Your search keyword '"Camellia japonica"' showing total 617 results

1. GWAS-driven gene mining and genomic prediction of ornamental traits in flowering trees: A case study of Camellia japonica

Author

Fan, Menglong, Wei, Xiaojuan, Song, Zhixin, Zhang, Ying, Li, Xinlei, and Sun, Zhenyuan

Published

2024

2. Evolutionary Histories of Camellia japonica and Camellia rusticana.

Author

Abe, Harue, Ueno, Saneyoshi, Matsuo, Ayumi, Hirota, Shun K., Miura, Hiroki, Su, Mong‐Huai, Shen, Yun‐Guang, Tsumura, Yoshihiko, Suyama, Yoshihisa, and Wang, Zhong‐Lang

Subjects

*QUATERNARY Period, *CAMELLIAS, *MIOCENE Epoch, *NATIVE plants, *ECOLOGICAL niche

Abstract

The genus Camellia is widely distributed, primarily in East Asia. Camellia japonica is located at the northern limit of this genus distribution, and understanding changes in its distribution is crucial for understanding the evolution of plants in this region, as well as their relationship with geological history and climate change. Moreover, the classification of sect. Camellia in Japan has not been clarified. Therefore, this study aims to understand the evolutionary history of the Japanese sect. Camellia. The genetic population structure was analysed using SNP data and MIG‐seq. The relationship between the Japanese sect. Camellia, including the related species in China, was further inferred from the phylogeny generated by RA x ML, SplitsTree and PCA. Population genetic structure was inferred using a Bayesian clustering method (ADMIXTURE). We subsequently employed approximate Bayesian computation, which was further supported by the coalescent simulations (DIYABC, fastsimcoal and Bayesian Skyline Plots) to explore the changes in population, determining which events appropriately explain the phylogeographical signature. Ecological niche modelling was combined with genetic analyses to compare current and past distributions. The analyses consistently showed that C. japonica and C. rusticana are distinct, having diverged from each other during the Middle to Late Miocene period. Furthermore, C. japonica differentiated into four major populations (North, South, Ryukyu‐Taiwan and Continent). The Japanese sect. Camellia underwent speciation during archipelago formation, reflecting its ancient evolutionary history compared with other native Japanese plants. C. rusticana did not diverge from C. japonica in snow‐rich environments during the Quaternary period. Our results suggest that both species have been independent since ancient times and that ancestral populations of C. japonica have persisted in northern regions. Furthermore, the C. japonica population on the continent is hypothesised to have experienced a reverse‐colonisation event from southern Japan during the late Pleistocene glaciation. [ABSTRACT FROM AUTHOR]

Published

2024

3. Transcriptome Profiling of Two Camellia japonica Cultivars with Different Heat Tolerance Reveals Heat Stress Response Mechanisms.

Author

Tan, Yue, Cao, Yinzhu, Mou, Fenglian, Liu, Bin, Wu, Huafeng, Zou, Shihui, Ai, Lijiao, and Sui, Shunzhao

Subjects

HEAT shock factors, TRANSCRIPTION factors, HEAT shock proteins, ELECTRIC conductivity, CAMELLIAS

Abstract

Camellia (Camellia japonica) is a semi-shaded plant that is highly vulnerable to heat stress. To investigate the mechanisms underlying heat stress in C. japonica, two C. japonica cultivars, "Xiaotaohong" and "Zhuapolian", which exhibit significant differences in heat tolerance, were selected from four common cultivars. The selection methods included phenotypic observations and physiological index detection, including relative electric conductivity (REC), malondialdehyde (MDA) content, superoxide dismutase (SOD) enzyme activity, relative water content (RWC), and chlorophyll content. RNA-seq analysis yielded 980 million reads and identified 68,455 differentially expressed genes (DEGs) in the two C. japonica cultivars during heat stress compared to the control samples. Totals of 12,565 and 16,046 DEGs were differentially expressed at 16 h and 32 h, respectively, in "Xiaotaohong" during heat stress. In "Zhuapolian", 40,280 and 37,539 DEGs were found at 16 h and 32 h, respectively. KEGG enrichment analysis revealed that both cultivars were enriched in the "plant hormone signal transduction" and "circadian rhythm" pathways at two stages, indicating the critical role these pathways play in the heat stress response. The differences in the tolerance between the two cultivars are likely linked to pathways such as "plant hormone signal transduction", "photosynthesis", and "circadian rhythm". Some members of heat shock proteins (HSPs) are associated with the heat stress response. It is speculated that transcription factor families contributing to the tolerance differences include AP2/ERF, C3H, bHLH, bZIP, and MYB-related with a small number of heat shock factors (HSFs) also induced by the stress. In conclusion, these results reveal the changes in the physiological indices and molecular networks of two C. japonica cultivars under heat stress. This study lays the foundation for the breeding of superior heat-resistant C. japonica cultivars and for further molecular research. [ABSTRACT FROM AUTHOR]

Published

2024

4. Extraction Optimization of Flavonoid Compounds from Various Parts of Camellia japonica and Constituent Analysis of the Extracts

Author

Shibei XIONG, Chuang DENG, Yifei FAN, and Lingguang YANG

Subjects

camellia japonica, different parts, flavonoids, ultrasound-assisted enzymatic extraction, antioxidant activity, uplc-qtof-ms/ms, Food processing and manufacture, TP368-456

Abstract

Objective: To optimize the extraction amount of flavonoid from petals, leaves, stamens and pistils of Camellia japonica, respectively, and compare the antioxidant activity and analyze the chemical constituents of the extracts. Method: The total flavonoids extraction amount was used as evaluation index, and single-factor experiments and orthogonal tests were used to optimize the ultrasonic-assisted enzymatic extraction process of flavonoids. The antioxidant capacity of optimized flavonoids extract was evaluated by DPPH and ABTS+ free radical scavenging and reducing power experiment. And the chemical constituents of extracts from each part were qualitatively analyzed by ultra-performance-liquid-chromatography quadrupole time-of-flight mass spectrometry (UPLC-QTOF-MS/MS). Results: In the optimum extraction condition, the total flavonoids extraction amount form each part of Camellia japonica were in the order as follows: Leaves (63.14 RE mg/g)>stamens and pistils (58.77 RE mg/g)>petals (20.26 RE mg/g). Meanwhile, the results of antioxidant activity determination showed that the IC50 values of DPPH and ABTS+ free radical scavenging assay of extracts from petals, leaves, stamens and pistils were 7.28, 2.51, 1.15 mg/mL, and 2.85, 0.95, 0.59 mg/mL, respectively. And the reducing power value of extracts from petals, leaves, stamens and pistils were 63.25, 214.11, 475.90 Trolox mg/g. Therefore, the antioxidant activities of the extracts were in the order of stamens and pistils>leaves>petals. At last, a total of 29 flavonoid-related compounds were identified from the three parts by UPLC-QTOF-MS/MS, and the distribution pattern of B-type procyanidin dimer, epicatechin, quercetin-3-O-galactoside and some other flavonoid compounds in the three parts was consistent with that of total flavonoids extraction amount. Conclusion: Ultrasound-assisted enzymatic extraction effectively improved the extraction amount of flavonoids, and the leaves and stamens and pistils parts of Camellia japonica possessed higher flavonoid contents and stronger antioxidant activity.

Published

2024

5. 山茶各部位黄酮提取工艺优化及 提取物成分分析.

Author

熊诗蓓, 邓　闯, 范益飞, and 杨灵光

Subjects

TIME-of-flight mass spectrometry, PROCYANIDINS, CAMELLIAS, PISTIL, FLAVONOIDS

Abstract

Copyright of Science & Technology of Food Industry is the property of Science & Technology of Food Industry Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

6. Unraveling the Bioactive Potential of Camellia japonica Edible Flowers: Profiling Antioxidant Substances and In Vitro Bioactivity Assessment.

Author

Pereira, Antia G., Fraga-Corral, Maria, Silva, Aurora, Barroso, Maria Fatima, Grosso, Clara, Carpena, Maria, Garcia-Perez, Pascual, Perez-Gregorio, Rosa, Cassani, Lucia, Simal-Gandara, Jesus, and Prieto, Miguel A.

Subjects

*PEARSON correlation (Statistics), *ORNAMENTAL plants, *CAMELLIAS, *HYDROXYBENZOIC acid, *ISOFLAVONOIDS, *HYDROXYCINNAMIC acids

Abstract

In recent years, the search for novel natural-based ingredients by food and related industries has sparked extensive research aimed at discovering new sources of functional molecules. Camellia japonica, traditionally known as an ornamental plant, has gained attention due to its diverse array of bioactive compounds with potential industrial applications. Although C. japonica flowers are edible, their phytochemical profile has not been thoroughly investigated. In this study, a phenolic profile screening through an HPLC–ESI-QQQ-MS/MS approach was applied to C. japonica flower extracts, revealing a total of 36 compounds, including anthocyanins, curcuminoids, dihydrochalcones, dihydroflavonols, flavonols, flavones, hydroxybenzoic acids, hydroxycinnamic acids, isoflavonoids, stilbenes, and tyrosols. Following extract profiling, their bioactivity was assessed by means of in vitro antioxidant, antimicrobial, cytotoxic, and neuroprotective activities. The results showed a multifaceted high correlation of phenolic compounds with all the tested bioactivities according to Pearson's correlation analysis, unraveling the potential of C. japonica flowers as promising sources of nutraceuticals. Overall, these findings provide insight into the valorization of C. japonica flowers from different unexplored cultivars thus diversifying their industrial outcome. [ABSTRACT FROM AUTHOR]

Published

2024

7. Genomics insights into flowering and floral pattern formation: regional duplication and seasonal pattern of gene expression in Camellia

Author

Hu, Zhikang, Fan, Zhengqi, Li, Sijia, Wang, Minyan, Huang, Mingchuan, Ma, Xianjin, Liu, Weixin, Wang, Yupeng, Yu, Yifan, Li, Yaxuan, Sun, Yingkun, Li, Xinlei, Li, Jiyuan, and Yin, Hengfu

Published

2024

8. Function of FT in Flowering Induction in Two Camellia Species.

Author

Wang, Xiong, Li, Jiyuan, Yin, Hengfu, Li, Xinlei, Liu, Weixin, and Fan, Zhengqi

Subjects

CAMELLIAS, SPECIES, INFLORESCENCES, GENE families, FLOWERING of plants, ANGIOSPERMS

Abstract

FLOWERING LOCUS T (FT), belonging to the FT/TFL1 gene family, is an important gene regulating the flowering transition and inflorescence architecture during plant development. Given its importance to plant adaptation and crop improvement, FT has been extensively studied in related plant research; however, the specific role and underlying molecular mechanisms of FT in the continuous flowering of perennial plants remains elusive. Here, we isolated and characterized homologous FT genes from two Camellia species with different flowering-period phenotypes: CaFT was isolated from Camellia azalea, a precious species blooming in summer and flowering throughout the year, and CjFT was isolated from C. japonica, which blooms in winter and spring. The major difference in the genes between the two species was an additional five-amino acid repeat sequence in C. japonica. FT showed high expression levels in the leaves in both species from January to August, especially in April for C. japonica and in May for C. azalea. CaFT was expressed throughout the year in C. azalea, whereas CjFT was not expressed from September to December in C. japonica. The expression levels of FT in the floral buds were generally higher than those in the leaves. Overexpression of CaFT and CjFT in Arabidopsis indicated that both genes can activate downstream genes to promote flowering. Transgenic callus tissue was obtained by introducing the two genes into C. azalea through Agrobacterium-mediated transformation. Transcriptome and quantitative real-time polymerase chain reaction analyses indicated that both florigen FT genes promoted the expression of downstream genes such as AP1, FUL, and SEP3, and slightly up-regulated the expression of upstream genes such as CO and GI. The above results indicated that CaFT and CjFT played a role in promoting flowering in both camellia species. The expression pattern of CaFT in leaves suggested that, compared to CjFT, CaFT may be related to the annual flowering of C. azalea. [ABSTRACT FROM AUTHOR]

Published

2024

9. Transcriptome Profiling of Two Camellia japonica Cultivars with Different Heat Tolerance Reveals Heat Stress Response Mechanisms

Author

Yue Tan, Yinzhu Cao, Fenglian Mou, Bin Liu, Huafeng Wu, Shihui Zou, Lijiao Ai, and Shunzhao Sui

Subjects

Camellia japonica, heat stress, physiological index, transcriptome, Botany, QK1-989

Abstract

Camellia (Camellia japonica) is a semi-shaded plant that is highly vulnerable to heat stress. To investigate the mechanisms underlying heat stress in C. japonica, two C. japonica cultivars, “Xiaotaohong” and “Zhuapolian”, which exhibit significant differences in heat tolerance, were selected from four common cultivars. The selection methods included phenotypic observations and physiological index detection, including relative electric conductivity (REC), malondialdehyde (MDA) content, superoxide dismutase (SOD) enzyme activity, relative water content (RWC), and chlorophyll content. RNA-seq analysis yielded 980 million reads and identified 68,455 differentially expressed genes (DEGs) in the two C. japonica cultivars during heat stress compared to the control samples. Totals of 12,565 and 16,046 DEGs were differentially expressed at 16 h and 32 h, respectively, in “Xiaotaohong” during heat stress. In “Zhuapolian”, 40,280 and 37,539 DEGs were found at 16 h and 32 h, respectively. KEGG enrichment analysis revealed that both cultivars were enriched in the “plant hormone signal transduction” and “circadian rhythm” pathways at two stages, indicating the critical role these pathways play in the heat stress response. The differences in the tolerance between the two cultivars are likely linked to pathways such as “plant hormone signal transduction”, “photosynthesis”, and “circadian rhythm”. Some members of heat shock proteins (HSPs) are associated with the heat stress response. It is speculated that transcription factor families contributing to the tolerance differences include AP2/ERF, C3H, bHLH, bZIP, and MYB-related with a small number of heat shock factors (HSFs) also induced by the stress. In conclusion, these results reveal the changes in the physiological indices and molecular networks of two C. japonica cultivars under heat stress. This study lays the foundation for the breeding of superior heat-resistant C. japonica cultivars and for further molecular research.

Published

2024

10. Full-Length Transcriptome of Camellia japonica (Naidong) Reveals Molecular Characteristics in Drought Stress.

Author

Zhou, Rui, Wang, Luyao, Tian, Hongmei, Guo, Xiao, Jiang, Xinqiang, Fan, Menglong, and Sun, Yingkun

Subjects

CAMELLIAS, DROUGHTS, ORNAMENTAL plants, UBIQUITIN ligases, SYNTHETIC proteins, GENE expression, DROUGHT management

Abstract

Camellia japonica (Naidong), a rare temperate arbor in the genus Camellia, is an ornamental plant with high economic value. To understand transcriptional changes of the drought response in C. japonica, a comparative transcriptome analysis of C. japonica (Naidong) was conducted at two drought stages (0 and 20 DAF) based on the PacBio platform. The results showed significant differences in 265 genes and 3383 lncRNAs. Of these, 150 were upregulated and 115 were downregulated. Functional analysis revealed the involvement of distinct genes in 43 pathways. The biosynthesis of amino acids and the circadian rhythm of the plant were significantly enriched, with a significant change in CjGST potentially playing an important role under drought stress. In addition, three differential protein interaction network modules composed of 45 differentially expressed genes were predicted, which involved E3 ubiquitin ligases and threonine synthetic proteins. Moreover, a transient expression experiment demonstrated that overexpression of CjGST1 in camellia leaves significantly increased leaf area compared to wild variants under drought stress, resulting in higher drought resistance. These findings provide a valuable resource for studying the genus Camellia while shedding new light on the molecular mechanisms of drought stress. [ABSTRACT FROM AUTHOR]

Published

2024

11. Antimicrobial Activity Screening of Camellia japonica Flowers (var. Carolyn Tuttle) for Potential Drug Development †.

Author

Pereira, Antia G., Silva, Aurora, Grosso, Clara, Echave, Javier, Chamorro, Franklin, Seyyedi-Mansour, Sepidar, Donn, Pauline, Fraga-Corral, María, Barroso, Maria Fátima, and Prieto, Miguel A.

Subjects

CAMELLIAS, DRUG development, DRUG resistance in microorganisms, BIOMOLECULES, DISC diffusion tests (Microbiology)

Abstract

The escalating global problem of antibiotic resistance among pathogenic microorganisms necessitates the exploration of effective alternatives to combat multi-resistance. Consumer demand for organic products has stimulated research on natural-origin matrices, such as plants, to develop antimicrobial additives. Camellia japonica flowers have demonstrated remarkable biological properties, making them a potential source of bioactive molecules for use as bio-preservatives. This study evaluated the antimicrobial activity of C. japonica flowers (var. Carolyn Tuttle) against food-related microorganisms using an agar diffusion assay. Extracts were obtained via a conventional and cost-effective maceration method (50 °C, 1 h) using 60% methanol as the solvent. The results revealed significant antimicrobial activity of C. japonica flowers (var. Carolyn Tuttle) against Staphylococcus aureus (10.29 mm), Pseudomonas aeruginosa (9.24 mm), and Salmonella enteritidis (6.95 mm). However, they did not exhibit activity against Escherichia coli, Staphylococcus epidermidis, and Bacillus cereus, unlike other varieties of C. japonica which displayed activity against these microorganisms. In conclusion, C. japonica flowers (var. Carolyn Tuttle) demonstrated potential as antimicrobial agents with promising applications in the food and pharmaceutical industries. This research contributes to developing natural and organic additives to combat antimicrobial resistance and meet consumer demands for safer and more sustainable products. [ABSTRACT FROM AUTHOR]

Published

2023

12. ツバキ菌核病菌ツバキキンカクチャワンタケの ツバキ属樹種自生地における生息密度と宿主選好性.

Author

松倉君予, 堀田崇仁, and 阿部晴恵

Abstract

Copyright of Journal of Tree Health is the property of Tree Health Research Society, Japan and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

13. Comparative Study of Microwave-Assisted Extraction and Ultrasound-Assisted Extraction Techniques (MAE vs. UAE) for the Optimized Production of Enriched Extracts in Phenolic Compounds of Camellia japonica var Eugenia de Montijo †.

Author

Pereira, Antia G., Cruz, Luis, Cassani, Lucia, Chamorro, Franklin, Lourenço-Lopes, Catarina, Freitas, Victor, Otero, Paz, Fraga-Corral, Maria, Prieto, Miguel A., Simal-Gandara, Jesus, and Perez-Gregorio, Rosa

Subjects

PHENOLS, CAMELLIAS, FLAVONOLS, BIOACTIVE compounds, RESPONSE surfaces (Statistics), GREEN technology, COMPARATIVE studies

Abstract

Camellia japonica is an underexplored medicinal plant with associated bioactivities. Innovative approaches are proposed in regard to the large-scale application of C. japonica, being one of the main routes for the extraction of phenolic compounds. The optimum conditions for the extraction of phenolic compounds from the flowers of C. japonica var. Eugenia de Montijo were determined using the response surface methodology (RSM). A five-level experimental design was carried out and analyzed via RSM using, as variables, temperature (T), time (t) and solvent (S), in the case of microwave-assisted extraction (MAE), and power (P), t and S in the case of ultrasound-assisted extraction (UAE). The compounds were identified using HPLC–MS–MS. Two responses were studied: the extraction yield and concentration of phenolic compounds. The results showed that the maximum yields (80%) were obtained at high temperatures and low times (180 °C, 5 min) when using MAE. Lower yields (56%) were obtained using UAE (optimal conditions 62% amplitude, 8 min, 39% acidified ethanol). The main family of phenolic compounds were flavonols. Moreover, the present study contributes to the valorization of underused flower species commonly present in the North-West region of Spain, by obtaining extracts rich in phenolic compounds that can be potentially applied as ingredients in different industrial fields. [ABSTRACT FROM AUTHOR]

Published

2023

14. Function of FT in Flowering Induction in Two Camellia Species

Author

Xiong Wang, Jiyuan Li, Hengfu Yin, Xinlei Li, Weixin Liu, and Zhengqi Fan

Subjects

Camellia azalea, Camellia japonica, FT, flowering regulation, Botany, QK1-989

Abstract

FLOWERING LOCUS T (FT), belonging to the FT/TFL1 gene family, is an important gene regulating the flowering transition and inflorescence architecture during plant development. Given its importance to plant adaptation and crop improvement, FT has been extensively studied in related plant research; however, the specific role and underlying molecular mechanisms of FT in the continuous flowering of perennial plants remains elusive. Here, we isolated and characterized homologous FT genes from two Camellia species with different flowering-period phenotypes: CaFT was isolated from Camellia azalea, a precious species blooming in summer and flowering throughout the year, and CjFT was isolated from C. japonica, which blooms in winter and spring. The major difference in the genes between the two species was an additional five-amino acid repeat sequence in C. japonica. FT showed high expression levels in the leaves in both species from January to August, especially in April for C. japonica and in May for C. azalea. CaFT was expressed throughout the year in C. azalea, whereas CjFT was not expressed from September to December in C. japonica. The expression levels of FT in the floral buds were generally higher than those in the leaves. Overexpression of CaFT and CjFT in Arabidopsis indicated that both genes can activate downstream genes to promote flowering. Transgenic callus tissue was obtained by introducing the two genes into C. azalea through Agrobacterium-mediated transformation. Transcriptome and quantitative real-time polymerase chain reaction analyses indicated that both florigen FT genes promoted the expression of downstream genes such as AP1, FUL, and SEP3, and slightly up-regulated the expression of upstream genes such as CO and GI. The above results indicated that CaFT and CjFT played a role in promoting flowering in both camellia species. The expression pattern of CaFT in leaves suggested that, compared to CjFT, CaFT may be related to the annual flowering of C. azalea.

Published

2024

15. Morphology, Phylogeny, and Pathogenicity of Colletotrichum Species Causing Anthracnose in Camellia japonica in China.

Author

Wen, Lixia and Li, He

Subjects

*CAMELLIAS, *COLLETOTRICHUM, *PHYLOGENY, *MORPHOLOGY, *SPECIES, *ANTHRACNOSE

Abstract

Camellia japonica is a renowned flower and an influential plant in Chinese urban landscaping. However, Colletotrichum, one of the world's most commercially important phytopathogenic genera that causes anthracnose on a wide range of plant species, have annually caused significant economic losses to Ca. japonica. In this study, 115 strains were isolated from Ca. japonica leaves with typical symptoms from the provinces of Hunan, Jiangxi, Hainan, Guangxi, Hubei, Chongqing, Guizhou, and Shanxi. They were then subjected to pathogen identification and using method of morphology combined with ApMat gene sequence analysis, along with the pathogenicity tests based on Koch's postulates. The 115 strains were identified as C. gloeosporioides, C. fructicola, C. siamense, C. camelliae or C. aeschynomenes. Pathogenicity tests revealed that all species produced brown lesions on healthy Ca. japonica leaves, indicating significant virulence. Furthermore, C. fructicola had the broadest distribution and the highest isolation rate., Most importantly, this is the first report in China of C. aeschynomenes causing the anthracnose disease in Ca. japonica. [ABSTRACT FROM AUTHOR]

Published

2023

16. Full-Length Transcriptome of Camellia japonica (Naidong) Reveals Molecular Characteristics in Drought Stress

Author

Rui Zhou, Luyao Wang, Hongmei Tian, Xiao Guo, Xinqiang Jiang, Menglong Fan, and Yingkun Sun

Subjects

Camellia japonica, drought, gene expression, PacBio, CjGST1, ornamental plant, Plant culture, SB1-1110

Abstract

Camellia japonica (Naidong), a rare temperate arbor in the genus Camellia, is an ornamental plant with high economic value. To understand transcriptional changes of the drought response in C. japonica, a comparative transcriptome analysis of C. japonica (Naidong) was conducted at two drought stages (0 and 20 DAF) based on the PacBio platform. The results showed significant differences in 265 genes and 3383 lncRNAs. Of these, 150 were upregulated and 115 were downregulated. Functional analysis revealed the involvement of distinct genes in 43 pathways. The biosynthesis of amino acids and the circadian rhythm of the plant were significantly enriched, with a significant change in CjGST potentially playing an important role under drought stress. In addition, three differential protein interaction network modules composed of 45 differentially expressed genes were predicted, which involved E3 ubiquitin ligases and threonine synthetic proteins. Moreover, a transient expression experiment demonstrated that overexpression of CjGST1 in camellia leaves significantly increased leaf area compared to wild variants under drought stress, resulting in higher drought resistance. These findings provide a valuable resource for studying the genus Camellia while shedding new light on the molecular mechanisms of drought stress.

Published

2024

17. Transcriptome Analysis Reveals the Molecular Mechanisms Associated with Flower Color Formation in Camellia japonica 'Joy Kendrick'.

Author

Yu, Suhang, Liu, Weixin, Ni, Sui, and Li, Jiyuan

Subjects

CAMELLIAS, TRANSCRIPTOMES, FLOWERING of plants, PIGMENT analysis, FLOWERS

Abstract

Camellia japonica is a woody flower with high ornamental and economic value used for landscaping and as a pot plant. Floral colors are among the most important ornamental traits of flower plants, particularly multicolored flowers. The C. japonica cultivar 'Joy Kendrick' has multicolored flowers; the corolla is pink with darker red stripes, but the molecular mechanism underlying this trait is unknown. Here, pigment analysis showed that there are more anthocyanins accumulate in red petal regions than in pink areas, which may be key to formation of red stripes. Furthermore, transcriptome analysis revealed that anthocyanin biosynthesis, modification, and transporter genes are highly expressed in red stripes, consistent with the observed anthocyanin accumulation. In addition, many plant hormone signal transduction genes, particularly auxin, may contribute to the regulation of red stripe formation. This study provides broad insights into pigment accumulation and the regulatory mechanisms underlying floral color formation in C. japonica, and lays a foundation for breeding new C. japonica varieties. [ABSTRACT FROM AUTHOR]

Published

2023

18. 华东山茶花腐病病原菌分离鉴定.

Author

普梅英, 武自强, 张诗文, 李艳杰, 朱幼娇, 吴坤, 陈龙清, and 王超

Subjects

CAMELLIAS, BOTANICAL gardens, GARDEN cities, PESTALOTIOPSIS, CONIDIA, PATHOGENIC bacteria

Abstract

Copyright of Acta Agriculturae Zhejiangensis is the property of Acta Agriculturae Zhejiangensis Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

19. Antimicrobial Activity Screening of Camellia japonica Flowers (var. Carolyn Tuttle) for Potential Drug Development

Author

Antia G. Pereira, Aurora Silva, Clara Grosso, Javier Echave, Franklin Chamorro, Sepidar Seyyedi-Mansour, Pauline Donn, María Fraga-Corral, Maria Fátima Barroso, and Miguel A. Prieto

Subjects

Camellia japonica, flowers, bioactive compounds, antimicrobial, Engineering machinery, tools, and implements, TA213-215

Abstract

The escalating global problem of antibiotic resistance among pathogenic microorganisms necessitates the exploration of effective alternatives to combat multi-resistance. Consumer demand for organic products has stimulated research on natural-origin matrices, such as plants, to develop antimicrobial additives. Camellia japonica flowers have demonstrated remarkable biological properties, making them a potential source of bioactive molecules for use as bio-preservatives. This study evaluated the antimicrobial activity of C. japonica flowers (var. Carolyn Tuttle) against food-related microorganisms using an agar diffusion assay. Extracts were obtained via a conventional and cost-effective maceration method (50 °C, 1 h) using 60% methanol as the solvent. The results revealed significant antimicrobial activity of C. japonica flowers (var. Carolyn Tuttle) against Staphylococcus aureus (10.29 mm), Pseudomonas aeruginosa (9.24 mm), and Salmonella enteritidis (6.95 mm). However, they did not exhibit activity against Escherichia coli, Staphylococcus epidermidis, and Bacillus cereus, unlike other varieties of C. japonica which displayed activity against these microorganisms. In conclusion, C. japonica flowers (var. Carolyn Tuttle) demonstrated potential as antimicrobial agents with promising applications in the food and pharmaceutical industries. This research contributes to developing natural and organic additives to combat antimicrobial resistance and meet consumer demands for safer and more sustainable products.

Published

2023

20. Evaluation of One-Time Applications of Foliar Applied Auxin Co-Applied with Surfactant for Use in Commercial Cutting Propagation.

Author

Bowden, Anthony T., Knight, Patricia R., Ryals, Jenny B., Coker, Christine E. H., Langlois, Scott A., Broderick, Shaun R., Blythe, Eugene K., Sakhanokho, Hamidou F., and Babiker, Ebrahiem M.

Subjects

*AUXIN, *SURFACE active agents, *CAMELLIAS, *PLANT propagation, *LABOR demand, *PLANT cuttings

Abstract

Use of foliar auxin applications are increasing in the nursery and greenhouse industry. However, previous research has shown that insufficient auxin is absorbed or translocated to the site of action when foliar auxin applications are used. It is theorized that adding surfactants to foliar applications of auxin may help with the absorption and translocation of auxin to the site of action. Research was conducted to determine whether adding surfactants to one-time foliar applications of indole-3-butyric acid (IBA) would be as effective as the current industry standard, the basal quick-dip. Terminal, semi-hardwood cuttings of Red Cascade™ miniature climbing rose (Rosa 'MOORcap'), common camellia (Camellia japonica) and 'Southern Charm' magnolia (Magnolia grandiflora 'Southern Charm') were sprayed to the drip point using Hortus IBA Water Soluble Salts™ at concentrations of 0 ppm, 50 ppm, 75 ppm, or 100 ppm for rose cuttings or 0 ppm, 500 ppm, 1000 ppm, or 1500 ppm IBA for camellia or magnolia. To serve as an industry control, the basal end of cuttings was immersed for 3-s in a solution of either 250 ppm, 4000 ppm or 2500 ppm for rose, camellia, or magnolia, respectively. A foliar application of 1500 ppm after sticking was as effective as the basal quick-dip for cuttings of 'Southern Charm', while other spray treatments were less effective. A basal quick-dip was more effective than a foliar spray for rooting cuttings of camellia. Auxin rate had no impact on rooting of Red Cascade™ miniature rose. The goal of commercial plant propagation is to produce high-quality rooted cuttings as quickly as possible. Plant propagation places a large demand on labor within the nursery industry, with one recent report being that labor accounts for >50% of a nursery's budget. Our results from this trial affirm the results reported by similar trials into foliar applications of auxin suggests that the benefits of foliar applications are species dependent Further work is warranted on examining other auxin and surfactant formulations. [ABSTRACT FROM AUTHOR]

Published

2022

21. Comparative transcriptome and microbial community sequencing provide insight into yellow-leaf phenotype of Camellia japonica

Author

Mingyue Fu, Zhongcheng Zhou, Xu Yang, Zhongbing Liu, Jiarui Zheng, Xinru Huang, Ling Wang, Jiabao Ye, Weiwei Zhang, Yongling Liao, and Feng Xu

Subjects

Camellia japonica, Leaf color variation, Chloroplast, Transcriptome, Microbial diversity, Botany, QK1-989

Abstract

Abstract Background Leaf color variation is a common trait in plants and widely distributed in many plants. In this study, a leaf color mutation in Camellia japonica (cultivar named as Maguxianzi, M) was used as material, and the mechanism of leaf color variation was revealed by physiological, cytological, transcriptome and microbiome analyses. Results The yellowing C. japonica (M) exhibits lower pigment content than its parent (cultivar named as Huafurong, H), especially chlorophyll (Chl) and carotenoid, and leaves of M have weaker photosynthesis. Subsequently, the results of transmission electron microscopy(TEM) exhibited that M chloroplast was accompanied by broken thylakoid membrane, degraded thylakoid grana, and filled with many vesicles. Furthermore, comparative transcriptome sequencing identified 3,298 differentially expressed genes (DEGs). KEGG annotation analysis results showed that 69 significantly enriched DEGs were involved in Chl biosynthesis, carotenoid biosynthesis, photosynthesis, and plant-pathogen interaction. On this basis, we sequenced the microbial diversity of the H and M leaves. The sequencing results suggested that the abundance of Didymella in the M leaves was significantly higher than that in the H leaves, which meant that M leaves might be infected by Didymella. Conclusions Therefore, we speculated that Didymella infected M leaves while reduced Chl and carotenoid content by damaging chloroplast structures, and altered the intensity of photosynthesis, thereby causing the leaf yellowing phenomenon of C. japonica (M). This research will provide new insights into the leaf color variation mechanism and lay a theoretical foundation for plant breeding and molecular markers.

Published

2021

22. Quantitative classification of Camellia japonica and Camellia rusticana (Theaceae) based on leaf and flower morphology

Author

Harue Abe, Hiroki Miura, and Yoshitaka Motonaga

Subjects

Camellia japonica, Camellia rusticana, Ecological isolation, Pollinator shift, Pollination syndrome, Reproductive isolation, Biology (General), QH301-705.5, Botany, QK1-989

Abstract

In Japan, Camellia japonica and Camellia rusticana are naturally distributed. Despite differences in their habitats and morphologies, they have been classified by various researchers as either varieties, subspecies, or species. The taxonomic position of C. japonica and C. rusticana remain unclear because morphological comparisons have been restricted to limited areas and quantitative data are scarce. C. rusticana grows in snowy places, unlike C. japonica. While C. japonica displays ornithophily, C. rusticana displays entomophily. Both species have adapted to different growing environments and pollinators, which have altered the morphology of flowers and leaves. We therefore quantitatively estimated the differentiation between these two taxa by comparing the morphologies of leaf hypodermis, flower form, petal color, and filament color in twenty populations. Our findings allowed us to differentiate these two species by the presence or absence of a leaf hypodermis. We also discovered an intermediate type of leaf hypodermis, which might also be caused by hybridization. Principal component analysis (PCA) indicated that the flower morphologies between these species were significantly different. The petal and filament colors were also significantly different. Our quantitative analysis suggests that speciation caused by differences in both pollinators and environment is one of the factors involved in this group. These findings in C. japonica and C. rusticana help to explain speciation processes for other species as well.

Published

2021

23. Gene expression profile of human follicle dermal papilla cells in response to Camellia japonica phytoplacenta extract

Author

Won Kyong Cho, Hye‐In Kim, Seung Hye Paek, Soo‐Yun Kim, Hyo Hyun Seo, Jihyeok Song, Ok Hwa Lee, Jiae Min, Sang Jun Lee, Yeonhwa Jo, Hoseong Choi, Jeong Hun Lee, and Sang Hyun Moh

Subjects

callus, Camellia japonica, hair follicle, placenta extract, RNA‐seq, transcriptome, Biology (General), QH301-705.5

Abstract

Camellia japonica L. is a flowering tree with several medicinal and cosmetic applications. Here, we investigated the efficacy of C. japonica placenta extract (CJPE) as a potential therapeutic agent for promotion of hair growth and scalp health by using various in vitro and in vivo assays. Moreover, we performed transcriptome analysis to examine the relative expression of human follicle dermal papilla cells (HFDPC) in response to CJPE by RNA‐sequencing (RNA‐seq). In vitro assays revealed upregulation of the expression of hair growth marker genes in HFDPC after CJPE treatment. Moreover, in vivo clinical tests with 42 adult female participants showed that a solution containing 0.5% CJPE increased the moisture content of the scalp and decreased the scalp's sebum content, dead scalp keratin, and erythema. Furthermore, RNA‐seq analysis revealed key genes in HFDPC which are associated with CJPE. Interestingly, genes associated with lipid metabolism and cholesterol efflux were upregulated. Genes upregulated by CJPE are associated with several hormones, including parathyroid, adrenocorticotropic hormone, α‐melanocyte‐stimulating hormone (alpha‐MSH), and norepinephrine, which are involved in hair follicle biology. Furthermore, some upregulated genes are associated with the regulation of axon guidance. In contrast, many genes downregulated by CJPE are associated with structural components of the cytoskeleton. In addition, CJPE suppressed genes associated with muscle structure and development. Taken together, this study provides extensive evidence that CJPE may have potential as a therapeutic agent for scalp treatment and hair growth promotion.

Published

2021

24. Inhibitory effects of Camellia japonica on cell inflammation and acute rat reflux esophagitis

Author

Hyeon Hwa Nam, Li Nan, and Byung Kil Choo

Subjects

Anti-oxidant, Anti-inflammation, Cytokines, Camellia japonica, Reflux esophagitis, NF-κB/MAPK signaling pathway, Other systems of medicine, RZ201-999

Abstract

Abstract Background Excessive and continuous inflammation may be the main cause of various immune system diseases. Reflux esophagitis (RE) is a common gastroesophageal reflux disease (GERD). Camellia japonica has high medicinal value and has long been used as a traditional herbal hemostatic medicine in China and Korea. The purpose of this study is to explore the antioxidant and anti-inflammatory activities of CJE and its protective effect on RE. Materials and methods Buds from C. japonica plants were collected in the mountain area of Jeju, South Korea. Dried C. japonica buds were extracted with 75% ethanol. DPPH and ABTS radical scavenging assay were evaluated according to previous method. The ROS production and anti-inflammatory effects of C. japonica buds ethanol extract (CJE) were evaluated on LPS-induced RAW 264.7 cell inflammation. The protective effects of CJE on RE were conducted in a RE rat model. Results CJE eliminated over 50% of DPPH and ABTS radical at concentration of 100 and 200 µg/mL, respectively. CJE alleviated changes in cell morphology, reduced production of ROS, NO and IL-1β. Also, down-regulated expression levels of iNOS, TNF-α, phosphorylated NF-κB, IκBα, and JNK/p38/MAPK. CJE reduced esophageal tissue damage ratio (40.3%) and attenuation of histological changes. In addition, CJE down-regulated the expression levels of TNF-α, IL-1β, COX-2 and phosphorylation levels of NF-κB and IκBα in esophageal tissue. Conclusions CJE possesses good anti-oxidation and anti-inflammatory activity, and can improve RE in rats caused by gastric acid reflux. Therefore, CJE is a natural material with good anti-oxidant and anti-inflammatory activity and has the possibility of being a candidate phytomedicine source for the treatment of RE.

Published

2021

25. Natural anti-inflammatory terpenoids in Camellia japonica leaf and probable biosynthesis pathways of the metabolome

Author

Soumya Majumder, Arindam Ghosh, and Malay Bhattacharya

Subjects

Camellia japonica, Metabolomics, GC-MS, Anti-inflammatory compounds, Lupeol, Science

Abstract

Abstract Background Metabolomics of Camellia japonica leaf has been studied to identify the terpenoids present in it and their interrelations regarding biosynthesis as most of their pathways are closely situated. Camellia japonica is famous for its anti-inflammatory activity in the field of medicines and ethno-botany. In this research, we intended to study the metabolomics of Camellia japonica leaf by using gas chromatography-mass spectroscopy technique. Results A total of twenty-nine anti-inflammatory compounds, occupying 83.96% of total area, came out in the result. Most of the metabolites are terpenoids leading with triterpenoids like squalene, lupeol, and vitamin E. In this study, the candidate molecules responsible for anti-inflammatory activity were spotted out in the leaf extract and biosynthetic relation or interactions between those components were also established. Conclusion Finding novel anticancer and anti-inflammatory medicinal compounds like lupeol in a large amount in Camellia japonica leaf is the most remarkable outcome of this gas chromatography-mass spectroscopy analysis. Developing probable pathway for biosynthesis of methyl commate B is also noteworthy.

Published

2020

26. Comparative Study of Microwave-Assisted Extraction and Ultrasound-Assisted Extraction Techniques (MAE vs. UAE) for the Optimized Production of Enriched Extracts in Phenolic Compounds of Camellia japonica var Eugenia de Montijo

Author

Antia G. Pereira, Luis Cruz, Lucia Cassani, Franklin Chamorro, Catarina Lourenço-Lopes, Victor Freitas, Paz Otero, Maria Fraga-Corral, Miguel A. Prieto, Jesus Simal-Gandara, and Rosa Perez-Gregorio

Subjects

Camellia japonica, flowers, phenolic profile, optimization, green technologies, response surface methodology, Engineering machinery, tools, and implements, TA213-215

Abstract

Camellia japonica is an underexplored medicinal plant with associated bioactivities. Innovative approaches are proposed in regard to the large-scale application of C. japonica, being one of the main routes for the extraction of phenolic compounds. The optimum conditions for the extraction of phenolic compounds from the flowers of C. japonica var. Eugenia de Montijo were determined using the response surface methodology (RSM). A five-level experimental design was carried out and analyzed via RSM using, as variables, temperature (T), time (t) and solvent (S), in the case of microwave-assisted extraction (MAE), and power (P), t and S in the case of ultrasound-assisted extraction (UAE). The compounds were identified using HPLC–MS–MS. Two responses were studied: the extraction yield and concentration of phenolic compounds. The results showed that the maximum yields (80%) were obtained at high temperatures and low times (180 °C, 5 min) when using MAE. Lower yields (56%) were obtained using UAE (optimal conditions 62% amplitude, 8 min, 39% acidified ethanol). The main family of phenolic compounds were flavonols. Moreover, the present study contributes to the valorization of underused flower species commonly present in the North-West region of Spain, by obtaining extracts rich in phenolic compounds that can be potentially applied as ingredients in different industrial fields.

Published

2023

27. Multi-Approach Analysis Reveals Pathways of Cold Tolerance Divergence in Camellia japonica

Author

MengLong Fan, Ying Zhang, XinLei Li, Si Wu, MeiYing Yang, Hengfu Yin, Weixin Liu, Zhengqi Fan, and Jiyuan Li

Subjects

cold, transcriptome, proteome, plant hormone, co-expression, Camellia japonica, Plant culture, SB1-1110

Abstract

Understanding the molecular mechanism of the cold response is critical to improve horticultural plant cold tolerance. Here, we documented the physiological, transcriptome, proteome, and hormonal dynamics to cold stress in temperate genotype (Tg) and subtropical genotype (Sg) populations of Camellia japonica. Tg C. japonica suffered minimal osmotic and oxidative damage compared to Sg C. japonica under the same cold treatment. Transcriptional and translational differences increased under the cold treatment, indicating that Tg C. japonica was affected by the environment and displayed both conserved and divergent mechanisms. About 60% of the genes responding to cold had similar dynamics in the two populations, but 1,896 transcripts and 455 proteins differentially accumulated in response to the cold between Tg and Sg C. japonica. Co-expression analysis showed that the ribosomal protein and genes related to photosynthesis were upregulated in Tg C. japonica, and tryptophan, phenylpropanoid, and flavonoid metabolism were regulated differently between the two populations under cold stress. The divergence of these genes reflected a difference in cold responsiveness. In addition, the decrease in the abscisic acid (ABA)/gibberellic acid (GA) ratio regulated by biosynthetic signal transduction pathway enhanced cold resistance in Tg C. japonica, suggesting that hormones may regulate the difference in cold responsiveness. These results provide a new understanding of the molecular mechanism of cold stress and will improve cold tolerance in horticultural plants.

Published

2022

28. Multi-Approach Analysis Reveals Pathways of Cold Tolerance Divergence in Camellia japonica.

Author

Fan, MengLong, Zhang, Ying, Li, XinLei, Wu, Si, Yang, MeiYing, Yin, Hengfu, Liu, Weixin, Fan, Zhengqi, and Li, Jiyuan

Subjects

CAMELLIAS, RIBOSOMAL proteins, MESSENGER RNA, FLAVONOIDS, PHYSIOLOGICAL effects of cold temperatures, PHENYLPROPANOIDS, ABSCISIC acid

Abstract

Understanding the molecular mechanism of the cold response is critical to improve horticultural plant cold tolerance. Here, we documented the physiological, transcriptome, proteome, and hormonal dynamics to cold stress in temperate genotype (Tg) and subtropical genotype (Sg) populations of Camellia japonica. Tg C. japonica suffered minimal osmotic and oxidative damage compared to Sg C. japonica under the same cold treatment. Transcriptional and translational differences increased under the cold treatment, indicating that Tg C. japonica was affected by the environment and displayed both conserved and divergent mechanisms. About 60% of the genes responding to cold had similar dynamics in the two populations, but 1,896 transcripts and 455 proteins differentially accumulated in response to the cold between Tg and Sg C. japonica. Co-expression analysis showed that the ribosomal protein and genes related to photosynthesis were upregulated in Tg C. japonica , and tryptophan, phenylpropanoid, and flavonoid metabolism were regulated differently between the two populations under cold stress. The divergence of these genes reflected a difference in cold responsiveness. In addition, the decrease in the abscisic acid (ABA)/gibberellic acid (GA) ratio regulated by biosynthetic signal transduction pathway enhanced cold resistance in Tg C. japonica , suggesting that hormones may regulate the difference in cold responsiveness. These results provide a new understanding of the molecular mechanism of cold stress and will improve cold tolerance in horticultural plants. [ABSTRACT FROM AUTHOR]

Published

2022

29. Genetic diversity and relationships among populations of Camellia japonica, an endangered species in China.

Author

Yang, Kai, Sun, Yingkun, Li, Wei, Guo, Xiao, Liu, Qinghua, and Gao, Handong

Subjects

CAMELLIAS, GENETIC variation, ENDANGERED species, MICROSATELLITE repeats, ORNAMENTAL plants, POPULATION genetics, BIOLOGICAL extinction

Abstract

Copyright of Canadian Journal of Plant Science is the property of Canadian Science Publishing and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

30. Camellia japonica diminishes acetaminophen-induced acute liver failure by attenuating oxidative stress in mice.

Author

Tian, Weishun, Zhao, Jing, Choo, Byung-Kil, Kim, In-Shik, Ahn, Dongchoon, Tae, Hyun-Jin, Islam, Md Sadikul, and Park, Byung-Yong

Subjects

CAMELLIAS, LIVER failure, OXIDATIVE stress, CELLULAR signal transduction, PHOSPHORYLATION, PROTEIN kinases

Abstract

This experiment was to explore the possible defensive properties and potential molecular mechanisms of Camellia japonica (CJ) against APAP-stimulated acute liver failure (ALF) in mice. In this study, we investigated the effects of CJ on APAP-induced hepatotoxicity. Mice were orally treated with CJ before or after challenge with APAP. Both pretreatment and post-treatment with CJ attenuated APAP-induced hepatotoxicity, as confirmed by significantly reduced serum toxicity biomarkers and improved hepatic pathological damage. Pretreatment with CJ drastically decreased the rise of hepatic inflammatory cytokines levels and weakened neutrophil infiltration. Furthermore, pretreatment with CJ dramatically decreased the levels of hepatic oxidative stress markers such as hepatic malondialdehyde (MDA) and 4-Hydroxynonenal (4-HNE) expression and rescued the reduced hepatic level of GSH caused by APAP overdose. Additionally, CJ pretreatment markedly attenuated cyclooxygenase-2 (COX-2) activation, transcription factor nuclear factor-kappa B (NF-κB) phosphorylation, c-Jun-N-terminal kinase (JNK) phosphorylation, and activated AMP-activated protein kinase (AMPK) signaling pathway in the liver. The present study thus reveals that CJ attenuated APAP-induced ALF by inhibiting COX-2 activation, NF-κB, and JNK phosphorylation and activating the AMPK signaling pathway. [ABSTRACT FROM AUTHOR]

Published

2021

31. Temporal transcriptome profiling reveals candidate genes involved in cold acclimation of Camellia japonica (Naidong).

Author

Fan, MengLong, Yang, Kai, Zhou, Rui, Liu, QingHua, Guo, Xiao, and Sun, YingKun

Subjects

*CAMELLIAS, *TRANSCRIPTOMES, *ACCLIMATIZATION, *CARBON metabolism, *LIPID metabolism, *PHYSIOLOGICAL effects of cold temperatures

Abstract

Cold is a common problem that limits the distribution of Camellia. Camellia japonica (Naidong) is the northernmost species of camellia in China, which is a Tertiary remnant species that can adapt to large changes in temperature. An analysis of the transcriptional response of C. japonica (Naidong) to cold is very important for the planting and distribution of camellia. In this study, the rate of H₂O₂ levels, electrolyte leakage, chlorophyll and sugar content had a higher degree of cold response during 12–72 h period, than other periods (0–12h, 72h–120h) in C. japonica (Naidong) response to cold treatment. We constructed the first full-length C. japonica (Naidong) transcriptome and identified 4544 significantly differentially expressed genes (DEGs). A weighted gene coexpression network analysis showed that carbon metabolism, lipid metabolism, and transcription factors played important roles in the resistance of C. japonica (Naidong) to cold stress, and three hub transcription factor regulatory networks were constructed. In addition, overexpressing CjRAV1 led to cold sensitivity in Arabidopsis thaliana , thus CjRAV1 likely plays a negative regulatory role during cold stress in Camellia japonica. This study deepens our understanding of the regulatory mechanism of C. japonica (Naidong) under cold stress and will benefit genetic improvement of camellia. • The first systematic Camellia japonica full-length transcriptome was analyzed and new genes were obtained. • Transcription factors and genes associated with carbon and lipid metabolism were differentially expressed under cold stress. • Overexpression of CjRAV1 led to low temperature sensitivity in Arabidopsis thaliana. [ABSTRACT FROM AUTHOR]

Published

2021

32. Comparative transcriptome and microbial community sequencing provide insight into yellow-leaf phenotype of Camellia japonica.

Author

Fu, Mingyue, Zhou, Zhongcheng, Yang, Xu, Liu, Zhongbing, Zheng, Jiarui, Huang, Xinru, Wang, Ling, Ye, Jiabao, Zhang, Weiwei, Liao, Yongling, and Xu, Feng

Subjects

CAMELLIAS, TRANSCRIPTOMES, CULTIVARS, LEAF color, PHENOTYPES, MICROBIAL communities

Abstract

Background: Leaf color variation is a common trait in plants and widely distributed in many plants. In this study, a leaf color mutation in Camellia japonica (cultivar named as Maguxianzi, M) was used as material, and the mechanism of leaf color variation was revealed by physiological, cytological, transcriptome and microbiome analyses. Results: The yellowing C. japonica (M) exhibits lower pigment content than its parent (cultivar named as Huafurong, H), especially chlorophyll (Chl) and carotenoid, and leaves of M have weaker photosynthesis. Subsequently, the results of transmission electron microscopy(TEM) exhibited that M chloroplast was accompanied by broken thylakoid membrane, degraded thylakoid grana, and filled with many vesicles. Furthermore, comparative transcriptome sequencing identified 3,298 differentially expressed genes (DEGs). KEGG annotation analysis results showed that 69 significantly enriched DEGs were involved in Chl biosynthesis, carotenoid biosynthesis, photosynthesis, and plant-pathogen interaction. On this basis, we sequenced the microbial diversity of the H and M leaves. The sequencing results suggested that the abundance of Didymella in the M leaves was significantly higher than that in the H leaves, which meant that M leaves might be infected by Didymella. Conclusions: Therefore, we speculated that Didymella infected M leaves while reduced Chl and carotenoid content by damaging chloroplast structures, and altered the intensity of photosynthesis, thereby causing the leaf yellowing phenomenon of C. japonica (M). This research will provide new insights into the leaf color variation mechanism and lay a theoretical foundation for plant breeding and molecular markers. [ABSTRACT FROM AUTHOR]

Published

2021

33. Unraveling the Regulatory Mechanism of Color Diversity in Camellia japonica Petals by Integrative Transcriptome and Metabolome Analysis

Author

Mingyue Fu, Xu Yang, Jiarui Zheng, Ling Wang, Xiaoyan Yang, Yi Tu, Jiabao Ye, Weiwei Zhang, Yongling Liao, Shuiyuan Cheng, and Feng Xu

Subjects

Camellia japonica, petal, anthocyanin, color diversity, transcriptome, transcription factor, Plant culture, SB1-1110

Abstract

Camellia japonica petals are colorful, rich in anthocyanins, and possess important ornamental, edible, and medicinal value. However, the regulatory mechanism of anthocyanin accumulation in C. japonica is still unclear. In this study, an integrative analysis of the metabolome and transcriptome was conducted in five C. japonica cultivars with different petal colors. Overall, a total of 187 flavonoids were identified (including 25 anthocyanins), and 11 anthocyanins were markedly differentially accumulated among these petals, contributing to the different petal colors in C. japonica. Moreover, cyanidin-3-O-(6″-O-malonyl) glucoside was confirmed as the main contributor to the red petal phenotype, while cyanidin-3-O-rutinoside, peonidin-3-O-glucoside, cyanidin-3-O-glucoside, and pelargonidin-3-O-glucoside were responsible for the deep coloration of the C. japonica petals. Furthermore, a total of 12,531 differentially expressed genes (DEGs) and overlapping DEGs (634 DEGs) were identified by RNA sequencing, and the correlation between the expression level of the DEGs and the anthocyanin content was explored. The candidate genes regulating anthocyanin accumulation in the C. japonica petals were identified and included 37 structural genes (especially CjANS and Cj4CL), 18 keys differentially expressed transcription factors (such as GATA, MYB, bHLH, WRKY, and NAC), and 16 other regulators (mainly including transporter proteins, zinc-finger proteins, and others). Our results provide new insights for elucidating the function of anthocyanins in C. japonica petal color expression.

Published

2021

34. Unraveling the Regulatory Mechanism of Color Diversity in Camellia japonica Petals by Integrative Transcriptome and Metabolome Analysis.

Author

Fu, Mingyue, Yang, Xu, Zheng, Jiarui, Wang, Ling, Yang, Xiaoyan, Tu, Yi, Ye, Jiabao, Zhang, Weiwei, Liao, Yongling, Cheng, Shuiyuan, and Xu, Feng

Subjects

ANTHOCYANINS, CAMELLIAS, ZINC-finger proteins, CARRIER proteins, COLORS, COLOR of plants

Abstract

Camellia japonica petals are colorful, rich in anthocyanins, and possess important ornamental, edible, and medicinal value. However, the regulatory mechanism of anthocyanin accumulation in C. japonica is still unclear. In this study, an integrative analysis of the metabolome and transcriptome was conducted in five C. japonica cultivars with different petal colors. Overall, a total of 187 flavonoids were identified (including 25 anthocyanins), and 11 anthocyanins were markedly differentially accumulated among these petals, contributing to the different petal colors in C. japonica. Moreover, cyanidin-3- O- (6″- O- malonyl) glucoside was confirmed as the main contributor to the red petal phenotype, while cyanidin-3- O- rutinoside, peonidin-3- O- glucoside, cyanidin-3- O- glucoside, and pelargonidin-3- O- glucoside were responsible for the deep coloration of the C. japonica petals. Furthermore, a total of 12,531 differentially expressed genes (DEGs) and overlapping DEGs (634 DEGs) were identified by RNA sequencing, and the correlation between the expression level of the DEGs and the anthocyanin content was explored. The candidate genes regulating anthocyanin accumulation in the C. japonica petals were identified and included 37 structural genes (especially CjANS and Cj4CL), 18 keys differentially expressed transcription factors (such as GATA , MYB , bHLH , WRKY , and NAC), and 16 other regulators (mainly including transporter proteins, zinc-finger proteins, and others). Our results provide new insights for elucidating the function of anthocyanins in C. japonica petal color expression. [ABSTRACT FROM AUTHOR]

Published

2021

35. Geographic variation in shoot structure in association with fruit size in an evergreen woody species.

Author

Goto, Takuma and Osada, Noriyuki

Subjects

FRUIT, CAMELLIAS, SPECIES, WATER masses, EVERGREENS

Abstract

The generality of scaling relationships between multiple shoot traits, known as Corner's rules, has been considered to reflect the biomechanical limits to trees and tree organs among the species of different leaf sizes. Variation in fruit size within species would also be expected to affect shoot structure by changing the mechanical and hydraulic stresses caused by the mass and water requirement of fruits. We investigated the differences in shoot structure and their relationship with fruit size in Camellia japonica from 12 sites in a wide geographic range in Japan. This species is known to produce larger fruits with thicker pericarps in more southern populations because warmer climates induce more intensive arms race between the fruit size and the rostrum length of its obligate seed predator. We found that, in association with the change in fruit size, the diameter and mass of 1-year-old stems were negatively associated with latitude, but the total mass and area of 1-year-old leaves did not change with latitude. Consequently, the length of 1-year-old stems and the total mass and area of 1-year-old leaves at a given stem diameter were positively associated with latitude in the allometric relationships. In contrast, the allometric relationships between stem diameter and total mass of the 1-year-old shoot complex (the leaves, stems and fruits that were supported by a 1-year-old stem) did not differ across the trees of different latitudes. Thus, natural selection on fruit size is considered to influence the other traits of Corner's rules in C. japonica , but all of the traits of Corner's rules do not necessarily change in a similar manner across latitudinal gradients. [ABSTRACT FROM AUTHOR]

Published

2021

36. Gene expression profile of human follicle dermal papilla cells in response to Camellia japonica phytoplacenta extract.

Author

Cho, Won Kyong, Kim, Hye‐In, Paek, Seung Hye, Kim, Soo‐Yun, Hyun Seo, Hyo, Song, Jihyeok, Lee, Ok Hwa, Min, Jiae, Lee, Sang Jun, Jo, Yeonhwa, Choi, Hoseong, Lee, Jeong Hun, and Moh, Sang Hyun

Subjects

HAIR growth, GENE expression profiling, CAMELLIAS, GENES, ADRENOCORTICOTROPIC hormone, HAIR follicles

Abstract

Camellia japonica L. is a flowering tree with several medicinal and cosmetic applications. Here, we investigated the efficacy of C. japonica placenta extract (CJPE) as a potential therapeutic agent for promotion of hair growth and scalp health by using various in vitro and in vivo assays. Moreover, we performed transcriptome analysis to examine the relative expression of human follicle dermal papilla cells (HFDPC) in response to CJPE by RNA‐sequencing (RNA‐seq). In vitro assays revealed upregulation of the expression of hair growth marker genes in HFDPC after CJPE treatment. Moreover, in vivo clinical tests with 42 adult female participants showed that a solution containing 0.5% CJPE increased the moisture content of the scalp and decreased the scalp's sebum content, dead scalp keratin, and erythema. Furthermore, RNA‐seq analysis revealed key genes in HFDPC which are associated with CJPE. Interestingly, genes associated with lipid metabolism and cholesterol efflux were upregulated. Genes upregulated by CJPE are associated with several hormones, including parathyroid, adrenocorticotropic hormone, α‐melanocyte‐stimulating hormone (alpha‐MSH), and norepinephrine, which are involved in hair follicle biology. Furthermore, some upregulated genes are associated with the regulation of axon guidance. In contrast, many genes downregulated by CJPE are associated with structural components of the cytoskeleton. In addition, CJPE suppressed genes associated with muscle structure and development. Taken together, this study provides extensive evidence that CJPE may have potential as a therapeutic agent for scalp treatment and hair growth promotion. [ABSTRACT FROM AUTHOR]

Published

2021

37. Virome of Camellia japonica: Discovery of and Molecular Characterization of New Viruses of Different Taxa in Camellias

Author

Song Zhang, Liu Yang, Lisha Ma, Xin Tian, Ruhui Li, Changyong Zhou, and Mengji Cao

Subjects

Camellia japonica, next-generation sequencing, virome, new viruses, RT-PCR detection, phylogenetic analysis, Microbiology, QR1-502

Abstract

Many species of the genus Camellia are native to China, and several species such as C. japonica have been cultivated as garden plants for over 1,000 years. Virus-like symptoms have been recorded for years. In this study, C. japonica plants with various leaf symptoms were observed in Jiangxi and Chongqing provinces. The species composition of potential viruses in the symptomatic plants was analyzed by next-generation sequencing of six libraries prepared from total RNAs of specimens from 10 trees. Five new viruses were discovered, and their genome sequences were determined. These viruses were tentatively named Camellia chlorotic ringspot viruses (CaCRSVs), Camellia yellow ringspot virus (CaYRSV), Camellia-associated badnavirus (CaBaV), and Camellia-associated marafivirus (CaMaV) based on comprehensive analyses. Among these viruses, CaYRSV, CaBaV, and CaMaV share similar genome organizations and clear sequence homology with known viruses in databases and could potentially be classified as new species of the genera Badnavirus, Idaeovirus, and Marafivirus, respectively. CaCRSVs comprise two distinct viruses, and each likely contains five genomic RNA segments that were found to be distantly related to viral RNAs of members in the genus Emaravirus (family Fimoviridae). The RNAs of CaCRSVs show conserved terminal sequences that differ markedly from those of emaraviral RNAs. These data, together with the phylogenetic analysis, suggest that the evolutionary status of CaCRSVs may represent a novel genus in the family Fimoviridae. In addition, two known viruses (geminivirus and blunervirus) and a mass of betaflexiviruses existing as heterogeneous mixtures were detected, and their roles in symptom formation were studied. Collectively, the information of the viral species and detection protocols that were developed can serve as a basis for better management of these viruses. Distinguishing the virus-related symptoms from genetic characteristics of C. japonica is also significant for breeding efforts.

Published

2020

38. Protective effects of Camellia japonica flower extract against urban air pollutants

Author

Minkyung Kim, Dahee Son, Seoungwoo Shin, Deokhoon Park, Sangyo Byun, and Eunsun Jung

Subjects

Camellia japonica, Anti-pollution, Urban dust, Anti-aging, Antioxidant, Other systems of medicine, RZ201-999

Abstract

Abstract Background Exposure of skin to urban air pollutants is closely related to skin aging and inflammatory responses such as wrinkles formation, pigmentation spot, atopic dermatitis, and acne. Thus, a great deal of interest has been focused on the development of natural resources that can provide a protective effect to skin from pollutants. Methods The antioxidative activity of Camellia japonica flower extract (CJFE) was evaluated by 1,2-diphenyl-2-picrylhydrazyl (DPPH) and 2,2′-azino-bis-3-ethylbenzthiazoline-6-sulphonic acid (ABTS) assay, and the inhibitory effect of CJFE by urban air pollutants-induced reactive oxygen species (ROS) production was determined in cultured normal human dermal fibroblasts (NHDFs). We additionally investigated the protective effects of CJFE against urban air pollutant using in vitro and ex vivo model. Results CJFE with high phenolic concentration showed antioxidative activity on scavenging capacity of 1,2-diphenyl-2-picrylhydrazyl (DPPH) radicals and 2,2′-azino-bis-3-ethylbenzthiazoline-6-sulphonic acid (ABTS) radical cation in a concentration dependent manner. CJFE inhibited urban air pollutants-induced ROS generation, matrixmetalloproteinase-1 (MMP-1) production and a xenobiotic response element (XRE)-luciferase activity indicating the aryl hydrocarbon receptor (AhR) transactivation. In addition, CJFE showed an excellent protective activity against pollutants-induced deteriorating effect in ex vivo model. CJFE reduced the level of pollutants-induced malondialdehyde (MDA), lipid peroxidation marker, inhibited MMP-1 expression and increased collagen synthesis. It also reduced the cell numbers with pyknotic nuclei (mainly occurring in apoptosis) and detachment of dermo-epidermal junction (DEJ) induced by pollutants. Conclusions Apparently, it is proposed that CJFE can be used as a protective material against pollutant-induced skin damages.

Published

2019

39. Inhibitory effects of Camellia japonica on cell inflammation and acute rat reflux esophagitis.

Author

Nam, Hyeon Hwa, Nan, Li, and Choo, Byung Kil

Subjects

REACTIVE oxygen species, ANIMAL experimentation, ANTI-inflammatory agents, ANTIOXIDANTS, BIOLOGICAL models, CELL physiology, CELLULAR signal transduction, ESOPHAGUS diseases, GASTROESOPHAGEAL reflux, GENE expression, INFLAMMATION, INTERLEUKINS, MEDICINAL plants, PROTEINS, RATS, TRADITIONAL medicine, TUMOR necrosis factors, DNA-binding proteins, PHYTOCHEMICALS, PLANT extracts, MITOGEN-activated protein kinases, TREATMENT effectiveness, JANUS kinases

Abstract

Background: Excessive and continuous inflammation may be the main cause of various immune system diseases. Reflux esophagitis (RE) is a common gastroesophageal reflux disease (GERD). Camellia japonica has high medicinal value and has long been used as a traditional herbal hemostatic medicine in China and Korea. The purpose of this study is to explore the antioxidant and anti-inflammatory activities of CJE and its protective effect on RE. Materials and methods: Buds from C. japonica plants were collected in the mountain area of Jeju, South Korea. Dried C. japonica buds were extracted with 75% ethanol. DPPH and ABTS radical scavenging assay were evaluated according to previous method. The ROS production and anti-inflammatory effects of C. japonica buds ethanol extract (CJE) were evaluated on LPS-induced RAW 264.7 cell inflammation. The protective effects of CJE on RE were conducted in a RE rat model. Results: CJE eliminated over 50% of DPPH and ABTS radical at concentration of 100 and 200 µg/mL, respectively. CJE alleviated changes in cell morphology, reduced production of ROS, NO and IL-1β. Also, down-regulated expression levels of iNOS, TNF-α, phosphorylated NF-κB, IκBα, and JNK/p38/MAPK. CJE reduced esophageal tissue damage ratio (40.3%) and attenuation of histological changes. In addition, CJE down-regulated the expression levels of TNF-α, IL-1β, COX-2 and phosphorylation levels of NF-κB and IκBα in esophageal tissue. Conclusions: CJE possesses good anti-oxidation and anti-inflammatory activity, and can improve RE in rats caused by gastric acid reflux. Therefore, CJE is a natural material with good anti-oxidant and anti-inflammatory activity and has the possibility of being a candidate phytomedicine source for the treatment of RE. [ABSTRACT FROM AUTHOR]

Published

2021

40. Virome of Camellia japonica : Discovery of and Molecular Characterization of New Viruses of Different Taxa in Camellias.

Author

Zhang, Song, Yang, Liu, Ma, Lisha, Tian, Xin, Li, Ruhui, Zhou, Changyong, and Cao, Mengji

Subjects

CAMELLIAS, PLANT viruses, ORNAMENTAL plants, VIRUSES, NUCLEOTIDE sequencing

Abstract

Many species of the genus Camellia are native to China, and several species such as C. japonica have been cultivated as garden plants for over 1,000 years. Virus-like symptoms have been recorded for years. In this study, C. japonica plants with various leaf symptoms were observed in Jiangxi and Chongqing provinces. The species composition of potential viruses in the symptomatic plants was analyzed by next-generation sequencing of six libraries prepared from total RNAs of specimens from 10 trees. Five new viruses were discovered, and their genome sequences were determined. These viruses were tentatively named Camellia chlorotic ringspot viruses (CaCRSVs), Camellia yellow ringspot virus (CaYRSV), Camellia-associated badnavirus (CaBaV), and Camellia-associated marafivirus (CaMaV) based on comprehensive analyses. Among these viruses, CaYRSV, CaBaV, and CaMaV share similar genome organizations and clear sequence homology with known viruses in databases and could potentially be classified as new species of the genera Badnavirus, Idaeovirus , and Marafivirus , respectively. CaCRSVs comprise two distinct viruses, and each likely contains five genomic RNA segments that were found to be distantly related to viral RNAs of members in the genus Emaravirus (family Fimoviridae). The RNAs of CaCRSVs show conserved terminal sequences that differ markedly from those of emaraviral RNAs. These data, together with the phylogenetic analysis, suggest that the evolutionary status of CaCRSVs may represent a novel genus in the family Fimoviridae. In addition, two known viruses (geminivirus and blunervirus) and a mass of betaflexiviruses existing as heterogeneous mixtures were detected, and their roles in symptom formation were studied. Collectively, the information of the viral species and detection protocols that were developed can serve as a basis for better management of these viruses. Distinguishing the virus-related symptoms from genetic characteristics of C. japonica is also significant for breeding efforts. [ABSTRACT FROM AUTHOR]

Published

2020

41. The Antinociceptive Potential of Camellia japonica Leaf Extract, (−)-Epicatechin, and Rutin against Chronic Constriction Injury-Induced Neuropathic Pain in Rats

Author

Eun Yeong Lim, Changho Lee, and Yun Tai Kim

Subjects

Camellia japonica, (−)-epicatechin, rutin, neuropathic pain, analgesia, Therapeutics. Pharmacology, RM1-950

Abstract

Neuropathic pain is caused by a lesion or disease of the somatosensory nervous system. Currently, prescribed treatments are still unsatisfactory or have limited effectiveness. Camellia japonica leaves are known to have antioxidant and anti-inflammatory properties.; however, their antinociceptive efficacy has not yet been explored. We examined the antinociceptive efficacy and underlying mechanism of C. japonica leaf extract (CJE) in chronic constriction injury (CCI)-induced neuropathic pain models. To test the antinociceptive activity of CJE, three types of allodynia were evaluated: punctate allodynia using von Frey filaments, dynamic allodynia using a paintbrush and cotton swab, and cold allodynia using a cold plate test. CCI rats developed neuropathic pain representing increases in the three types of allodynia and spontaneous pain. In addition, CCI rats showed high phosphorylation levels of mitogen-activated protein kinases (MAPKs), transcription factors, and nociceptive mediators in dorsal root ganglion (DRG). The ionized calcium-binding adapter molecule 1 levels and neuroinflammation also increased following CCI surgery in the spinal cord. CJE and its active components have potential antinociceptive effects against CCI-induced neuropathic pain that might be mediated by MAPK activation in the DRG and microglial activation in the spinal cord. These findings suggest that CJE, (−)-epicatechin, and rutin could be novel candidates for neuropathic pain management.

Published

2022

42. Transcriptomic and Chemical Analyses Reveal the Hub Regulators of Flower Color Variation from Camellia japonica Bud Sport

Author

Menglong Fan, Ying Zhang, Meiying Yang, Si Wu, Hengfu Yin, Jiyuan Li, and Xinlei Li

Subjects

Camellia japonica, anthocyanin, flower color, transcriptome, bud sport, Plant culture, SB1-1110

Abstract

Camellia japonica is a woody ornamental plant with multiple flower color variations caused by bud sport; however, the molecular mechanism remains unclear. Here, chemical and transcriptomic analyses of C. japonica were performed with white, pink, red, and dark red flowers caused by bud sport. Seven anthocyanins were detected in these samples, except in C. japonica ‘YuDan’ (white petals). The total anthocyanin content of C. japonica ‘JinBiHuiHuang’ was the highest, and cyanidin 3-O-β-glucoside (Cy3G) was the main anthocyanin affecting the redness of petals. Furthermore, the ratio of Cy3G and cyanidin-3-O-(6-O-(E)-p-coumaroyl)-B-glucoside) was significantly correlated with the red petal phenotype. In total, 5673 genes were identified as differentially expressed genes (DEGs). The potential co-expression modules related to anthocyanin accumulation were established, which featured transcription factors, anthocyanin biosynthesis, and plant hormone signal transduction. Thirteen structural genes in the anthocyanin biosynthetic pathway were identified as DEGs, most of them were upregulated with deepening of flower redness. An integrated promoter and cluster analysis suggested that CjMYB62, CjMYB52, and CjGATA may play important roles in anthocyanin accumulation. These results provide insight and candidate genes for the transcriptional mechanism responsible for the bud sport phenotype.

Published

2022

43. Flavonoid glycosides from Japanese Camellia oil cakes and their inhibitory activity against advanced glycation end-products formation

Author

Naoko Sato, Wei Li, Masato Tsubaki, Koji Higai, Miho Takemoto, Tatsunori Sasaki, Toshihisa Onoda, Toshie Suzuki, and Kazuo Koike

Subjects

Camellia japonica, Flavonoid, Theaceae, Advanced glycation end-products, Oil cake, Nutrition. Foods and food supply, TX341-641

Abstract

Phytochemical investigation of the oil cakes of Camellia japonica L. seeds resulted in the isolation and structural elucidation of thirteen flavonoid glycosides (1–13), including four novel compounds (6, 10–12). Chemical profiling of the oil cake extract was characterized by HPLC-PDA analysis. The extract and isolated compounds 1–12 exhibited potent inhibitory activities against advanced glycation end-products (AGEs) formation between d-ribose and bovine serum albumin (BSA). The major compound 7 exhibited the most potent inhibitory activity among the isolated compounds. The extract and 7 also inhibited AGEs formation between human serum albumin (HSA) and three intermediates: glycolaldehyde (GA), methyl glyoxal (MGO), and glyoxal (GO). Moreover, extract and compound 7 decreased the GA-HSA enhanced expression of macrophage inflammatory protein-1β (MIP-1β) mRNA in differentiated U937 cells. The extract and its flavonoid glycoside constituents from the oil cakes of C. japonica seeds possessed potential usability as health materials against AGE-associated chronic diseases.

Published

2017

44. The complete chloroplast genome of common camellia tree, Camellia japonica L. (Theaceae), adapted to cold environment in Korea

Author

Jongsun Park, Yongsung Kim, Hong Xi, Yu Jin Oh, Kyung Man Hahm, and Jaeyoung Ko

Subjects

camellia japonica, chloroplast genome, cold hardiness, soyeonpyeongdo, korea, Genetics, QH426-470

Abstract

Camellia japonica L. is an ornamental species due to its beautiful red flowers blooming in winter. Here, we completed the chloroplast genome of C. japonica isolated in Soyeonpyeongdo located at the northernmost in South Korea. Its length is 156,971 bp long and has four subregions: 86,673 bp of a large single copy (LSC) and 18,394 bp of small single copy (SSC) regions are separated by 25,952 bp of inverted repeat (IR) regions including 135 genes (91 protein-coding genes, 8 rRNAs, and 36 tRNAs). The overall GC content of this chloroplast genome is 37.3% and those in the LSC, SSC, and IR regions are 35.3%, 30.5%, and 43.0%, respectively. Twenty-five single nucleotide polymorphisms (SNPs) and two insertions and deletions (INDELs) are identified against Korean C. japonica isolated in Jeju island, while 78 SNPs and 643 INDELs are found against Chinese C. japonica. Phylogenetic trees show that Camellia chekiangoleosa is clustered with Korean C. japonica.

Published

2019

45. 山茶品种花色变异与花青苷的关系.

Author

李辛雷, 王洁, 殷恒福, 范正琪, and 李纪元

Abstract

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Published

2019

46. Applications of vegetation indices and biostimulators to the rooting of camellia cuttings.

Author

Ping-Cheng Hou, Kuan-Hung Lin, Yen-Jung Huang, Chun-Wei Wu, and Yu-Sen Chang

Subjects

GREENHOUSE plants, NORMALIZED difference vegetation index, CAMELLIAS, SENSITIVE plant, PLANT conservation, REFLECTANCE spectroscopy

Abstract

There are no reports on biostimulators being used to stimulate the rooting process of camellia (Camellia japonica) cuttings. The influences of vegetation indices and biostimulators on the rooting of shoot cuttings of the camellia 'Nine Bends' were determined using the reflectance spectroscopy. Six root growth parameters were recorded, 81 days after sticking cuttings. Different groups of soil-plant analysis development (SPAD) and normalized difference vegetation index (NDVI) values were used. Higher SPAD and NDVI values were found to be most effective in predicting rooting stages and percentages, whereas root number and length and dry weight could not be predicted. Indole-3-butyric acid (IBA) at a concentration of 2000 ppm alone or combined with three concentrations of thiamine (TA), ascorbic acid (AA) and catechol (CAT) were applied to cuttings of camellia. The maximum root number and dry weight were recorded in TA (1000 mg L-1) alone and IBA+TA (800 mg L-1). However, IBA+AA (1000 mg L-1) treated cuttings showed the highest rooting stage, root number, root length, and dry weight compared to other treatments. Cuttings treated with IBA+CAT (50 or 100 mg L-1) produced greater root number, length, and dry weight compared to other treatments. The effects of biostimulators applied to tea stem cuttings for raising camellia plants in the nursery would offer insights into the mechanism of its action in plant conservation, and there is a need to improve propagation technology. [ABSTRACT FROM AUTHOR]

Published

2019

47. Discrimination of Camellia japonica cultivars and chemometric models: An interlaboratory study.

Author

Sousa, Clara, Quintelas, Cristina, Augusto, Catarina, Ferreira, Eugénio C., and Páscoa, Ricardo N.M.J.

Subjects

*ORNAMENTAL plants, *CAMELLIAS, *CULTIVARS

Abstract

Highlights • Discrimination of Camellia japonica was possible through NIR spectroscopy. • Around 83% of correct predictions using PLSDA were obtained for both labs. • Data transferability even when using the same instrument arises some issues. Abstract Camellia japonica is a valued plant since ancient times throughout the world mostly due to their ornamental flowers. It has a high number of cultivars, with very similar phenotypic and genotypic characteristics which are difficult to discriminate, being some of them often rare and with a high price at the market. Their discrimination is mostly done through visual inspection of the morphologic characteristics which is a hard and inefficient task. Spectroscopic techniques had already been used for taxonomic purposes at species and sub-species level with success and could be an alternative for accurate C. japonica cultivars discrimination. Despite the already recognized success of such techniques, most of the studies arises from a single laboratory and little is known about the robustness of these techniques regarding interlaboratory data transferability. In this context, the work developed herein presents a double aim: (I) to explore the ability of near infrared (NIR) spectroscopy and partial least square – discriminant analysis (PLS-DA) to discriminate C. japonica cultivars and (II) to evaluate data transferability between two independent laboratories (Lab A and Lab B). Air-dried leaves NIR spectra of 43 C. japonica plants (15 distinct cultivars) were acquired in both laboratories using two similar NIR instruments (same manufacturer and model). Spectra were further modelled by PLS-DA after exploratory analysis using principal component analysis (PCA): (I) individually for Lab A and Lab B; (II) using Lab A as calibration and Lab B as validation set and vice-versa and (III) with using Lab A and Lab B data together. The percentage of C. japonica cultivars discrimination for both laboratories was nearly the same (around 83%) indicating no significant differences between Lab A and Lab B analysis. However, the results were quite poor when spectra were modelled with data from a single laboratory and validated with the other (65.5 and 63.8%). When data were merged, 85.9% of correct cultivars assignments were obtained. The results herein obtained could benefit of including additional cultivars and plants; but demonstrated the ability of NIR spectroscopy for C. japonica cultivars discrimination. Regarding data transferability, even when dealing with a similar instrument, some issues arisen preventing easy and efficient spectral library transfers. [ABSTRACT FROM AUTHOR]

Published

2019

48. Identification of fermented tea (Camellia sinensis) polyphenols and their inhibitory activities against amyloid-beta aggregation.

Author

Rho, Taewoong, Choi, Min Sik, Jung, Mila, Kil, Hyun Woo, Hong, Yong Deog, and Yoon, Kee Dong

Subjects

*POLYPHENOLS, *TEA, *CAMELLIAS, *AMYLOID beta-protein, *EPICATECHIN, *THIOFLAVINS, *TRANSMISSION electron microscopy

Abstract

Abstract Thirty-three phenolic compounds were identified from the extract of fermented tea (Camellia sinensis L.), including three undescribed flavonoids, namely quamoreokchaside I–II and kamoreokchaside I, along with thirty known compounds. All isolates were tested to evaluate their inhibitory effects against amyloid-beta (Aβ) aggregation through thioflavin-T (ThT) fluorescence-based assay and transmission electron microscopy (TEM). Among the isolates, three tea polyphenols, including (–)-catechin gallate (CG), (–)-epicatechin gallate (ECG), and (–)-epigallocatechin gallate (EGCG), significantly decreased Aβ aggregation at a concentration of 10 μg ml−1, compared to the positive control, Aβ alone. The anti-Aβ aggregation effects of CG, ECG, and EGCG were confirmed again via TEM, which were consistent with the ThT fluorescence-based assay. Moreover, CG and ECG provided stronger protection on SH-SY5Y cells against Aβ-induced cytotoxicity than EGCG. Remarkably, CG showed more potent inhibitory activity than EGCG, the best-known anti-Aβ aggregation agent from tea products. Graphical abstract Image 1 Highlights • Thirty-three compounds were identified from fermented tea (Camellia sinensis). • Quamoreokchaside I–II and kamoreokchaside I were identified as new compounds. • Isolates were tested for their inhibitory effects against amyloid β aggregation. • (-)-Catechin gallate showed the most potent anti-amyloid β aggregation activity. [ABSTRACT FROM AUTHOR]

Published

2019

49. Integrated Physiological and Transcriptomic Analyses Reveal a Regulatory Network of Anthocyanin Metabolism Contributing to the Ornamental Value in a Novel Hybrid Cultivar of Camellia japonica

Author

Liqin Pan, Jiyuan Li, Hengfu Yin, Zhengqi Fan, and Xinlei Li

Subjects

Camellia japonica, leaf color, anthocyanin, metabolism, transcriptome, Botany, QK1-989

Abstract

Camellia japonica is a plant species with great ornamental and gardening values. A novel hybrid cultivar Chunjiang Hongxia (Camellia japonica cv. Chunjiang Hongxia, CH) possesses vivid red leaves from an early growth stage to a prolonged period and is, therefore, commercially valuable. The molecular mechanism underlying this red-leaf phenotype in C. japonica cv. CH is largely unknown. Here, we investigated the leaf coloration process, photosynthetic pigments contents, and different types of anthocyanin compounds in three growth stages of the hybrid cultivar CH and its parental cultivars. The gene co-expression network and differential expression analysis from the transcriptome data indicated that the changes of leaf color were strongly correlated to the anthocyanin metabolic processes in different leaf growth stages. Genes with expression patterns associated with leaf color changes were also discussed. Together, physiological and transcriptomic analyses uncovered the regulatory network of metabolism processes involved in the modulation of the ornamentally valuable red-leaf phenotype and provided the potential candidate genes for future molecular breeding of ornamental plants such as Camellia japonica.

Published

2020

50. The complete chloroplast genome of an evergreen species Camellia japonica

Author

Wei Li, Cui-Ping Zhang, and Kui-Ling Wang

Subjects

camellia japonica, chloroplast genome, phylogenetic relationships, Genetics, QH426-470

Abstract

Camellia japonica is an evergreen tree species with high ornamental value. The complete C. japonica cp genome is 156,606 bp in length and contains a small single-copy region (18,415 bp) and a large single copy ( 86,257 bp) region – separated by a pair of the inverted repeat regions (51,934 bp ). The overall GC content of the C. japonica cp genome is 37.31%. We identified 128 genes in this genome, including 91 protein-coding genes, 29 transfer RNA genes, and 8 ribosomal RNA genes. The maximum-likelihood phylogenetic analysis revealed that C. japonica is closely related to Camellia oleifera.

Published

2019