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Journal articles on the topic 'Dracaena cinnabari'

Author: Grafiati
Published: 4 June 2021
Last updated: 1 February 2022

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1

Nadezhdina, Nadezhda, Roman Plichta, Valeriy Nadezhdin, et al. "A comparative structural and functional study of leaf traits and sap flow in Dracaena cinnabari and Dracaena draco seedlings." Functional Plant Biology 42, no. 11 (2015): 1092. http://dx.doi.org/10.1071/fp15079.

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Water relations for two remote populations of Dracaena tree species from the dragon tree group, Dracaena cinnabari Balfour f. and Dracaena draco (L.) L., were studied to test our hypothesis that morphological and anatomical differences in leaf structure may lead to varied functional responses to changing environmental conditions. Sap flow measurements were performed using the heat field deformation method for four Dracaena seedlings grown in one glasshouse and two greenhouses, and leaf traits related to plant–water relationships were characterised. All traits studied confirmed that D. cinnabar
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2

Al-Awthan, Yahya S., and Omar Salem Bahattab. "Phytochemistry and Pharmacological Activities of Dracaena cinnabari Resin." BioMed Research International 2021 (July 22, 2021): 1–7. http://dx.doi.org/10.1155/2021/8561696.

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Dracaena cinnabari (D. cinnabari) is an endemic plant located in Socotra Island, Yemen. Deep red resin attained from different plant species including D. cinnabari is commonly known as dragon’s blood. In folk medicine, it is prescribed for the treatment of traumatic dermal, dental, and eye injuries as well as blood stasis, pain, and gastrointestinal diseases in humans. Numerous studies have investigated that this resinous medicine has antidiarrheal, antiulcer, antimicrobial, antiviral, antitumor, anti-inflammatory, analgesic, wound healing, and antioxidant activity. Several phytochemicals have
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3

Masaoud, Mohamed, Jürgen Schmidt, and Günter Adam. "Sterols and triterpenoids from Dracaena cinnabari." Phytochemistry 38, no. 3 (1995): 795–96. http://dx.doi.org/10.1016/0031-9422(94)00743-d.

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4

Al-Fatimi, Mohamed. "β-Caryophyllene: A Single Volatile Component of n-Hexane Extract of Dracaena cinnabari Resin". Molecules 25, № 21 (2020): 4939. http://dx.doi.org/10.3390/molecules25214939.

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The pure Soqotri resin of Dracaena cinnabari Balf.f. (Dracaenaceae) has no volatile smell due to its low content of volatile constituents. Although it is insoluble in n-Hexane, we found that the resin, when suspended in n-Hexane within five days at 5 °C, led to the extraction of a small portion of a single volatile liquid constituent, which was identified by GC-MS as sesquiterpene β-caryophyllene. This method of extracting the volatile constituents using hexane under cooling is very suitable for resins of the Dracaena species because these resins usually contain very few volatile terpenes and/
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5

Bauerová, Lucie, Shiferaw Alem Munie, Kateřina Houšková, and Hana Habrová. "Germination of Dracaena cinnabari Balf.f. Seeds under Controlled Temperature Conditions." Forests 11, no. 5 (2020): 521. http://dx.doi.org/10.3390/f11050521.

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Research highlights: This study is focused on the germination of Dracaena cinnabari seeds in order to discover the possibility of natural and artificial regeneration of this species. Background and Objectives: This study aimed to determine the optimal temperature for D. cinnabari seed germination, e.g., the temperature at which the germination percentage and germination rate (vitality) are the highest. The objectives of this study are to: (1) determine the optimal temperature for the germination of D. cinnabari seeds, (2) compare the suitability of different seed collection methods, and (3) co
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6

Masaoud, Mohamed, Helmut Ripperger, Andrea Porzel, and Günter Adam. "Flavonoids of dragon's blood from Dracaena cinnabari." Phytochemistry 38, no. 3 (1995): 745–49. http://dx.doi.org/10.1016/0031-9422(94)00738-f.

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7

Masaoud, Mohamed, Helmut Ripperger, Uwe Himmelreich, and Günter Adam. "Cinnabarone, a biflavonoid from dragon's blood of Dracaena cinnabari." Phytochemistry 38, no. 3 (1995): 751–53. http://dx.doi.org/10.1016/0031-9422(94)00718-9.

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8

Adolt, Radim, and Jindrich Pavlis. "Age structure and growth of Dracaena cinnabari populations on Socotra." Trees - Structure and Function 18, no. 1 (2004): 43–53. http://dx.doi.org/10.1007/s00468-003-0279-6.

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9

Al-Afifi, Nashwan, Aied Alabsi, Fahmi Kaid, Marina Bakri, and Anand Ramanathan. "Prevention of oral carcinogenesis in rats by Dracaena cinnabari resin extracts." Clinical Oral Investigations 23, no. 5 (2018): 2287–301. http://dx.doi.org/10.1007/s00784-018-2685-6.

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10

Veselá, Dagmar, Radek Marek, Karel Ubik, Kamila Lunerová, Vladimı́r Sklenář, and Václav Suchý. "Dracophane, a metacyclophane derivative from the resin of Dracaena cinnabari Balf." Phytochemistry 61, no. 8 (2002): 967–70. http://dx.doi.org/10.1016/s0031-9422(02)00354-0.

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11

Maděra, Petr, Daniel Volařík, Zdeněk Patočka, et al. "Sustainable Land Use Management Needed to Conserve the Dragon’s Blood Tree of Socotra Island, a Vulnerable Endemic Umbrella Species." Sustainability 11, no. 13 (2019): 3557. http://dx.doi.org/10.3390/su11133557.

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Unsustainable overgrazing is one of the most important threats to the endemic and endangered population of dragon’s blood tree (Dracaena cinnabari) on Socotra Island (Republic of Yemen). However, there is a lack of information about the exact population size and its conservation status. We estimated the population size of D. cinnabari using remote sensing data. The age structure was inferred using a relationship between crown projection area and the number of branch sections. The conservation importance of each sub-population was assessed using a specially developed index. Finally, the future
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12

Wu, Chunhung, Xin‐Qi Cai, Yu Chang, et al. "Rapid identification of dragon blood samples from Daemonorops draco, Dracaena cinnabari and Dracaena cochinchinensis by MALDI‐TOF mass spectrometry." Phytochemical Analysis 30, no. 6 (2019): 720–26. http://dx.doi.org/10.1002/pca.2852.

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13

Vasconcelos, Raquel, Eudald Pujol-Buxó, Gustavo A. Llorente, Ahmed Saeed, and Salvador Carranza. "Micro-Hotspots for Conservation: An Umbrella Tree Species for the Unique Socotran Reptile Fauna." Forests 11, no. 3 (2020): 353. http://dx.doi.org/10.3390/f11030353.

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Umbrella species are defined as species that can be rare and sensitive to human disturbance, whose protection may confer the protection of other co-occurring species. The dragon’s blood tree Dracaena cinnabari Balf.f. was already considered an umbrella species on Socotra Island (Indic Ocean, Yemen) due to its ecological importance for some native biota. We studied the reptile community living on D. cinnabari from Socotra Island. We sampled reptiles on trees across most D. cinnabari populations and applied co-occurrence and network partition analyses to check if the presence of reptiles on D. c
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14

Adolt, Radim, Hana Habrova, and Petr Madera. "Crown age estimation of a monocotyledonous tree species Dracaena cinnabari using logistic regression." Trees 26, no. 4 (2012): 1287–98. http://dx.doi.org/10.1007/s00468-012-0704-9.

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15

Adolt, Radim, Petr Maděra, Josef Abraham, et al. "Field Survey of Dracaena Cinnabari Populations in Firmihin, Socotra Island: Methodology and Preliminary Results." Journal of Landscape Ecology 6, no. 3 (2013): 7–34. http://dx.doi.org/10.2478/jlecol-2014-0001.

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Abstract Between 2010 and 2011 a field survey dedicated to Dracaena cinnabari (DC) population was conducted in Firmihin, Socotra Island (Yemen). It’s main goal was to collect data that would make it possible to unbiasedly estimate main characteristics of the local DC population. Our motivation was to provide reliable information to support decision-making processes as well as other research activities. At the same time we were not aware of a survey which could provide this kind of statistical-sound estimates for the whole population covering an area of almost 700 ha. This article describes how
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16

Masaoud, Mohamed, Khaled Hussein, and Ahlam H. Ahmed. "Lupane-Type Triterpenoids Derivatives from Resin of the Socotra Dragon Tree Dracaena Cinnabari Balf." Jordan Journal of Chemistry 10, no. 2 (2015): 108–18. http://dx.doi.org/10.12816/0026451.

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17

Himmelreich, Uwe, Mohamed Masaoud, Günter Adam, and Helmut Ripperger. "Damalachawin, a triflavonoid of a new structural type from dragon's blood of Dracaena cinnabari." Phytochemistry 39, no. 4 (1995): 949–51. http://dx.doi.org/10.1016/0031-9422(95)00044-8.

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18

Al-Fatimi, Mohamed. "Ethnobotanical Survey of Dracaena cinnabari and Investigation of the Pharmacognostical Properties, Antifungal and Antioxidant Activity of Its Resin." Plants 7, no. 4 (2018): 91. http://dx.doi.org/10.3390/plants7040091.

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Dracaena cinnabari Balf. f. (Dracaenaceae) is an important plant endemic to Soqotra Island, Yemen. Dragon’s blood (Dam Alakhwin) is the resin that exudes from the plant stem. The ethnobotanical survey was carried out by semi-structured questionnaires and open interviews to document the ethnobotanical data of the plant. According to the collected ethnobotanical data, the resin of D. cinnabari is widely used in the traditional folk medicine in Soqotra for treatment of dermal, dental, eye and gastrointestinal diseases in humans. The resin samples found on the local Yemeni markets were partly or t
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19

Vahalík, Petr, Karel Drápela, Andrea Procházková, et al. "Metrics of Growth Habit Derived from the 3D Tree Point Cloud Used for Species Determination—A New Approach in Botanical Taxonomy Tested on Dragon Tree Group Example." Forests 11, no. 3 (2020): 272. http://dx.doi.org/10.3390/f11030272.

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Detailed, three-dimensional modeling of trees is a new approach in botanical taxonomy. Representations of individual trees are a prerequisite for accurate assessments of tree growth and morphological metronomy. This study tests the abilities of 3D modeling of trees to determine the various metrics of growth habit and compare morphological differences. The study included four species of the genus Dracaena: D. draco, D. cinnabari, D. ombet, and D. serrulata. Forty-nine 3D tree point clouds were created, and their morphological metrics were derived and compared. Our results indicate the possible
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20

Nadezhdina, N., A. Al-Okaishi, and P. Maděra. "Long-term in situ sap flow monitoring in a mature Dracaena cinnabari tree on Socotra." Biologia 74, no. 6 (2019): 609–22. http://dx.doi.org/10.2478/s11756-018-00185-9.

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21

Al-Okaishi, Abdulraqeb. "Local Management System of Dragon’s Blood Tree (Dracaena cinnabari Balf. f.) Resin in Firmihin Forest, Socotra Island, Yemen." Forests 11, no. 4 (2020): 389. http://dx.doi.org/10.3390/f11040389.

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Various nontimber forest products (NTFPs) are produced from the forests and woodlands of Yemen. Dragon’s blood tree resin is one of the commercial NTFPs in Yemen and is produced by tapping Dracaena cinnabari trees, which are listed as vulnerable by the IUCN (International Union for Conservation of Nature) Red List. By applying a forest resource assessment, the present study inventoried the D. cinnabari forest with the aim of identifying and evaluating its structure, the harvesting status of the resin, and the current management system. The study was conducted in the Firmihin forest, Socotra Is
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22

Nadezhdina, Nadezhda, Abdulraqeeb Al-Okaishi, and Petr Madera. "Sap Flow Measurements in a Socotra Dragon’s Blood Tree (Dracaena cinnabari) in its Area of Origin." Tropical Plant Biology 11, no. 3-4 (2018): 107–18. http://dx.doi.org/10.1007/s12042-018-9204-4.

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23

Al-Afifi, Nashwan Abdullah, Aied M. Alabsi, Gohar Shaghayegh, et al. "The in vitro and in vivo antitumor effects of Dracaena cinnabari resin extract on oral cancer." Archives of Oral Biology 104 (August 2019): 77–89. http://dx.doi.org/10.1016/j.archoralbio.2019.05.030.

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24

Ansari, Mohammad Javed, Ahmad Al-Ghamdi, Noori Al-Waili, Nuru Adgaba, Khalid Ali Khan, and Abdulraouf Amro. "Antimicrobial activity of Dracaena cinnabari resin from Soqotra Island on multi drug resistant human pathogens." African Journal of Traditional, Complementary and Alternative Medicines 13, no. 1 (2016): 123. http://dx.doi.org/10.4314/ajtcam.v13i1.17.

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25

Hubálková, Irena, Petr Maděra, and Daniel Volařík. "Growth dynamics of Dracaena cinnabari under controlled conditions as the most effective way to protect endangered species." Saudi Journal of Biological Sciences 24, no. 7 (2017): 1445–52. http://dx.doi.org/10.1016/j.sjbs.2015.09.011.

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26

Maděra, Petr, Hana Habrová, Martin Šenfeldr, et al. "Growth dynamics of endemic Dracaena cinnabari Balf. f. of Socotra Island suggest essential elements for a conservation strategy." Biologia 74, no. 4 (2018): 339–49. http://dx.doi.org/10.2478/s11756-018-0152-0.

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27

Attorre, Fabio, Fabio Francesconi, Nadim Taleb, et al. "Will dragonblood survive the next period of climate change? Current and future potential distribution of Dracaena cinnabari (Socotra, Yemen)." Biological Conservation 138, no. 3-4 (2007): 430–39. http://dx.doi.org/10.1016/j.biocon.2007.05.009.

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28

Habrova, Hana, Zdenek Cermak, and Jindrich Pavlis. "Dragon’s blood tree – Threatened by overmaturity, not by extinction: Dynamics of a Dracaena cinnabari woodland in the mountains of Soqotra." Biological Conservation 142, no. 4 (2009): 772–78. http://dx.doi.org/10.1016/j.biocon.2008.12.022.

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29

Maděra, Petr, Hana Habrová, Martin Čermák, Radim Adolt, and Daniel Volařík. "Age estimation of juvenile stages of Dracaena cinnabari Balf. F., the last stone in the mosaic of knowing its lifespan." Rendiconti Lincei. Scienze Fisiche e Naturali 31, no. 3 (2020): 677–86. http://dx.doi.org/10.1007/s12210-020-00921-x.

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30

Alabsi, Aied M., Kai Li Lim, Ian C. Paterson, Rola Ali-Saeed, and Bushra A. Muharram. "Cell Cycle Arrest and Apoptosis Induction via Modulation of Mitochondrial Integrity by Bcl-2 Family Members and Caspase Dependence inDracaena cinnabari-Treated H400 Human Oral Squamous Cell Carcinoma." BioMed Research International 2016 (2016): 1–13. http://dx.doi.org/10.1155/2016/4904016.

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Dracaena cinnabariBalf.f. is a red resin endemic to Socotra Island, Yemen. Although there have been several reports on its therapeutic properties, information on its cytotoxicity and anticancer effects is very limited. This study utilized a bioassay-guided fractionation approach to determine the cytotoxic and apoptosis-inducing effects ofD. cinnabarion human oral squamous cell carcinoma (OSCC). The cytotoxic effects ofD. cinnabaricrude extract were observed in a panel of OSCC cell lines and were most pronounced in H400. Only fractions DCc and DCd were active on H400 cells; subfractions DCc15 a
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Rejžek, Martin, Martin Svátek, Jan Šebesta, Radim Adolt, Petr Maděra, and Radim Matula. "Loss of a single tree species will lead to an overall decline in plant diversity: Effect of Dracaena cinnabari Balf. f. on the vegetation of Socotra Island." Biological Conservation 196 (April 2016): 165–72. http://dx.doi.org/10.1016/j.biocon.2016.02.016.

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32

KALB, JUTARAT, ROBERT LÜCKING, and KLAUS KALB. "The lichen genera Allographa and Graphis (Ascomycota: Ostropales, Graphidaceae) in Thailand—eleven new species, forty-seven new records and a key to all one hundred and fifteen species so far recorded for the country." Phytotaxa 377, no. 1 (2018): 1. http://dx.doi.org/10.11646/phytotaxa.377.1.1.

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We provide an updated account on the genera Graphis s.str. and Allographa (formerly included in Graphis) from Thailand. Four species of Allographa are described as new to science, viz. A. atrocelatoides, which differs from A. atrocelata in having marginata-morph lirellae and a smooth, off-white to beige thallus; A. kansriana, which differs from A. aquilonia in having negrosina-morph lirellae and brownish ascospores; A. schummii, which is characterized in having large, muriform ascospores and an open disc with a cinnabar-red pruina, reacting K+ lemon yellow; and A. sitianoides, which differs fr
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33

Al-Baoqai, Nahed, Hassan Al-Mahbashi, and Adnan Al-Adhal. "ANTIDIABETIC AND ANTIHYPERLIPIDEMIC ACTIVITY OF DRACAENA CINNABARI BALF. RESIN ETHANOLIC EXTRACT OF SOQATRA ISLAND IN EXPERIMENTAL ANIMALS." Universal Journal of Pharmaceutical Research, November 15, 2018. http://dx.doi.org/10.22270/ujpr.v3i5.194.

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Dracaena Cinnabari balfis a species plant in Abalfurn 1984e de la p pharmaciegavaceae family. It is a tree endemic to the Island of Socotra,Yemen. It was used as a dye and medicine in Socotra and the Mediterranean basin. Some researches demonstrated both hypoglycemic and hypolipidemic of its resin of Dracaena Cochinchinensis, a traditional Chinese tree. Accordingly, this study aimed to evaluate the antidiabetic potential of the ethanolic extract of dracanea cinnabari balfresin (DCBR), endemic in Socotra Island, in Alloxan induced diabetes, and evaluation of possible antihyperlipidemic activity
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34

Al-Okaishi, Abdulraqeb. "Exploring the historical distribution of Dracaena cinnabari using ethnobotanical knowledge on Socotra Island, Yemen." Journal of Ethnobiology and Ethnomedicine 17, no. 1 (2021). http://dx.doi.org/10.1186/s13002-021-00452-1.

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Abstract Background In this study, we present and analyze toponyms referring to Socotra Island’s endemic dragon’s blood tree (Dracaena cinnabari) in four areas on the Socotra Archipelago UNESCO World Heritage site (Republic of Yemen). The motivation is the understanding of the past distribution of D. cinnabari trees which is an important part of conservation efforts by using ethnobotanical data. We assumed that dragon’s blood trees had a wider distribution on Socotra Island in the past. Methods This research was based on field surveys and interviews with the indigenous people. The place names
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35

Ibraheam, Israa Adnan, Haider Mashkoor Hussein, and Imad Hadi Hameed. "Bioactivities, Characterization, and Therapeutic Uses of Dracaena cinnabari." International Journal of Pharmaceutical Quality Assurance 9, no. 01 (2018). http://dx.doi.org/10.25258/ijpqa.v9i01.11353.

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Young specimen of Dracaena cinnabari in the Koko Crater Botanical Garden, Honolulu, Hawaii, United States The dragon blood tree has a unique and strange appearance, with an "upturned, densely packed crown having the shape of an uprightly held umbrella". This evergreen species is named after its dark red resin, which is known as "dragon's blood". Its leaves are found only at the end of its youngest branches; its leaves are all shed every 3 or 4 years before new leaves simultaneously mature. Branching tends to occur when the growth of the terminal bud is stopped, due to either flowering or traum
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36

YASSER HUSSEIN EISSA MOHAMMED, DEEPIKA HS, FARES HEZAM AL-OSTOOT, ZABIULLA, ANILAKUMAR, and SHAUKATH ARA KHANUM. "IN VITRO EVALUATION OF HYPOLIPIDEMIC EFFECT OF EXTRACTS OF MEDICINAL DRACAENA CINNABARI BALF. F. RESIN." Asian Journal of Pharmaceutical and Clinical Research, August 3, 2019, 118–20. http://dx.doi.org/10.22159/ajpcr.2019.v12i10.32984.

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Objective: The objective of the study was to in vitro evaluate of hypolipidemic effect of extracts of medicinal Dracaena cinnabari Balf. f. resin.
 Methods: About 800 g of dry powder of the resin of dracaena cinnabar was taken in a Soxhlet apparatus and subjected for sequential extraction of solvents from non-polar to polar end (hexane, benzene, diethyl ether, dichloromethane, chloroform, ethyl acetate, acetone, ethanol, methanol, and water); the extract samples were kept at 4°C for further assays. All the extracts were subjected to glucose uptake assay.
 Results: The ethanol extract
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Helal, Iman E., Marwa Elsbaey, Ahmed M. Zaghloul, and El-Sayed S. Mansour. "A unique C-linked chalcone-dihydrochalcone dimer from Dracaena cinnabari resin." Natural Product Research, November 7, 2019, 1–6. http://dx.doi.org/10.1080/14786419.2019.1687471.

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38

Vesela, Dagmar, Radek Marek, Karel Ubik, Kamila Lunerova, Vladimir Sklenar, and Vaclav Suchy. "Dracophane, a Metacyclophane Derivative from the Resin of Dracaena cinnabari Balf." ChemInform 34, no. 17 (2003). http://dx.doi.org/10.1002/chin.200317199.

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39

Hubálková, Irena. "Prediction of Dragon's Blood Tree (Dracaena Cinnabari Balf.) Stand Sample Density on Soqotra Island." Journal of Landscape Ecology 4, no. 2 (2011). http://dx.doi.org/10.2478/v10285-012-0035-y.

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40

Al-Afifi, Nashwan Abdullah, Aied Mohammed Alabsi, Marina Mohd Bakri, and Anand Ramanathan. "Acute and sub-acute oral toxicity of Dracaena cinnabari resin methanol extract in rats." BMC Complementary and Alternative Medicine 18, no. 1 (2018). http://dx.doi.org/10.1186/s12906-018-2110-3.

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41

Helal, Iman E., Marwa Elsbaey, Ahmed M. Zaghloul та El-Sayed S. Mansour. "A new homoisoflavan from Dracaena cinnabari Balf. f. resin: α-glucosidase and COX-II inhibitory activity". Natural Product Research, 11 січня 2021, 1–6. http://dx.doi.org/10.1080/14786419.2020.1869229.

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42

"In vitro evaluation of antimicrobial and antioxidant activity of Dragon’s blood tree (Dracaena cinnabari Balf.f.) of Socotra Island (Yemen)." Journal of Coastal Life Medicine, September 28, 2013. http://dx.doi.org/10.12980/jclm.1.2013c555.

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43

Wati, Rahma, Irma Santi, Julfa Jafar, Adinda Putri Sangaji, and Aulia Wati. "ANTIHYPERLIPIDEMIC EFFECT OF THE ETHANOLIC EXTRACT OF SCAEVOLA TACCADA (GAERTN) ROXB. LEAVES." Universal Journal of Pharmaceutical Research, November 15, 2020. http://dx.doi.org/10.22270/ujpr.v5i5.486.

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Objective: The research aimed to determine the effect of ethanolic extract of Scaevola taccada (Gaertn.) Roxb leaves in hyperlipidemic rats WITH Cholesterol and triglyceride parameter.
 Methods: The research used 30 samples divided into 6 groups: group I (negative control) was given Sodium Carboxymethyl cellulose of 1% w/v , group II (positive control) was given simvastatin of 1.023 mg/kg Body weight, Group III was given gemfibrozil 167.60kg/Body Weight, group IV, V and VI were respectively given ethanolic extract of Scaevola taccada (Gaertn) Roxb with the doses of 700 mg/kg body weight 9
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44

Shalaby, Emad A., and Sanaa M. M. Shanab. "ANTIVIRAL ACTIVITY OF EXTRACT AND PURIFIED COMPOUND FROM RED MACROALGAE ASPARAGOPSIS TAXIFORMIS AGAINST H5N1 VIRUS." Universal Journal of Pharmaceutical Research, May 15, 2021. http://dx.doi.org/10.22270/ujpr.v6i2.573.

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Aim and objective: The discovery and development of new natural antiviral compounds which exhibit various antiviral activities are required. The aim of this investigation is to assess the potential use of the red seaweed Asparagopsis taxiformis as a new source of anti H5N1 agent.
 Methods: The seaweed was collected from Marsa Matrouh, Mediterranean Sea, Egypt during spring season, the effects of successive extracts and the pure compounds from the investigated alga on H5N1 virus were performed using plaque reduction assay. In addition, the mechanism of action of promising extract on the vi
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"Anti-Diabetic Activity of Dracaen cinnabari Balf.f Extracts from Resin in Socotra Island-Yemen." Journal of Plant Biochemistry & Physiology 4, no. 1 (2016). http://dx.doi.org/10.4172/2329-9029.1000162.

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Ngounou, Eric Martial Deutchoua, Yannick Dimitry Mang, Faustin Dongmo, Oumar Waassili Ibrahim Malla, Sélestin Sokeng Dongmo, and Nicolas Njintang Yanou. "EFFECT OF THE AQUEOUS EXTRACT OF CLERODENDRUM THOMSONIAE LINN (VERBENACEAE) LEAVES ON TYPE 2 DIABETIC WISTAR RATS INDUCED BY THE MACAPOS1 TYPE DIET AND DEXAMETHASONE." Universal Journal of Pharmaceutical Research, July 15, 2021. http://dx.doi.org/10.22270/ujpr.v6i3.601.

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Abstract:
Aim and objective: Clerodendrum thomsoniae leaves are used in Cameroon to manage diabetes and its related disorders. The study aimed at investigating the antidiabetic effect of the aqueous extract on diet and dexamethasone induced diabetic rats.
 Methods: Young mature leaves of C thomsoniae were dried, finely powdered and submitted to aqueous extraction. The dehydrated extract was tested in rats at 3 doses 312.5, 625 and 1250 mg/kg based on the local use of the plant. The effect of the extract on the fasting blood glucose in normoglycemic rats and MACAPOS 1 type diet induced diabetic rats
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Eissa Mohammed, Yasser Hussein. "In-vitro Anti-Cancer Activity of Extracts Dracaen Cinnabari Balf. F Resin from Socotra Island in Yemen Republic." Biochemistry & Analytical Biochemistry 5, no. 3 (2016). http://dx.doi.org/10.4172/2161-1009.1000296.

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