[
[1]. C. Leitzmann, Characteristics and health benefits of phytochemicals, Forschende Komplementarmedizin 23 (2016) 69-74. DOI: 10.1159/000444063.
]Search in Google Scholar
[
[2]. A.E. Al-Snafi, Galium verum – A review, Indo American Journal of Pharmaceutical Sciences 05 (2018) 2142–2149. DOI: 10.5281/zenodo.1214980
]Search in Google Scholar
[
[3]. D. Turcov, A.S. Barna, A. Trifan, A.C. Blaga, A.M. Tanasă, D. Suteu, Antioxidants from Galium verum as ingredients for the design of new dermatocosmetic products, Plants 11 (2022) 2454. DOI: 10.3390/plants11192454
]Search in Google Scholar
[
[4]. P.R. Laanet, P. Saar-Reismaa, P. Jõul, O. Bragina, M. Vaher, Phytochemical screening and antioxidant activity of selected Estonian Galium species, Molecules 28 (2023) 2867. DOI: 10.3390/molecules28062867
]Search in Google Scholar
[
[5]. D. Hanganu, R.F. Burtescu, S. Petrescu, F.R. Pripon Furtuna, E. Chise, V. Turcus, D. Benedec, I. Oniga, N.K. Olah, Galium species – Polyphenolic content and their antioxidant potential, Hop and Medicinal Plants 1-2 (2018) 84–93.
]Search in Google Scholar
[
[6]. L. Vlase, A. Mocan, D. Hanganu, D. Benedec, A. Gheldiu, G. Crișan, Comparative study of polyphenolic content, antioxidant and antimicrobial activity of four Galium species (Rubiaceae), Digest Journal of Nanomaterials and Biostructures 9 (2014) 1085–1094.
]Search in Google Scholar
[
[7]. S.G. Zaichikova, D.O. Bokov, M.V. Kiselevskii, A.M. Antsyshkina, A.A. Bondar, T.V. Prostodusheva, O.Y. Shchepochkina, V.I. Gegechkori, Determination of the chemical composition of Lady’s Bedstraw (Galium verum L.) herb extract by GC-MS, Pharmacognosy Journal 12 (2020) 857–863. DOI: 10.5530/pj.2020.12.123
]Search in Google Scholar
[
[8]. C.C. Zhao, J.H Shao, X. Li, X.D. Kang, Y.M. Zhang, D.L. Meng, N. Li, Flavonoids from Galium verum L., Journal of Asian Natural Products Research 10 (2008) 613-617. DOI: 10.1080/10286020802133217
]Search in Google Scholar
[
[9]. C.C. Zhao, J.H. Shao, X. Li, J. Xu, H.H. Wang, A new antraquinone from Galium verum L., Natural Product Research 20 (2006) 981-984. DOI: 10.1080/14786410600921532
]Search in Google Scholar
[
[10]. M. Kuhtinskaja, M. Vaher, Extraction and analysis of bioactive compounds from Dipsacus fullonum and Galium verum for Lyme borreliosis treatment, Biomedical Journal of Scientific and Technical Research 11 (2018) 8614–8616. DOI: 10.26717/BJSTR.2018.11.002121
]Search in Google Scholar
[
[11]. J. Bradic, A. Petkovic, M. Tomovic, Phytochemical and pharmacological properties of some species of the genus Galium L. (Galium verum and Mollugo), Serbian Journal of Experimental and Clinical Research 1 (2017) 187–193. DOI: 10.1515/sjecr-2017-0057
]Search in Google Scholar
[
[12]. T. Ilina, N. Kashpur, S. Granica, A. Bazylko, I. Shinkovenko, A. Kovalyova, O. Goryacha, O. Koshovyi, Phytochemical profiles and in vitro immunomodulatory activity of ethanolic extracts from Galium aparine L, Plants 8 (2019) 541. DOI: 10.3390/plants8120541
]Search in Google Scholar
[
[13]. D. Yigit, N. Yigit, U. Ozgen, An investigation on the anticandidal activity of some traditional medicinal plants in Turkey, Mycoses 52 (2009) 135-140. DOI: 10.1111/j.1439-0507.2008.01552.x
]Search in Google Scholar
[
[14]. A. Mavi, Z. Terzi, U. Ozgen, A. Yildirim, M. Coskun, Antioxidant properties of some medicinal plants: Prangos ferulacea (Apiaceae), Sedum sempervivoides (Crassulaceae), Malva neglecta (Malvaceae), Cruciata taurica (Rubiaceae), Rosa pimpinellifolia (Rosaceae), Galium verum subsp. verum (Rubiaceae), Urtica dioica (Urticaeae), Biological and Pharmaceutical Bulletin 27 (2004) 702-705. DOI: 10.1248/bpb.27.702
]Search in Google Scholar
[
[15]. M. Khalili, M.A. Ebrahimzadeh, Y. Safdari, Antihaemolytic activity of thirty herbal extracts in mouse red blood cells, Archives of Industrial Hygiene and Toxicology 65 (2014) 399-406. DOI: 10.2478/10004-1254-65-2014-2513
]Search in Google Scholar
[
[16]. M. Schmidt, C.J. Scholz, G.L. Gavril, C. Otto, C. Polednik, J. Roller, R. Hagen, Effect of Galium verum aqueous extract on growth, motility and gene expression in drug-sensitive and-resistant laryngeal carcinoma cell lines, International Journal of Oncology 44 (2014) 745-760. DOI: 10.3892/ijo.2013.2220
]Search in Google Scholar
[
[17]. M. Schmidt, C. Polednik, J. Roller, R. Hagen, Galium verum aqueous extract strongly inhibits the motility of head and neck cancer cell lines and protects mucosal keratinocytes against toxic DNA damage, Oncology Reports 32 (2014) 1296-1302. DOI: 10.3892/or.2014.3316
]Search in Google Scholar
[
[18]. S. Pashapour, M. Heshmati, Z. Mousavi, S. Esmaeili, The apoptotic effect of methanolic extract of Galium verum on HT29 cell line, Journal of Biological Studies 4 (2022) 210–220.
]Search in Google Scholar
[
[19]. S. Pashapour, M. Heshmati, Z. Mousavi, S. Esmaeili, The cytotoxicity of the chloroform and petroleum ether fractional extracts of Galium verum L. in HepG2 and HT29 cell lines, Journal of Kermanshah University of Medical Sciences 24 (2020) e101079. DOI: https://doi.org/10.5812/jkums.101079
]Search in Google Scholar
[
[20]. H. Atmaca, E. Bozkurt, M. Cittan, H.D. Tepe, Effects of Galium aparine extract on the cell viability, cell cycle and cell death in breast cancer cell lines, Journal of Ethnopharmacology 186 (2016) 305-310. DOI: 10.1016/j.jep.2016.04.007
]Search in Google Scholar
[
[21]. N.H. Matthews, W.Q. Li, A.A. Quereshi, M.A. Weinstock, E. Cho, W.H. Ward, J.M. Farma, Epidemiology of melanoma. In “Cutaneous Melanoma: Etiology and Therapy”, W.H. Ward and J.M. Farma (Eds.), Codon Publications, Brisbane, Australia, 2017, pp. 3–22. DOI: 10.15586/codon.cutaneousmelanoma.2017.ch1
]Search in Google Scholar
[
[22]. P. Kłos, D. Chlubek, Plant-derived terpenoids: A promising tool in the fight against melanoma, Cancers 14 (2022) 502. DOI: 10.3390/cancers14030502
]Search in Google Scholar
[
[23]. K.R.S. Albuquerque, N.M. Pacheco, T. Del Rosario Loyo Casao, F.C.S.A de Melo, R.D. Novaes, R.V. Gonçalves, Applicability of plant extracts in preclinical studies of melanoma: A systematic review, Mediators of Inflammation 26 (2018) 6797924. DOI: 10.1155/2018/6797924
]Search in Google Scholar
[
[24]. ***, Characteristic of IR Absorption Frequencies of Organic Functional Groups. Available online: http://www2.ups.edu/faculty/hanson/Spectroscopy/IR/IRfrequencies.html (accessed on 25 October 2023).
]Search in Google Scholar
[
[25]. A.D., Semenescu, E.A. Moacă, A. Iftode, C.A. Dehelean, D.S. Tchiakpe-Antal, L. Vlase, A.M. Vlase, D. Muntean, R. Chioibaş, Phytochemical and nutraceutical screening of ethanol and ethyl acetate phases of Romanian Galium verum herba (Rubiaceae), Molecules 28 (2023) 7804. DOI: 10.3390/molecules28237804
]Search in Google Scholar
[
[26]. A. Anton, E.A. Moaca, C.A. Sarau, S. Dinu, A.D. Semenescu, I.G. Macasoi, C.A. Dehelean, Antioxidant and in vitro cytotoxic activity of commercial lemongrass, sea buckthorn and basil essential oils, against colorectal cancer cell line HCT 116, Farmacia 70 (2022) 683-689. DOI: 10.31925/farmacia.2022.4.14
]Search in Google Scholar
[
[27]. O. Gag, I. Macasoi, I. Pinzaru, S. Dinu, R. Popovici, M.R. Cosoroaba, R. Buzatu, M. Cabuta, S.D. Chiriac, In vitro assessment of the impact of Ultraviolet B radiation on oral healthy and tumor cells, Photonics 10 (2023) 464. DOI: 10.3390/photonics10040464
]Search in Google Scholar
[
[28]. H.F. Shurvell, Spectra-structure correlations in the mid and far infrared. In “Handbook of vibrational spectroscopy”, J.M. Chalmers and P.R. Griffiths, (Eds.), John Wiley & Sons Ltd., Chichester, UK, 2022, pp. 1783–1816. DOI: 10.1002/0470027320.s4101
]Search in Google Scholar
[
[29]. C.O. Sim, M.R. Hamdan, Z. Ismail, M.N. Ahmad, Assessment of herbal medicines by chemometrics: Assisted interpretation of FTIR spectra, Journal of Analytica Chimica Acta 570 (2004) 116–123.
]Search in Google Scholar
[
[30]. P. Wongsa, P. Phatikulrungsun, S. Prathumthong, FT-IR characteristics, phenolic profiles and inhibitory potential against digestive enzymes of 25 herbal infusions, Scientific Reports 12 (2022) 6631. DOI: 10.1038/s41598-022-10669-z.
]Search in Google Scholar
[
[31]. V. N`Goka, G.R. Mbon, Production of alternative petroleum ether and extractive power evaluation, American Journal of Food Technology 7 (2012) 173-175.
]Search in Google Scholar
[
[32]. X. Li, R. Zhou, K. Xu, J. Xu, J. Jin, H. Fang, Y. He, Rapid determination of chlorophyll and pheophytin in green tea using Fourier transform infrared spectroscopy, Molecules 23 (2018) 1010.
]Search in Google Scholar
[
[33]. N. Kumar, N. Goel, Phenolic acids: Natural versatile molecules with promising therapeutic applications, Biotechnology Reports (Amsterdam, Netherlands) 24 (2019) e00370. DOI: 10.1016/j.btre.2019.e00370
]Search in Google Scholar
[
[34]. M. Sahiner, A.S. Yilmaz, B. Gungor, Y. Ayoubi, N. Sahiner, Therapeutic and nutraceutical effects of polyphenolics from natural sources, Molecules 27 (2022) 6225. DOI: 10.3390/molecules27196225
]Search in Google Scholar
[
[35]. M.R. Norazlina, Y.S. Tan, M. Hasmadi, M.H.A. Jahurul, Effect of solvent pre-treatment on the physicochemical, thermal profiles and morphological behavior of Mangifera pajang seed fat, Heliyon 7 (2021) e08073. DOI: 10.1016/j.heliyon.2021.e08073
]Search in Google Scholar
[
[36]. Z. Asefy, A. Tanomand, S. Hoseinnejhad, Z. Ceferov, E.A. Oshaghi, M. Rashidi, Unsaturated fatty acids as a co-therapeutic agents in cancer treatment, Molecular Biology Reports 48 (2021) 2909-2916. DOI: 10.1007/s11033-021-06319-8
]Search in Google Scholar
[
[37]. U.N. Das, Essential fatty acids - a review, Current Pharmaceutical Biotechnology 7 (2006) 467–482.
]Search in Google Scholar
[
[38]. K. Jing, T. Wu, K. Lim, Omega-3 polyunsaturated fatty acids and cancer, Anti-Cancer Agents in Medicinal Chemistry 13 (2013) 1162–1177. DOI: 10.2174/18715206113139990319
]Search in Google Scholar
[
[39]. F. Jung, S. Braune, C.H.G. Jung, A. Krüger-Genge, P. Waldeck, I. Petrick, J.H. Küpper, Lipophilic and hydrophilic compounds from arthrospira platensis and its effects on tissue and blood cells - An overview, Life 12 (2022) 1497. DOI: 10.3390/life12101497
]Search in Google Scholar
[
[40]. K. Vaňková, I. Marková, J. Jašprová, A. Dvořák, I. Subhanová, J. Zelenka, I. Novosádová, J. Rasl, T. Vomastek, R. Sobotka, L. Muchová, L. Vítek, Chlorophyll-mediated changes in the redox status of pancreatic cancer cells are associated with its anticancer effects, Oxidative Medicine and Cellular Longevity 2018 (2018) 4069167. DOI: 10.1155/2018/4069167
]Search in Google Scholar
[
[41]. T. Chunlian, G. Xiang, Y. Jie, G. Yuru W. Hong, L. Mingchun, Chemical compositions, extraction technology, and antioxidant activity of petroleum ether extract from Abutilon theophrasti Medic. leaves, International Journal of Food Properties 21 (2018) 1789-1799. DOI: 10.1080/10942912.2018.1494198.
]Search in Google Scholar
[
[42]. M. Friščić, M. Štibrić Baglama, M. Milović, K. Hazler Pilepić, Z. Maleš, Content of bioactive constituents and antioxidant potential of Galium L. species, Croatica Chemica Acta 91 (2018) 411–417.
]Search in Google Scholar
[
[43]. N.S. Lakić, N.M. Mimica-Dukić, J.M. Isak, B.N. Božin, Antioxidant properties of Galium verum L. (Rubiaceae) extracts, Central European Journal of Biology 5 (2010) 331–337.
]Search in Google Scholar
[
[44]. A.O. Danila, F. Gatea, G.L. Radu, Polyphenol composition and antioxidant activity of selected medicinal herbs, Chemistry of Natural Compounds 47 (2011) 22–26. DOI: 10.1007/s10600-011-9822-7
]Search in Google Scholar
[
[45]. Q.W. Zhang, L.G. Lin, W.C. Ye, Techniques for extraction and isolation of natural products: a comprehensive review, Chinese Medicine 13 (2018) 20. DOI: 10.1186/s13020-018-0177-x
]Search in Google Scholar
[
[46]. H. Atmaca, Effects of Galium aparine extract on the angiogenic cytokines and ERK1/2 proteins in human breast cancer cells, Celal Bayar University Journal of Science 13 (2017) 171-179. DOI: 10.18466/cbayarfbe.281836.
]Search in Google Scholar
