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Journal articles on the topic 'Taxus chinensis var. mairei'

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Published: 3 June 2025
Last updated: 31 July 2025

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1

Li, De Wen, Xiao Xue Wei, Jing Hua Yu, and Yuan Gang Zu. "Effect of Exogenous Nitric Oxide Donor on Lipid Peroxidation and Antioxidant System in Needles of Taxus chinensis Var. mairei Seeding." Advanced Materials Research 183-185 (January 2011): 427–31. http://dx.doi.org/10.4028/www.scientific.net/amr.183-185.427.

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Taxus chinensis var. mairei was used as test material, exogenous nitric oxide (NO) fumigation treatment with different concentration (0, 0.01, 0.1, 0.5 or 1 mM) of sodium nitrop russide (SNP), a donor for exogenous NO, was used to study the effects of NO on the active oxygen metabolism index of superoxide dismutase (SOD), catalase (CAT), ascorbate peroxidase (APX), peroxidase (POD), Hydrogen peroxide (H2O2) and malondialdehyde (MDA) in Taxus chinensis var. mairei. The results showed that low concentration of exogenous NO treatment increased the activities of the protective enzyme, such as SOD,
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2

Li, Liang Song, and Jing Xie. "Three-Dimension Green Biomass and Ecological Benefit Assessment of 10-to 15-Year-Old Taxus Chinensis Var. Mairei." Key Engineering Materials 500 (January 2012): 175–79. http://dx.doi.org/10.4028/www.scientific.net/kem.500.175.

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Taxus chinensis var. maire is an important medicinal, ecological and environmental friendly plant. To propose calculation methods of three-dimensional ecological benefit assessment index of Taxus chinensis var. maire, 10 main indicators of 90 Taxus chinensis var. maire at the age of 10 to 15 were measured and calculated, including heights of trees and crowns, diameter of crowns and roots, largest vertical section area of crowns, numbers of branches and leaves, length, width and area of leaves, based on consideration of situations such as altitude, coordinates, solar radiation, mean annual suns
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3

Li, De Wen, Mei Lan Li, and Xiao Xue Wei. "Effects of Exogenous Nitric Oxide on the Photosynthesis of Taxus chinensis var. Mairei Seedings." Advanced Materials Research 356-360 (October 2011): 2774–77. http://dx.doi.org/10.4028/www.scientific.net/amr.356-360.2774.

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In the study, the gas exchange parameters and chlorophyll contents of the leaves of Taxus chinensis var. mairei exposed to exogenous nitric oxide (NO) were determined. The seedlings were treated with sodium nitroprusside (SNP), a NO donor, at 5 different concentrations ranging from 0 mM to 1 mM. The experiment was conducted under controlled conditions in laboratory. The result showed that the 1 mM SNP increased the net photosynthetic rate (PN) of Taxus chinensis var. mairei slightly; however, other SNP treatments decreased PN. The water use efficiency (WUE) was increased by exogenous NO, while
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4

Zhao, Chunjian, Sen Shi, Naveed Ahmad, et al. "Promotion Effects of Taxus chinensis var. mairei on Camptotheca acuminata Seedling Growth in Interplanting Mode." Forests 13, no. 12 (2022): 2119. http://dx.doi.org/10.3390/f13122119.

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Wild Camptotheca acuminata Decne (C. acuminata) resources are becoming endangered and face poor growth. Preliminary investigation results found that the growth of C. acuminata in an artificial mixed forest of Taxus chinensis var. mairei (Lemee et Levl.), Cheng et L. K. Fu (T. chinensis var. mairei) and C. acuminata was significantly higher than that in pure forests. Understanding the reasons for the above differences can help create a mixed forest of T. chinensis var. mairei and C. acuminata to solve the problem of depleting C. acuminata resources. In this study, the growth and soil indexes un
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5

Zhang, Jing, Ke Yuan, and Yong Chun Jin. "Comparison of Chemical Composition and Antimicrobial Activities of the Essential Oil of Taxus Media and Taxus Chinensis Var. Mairei Leaves." Advanced Materials Research 343-344 (September 2011): 1092–97. http://dx.doi.org/10.4028/www.scientific.net/amr.343-344.1092.

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The study was conceived to evaluate the difference in the chemical composition as well as the difference in the antimicrobial activities of the essential oils of Taxus media and Taxus chinensis var. mairei leaves. The chemical composition of essential oils which obtained by hydrodistillation method, were analysed by gas chromatography-mass spectrometry (GC-MS) system, and the relative amount of the chemical components of the essential oils were determined by the peak area normalization method. Remarkable differences were recorded between the percentages of a few constituents from the two essen
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6

Wei, Qiang, Shuo Li, and Siyue Huang. "Flavonoids of Stems of Taxus chinensis var. mairei." Chemistry of Natural Compounds 57, no. 3 (2021): 523–24. http://dx.doi.org/10.1007/s10600-021-03402-1.

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7

Li, Cunfang, Changhong Huo, Manli Zhang, and Qingwen Shi. "Chemistry of Chinese yew, Taxus chinensis var. mairei." Biochemical Systematics and Ecology 36, no. 4 (2008): 266–82. http://dx.doi.org/10.1016/j.bse.2007.08.002.

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8

Wu, Hai Yan, and Xin Ping Liu. "On the Determination of Content of 10 - DABIII in Enshi’s Taxus Chinensis Var Mairei." Advanced Materials Research 821-822 (September 2013): 1055–59. http://dx.doi.org/10.4028/www.scientific.net/amr.821-822.1055.

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Chemical semi-syntheticmethod for efficient low toxicity of paclitaxelanalogues is the hot issue quite a longtime in the present and the future of chemical, biological medicine and relatedinterdisciplinary researches. 10-DABIII is the main precursor semi-syntheticraw materials. Taking Enshi’s perennial natural taxus chinensis and taxuschinensis leaves of artificial cultivation as raw material to study the effectof different drying methods and extraction methods on the contents of 10-DABIII.Experimental results show that the 10-DABIII in the natural taxus chinensis ishigher than that of artific
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9

FU, WEI, ZHI-XIN DU, HE REN, NOPPARAT BUAHOM, HONG-WEI LIU, and XIN HUANG. "Polymorphic microsatellite markers in Taxus chinensis var. mairei (Taxaceae)." Journal of Genetics 93, S2 (2013): 81–84. http://dx.doi.org/10.1007/s12041-013-0265-8.

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10

Yu, Jinhui, Yanbin Wang, Hua Qian, Yunpeng Zhao, Bentong Liu, and Chengxin Fu. "Polyprenols from the needles of Taxus chinensis var. mairei." Fitoterapia 83, no. 5 (2012): 831–37. http://dx.doi.org/10.1016/j.fitote.2012.01.007.

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11

沈, 瑾花. "Population Characteristics of Taxus chinensis var. mairei in Baokang County." International Journal of Ecology 02, no. 04 (2013): 33–37. http://dx.doi.org/10.12677/ije.2013.24006.

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12

Fei, Yongjun, Caroline Luo, and Wei Tang. "Differential expression of microRNAs during root formation in Taxus chinensis var. mairei cultivars." Open Life Sciences 14, no. 1 (2019): 97–109. http://dx.doi.org/10.1515/biol-2019-0011.

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AbstractMicroRNAs (miRNAs) have been shown to play key roles in the regulation of plant growth and development by modifying the expression of their target genes. However, the influence of miRNAs on root formation and development in woody plants, such as Taxus chinensis, remains largely unknown. In the current study, we explored the phytohormone-response and nutrition-response miRNA expression profiles during T. chinensis rooting by quantitative real-time PCR (qPCR). We identified six phytohormone-response miRNAs, namely, miR164a, miR165, miR167a, miR171b, miR319, and miR391, and eight nutritio
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13

Liu, D., H. L. Yu, F. L. Li, and H. H. Guo. "An analysis of dormancy and dormancy release in Taxus chinensis var. mairei seeds." Seed Science and Technology 39, no. 1 (2011): 29–43. http://dx.doi.org/10.15258/sst.2011.39.1.04.

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14

Xiong, Xingyao, Junbo Gou, Qinggang Liao, et al. "The Taxus genome provides insights into paclitaxel biosynthesis." Nature Plants 7, no. 8 (2021): 1026–36. http://dx.doi.org/10.1038/s41477-021-00963-5.

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AbstractThe ancient gymnosperm genus Taxus is the exclusive source of the anticancer drug paclitaxel, yet no reference genome sequences are available for comprehensively elucidating the paclitaxel biosynthesis pathway. We have completed a chromosome-level genome of Taxus chinensis var. mairei with a total length of 10.23 gigabases. Taxus shared an ancestral whole-genome duplication with the coniferophyte lineage and underwent distinct transposon evolution. We discovered a unique physical and functional grouping of CYP725As (cytochrome P450) in the Taxus genome for paclitaxel biosynthesis. We a
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15

Zhou, X., Z. Wang, K. Jiang, et al. "Screening of taxol-producing endophytic fungi from Taxus chinensis var. mairei." Applied Biochemistry and Microbiology 43, no. 4 (2007): 439–43. http://dx.doi.org/10.1134/s000368380704014x.

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16

LI, Yan-hong, Li-juan ZHANG, Wen-bo ZHU, Jing-jing ZHANG, Shuai-bo XU, and Lian-qi ZHU. "Changes of Taxus chinensis var. mairei habitat distribution under global climate change." JOURNAL OF NATURAL RESOURCES 36, no. 3 (2021): 783. http://dx.doi.org/10.31497/zrzyxb.20210318.

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17

Cao, J., C. Liu, Y. Wu, et al. "Geographic distribution and ecological zoning of Taxus chinensis var. mairei in China." Acta Horticulturae, no. 1185 (November 2017): 265–76. http://dx.doi.org/10.17660/actahortic.2017.1185.34.

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18

Zhang, Ye, Yilin Fang, Zhongquan Cheng, Xianxian Liu, and Xianghui Yi. "Free Radical Scavenging Activities of the Extracts from Taxus chinensis var. mairei." Asian Journal of Chemistry 25, no. 11 (2013): 6213–15. http://dx.doi.org/10.14233/ajchem.2013.14322.

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19

Shi, Qing-wen, Takayuki Oritani, Takeyoshi Sugiyama, and Teiko Yamada. "Two novel pseudoalkaloid taxanes from the Chinese yew, Taxus chinensis var. mairei." Phytochemistry 52, no. 8 (1999): 1571–75. http://dx.doi.org/10.1016/s0031-9422(99)00359-3.

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20

Zhang, Fangfang, Peng Wang, Dandan Ji, Guangwen Kang, and Fengning Xiang. "Asymmetric somatic hybridization between Bupleurum scorzonerifolium Willd. and Taxus chinensis var. mairei." Plant Cell Reports 30, no. 10 (2011): 1857–64. http://dx.doi.org/10.1007/s00299-011-1093-z.

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21

Yu, Xianghua, Xinxing Liu, and Xueduan Liu. "Response of rhizosphere bacterial community of Taxus chinensis var. mairei to temperature changes." PLOS ONE 14, no. 12 (2019): e0226500. http://dx.doi.org/10.1371/journal.pone.0226500.

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22

Ma, Wenwen, Roy W. Stahlhut, Tom L. Adams, et al. "Yunnanxane and Its Homologous Esters from Cell Cultures of Taxus chinensis var. mairei." Journal of Natural Products 57, no. 9 (1994): 1320–24. http://dx.doi.org/10.1021/np50111a027.

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23

Wei, Qiang, and Chan Wen Yin. "Chemical Composition of Essential Oils from the Stems of Taxus chinensis var. mairei." Journal of Essential Oil Bearing Plants 22, no. 4 (2019): 1144–49. http://dx.doi.org/10.1080/0972060x.2019.1668864.

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24

Wu, Ling-Shang, Chang-Ling Hu, Ting Han, et al. "Cytotoxic metabolites from Perenniporia tephropora, an endophytic fungus from Taxus chinensis var. mairei." Applied Microbiology and Biotechnology 97, no. 1 (2012): 305–15. http://dx.doi.org/10.1007/s00253-012-4189-7.

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25

Xu, Wenqiang, Haoran Bi, Hong Peng, et al. "Fermentative Production of Diacylglycerol by Endophytic Fungi Screened from Taxus chinensis var. mairei." Foods 12, no. 2 (2023): 399. http://dx.doi.org/10.3390/foods12020399.

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Diacylglycerol (DAG) production by microbial fermentation has broad development prospects. In the present study, five endophytic fungi which could accumulate DAG were screened from Taxus chinensis var. mairei by using potato dextrose agar plate and flask cultivation in potato dextrose broth culture medium. The strains were biologically identified based on morphological features and semi-quantitative PCR. The identification results indicated that the five strains belonged to different genera: Fusarium annulatum (F. annulatum, coded as MLP41), Trichoderma dorotheae (T. dorotheae, coded as MLG23)
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26

Bao, Ruyi, Jiufen Liu, Xiaohuang Liu, Xiaofeng Zhao, Xueqi Xia, and Chao Wang. "Remark: Evaluation of the Habitat and Potential of Taxus chinensis var. mairei in the Jiangnan Hilly Region." Forests 15, no. 7 (2024): 1238. http://dx.doi.org/10.3390/f15071238.

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Taxus chinensis var. mairei is an endangered tree species endemic to China; it has important ornamental, timber, and medicinal value. In this work, based on a MaxEnt model, the Jiangnan hilly region was used as the study area, and geographic, climatic, soil, and vegetation data were synthesized to simulate the present area of suitable habitat for T. chinensis; the key environmental factors that constrain its habitat expansion were also explored. Additionally, the potential future distribution of this species under different climate-change scenarios was predicted. The results showed that the si
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27

Wu, Xingtong, Libao Wang, Donglin Zhang, and Yafeng Wen. "Microsatellite null alleles affected population genetic analyses: a case study of Maire yew (Taxus chinensis var. mairei)." Journal of Forest Research 24, no. 4 (2019): 230–34. http://dx.doi.org/10.1080/13416979.2019.1634230.

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28

ZHANG, JIN-TUN, and WENMING RU. "ORDINATION ANALYSIS OF TAXUS CHINENSIS VAR. MAIREI FORESTS BASED ON ARTIFICIAL NEURAL NETWORK THEORY." International Journal of Biomathematics 03, no. 01 (2010): 69–78. http://dx.doi.org/10.1142/s1793524510000854.

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The artificial neural network is attractive for ecological studies for its power in analyzing and solving complicated and nonlinear matters. The Self-Organizing Feature Map (SOFM) ordination were described and applied to the analysis of Taxus chinensis var. mairei forests in Shanxi province of China in this paper. The data matrix is the important values of 128 species in 95 quadrats. The results showed that SOFM ordination displayed forest communities in species space which reflected ecological gradients successfully. Its first axis is comprehensive gradient of topographical factors and its se
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29

Han, Pei-pei, Ting-xiang Ye, Bin Qiao, and Ying-jin Yuan. "Taxoids profiling of suspension Taxus chinensis var. mairei cells in response to shear stress." Biochemical Engineering Journal 77 (August 2013): 66–73. http://dx.doi.org/10.1016/j.bej.2013.05.002.

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30

TANAKA, Kiyoshi, Kaoru FUJI, Toshio YOKOI, Tetsuro SHINGU, Bo LI, and Handong SUN. "Structures of Taxchinins L and M, Two New Diterpenoids from Taxus chinensis var. Mairei." CHEMICAL & PHARMACEUTICAL BULLETIN 44, no. 9 (1996): 1770–74. http://dx.doi.org/10.1248/cpb.44.1770.

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31

Zhao, Chunjian, Zhao Li, Chunying Li, et al. "Optimized extraction of polysaccharides from Taxus chinensis var. mairei fruits and its antitumor activity." International Journal of Biological Macromolecules 75 (April 2015): 192–98. http://dx.doi.org/10.1016/j.ijbiomac.2015.01.043.

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32

Zheng, Zao-qian, Ying-Ying Fu, Bo-Heng Li, et al. "PSY-1, a Taxus chinensis var. mairei Extract, Inhibits Cancer Cell Metastasis by Interfering with MMPs." Natural Product Communications 9, no. 2 (2014): 1934578X1400900. http://dx.doi.org/10.1177/1934578x1400900228.

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Cancer is the most common disease worldwide, with death often occurring as a result of metastasis. Thus, interfering with metastasis has been regarded as a promising strategy to improve the current cancer treatments. However, exploration and development of novel anti-metastatic agents remains a major challenge. Recent evidence indicated that a polysaccharide isolated from Taxus yunnanensis suppressed tumor cells proliferation. With the objective of seeking bioactive extracts, we had previously isolated, purified and characterized a complex, water-soluble polysaccharides, PSY-1, from the leaves
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33

Jiang, Luyuan, Yanyan Li, Xiaoyang Jiang, et al. "Transcriptome and Metabolome Analyses of Taxus chinensis var. mairei Tissues Provide New Insights into the Regulation of Paclitaxel Biosynthesis." Plants 14, no. 12 (2025): 1775. https://doi.org/10.3390/plants14121775.

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Taxus is the natural source of the anticancer drug paclitaxel. Although significant progress has been made in elucidating the biosynthetic pathway of paclitaxel, its tissue-specific accumulation and associated regulatory networks in Taxus remains unclear. In this study, we conducted integrated transcriptomic and metabolomic analyses of the root, leaf, shoot, bark, and wood of Taxus chinensis var. mairei to investigate the tissue-specific biosynthesis and accumulation of paclitaxel. We found that paclitaxel, 10-deacetylbaccatin III, and several taxoids were significantly enriched in the leaf, b
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34

Wen, Y., K. Uchiyama, G. Xu, et al. "Cross-Species Amplification of Microsatellite Loci for the Endangered Conifer, Taxus chinensis var. mairei (Taxaceae)." Silvae Genetica 61, no. 1-6 (2012): 287–91. http://dx.doi.org/10.1515/sg-2012-0036.

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AbstractBeing an economical and endangered species, microsatellite markers of Taxus chinensis var. mairei were very limited. We have developed a set of microsatellite markers, which was benefit for future genetic analysis of this rare species. Polymorphic loci were developed from congeneric species by cross-species amplification methods, and new primers were redesigned to test for potential null alleles. 15 loci showed polymorphism. The number of alleles per locus varied from 2 to 23 tested in 48 individuals. The observed heterozygosity (Ho) and expected heterozygosity (He) values ranged form
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35

Hu, Longsheng, Xinru He, Pujie Wei, Bing Sun, Yongjun Fei, and Die Hu. "Effects of Piriformospora indica on the Respiration of Taxus chinensis var. mairei under Water Stress." Phyton 90, no. 6 (2021): 1661–72. http://dx.doi.org/10.32604/phyton.2021.015871.

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36

Yang, Wei-Xia, Zhang-Guang Zhao, Lai-Hong Wang, Shan-Jiang Yu, and Zong-Suo Liang. "Control of hypertension in rats using volatile components of leaves of Taxus chinensis var. mairei." Journal of Ethnopharmacology 141, no. 1 (2012): 309–13. http://dx.doi.org/10.1016/j.jep.2012.02.036.

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37

Wu, Lingshang, Ting Han, Wenchao Li, et al. "Geographic and Tissue Influences on Endophytic Fungal Communities of Taxus chinensis var. mairei in China." Current Microbiology 66, no. 1 (2012): 40–48. http://dx.doi.org/10.1007/s00284-012-0235-z.

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38

Oritani, Takayuki, Shi Qing-wen, Takeyoshi Sugiyama, Hiromasa Kiyota, and Tohru Horiguchi. "Three New Rearranged Taxane Diterpenoids from the Bark of Taxus chinensis var. mairei and the Needles of Taxus cuspidata." HETEROCYCLES 51, no. 4 (1999): 841. http://dx.doi.org/10.3987/com-98-8446.

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39

Wang, Yan-Dong, Ying-Jin Yuan, Ming Lu, Jin-Chuan Wu, and Jian-Lan Jiang. "Inhibitor studies of isopentenyl pyrophosphate biosynthesis in suspension cultures of the yew Taxus chinensis var. mairei." Biotechnology and Applied Biochemistry 37, no. 1 (2003): 39. http://dx.doi.org/10.1042/ba20020061.

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40

Ru, W. "ECOLOGICAL STUDY OF FORESTS DOMINATED BY ENDANGERED SPECIES, TAXUS CHINENSIS VAR. MAIREI , IN SHANXI OF CHINA." Applied Ecology and Environmental Research 10, no. 4 (2012): 457–70. http://dx.doi.org/10.15666/aeer/1004_457470.

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41

Yuan, Ying-Jin, Chun Li, Zong-Ding Hu, Jin-Chuan Wu, and An-Ping Zeng. "Fungal elicitor-induced cell apoptosis in suspension cultures of Taxus chinensis var. mairei for taxol production." Process Biochemistry 38, no. 2 (2002): 193–98. http://dx.doi.org/10.1016/s0032-9592(02)00071-7.

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42

Yu, Jinhui, Yanbin Wang, Hua Qian, Yunpeng Zhao, Bentong Liu, and Chengxin Fu. "Polyprenols from Taxus chinensis var. mairei prevent the development of CCl4-induced liver fibrosis in rats." Journal of Ethnopharmacology 142, no. 1 (2012): 151–60. http://dx.doi.org/10.1016/j.jep.2012.04.030.

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43

Shi, Guang-li, Bing Bai, and Chang-hu Lu. "Seed rain and seed bank of Chinese yew (Taxus chinensis var. mairei) population in Tianmu Mountain." Acta Ecologica Sinica 30, no. 5 (2010): 276–79. http://dx.doi.org/10.1016/j.chnaes.2010.08.010.

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44

Zhang, Jin-Tun, and Wenming Ru. "Population characteristics of endangered species Taxus chinensis var. mairei and its conservation strategy in Shanxi, China." Population Ecology 52, no. 3 (2010): 407–16. http://dx.doi.org/10.1007/s10144-009-0192-y.

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45

TANAKA, K., K. FUJI, T. YOKOI, T. SHINGU, B. LI, and H. SUN. "ChemInform Abstract: Structures of Taxchinins L and M, Two New Diterpenoids from Taxus chinensis var. Mairei." ChemInform 28, no. 11 (2010): no. http://dx.doi.org/10.1002/chin.199711166.

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46

Lin, Hai-Xia, Ming Li, Jian-Min Chen, and Min-Qin Chen. "Isolation and structure of I-deoxybaccatin VI from the root of taxus chinensis, rehd. var. mairei." Chinese Journal of Chemistry 22, no. 7 (2010): 751–56. http://dx.doi.org/10.1002/cjoc.20040220727.

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47

ZHANG, YanJie, ShunBao LU, H. GAO, and ong. "Effect of Gibberellic acid (GA) and stratification treatment on embryo ultrastructure of Taxus chinensis var. mairei seed." African Journal of Agricultural Research 8, no. 18 (2013): 1962–67. http://dx.doi.org/10.5897/ajar12.1887.

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48

Wu-Sheng, XIANG, LI Xian-Kun, SU Zong-Ming, OU Zu-Lan, and LU Shu-Hua. "FRACTAL PROPERTIES OF DISTRIBUTION PATTERNS OF TAXUS CHINENSISVAR. MAIREI CLONAL POPULATIONS IN THE YUANBAOSHAN MOUNTAIN, CHINA." Chinese Journal of Plant Ecology 31, no. 4 (2007): 568–75. http://dx.doi.org/10.17521/cjpe.2007.0073.

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49

Shi, Zhong-Dong, Ying-Jin Yuan, Jin-Chuan Wu, and Gui-Min Shang. "Biological Responses of Suspension Cultures of Taxus chinensis var. mairei to Shear Stresses in the Short Term." Applied Biochemistry and Biotechnology 110, no. 2 (2003): 61–74. http://dx.doi.org/10.1385/abab:110:2:61.

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50

Wang, Yan-Dong, Jin-Chuan Wu, and Ying-Jin Yuan. "Salicylic acid-induced taxol production and isopentenyl pyrophosphate biosynthesis in suspension cultures of Taxus chinensis var. mairei." Cell Biology International 31, no. 10 (2007): 1179–83. http://dx.doi.org/10.1016/j.cellbi.2007.03.038.

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