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Journal articles on the topic 'Galega officinalis'

Author: Grafiati
Published: 4 June 2021
Last updated: 27 July 2025

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1

Goetz, P., and R. Le Jeune. "Galega officinalis." Phytothérapie 6, no. 1 (2008): 39–41. http://dx.doi.org/10.1007/s10298-008-0284-4.

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2

Vorobey, V. S., T. M. Kovalevska, and D. B. Rahmetov. "THE INFLUENCE OF RHIZOBIUM GALEGAE STRAINS ON THE DEVELOPMENT OF PLANTS OF GALEGA OFFICINALIS AT FIRST AND SECOND YEAR OF CULTIVATION." Agriciltural microbiology 6 (February 20, 2008): 113–22. http://dx.doi.org/10.35868/1997-3004.6.113-122.

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The efficiency of inoculation of Galega officinalis by new strains of rhizobium allocated from nodules of the plant-owner was studied in conditions of field experience. Positive influence of bacterization of the plants by researching strains of nodule bacteria on the basic parameters of legume- rhizobial symbiosis as in the first and second year of vegetation of Galega officinalis is noted. Two strains R. galegae - Л-13 and Л-16 which promote increase in number nodules on roots of plants, activity symbiotic nitrogen fixation, contents of a chlorophyll in leaves of plants and productivity of Ga
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3

Andronov, E. E., Z. Terefework, M. L. Roumiantseva, et al. "Symbiotic and Genetic Diversity of Rhizobium galegae Isolates Collected from the Galega orientalis Gene Center in the Caucasus." Applied and Environmental Microbiology 69, no. 2 (2003): 1067–74. http://dx.doi.org/10.1128/aem.69.2.1067-1074.2003.

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ABSTRACT This paper explores the relationship between the genetic diversity of rhizobia and the morphological diversity of their plant hosts. Rhizobium galegae strains were isolated from nodules of wild Galega orientalis and Galega officinalis in the Caucasus, the center of origin for G. orientalis. All 101 isolates were characterized by genomic amplified fragment length polymorphism fingerprinting and by PCR-restriction fragment length polymorphism (RFLP) of the rRNA intergenic spacer and of five parts of the symbiotic region adjacent to nod box sequences. By all criteria, the R. galegae bv.
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4

Azhunova, T. A., and P. V. Markizov. "Antidiabetic activity of medicinal galega (Galega officinalis L.)." Pharmaceutical Chemistry Journal 28, no. 6 (1994): 410–11. http://dx.doi.org/10.1007/bf02285401.

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5

Sabarirajan, S., M. Balachandar, S. Kiruthiga, and B. G. Sathya Seelan. "Effectiveness of Galega Officinalis Mother Tincture as an Anti Diabetic in Type 2 Diabetes Mellitus." Advancements in Homeopathic Research 8, no. 2 (2023): 46–48. http://dx.doi.org/10.48165/ahr.2023.8.2.6.

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Diabetes mellitus is considered as the most important public health threat which has affected millions of people around the globe of all gender, ages, ethnic groups and race. Homoeopathy being a system of holistic approach, there are remedies based on the individualizing characteristic symptoms. In homoeopathic system Galega officinalis mother tincture is one among the antihyperglycemic medicine. Aqueous and ethanolic extract of Galega officinalis showed a hypoglycaemic effect in our research study. Thirty clinically diagnosed cases of T2DM were taken for the study. Most of the patients have g
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6

Turg'unova, Zarnigor Axadjon qizi. "DORIVOR GALEGA (GALEGA OFFICINALIS)O'SIMLIGINING TIBBIYOTDA VA TABOBATDA QO'LLANILISHI." zamonaviy dunyoda tabiiy fanlar 2, no. 2 (2023): 57–59. https://doi.org/10.5281/zenodo.7652349.

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7

O.V., Shymanska, Vergun O.M., Rakhmetov D.B., and Brindza J. "Antiradical activity of plant extracts of Galega officinalis L. and G. orientalis Lam." Plant Introduction 78 (May 1, 2018): 12–19. https://doi.org/10.5281/zenodo.2229075.

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<strong>Objective &ndash;</strong> to estimate the antiradical scavenging ability of extracts of plants of <em>Galega officinalis</em> L. and <em>G. orientalis</em> Lam., depending on phase of growing in the conditions of M.M. Gryshko National Botanical Garden of the NAS of Ukraine (NBG). <strong>Material and methods.</strong> Plant material of this investigation was two species of <em>Galega </em>L. (<em>G. officinalis </em>and <em>G. orientalis</em>) collected from experimental collection of Cultural Flora Department of NBG: GOFSV (<em>G. officinalis</em>, spring vegetation), GOFB (<em>G. of
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8

Oldham, Michelle, and Corey V. Ransom. "Goatsrue (Galega Officinalis) Seed Biology." Weed Science 57, no. 2 (2009): 149–54. http://dx.doi.org/10.1614/ws-08-105.1.

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Goatsrue is an introduced perennial plant which has proven to have great invasive potential, leading to its classification as a noxious weed in many states and at the federal level. Very little research has been done on its basic biology. Physical dormancy of mature goatsrue seed was tested through scarification with sulfuric acid for up to 60 min resulting in 100% germination. Comparison of dormancy for 26-yr-old and 6-mo-old goatsrue seed indicated that aged seeds had reduced dormancy levels compared to newly harvested seeds. Maximum germination was similar among the 6-mo old and 26-yr-old s
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9

Frýdová, B. H., D. Jenčová, M. Máchová, and J. Děd. "Rhizobia to Galega officinalis L." Zentralblatt für Mikrobiologie 147, no. 1-2 (1992): 103–11. http://dx.doi.org/10.1016/s0232-4393(11)80370-7.

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10

Dymbrylova, O. N., T. V. Yakimova, and A. I. Vengerovskii. "Influence of plant extracts on insulin resistance in experimental diabetes mellitus." Siberian Journal of Clinical and Experimental Medicine 37, no. 3 (2022): 128–35. http://dx.doi.org/10.29001/2073-8552-2022-37-3-128-135.

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Objective. The aim of the study was to evaluate the effect of medicinal plant extracts on insulin sensitivity in the model of diabetes mellitus.Material and Methods. Experiments were carried out using 110 outbred white male rats. Diabetes mellitus was induced by the administration of streptozotocin to animals receiving food with a high fat content for the formation of insulin resistance. The animals were injected with metformin, rosiglitazone, and aqueous extracts of nettle, dandelion, burdock, and Galega officinalis. The rats were divided into two groups during pharmacotherapy: group 1 contin
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11

Hachkova, Halyna, Tetiana Pokynbroda, and Nataliia Sybirna. "Hypoglycemic and antilipidemic potential of non-alkaloid from Galega officinalis extract in experimental diabetes mellitus." Studia Biologica 19, no. 2 (2025): 53–66. https://doi.org/10.30970/sbi.1902.827.

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Introduction. Dyslipidemia is a significant risk factor for cardiovascular disease in patients with diabetes mellitus, especially of type 2. The search for biologically active compounds derived from natural products capable of correcting lipid metabolism is a promising direction in the development of effective and safe dyslipidemia therapy. This study compared the hypoglycemic and antilipidemic potential of the non-alkaloid extract of Galega officinalis and the official herbal medicinal product Arfazetyn under experimental diabetes mellitus. Materials and Methods. Experimental diabetes mellitu
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12

Oldham, Michelle, and Corey V. Ransom. "Goatsrue (Galega officinalis) Response to Herbicides." Weed Technology 25, no. 1 (2011): 70–76. http://dx.doi.org/10.1614/wt-d-10-00003.1.

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Goatsrue response to eight herbicide treatments was evaluated in greenhouse and field trials. Herbicides tested on goatsrue grown from seed in the greenhouse included 2,4-D amine, dicamba, chlorsulfuron, picloram, imazapyr, imazamox, aminopyralid, and triclopyr. Each herbicide was applied at rates of 0.125×, 0.25×, 0.5×, 1.0×, and 2.0×, where X is equal to the labeled rate. Goatsrue was most sensitive to the acetolactate synthase inhibitors chlorsulfuron and imazapyr, with 50% inhibition values of 0.07× (3.7g ai ha−1) and 0.16× (90 g ai ha−1) respectively. Goatsrue did not respond to increasin
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13

Liu, W. Y. Y., H. J. Ridgway, T. K. James, M. Premaratne, and M. Andrews. "Characterisation of rhizobia nodulating Galega officinalis (goats rue) and Hedysarum coronarium (sulla)." New Zealand Plant Protection 65 (January 8, 2012): 192–96. http://dx.doi.org/10.30843/nzpp.2012.65.5365.

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Many legumes can colonise low nitrogen (N) soils due to their ability to fix atmospheric N2 via symbiotic bacteria in root nodules Galega officinalis and Hedysarum coronarium are legumes that have naturalised and become common weeds in New Zealand Previous work outside of New Zealand indicated that they only form effective nodules with their respective symbionts Rhizobium galegae and R sullae Here analysis of 16S rRNA and housekeeping genes and plant nodulation tests were carried out on five selected bacterial strains isolated from root nodules of both legumes sampled at one site each Only Rhi
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14

Hachkova, H., and N. Sybirna. "Inhibition of diabetes-induced oxidative-nitrative stress in rat kidneys by the alkaloid-free fraction of galega officinalis extract." Visnyk of Lviv University. Biological series, no. 94 (July 20, 2025): 16–24. https://doi.org/10.30970/vlubs.2025.94.02.

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Oxidative-nitrative stress induced by hyperglycaemia plays a key role in the development of complications of diabetes mellitus (DM), in particular, nephropathy. Thus, it is important to study the antioxidant activity of various compounds, including natural antioxidants of plant origin, to reduce the risk of diabetic complications. The combination of antioxidants and traditional antidiabetic drugs will provide more effective glycaemic control, and naturally occurring drugs have fewer side effects. The present study aims to investigate the corrective effect of alkaloid-free fraction (AFF) from G
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15

Hachkova, Halyna, Mariia Nagalievska, Zoriana Soliljak, et al. "Medicinal Plants Galega officinalis L. and Yacon Leaves as Potential Sources of Antidiabetic Drugs." Antioxidants 10, no. 9 (2021): 1362. http://dx.doi.org/10.3390/antiox10091362.

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Hypoglycemic and antioxidant properties of extracts of medicinal plants Galega officinalis L. (aboveground part) and yacon (Smallanthus sonchifolius Poepp. &amp; Endl.) (leaves) as potential sources of biologically active substances with antidiabetic action have been studied. The pronounced hypoglycemic effect of Galega officinalis extract, devoid of alkaloids, at a dose of 600 mg/kg in experimental diabetes mellitus (DM) has been proven. The established effect is evidenced by a decrease in the concentration of glucose and glycosylated hemoglobin in the blood, increase glucose tolerance of cel
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16

Tunali, B., A. Yildirim, M. C. Aime, and J. R. Hernández. "First Report of Rust Disease Caused by Uromyces galegae on Galega officinalis in Turkey." Plant Disease 90, no. 4 (2006): 525. http://dx.doi.org/10.1094/pd-90-0525b.

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Galega officinalis L. is an obnoxious invasive weed in the United States and a potential target for biological control efforts. The plant, a member of the legume family, is native to western Asia and southern Europe. During September 2001, uredinial pustules were observed on leaves of G. officinalis L. in Kizilcahamam, Ankara. Specimens were examined microscopically and compared with published descriptions (2) and herbarium specimens in the U.S. National Fungus Collections, Beltsville, MD. The fungus was subsequently identified as Uromyces galegae (Opiz) Sacc. on the basis of morphological cha
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17

Atanasov, A. "Anti-Platelet Fraction Isolated from Galega Officinalis." Acta Medica Bulgarica 43, no. 2 (2016): 5–10. http://dx.doi.org/10.1515/amb-2016-0011.

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Summary A fraction from crude extract of Galega officinalis has been purified by column chromatography on Sephadex G-25, Sepharose 4B, DEAE-Cellulose and Sephadex G-100. The final purification factor of the fraction is 120. The peak in elution profile after Sephadex G-150 shows a molecular weight of 100-140 kDa. The isolated fraction appears to have 74% polysaccharides and 23% of proteins. No loss of activity of the final fraction is observed after storage for several months at 4°C and in lyophilized condition. The fraction compounds inhibit platelet aggregation induced by ADP, collagen and th
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18

Terefework, Z. "AFLP fingerprinting as a tool to study the genetic diversity of Rhizobium galegae isolated from Galega orientalis and Galega officinalis." Journal of Biotechnology 91, no. 2-3 (2001): 169–80. http://dx.doi.org/10.1016/s0168-1656(01)00338-8.

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19

Lupak, M. I. "The alkaloid-free fraction from Galega officinalis extract prevents." Ukrainian Biochemical Journal 87, no. 4 (2015): 78–86. http://dx.doi.org/10.15407/ubj87.04.078.

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20

Vergun, Olena, Oksana Shymanska, Dzhamal Rakhmetov, Olga Grygorieva, Eva Ivanišová, and Jan Brindza. "Parameters of antioxidant activity of Galega officinalis L. and Galega orientalis Lam. (Fabaceae Lindl.) plant raw material." Potravinarstvo Slovak Journal of Food Sciences 14 (March 28, 2020): 125–34. http://dx.doi.org/10.5219/1271.

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The plant raw material of Galega officinalis L. (goat’s rue) and Galega orientalis Lam. (fodder galega) investigated in this study. These species are known as fodder crops with high productivity of green mass and as medicine plants. The current study was aimed to evaluate an accumulation in dry raw of selected plants the total content of phenolic acids (TPA) and flavonoids (TFC) as compounds with antioxidant activity (AA) by spectrophotometric method. AA by DPPH-method and phosphomolybdenum method (reducing power (RP)) was measured. Study of ethanolic extracts of G. officinalis showed accumula
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21

C., D. Luka, I. Adoga G., and Istifanus G. "Phytochemical Studies of Different Fractions of Galega officinalis Extract and Their Effects on Some Biochemical Parameters in Alloxan-Induced Diabetic Rats." European Journal of Medicinal Plants 19, no. 1 (2017): 1–10. https://doi.org/10.9734/EJMP/2017/32145.

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<em>Galega officinalis Linn</em> (Goat’s rue) is popularly called <em>sakpani </em>in Hausa speaking part of Nigeria. The Plant belongs to the family Leguminoseae. <em>G. officinalis</em> is chiefly used as an antidiabetic plant because of its ability to reduce blood sugar levels. The plant has positive effect on breast-milk production. Aqueous, methanolic, ethanolic and acetone extracts of the plant <em>Galega officinalis Linn </em>(Leguminoseae) and fractionations of the methanolic extracts were carried out in stages using standard procedures. Alkaloids, glycosides and flavonoids from the me
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22

Du, Wenxuan, Wenbo Jiang, Dengxia Yi, and Yongzhen Pang. "The complete chloroplast genome of Galega officinalis L." Mitochondrial DNA Part B 6, no. 2 (2021): 663–65. http://dx.doi.org/10.1080/23802359.2021.1878961.

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23

Bednarska, Katarzyna, Piotr Kuś, and Izabela Fecka. "Investigation of the Phytochemical Composition, Antioxidant Activity, and Methylglyoxal Trapping Effect of Galega officinalis L. Herb In Vitro." Molecules 25, no. 24 (2020): 5810. http://dx.doi.org/10.3390/molecules25245810.

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Galega officinalis L. has been known for centuries as an herbal medicine used to alleviate the symptoms of diabetes, but its comprehensive chemical composition and pharmacological activity are still insufficiently known. The current study involved the qualitative and quantitative phytochemical analysis and in vitro evaluation of the antioxidative and methylglyoxal (MGO) trapping properties of galega herb. Ultra high-performance liquid chromatography coupled with both the electrospray ionization mass spectrometer and diode-array detector (UHPLC-ESI-MS and UHPLC-DAD) were used to investigate the
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24

Fierro, A., J. Norrie, A. Gosselin, and C. J. Beauchamp. "Deinking sludge influences biomass, nitrogen and phosphorus status of several grass and legume species." Canadian Journal of Soil Science 77, no. 4 (1997): 693–702. http://dx.doi.org/10.4141/s96-114.

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In a greenhouse study, deinking sludge was evaluated as a soil amendment supplemented with four nitrogen (N) fertilization levels for the growth of the grasses Agropyron elongatum (Host.) Beauv. (tall wheatgrass), Alopecurus pratensis L. (meadow foxtail), Festuca ovina var. duriuscula (L). Koch (hard fescue), and four levels of phosphorus (P) for the growth of the legumes Galega orientalis Lam. (galega), Medicago lupulina L. (black medic), Melilotus officinalis (L.) Lam (yellow sweet clover). Fertilizers were applied on the basis of sludge level to maintain uniform carbon (C)/N or C/P ratios a
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25

Khezri, Maryam, Rasool Asghari-Zakaria, Nasser Zare, and Mohammad Johari-Ahar. "Tetraploidy induction increases galegine content in Galega officinalis L." Journal of Applied Research on Medicinal and Aromatic Plants 26 (February 2022): 100366. http://dx.doi.org/10.1016/j.jarmap.2021.100366.

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26

Pundarikakshudu, K., Jayvadan K. Patel, Munira S. Bodar, and S. G. Deans. "Anti-bacterial activity of Galega officinalis L. (Goat's Rue)." Journal of Ethnopharmacology 77, no. 1 (2001): 111–12. http://dx.doi.org/10.1016/s0378-8741(01)00250-1.

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27

CHAMPAVIER, Yves, Daovy P. ALLAIS, Albert J. CHULIA, and Mourad KAOUADJI. "Acetylated and Non-acetylated Flavonol Triglycosides from Galega officinalis." CHEMICAL & PHARMACEUTICAL BULLETIN 48, no. 2 (2000): 281–82. http://dx.doi.org/10.1248/cpb.48.281.

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28

Azimi, M., M. Ahmadi Golsefidi, A. Varasteh Moradi, M. Ebadii, and R. Zafar Mehrabian. "A Novel Method for Extraction of Galegine by Molecularly Imprinted Polymer (MIP) Technique Reinforced with Graphene Oxide and Its Evaluation Using Polarography." Journal of Analytical Methods in Chemistry 2020 (March 1, 2020): 1–9. http://dx.doi.org/10.1155/2020/3646712.

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Galega officinalis products have been used for the control of diabetes (type 2) across the world. Experimental and clinical evaluations of galegine substance produced by a medicinal plant (Galega officinalis) provided the pharmacological and chemical basis for metformin discovery which was confirmed for diabetes therapy. In this paper, the molecularly imprinted polymer (MIP) was synthesized for galegine, using galegine as a template molecule, methacrylic acid (MAA) as a functional monomer, ethylene glycol dimethacrylate (EGDMA) as a cross-linker, azobisisobutyronitrile (AIBN) as a reaction ini
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29

Ertürk, Ö. "Antibacterial and antifungal effects of alcoholic extracts of 41 medicinal plants growing in Turkey." Czech Journal of Food Sciences 28, No. 1 (2010): 53–60. http://dx.doi.org/10.17221/144/2008-cjfs.

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The antibacterial and antifungal activities of crude ethanolic extracts of 41 traditional medicinal plant species belonging to 26 families were tested against four bacteria and two fungi: &lt;I&gt;Bacillus subtilis, Escherichia coli, Staphylococcus aureus, Pseudomonas aeruginosa, Candida albicans&lt;/I&gt;, and &lt;I&gt;Aspergillus niger&lt;/I&gt;. Of the 41 plants tested, 39 showed antimicrobial activity against one or more species of microorganisms. While the crude extracts from &lt;I&gt;Nigellea arvensis&lt;/I&gt; did not show antimicrobial activity against the test microorganisms, &lt;I&gt
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30

Jarco, Sylwia, Barbara Pilawa, and Paweł Ramos. "Free Radical Scavenging Activity of Infusions of Different Medicinal Plants for Use in Obstetrics." Plants 10, no. 10 (2021): 2016. http://dx.doi.org/10.3390/plants10102016.

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An X-band (9.3 GHz) electron paramagnetic resonance (EPR) spectroscopy was used to examine the free radical scavenging activity of the following infusions, which were nonirradiated and exposed to UVA: root of Asparagus racemosus and herbs of Mitchella repens, Cnicus benedictus L., Galega officinalis L., and Eupatorium cannabinum L. The plant materials for obstetrics applications were chosen for analysis. The aims of these studies were to compare the free radical scavenging ability of the tested infusions and to determine the influence of UVA irradiation of the plant materials on interactions o
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31

Sanati, Ehsan, Iraj Posti, Hassan Gilanpour, and Saeed Hesaraki. "Protective Effect of Hydroalcoholic Extracts of Galega officinalis and Cornus mas on Spermatogenesis and Oxidative Stress Associated With Diabetes in the Testes of Adult Rats: An Experimental Study." Crescent Journal of Medical and Biological Sciences 10, no. 1 (2022): 43–48. http://dx.doi.org/10.34172/cjmb.2023.07.

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Objectives: In this research, we evaluated the protective effect of hydroalcoholic extracts of Galega officinalis and Cornus mas on spermatogenesis and oxidative stress associated with diabetes in the testes of adult rats. Materials and Methods: In this experimental study, a total of 64 adult male Wistar rats were divided into eight equal groups (n=8 in each) as follows: (1) control group, (2) diabetic control group, (3) diabetic group receiving Galega extract daily at a dose of 50 mg/kg, (4) healthy group receiving Galega extract daily at a dose of 50 mg/kg for 14 days, (5) diabetic group rec
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32

FUKUNAGA, TAKEHIKO, KOICHI NISHIYA, KOICHI TAKEYA, and HIDEJI ITOKAWA. "Studies on the constituents of Goat's Rue (Galega officinalis L.)." CHEMICAL & PHARMACEUTICAL BULLETIN 35, no. 4 (1987): 1610–14. http://dx.doi.org/10.1248/cpb.35.1610.

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33

Champavier, Yves, Gilles Comte, Joseph Vercauteren, Daovy P. Allais, and Albert J. Chulia. "Norterpenoid and sesquiterpenoid glucosides from Juniperus phynicea and Galega officinalis." Phytochemistry 50, no. 7 (1999): 1219–23. http://dx.doi.org/10.1016/s0031-9422(98)00697-9.

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34

Rasekh, Hamid R., Pardis Nazari, Mohammad Kamli-Nejad, and Leila Hosseinzadeh. "Acute and subchronic oral toxicity of Galega officinalis in rats." Journal of Ethnopharmacology 116, no. 1 (2008): 21–26. http://dx.doi.org/10.1016/j.jep.2007.10.030.

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35

Atanasov, Atanas Todorov, and Bojidar Tchorbanov. "Anti-Platelet Fraction from Galega officinalis L. Inhibits Platelet Aggregation." Journal of Medicinal Food 5, no. 4 (2002): 229–34. http://dx.doi.org/10.1089/109662002763003384.

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36

Kleveta, G. Ya, А. M. Kоtyk, M. I. Skybitska, M. R. Khokhla, Ya P. Chajka, and N. O. Sybirna. "Hypoglycemic effect of Galega Officinalis L. extracts at experimental diabetes mellitus." Studia Biologica 3, no. 2 (2009): 59–64. http://dx.doi.org/10.30970/sbi.0302.029.

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37

Shokri, Farnaz, Majid Shokoohi, Ayda Roudi Rasht Abadi, and Hossein Kalarestaghi. "The ameliorative effect of Galega officinalis Extract on Histological Damages, Oxidative Stress Induced by Torsion-Detorsion in Adult Rats’ Ovarian." International Journal of Women's Health and Reproduction Sciences 7, no. 1 (2018): 119–23. http://dx.doi.org/10.15296/ijwhr.2019.19.

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Objectives: The antioxidative role of Galega officinalis extract has been reported in several studies. However, this experimental study was designed in order to investigate the impacts of G. officinalis extract against parameters, such as histological, hormonal, and oxidative stress parameters, which were induced by ovarian torsion/detorsion. Materials and Methods: Adult female Wistar rats (n = 28) were randomly divided into 4 groups including sham (G1), ovarian torsion for 3 hours then-after detorsion (G2 or TD), ovarian torsion-detorsion orally received 50 mg/kg extract of G. officinalis (G3
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38

Karasev, Evgeny S., Sergey L. Hosid, Tatiana S. Aksenova, et al. "Impacts of Natural Selection on Evolution of Core and Symbiotically Specialized (sym) Genes in the Polytypic Species Neorhizobium galegae." International Journal of Molecular Sciences 24, no. 23 (2023): 16696. http://dx.doi.org/10.3390/ijms242316696.

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Nodule bacteria (rhizobia) represent a suitable model to address a range of fundamental genetic problems, including the impacts of natural selection on the evolution of symbiotic microorganisms. Rhizobia possess multipartite genomes in which symbiotically specialized (sym) genes differ from core genes in their natural histories. Diversification of sym genes is responsible for rhizobia microevolution, which depends on host-induced natural selection. By contrast, diversification of core genes is responsible for rhizobia speciation, which occurs under the impacts of still unknown selective factor
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39

Różański, Henryk, and Dominik Wróbel. "Galega officinalis L. rutwica lekarska (Fabaceae Lindl.) w Kotlinie Jasielsko-Krośnieńskiej." HERBALISM 3, no. 1 (2021): 93–101. http://dx.doi.org/10.12775/herb.2017.007.

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Rutwica lekarska występuje naturalnie m.in. na południu i południowym-wschodzie Europy. W południowej Polsce występuje głównie na stanowiskach antropogenicznych. Celem pracy było przedstawienie zróżnicowania siedliskowego na różnych stanowiskach,określenie zasobów gatunku oraz dokonanie przeglądu zastosowań fitoterapeutycznych rutwicy lekarskiej. Do poszukiwania nowych stanowisk zastosowano metodę transektową, a zróżnicowanie siedliskowe badano metodą fitosocjologiczną Braun-Blanqueta. Znalezione nowe stanowiska we wschodniej części Jasła oraz w Potoku koło Krosna mają charakter antropogeniczn
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40

Palit, P., B. L. Furman, and A. I. Gray. "Novel weight reducing activity of ethanol-water extract of Galega officinalis." Journal of Pharmacy and Pharmacology 50, S9 (1998): 80. http://dx.doi.org/10.1111/j.2042-7158.1998.tb02280.x.

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Bromfield, Eden S. P., Sylvie Cloutier, Catherine Robidas, Thu Van Tran Thi, and Stephen J. Darbyshire. "Invasive Galega officinalis (Goat's rue) plants in Canada form a symbiotic association with strains of Neorhizobium galegae sv. officinalis originating from the Old World." Ecology and Evolution 9, no. 12 (2019): 6999–7004. http://dx.doi.org/10.1002/ece3.5266.

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Feng, Junjie, Yi Xiong, Xiaoli Su, et al. "Analysis of Complete Chloroplast Genome: Structure, Phylogenetic Relationships of Galega orientalis and Evolutionary Inference of Galegeae." Genes 14, no. 1 (2023): 176. http://dx.doi.org/10.3390/genes14010176.

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Galega orientalis, a leguminous herb in the Fabaceae family, is an ecologically and economically important species widely cultivated for its strong stress resistance and high protein content. However, genomic information of Galega orientalis has not been reported, which limiting its evolutionary analysis. The small genome size makes chloroplast relatively easy to obtain genomic sequence for phylogenetic studies and molecular marker development. Here, the chloroplast genome of Galega orientalis was sequenced and annotated. The results showed that the chloroplast genome of G. orientalis is 125,2
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ÖSTERMAN, J., E. P. CHIZHEVSKAJA, E. E. ANDRONOV, et al. "Galega orientalis is more diverse than Galega officinalis in Caucasus-whole-genome AFLP analysis and phylogenetics of symbiosis-related genes." Molecular Ecology 20, no. 22 (2011): 4808–21. http://dx.doi.org/10.1111/j.1365-294x.2011.05291.x.

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Muntean, Leon Sorin. "ASPECTS REGARDING RESEARCH IN THE FIELD OF MEDICINAL AND AROMATIC PLANTS AT AGRONOMIC SCHOOL IN CLUJ." Hop and Medicinal Plants 19, no. 1-2 (2013): 36–47. https://doi.org/10.15835/hpm.v19i1-2.8950.

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The paper present the foremost medicinal plant species (biological aspects, take in culture, the content in actives principles, technological elements and the initiation in breeding works) studied from year 1904 until nowadays at University of Agricultural Sciences and Veterinary Medicine from Cluj-Napoca. Medicinal and aromatically plants take in study are: Solanum laciniatum Ait., Lindl., Colchicum autumnale L., Echinacea pallida Nutt., Echinacea purpurea (L.) Moench., Â Â Â Valeriana officinalis L., Mellisa officinalis L., Calendula officinalis L., L., Aconitum napellus L., Angelica archang
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Lefnaer, Stefan. "Floristische Neuigkeiten aus dem niederösterreichischen Weinviertel und Wien nördlich der Donau, 2." Neilreichia 10 (April 30, 2019): 69–83. https://doi.org/10.5281/zenodo.2630527.

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From the southern and central parts of the Weinviertel region, in north-eastern Lower Austria, and from the northern part of Vienna occurrences of rare plant species are reported. New for the flora of Vienna is Cyperus longus subsp. longus. New for the flora of Vienna north of the Danube are Geranium sibiricum, Kickxia spuria and Panicum miliaceum subsp. agricola. New for the flora of Weinviertel is Centaurea diffusa. New localities of further 19 remarkable taxa are presented, of which 2 are critically endangered, 9 endangered and 6 vulnerable according to the current Red List of Austria: Alce
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Muntean, Leon Sorin. "RESEARCH IN THE FIELD OF MEDICINAL AND AROMATICAL CULTURE AT UNIVERSITY OF AGRICULTURAL SCIENCES AND VETERINARY MEDICINE CLUJ-NAPOCA." Hop and Medicinal Plants 16, no. 1-2 (2008): 72–80. https://doi.org/10.15835/hpm.v16i1-2.3031.

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The paper present the foremost medicinal plant species (biological aspects, take in culture, the content in actives principles, technological elements and the initiation in breeding works) studied from year 1904 until nowadays at University of Agricultural Sciences and Veterinary Medicine from Cluj-Napoca. Medicinal and aromatically plants take in study are: Solanum laciniatum Ait., Papaver bracteatum Lindl., Colchicum autumnale L., Echinacea pallida Nutt., Echinacea purpurea (L.) Moench., Valeriana officinalis L., Aconitum napellus L., Angelica archangelica L., Hermiana glabra L., Calendula o
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Wang, Zan, Jun-E. Wang, Xue-Min Wang, Hong-Wen Gao, Nickolay I. Dzyubenko, and Vladimir F. Chapurin. "Assessment of genetic diversity in Galega officinalis L. using ISSR and SRAP markers." Genetic Resources and Crop Evolution 59, no. 5 (2011): 865–73. http://dx.doi.org/10.1007/s10722-011-9727-0.

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Lee, Ji-Seon, Won-Serk Kim, Jin-Ju Kim, et al. "Identification of anti-melanogenic natural compounds from Galega officinalis and further drug repositioning." Journal of Dermatological Science 67, no. 1 (2012): 61–63. http://dx.doi.org/10.1016/j.jdermsci.2012.03.003.

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Muñoz, Eduardo, Patricia Velásquez, Karina Rodriguez, Gloria Montenegro, and Ady Giordano. "Influence of Brassica campestris and Galega officinalis on Antioxidant Activity of Bee Pollen." Revista Brasileira de Farmacognosia 30, no. 3 (2020): 444–49. http://dx.doi.org/10.1007/s43450-020-00065-x.

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Oldham, Michelle, Corey V. Ransom, Michael H. Ralphs, and Dale R. Gardner. "Galegine Content in Goatsrue (Galega officinalis) Varies by Plant Part and Phenological Growth Stage." Weed Science 59, no. 3 (2011): 349–52. http://dx.doi.org/10.1614/ws-d-10-00169.1.

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Goatsrue is a member of the Fabaceae family, native to Europe and western Asia. It contains the toxic alkaloid galegine. The objective of the study was to describe galegine concentration in aboveground goatsrue plant parts and total galegine pools over phenological growth stages. Twenty goatsrue plants at four locations were selected and a stalk was harvested from each at five stages of phenological development and separated into parts. Plant parts were freeze-dried, ground, and analyzed with liquid chromatography/mass spectrometry. Galegine concentration was significantly different in plant t
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