC acid, DISEASE resistance of plants, TEA, PLANT hormones

Abstract

The plant hormone salicylic acid (SA) plays critical roles in plant innate immunity. Several SA derivatives and associated modification are identified, whereas the range and modes of action of SA‐related metabolites remain elusive. Here, the study discovered 2,4‐dihydroxybenzoic acid (2,4‐DHBA) and its glycosylated form as native SA derivatives in plants whose accumulation is largely induced by SA application and Ps. camelliae‐sinensis (Pcs) infection. CsSH1, a 4/5‐hydroxylase, catalyzes the hydroxylation of SA to 2,4‐DHBA, and UDP‐glucosyltransferase UGT95B17 catalyzes the formation of 2,4‐DHBA glucoside. Down‐regulation reduced the accumulation of 2,4‐DHBA glucosides and enhanced the sensitivity of tea plants to Pcs. Conversely, overexpression of UGT95B17 increased plant disease resistance. The exogenous application of 2,4‐DHBA and 2,5‐DHBA, as well as the accumulation of DHBA and plant resistance comparison, indicate that 2,4‐DHBA functions as a potentially bioactive molecule and is stored mainly as a glucose conjugate in tea plants, differs from the mechanism described in Arabidopsis. When 2,4‐DHBA is applied exogenously, UGT95B17‐silenced tea plants accumulated more 2,4‐DHBA than SA and showed induced resistance to Pcs infection. These results indicate that 2,4‐DHBA glucosylation positively regulates disease resistance and highlight the role of 2,4‐DHBA as potentially bioactive molecule in the establishment of basal resistance in tea plants. [ABSTRACT FROM AUTHOR]

Published

2024

4. A peripheral subepithelial network for chemotactile processing in the predatory sea slug Pleurobranchaea californica.

Author

Norekian, Tigran, Liu, Yichen, Gribkova, Ekaterina D., Cui, Jilai, and Gillette, Rhanor

Subjects

SCANNING electron microscopy, MUSCLE contraction, PERIPHERAL nervous system

Abstract

Many soft-bodied animals have extensive peripheral nervous systems (PNS) with significant sensory roles. One such, the sea slug Pleurobranchaea californica, uses PNS computations in its chemotactile oral veil (OV) in prey tracking, averaging olfactory stimuli across the OV to target likely source direction, or "stimulus place". This suggests a peripheral subepithelial network (SeN) interconnecting sensory sites to compute the directional average. We pursued anatomy and connectivity of previously described ciliated putative sensory cells on OV papillae. Scanning electron microscopy (SEM) confirmed paddle-shaped cilia in clusters. Anti-tubulin and phalloidin staining showed connections to branching nervelets and muscle fibers for contraction and expansion of papillae. Ciliary cell processes could not be traced into nerves, consistent with sensory transmission to CNS via secondary afferents. Anti-tyrosine hydroxylase-stained ciliated cells in clusters and revealed an at least partially dopaminergic subepithelial network interconnecting clusters near and distant, connections consistent with PNS averaging of multiple stimulated loci. Other, unidentified, SeN neurotransmitters are likely. Confirming chemotactile functions, perfusible suction electrodes recorded ciliary spiking excited by both mechanical and appetitive chemical stimuli. Stimuli induced sensory nerve spiking like that encoding stimulus place. Sensory nerve spikes and cilia cluster spikes were not identifiable as generated by the same neurons. Ciliary clusters likely drive the sensory nerve spikes via SeN, mediating appetitive and stimulus place codes to CNS. These observations may facilitate future analyses of the PNS in odor discrimination and memory, and also suggest such SeNs as potential evolutionary precursors of CNS place-coding circuitry in the segmented, skeletonized protostomes and deuterostomes. [ABSTRACT FROM AUTHOR]

Published

2024

5. Distribution of and Temporal Variation in Volatiles in Tea (Camellia sinensis) Flowers during the Opening Stages.

Author

Cui, Jilai, Zhou, Jie, Du, Wenkai, Guo, Danyang, Tang, Xiaoyan, Zhao, Wei, Lu, Mengqian, Yu, Keke, Luo, Zhengwei, Chen, Yushan, Wang, Qiang, Gao, Ting, Schwab, Wilfried G., and Song, Chuankui

Published

2023

6. Characterisation of odorant compounds and their biochemical formation in green tea with a low temperature storage process

Author

Katsuno, Tsuyoshi, Kasuga, Hisae, Kusano, Yumi, Yaguchi, Yoshihiro, Tomomura, Miho, Cui, Jilai, Yang, Ziyin, Baldermann, Susanne, Nakamura, Yoriyuki, Ohnishi, Toshiyuki, Mase, Nobuyuki, and Watanabe, Naoharu

Published

2014

7. Single‐cell transcriptome atlas reveals developmental trajectories and a novel metabolic pathway of catechin esters in tea leaves.

Author

Wang, Qiang, Wu, Yi, Peng, Anqi, Cui, Jilai, Zhao, Mingyue, Pan, Yuting, Zhang, Mengting, Tian, Kai, Schwab, Wilfried, and Song, Chuankui

Subjects

EPIGALLOCATECHIN gallate, CATECHIN, PLANT genes, TRANSCRIPTOMES, CELL transformation, PLANT protoplasts, GENE regulatory networks, ESTERS

Abstract

Summary: The tea plant is an economically important woody beverage crop. The unique taste of tea is evoked by certain metabolites, especially catechin esters, whereas their precise formation mechanism in different cell types remains unclear. Here, a fast protoplast isolation method was established and the transcriptional profiles of 16 977 single cells from 1st and 3rd leaves were investigated. We first identified 79 marker genes based on six isolated tissues and constructed a transcriptome atlas, mapped developmental trajectories and further delineated the distribution of different cell types during leaf differentiation and genes associated with cell fate transformation. Interestingly, eight differently expressed genes were found to co‐exist at four branch points. Genes involved in the biosynthesis of certain metabolites showed cell‐ and development‐specific characteristics. An unexpected catechin ester glycosyltransferase was characterized for the first time in plants by a gene co‐expression network in mesophyll cells. Thus, the first single‐cell transcriptional landscape in woody crop leave was reported and a novel metabolism pathway of catechin esters in plants was discovered. [ABSTRACT FROM AUTHOR]

Published

2022

8. Effects of withering on the main physical properties of withered tea leaves and the sensory quality of congou black tea.

Author

Ye, Yulong, Dong, Chunwang, Luo, Fan, Cui, Jilai, Liao, Xueli, Lu, Anxia, Yan, Jingna, Mao, Shihong, Li, Meifeng, Fang, Chunyan, and Tong, Huarong

Subjects

GREEN tea, TEA, COMPUTER vision, COMPUTER engineering, SENSORY evaluation

Abstract

To explore the relationship between the moisture content of withered tea leaves and their physical properties (i.e., elasticity, plasticity, flexibility, and texture) during withering, texture analyzer was employed to test the elasticity and flexibility of withered tea leaves with different moisture contents. The texture was evaluated by computer vision technology. The withered tea leaves with different moisture contents were used to process congou black tea, which was then subjected to sensory evaluation. Results showed that good elasticity, optimal flexibility, and plasticity were achieved when the moisture content of the withered tea leaves of Fudingdabai comprising two leaves and one bud varied arranging from 65.51 to 61.48%. The sensory evaluation of congou black tea revealed that moderate withering was better than long‐term withering and that both moderate and long‐term withering were better than no withering during processing. The moisture content was significantly correlated with the flexibility and plasticity of the withered tea leaves. Fresh tea leaves undergoing moderate withering with moisture content of 65.51–61.48% to process congou black tea, good tea shape and liquor color were achieved. This study provided new evidence that the moisture content of withered tea leaves significantly affected the quality of black tea. [ABSTRACT FROM AUTHOR]

Published

2020

9. Curcumin encapsulation and protection based on lysozyme nanoparticles.

Author

Cui, Jilai, Zhou, Jie, Huang, Lu, Jing, Junxiang, Wang, Ningze, and Wang, Luyuan

Subjects

*LYSOZYMES, *CURCUMIN, *FOURIER transform infrared spectroscopy, *ATOMIC force microscopy, *TRANSMISSION electron microscopy

Abstract

Curcumin possesses antioxidant, anti‐inflammatory, and other properties. However, this compound exhibits low bioavailability because of its poor solubility and stability. In this paper, lysozyme nanoparticles were fabricated through solvent evaporation, and then, the solubilization and protection capability of curcumin were investigated. Lysozyme nanoparticles were characterized by dynamic light scattering technique, atomic force microscopy, transmission electron microscopy, and Fourier transform infrared spectroscopy. The load capacity and stability in thermal environment were further explored. Results showed that the lysozyme nanoparticle displayed a spherical structure (127.9 ± 2.12 nm) with favorable distribution. The solubility of curcumin can increase to 22 μg/mL. After encapsulation by lysozyme nanoparticles, the retentive curcumin can reach up to 67.9% and 30.25% at 25°C and 50°C, respectively, significantly higher than that of free curcumin. Meanwhile, experiments on DPPH free radicals indicated the curcumin loaded by lysozyme nanoparticle possessed higher free radical scavenging activity than that of free curcumin with same treatments. The results confirmed that lysozyme nanoparticles exhibit potential applications in solubilizing and protecting the environment‐sensitive hydrophobic functional components. [ABSTRACT FROM AUTHOR]

Published

2019

10. Dynamic changes in amino acids, catechins, caffeine and gallic acid in green tea during withering.

Author

Ye, Yulong, Yan, Jingna, Cui, Jilai, Mao, Shihong, Li, Meifeng, Liao, Xueli, and Tong, Huarong

Subjects

*CATECHIN, *AMINO acids, *GALLIC acid, *GREEN tea, *ANALYSIS of variance

Abstract

In order to clarify the relationship between withering process and green tea quality, dynamic changes in the major chemical components of green tea, including amino acids, catechins, caffeine (CAF) and gallic acid (GA), were investigated during withering at different times (ranging from 0 h to 21 h) and temperatures (15, 20 and 25 °C). One-way and two-way analyses of variance (ANOVA) with Duncan’s test were used to analyse the change of chemical components. Results showed that during the withering process, contents of most free amino acids increased with increasing withering time and temperature. Theanine (Thea) contents decreased slightly with fluctuations, glutamic acid (Glu) and aspartic acid (Asp) contents presented an increase–decrease pattern, whereas proline (Pro) contents remained almost constant. Total free amino acids increased up to 18 h but declined thereafter. Most catechins decreased with increasing withering time and temperature. In addition, GA contents increased with increasing time and temperature; while CAF contents increased with increasing withering time, but were only slightly correlated with withering temperature. This experiment recommended withering for 15–18 h below 25 °C to produce high quality green tea. [ABSTRACT FROM AUTHOR]

Published

2018

11. Changes in amino acids, catechins and alkaloids during the storage of oolong tea and their relationship with antibacterial effect.

Author

Cui J, Wu B, and Zhou J

Subjects

Food Storage methods, Escherichia coli drug effects, Camellia sinensis chemistry, Catechin analogs & derivatives, Catechin pharmacology, Catechin chemistry, Catechin analysis, Tea chemistry, Amino Acids analysis, Anti-Bacterial Agents pharmacology, Anti-Bacterial Agents chemistry, Alkaloids pharmacology, Alkaloids analysis, Alkaloids chemistry

Abstract

The storage process has a significant impact on tea quality. Few is known about effect of storage on quality of oolong tea. This study aimed to assess the effect of different storage times on the key chemical components of oolong tea by measuring changes in catechin, free amino acid, and alkaloid content. Variation in the main substances was determined by principal component analysis and heat map analysis. The results revealed notable effects of the storage process on the levels of theanine, epigallocatechin gallate (EGCG), and glutamine. These findings suggest that these compounds could serve as indicators for monitoring changes in oolong tea quality during storage. Additionally, the study observed an increase in the antibacterial ability of tea over time. Correlation analysis indicated that the antibacterial ability against Micrococcus tetragenus and Escherichia coli was influenced by metabolites such as aspartic acid, threonine, serine, gamma-aminobutyric acid, ornithine, alanine, arginine, and EGCG. Overall, this study presents an approach for identifying key metabolites to monitor tea quality effectively with relatively limited data., (© 2024. The Author(s).)

Published

2024

12. Highly stretchable and customizable microneedle electrode arrays for intramuscular electromyography.

Author

Zhao Q, Gribkova E, Shen Y, Cui J, Naughton N, Liu L, Seo J, Tong B, Gazzola M, Gillette R, and Zhao H

Subjects

Animals, Equipment Design, Electrodes, Muscle, Skeletal physiology, Humans, Electromyography methods, Electromyography instrumentation, Needles, Microelectrodes

Abstract

Stretchable three-dimensional (3D) penetrating microelectrode arrays have potential utility in various fields, including neuroscience, tissue engineering, and wearable bioelectronics. These 3D microelectrode arrays can penetrate and conform to dynamically deforming tissues, thereby facilitating targeted sensing and stimulation of interior regions in a minimally invasive manner. However, fabricating custom stretchable 3D microelectrode arrays presents material integration and patterning challenges. In this study, we present the design, fabrication, and applications of stretchable microneedle electrode arrays (SMNEAs) for sensing local intramuscular electromyography signals ex vivo. We use a unique hybrid fabrication scheme based on laser micromachining, microfabrication, and transfer printing to enable scalable fabrication of individually addressable SMNEA with high device stretchability (60 to 90%). The electrode geometries and recording regions, impedance, array layout, and length distribution are highly customizable. We demonstrate the use of SMNEAs as bioelectronic interfaces in recording intramuscular electromyography from various muscle groups in the buccal mass of Aplysia .

Published

2024

13. A common modular design of nervous systems originating in soft-bodied invertebrates.

Author

Gribkova ED, Lee CA, Brown JW, Cui J, Liu Y, Norekian T, and Gillette R

Abstract

Nervous systems of vertebrates and invertebrates show a common modular theme in the flow of information for cost-benefit decisions. Sensory inputs are incentivized by integrating stimulus qualities with motivation and memory to affect appetitive state, a system of homeostatic drives, and labelled for directionality. Appetitive state determines action responses from a repertory of possibles and transmits the decision to a premotor system that frames the selected action in motor arousal and appropriate postural and locomotion commands. These commands are then sent to the primary motor pattern generators controlling the motorneurons, with feedback at each stage. In the vertebrates, these stages are mediated by forebrain pallial derivatives for incentive and directionality (olfactory bulb, cerebral cortex, pallial amygdala, etc. ) interacting with hypothalamus (homeostasis, motivation, and reward) for action selection in the forebrain basal ganglia, the mid/hindbrain reticular formation as a premotor translator for posture, locomotion, and arousal state, and the spinal cord and cranial nuclei as primary motor pattern generators. Gastropods, like the predatory sea slug Pleurobranchaea californica , show a similar organization but with differences that suggest how complex brains evolved from an ancestral soft-bodied bilaterian along with segmentation, jointed skeletons, and complex exteroceptors. Their premotor feeding network combines functions of hypothalamus and basal ganglia for homeostasis, motivation, presumed reward, and action selection for stimulus approach or avoidance. In Pleurobranchaea , the premotor analogy to the vertebrate reticular formation is the bilateral "A-cluster" of cerebral ganglion neurons that controls posture, locomotion, and serotonergic motor arousal. The A-cluster transmits motor commands to the pedal ganglia analogs of the spinal cord, for primary patterned motor output. Apparent pallial precursors are not immediately evident in Pleurobranchaea 's central nervous system, but a notable candidate is a subepithelial nerve net in the peripheral head region that integrates chemotactile stimuli for incentive and directionality. Evolutionary centralization of its computational functions may have led to the olfaction-derived pallial forebrain in the ancestor's vertebrate descendants and their analogs in arthropods and annelids., 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 © 2023 Gribkova, Lee, Brown, Cui, Liu, Norekian and Gillette.)

Published

2023

14. Characterization of Key Odorants in Xinyang Maojian Green Tea and Their Changes During the Manufacturing Process.

Author

Cui J, Zhai X, Guo D, Du W, Gao T, Zhou J, Schwab WG, and Song C

Subjects

Gas Chromatography-Mass Spectrometry, Olfactometry, Tea, Odorants analysis, Volatile Organic Compounds analysis

Abstract

Xinyang Maojian (XYMJ) green tea is a famous high-grade Chinese green tea, but the key odorants contributing to its aroma have been poorly understood. In this study, solid-phase microextraction and solvent-assisted flavor evaporation were used for sample preparation, and gas chromatography-mass spectrometry (GC-MS) and gas chromatography-olfactometry (GC-O) were used for both qualitative and quantitative analysis. A total of 50 volatile compounds of five chemical classes were identified in XYMJ tea infusion. Among them, nine odorants including nonanal, β-ionone, octanal, E -nerolidol, linalool, cis -3-hexenyl hexanoate, geraniol, decanal, and β-cyclocitral were identified as key odorants of XYMJ based on GC-O, odor activity values, and aroma combination experiments. Changes in the content of these aroma-active compounds during the manufacturing process of XYMJ (fresh leaves, fixing, rolling, shaping, and drying) were also determined. Most aroma-active compounds decreased after the fixation process, with the exception of cis -3-hexenyl hexanoate. This is the first study to investigate the key odorants in XYMJ using the sensomics approach. The findings of this study provide novel information on the aroma quality of XYMJ.

Published

2022

15. Characteristic Fluctuations in Glycosidically Bound Volatiles during Tea Processing and Identification of Their Unstable Derivatives.

Author

Cui J, Katsuno T, Totsuka K, Ohnishi T, Takemoto H, Mase N, Toda M, Narumi T, Sato K, Matsuo T, Mizutani K, Yang Z, Watanabe N, and Tong H

Subjects

Food Handling, Gas Chromatography-Mass Spectrometry, Kinetics, Odorants analysis, Plant Leaves chemistry, Camellia sinensis chemistry, Glycosides chemistry, Plant Extracts chemistry, Volatile Organic Compounds chemistry

Abstract

A recently developed method enabled us to simultaneously characterize and quantitate glycosidically bound volatiles (GBVs) at picomole levels using liquid chromatography-mass spectrometry (LC-MS). On the basis of the analytical data it is possible to screen tea varieties most suitable for black tea processing, in which higher concentrations of primeverosides accumulate. The primeverosides decreased at the rolling step in black tea processing, whereas the glucopyranosides did not change much. The total contents of GBVs gradually increased at the withering steps and then remarkably increased after the fixing step at 230 °C, during oolong tea processing. The presence of 6'-O-malonyl ester type β-D-glucopyranosides in the tea samples suggested a contribution to the increment in glucopyranosides during oolong tea processing. The method was also used to analyze GBVs and their derivatives to understand their possible role in the metabolic pathway of tea.

Published

2016