N. Tableau, Déplacements chimiques en RMN 1 H(600 MHz) et RMN-13 C(150 MHz), dans la partie aglycone du composé 5, relevés d'après les expériences RMN -1D et -2D. (? en ppm, J en Hz

, *Conclusion 2

, A l'issue de ces analyses, les saponosides isolés à partir des parties aériennes de l'espèce Zygophyllym cornutum Coss., sont au nombre de sept (fig.104), ils ont été identifiés comme étant: -Composé 1, monodesmoside avec la formule chimique: 3-O-(2-O-sulfonyl-?-Dquinovopyranosyl) acide quinovique, 1999.

A. Vu, , 1990.

. Smati, Composé 2, monodesmoside correspondant à la formule chimique: 3-O-(2-O-sulfo-?-D-glucopyranosyle) acide quinovique, 2007.

. Iqbal, , 2011.

. Smati, , 1989.

. Bencharif-betina, , 2013.

E. -composé-4,-le-zygophyloside, , 2007.

A. Vu, , 2007.

V. U. Ahmad, , 1993.

. Safir, Composé 5, un bidesmoside qui s'écrit de la façon suivante : 3-O-(?-D-2-O-sulfoquinovopyranosyle) acide quinovique-28-(O-?-D-glucopyranosyle) ester, 1986.

G. Le-zygophyloside, , vol.6

(. Pöllmann, , 1997.

H. -composé-7,-le-zygophyloside and . Pöllmann, , 1997.

V. U. Ahmad, , 2007.

, Références bibliographiques

A. S. Abdel-aty and S. E. Ali, Insecticidal activity of Zygophyllum album constituents on Spodoptera littoralis (Boisd.) larvae, Academic Journal of Entomology, vol.2, issue.2, pp.43-51, 2009.

I. Abe, M. Rohmer, and G. C. Prestwich, Enzymatic cyclization of squalene and oxidosqualene to sterols and triterpenes, Chem. Rev, vol.93, pp.2189-2206, 1993.

H. Abou-gazar, E. Bedir, S. Takamatsu, D. Ferreira, and I. A. Khan, Antioxidant lignans from Larrea tridentata, Phytochemistry, vol.65, pp.2499-2505, 2004.

A. Lacaille-dubois and M. , Planta Med, p.218, 2010.

V. U. Ahmad, S. Iqbal, F. Kousar, S. Bader, S. Arshad et al., Two new saponins from Zygophyllum atriplicoides, Chemical & Pharmaceutical Bulletin, vol.53, pp.1126-1130, 2005.

A. El-cadi, M. , S. Makram, M. Ansar, Y. Khabbal et al., Activité anti-inflammatoire des extraits aqueux et éthanolique de Zygophyllum gaetulum, Annales Pharmaceutiques Françaises, vol.70, issue.2, pp.113-116, 2012.

H. Altunkeyik, D. Gülcemal, M. Masullo, O. Alankus-caliskan, S. Piacente et al., Triterpene saponins from Cyclamen hederifolium, Phytochemistry, vol.73, issue.0, pp.127-133, 2012.

K. Amimoto, K. Yoshikawa, and S. Arihara, Triterpenes and triterpene glycosides from the leaves of Ilex rotunda, Phytochemistry, vol.33, pp.1475-1480, 1993.

M. Amoros, B. Fauconnier, and R. L. Girre, In vitro antiviral activity of a saponin from Anagallis arvensis, Primulaceae, against herpes simplex virus and poliovirus, Antiviral Research, vol.8, issue.1, pp.13-25, 1987.

C. Anesini, J. Boccio, G. Cremaschi, A. S. Genaro, M. Zubillaga et al., In vivo" antitumoral and acute toxicity study of Larrea divaricata Cav. extract, Phytother Res, vol.11, pp.521-524, 1997.

C. Anesini, A. Genaro, G. Cremaschi, B. L. Sterin, and E. Borda, Antimitogenic effect of Larrea divaricata Cav.Participation in arachidonate metabolism, Comp Biochem Physiol C, vol.122, pp.245-52, 1999.

R. Aquino, F. Simone, C. Pizza, and J. F. De-mello, Further quinovic acid glycosides from Guettarda platypoda, Phytochemistry, vol.28, issue.1, pp.199-201, 1989.

R. Aquino, F. Simone, C. Pizza, R. Cerri, and J. F. De-mello, Quinovic acid glycosides from Guettarda platypoda, Phytochemistry, vol.27, issue.9, pp.2927-2930, 1988.

R. Aquino, N. De-tommasi, F. Simone, and C. Pizza, Triterpenes and quinovic acid glycosides from Uncaria tomentosa, Phytochemistry, vol.45, issue.5, pp.1035-1040, 1997.

R. Aquino, S. Tortora, S. Fkih-tetouani, and A. Capasso, Saponins from the roots of Zygophyllum gaetulum and their effects on electrically-stimulated guinea-pig ileum, Phytochemistry, vol.56, issue.4, pp.393-398, 2001.

A. A. Attia, Triterpenoidal saponins from the aerial parts of Zygophyllum coccineum L. and Zygophyllum fabago L, J. Nat. Prod, vol.54, pp.1022-1023, 1999.

K. T. Augusti, V. C. Roy, and M. Semple, Effect of allyl propyl disulphide isolated from onion (Allium cepa L.) on glucose tolerance of alloxan diabetic rabbits, Experientia, vol.30, pp.119-120, 1974.

. Babady-bila, T. Ngalamulume, A. Kilonda, S. Toppet, F. Compernolle et al., An ursadienedioic acid glycoside from Crossopteryx febrifuga, Phytochemistry, vol.30, pp.3069-3072, 1991.

M. Bährle-rapp, Saponins. Springer Lexikon Kosmetik und Körperpflege, pp.490-490, 2007.

B. Jannet, H. F.-h-skhiri, Z. Mighri, M. S. Simmonds, and W. M. Blaney, Antifeedant activity of plant extracts and of new natural diglyceride compounds isolated from Ajuga pseudoiva leaves against Spodoptera littoralis larvae, Industrial Crops and Products, vol.14, issue.3, pp.213-222, 2001.

A. Benaiges and P. Guillén, 8.5 -Botanical Extracts. Analysis of Cosmetic Products, pp.345-363, 2007.

S. T. Bennett and J. M. Grimshaw, Plant Syst. Evol, vol.176, p.135, 1991.

P. C. Bishnu, W. Zeev, and T. Leah, In vitro study of the antifungal activity of saponin-rich extracts against prevalent phytopathogenic fungi, Industrial Crops and Products, vol.26, pp.109-115, 2007.

T. Biswas, M. Gupta, B. Achari, and B. C. Pal, Hopane-type saponins from Glinus lotoides Linn, Phytochemistry, vol.66, pp.621-626, 2005.

G. A. Boffa, Y. Jacquot-armand, and J. M. Fine, Constantes de sédimentation, caractères électrophorétiques et immunologiques de deux protéines isolées du sérum de rat: L'albumine et L'?1-macroglobuline, Biochimica et Biophysica Acta (BBA) -General Subjects, vol.86, issue.3, pp.511-518, 1964.

. Boisson and . Reuter, Pugill. Plantes Africaines. Bor. Hispan, vol.75, p.1852

W. Borgi, M. C. Recio, J. L. Ríos, and N. Chouchane, Anti-inflammatory and analgesic activities of flavonoid and saponin fractions from Zizyphus lotus (L.) Lam, South African Journal of Botany, vol.74, issue.2, pp.320-324, 2008.

J. Brent, Three new herbal hepatotoxic syndromes, Journal of Toxicology and Clinical Toxicology, vol.37, pp.715-719, 1999.

V. Bulani, K. Biyani, R. Kale, U. Joshi, K. Charhate et al., Inhibitory effect of Calotropis gigantea extract on ovalbumin-induced airway inflammation and Arachidonic acid induced inflammation in a murine model of asthma, International Journal of Current Biological and Medical Science, vol.1, issue.2, pp.2231-6256, 2011.

C. Cai, M. Lin, Z. Chen, X. Chen, S. Cai et al., SPROM -an efficient program for NMR/MRI simulations of inter-and intra-molecular multiple quantum coherences, Comptes Rendus Physique, vol.9, issue.1, pp.119-126, 2008.

?. Çali?, M. E. ?atana, A. Yürüker, P. Kelican, R. Demirdamar et al., Trierpene saponninsfrom Cyclamen mirabéle and their biological activities, J.Nat.Prod, vol.60, pp.315-318, 1997.

T. Castells, E. Arcalís, S. Moreno-grau, J. Bayo, B. Elvira-rendueles et al., Immunocytochemical localization of allergenic proteins from mature to activated Zygophyllum fabago L. (Zygophyllaceae) pollen grains, European Journal of Cell Biology, vol.81, issue.2, pp.107-115, 2002.

A. Ceriello, D. Giugliano, A. Quatraro, C. Donzella, G. Dipalo et al., Vitamin E reduction of protein glycosylation in diabetes, Diabetes Care, vol.14, pp.68-72, 1991.

A. K. Chakravarty, T. Sarkar, K. Masuda, K. Shiojima, T. Nakane et al., Bacopaside I and II: two pseudojujubogenin glycosides from Bacopa monniera, Phytochemistry, vol.58, pp.553-556, 2001.

Z. Cheng, B. Yu, and X. Yang, 27-Nor-triterpenoid glycosides from Mitragyna inermis, Phytochemistry, vol.61, issue.4, pp.379-382, 2002.

C. Y. Cheok, H. A. Salman, and R. Sulaiman, Extraction and quantification of saponins: A review, Food Research International, vol.59, issue.0, pp.16-40, 2014.

L. Chevallier, 1 -Les glucides. Nutrition : principes et conseils (3e édition). L. Chevallier, pp.1-13, 2009.

Y. H. Choi, R. A. Hussain, J. M. Pezzuto, A. D. Kinghorn, and J. F. Morton, Abrusosides A-D, four novel sweet-tasting triterpene glycosides from the leaves of Abrus precatorius, J. Nat. Prod, vol.52, pp.1118-1127, 1989.

N. Chomsky, What is Special About Language?, SBS Lecture Series: Noam Chomsky, 2012.

J. D. Connolly and R. A. Hill, Dictionary of Terpenoids. Chapman and Hall, vol.I, pp.1121-1415, 1991.

J. D. Connolly and R. A. Hill, Triterpenoids. Nat. Prod. Rep, vol.17, pp.463-482, 2000.

E. J. Corner, I. Tome, M. Chadefaud, L. Emberger, and . Tome, Traité de Botanique Systématique, Les Végétaux non Vasculaires (Cryptogamie). Masson et Cie, vol.44, p.461, 1960.

P. Crunkhorn and S. C. Meacock, Mediators of the inflammation induced in the rat paw by carrageenan, British Journal of Pharmacology, vol.42, pp.392-402, 1972.

S. Dall'acqua, I. Castagliuolo, P. Brun, F. Ditadi, G. Palu et al., Triterpene glycosides with in vitro anti-inflammatory activity from Cyclamen repandum tubers, Carbohydr Res, vol.345, issue.5, pp.709-714, 2010.

J. Damas and G. Remacle-volon, Mast cell amines and the oedema induced by zymosan and carrageenans in rats, European Journal of Pharmacology, vol.121, issue.3, pp.367-376, 1986.

T. De-nadaï, S. Khelifa, L. Astudillo, P. Arlet, L. Sailler et al., Une électrophorèse des protéines pour éviter une transfusion !" La Revue de Médecine Interne 35, p.98, 2014.

C. Desgrouas, N. Taudon, S. Bun, B. Baghdikian, S. Bory et al., Ethnobotany, phytochemistry and pharmacology of Stephania rotunda Lour, Journal of Ethnopharmacology, vol.154, issue.3, pp.537-563, 2014.

T. K. Devon and I. A. Scott, Handbook of naturally occurring compounds, vol.II, pp.281-478, 1972.

F. Dietrich, S. Kaiser, L. Rockenbach, F. Figueiró, L. S. Bergamin et al., Quinovic acid glycosides purified fraction from Uncaria tomentosa induces cell death by apoptosis in the T24 human bladder cancer cell line, Food and Chemical Toxicology, vol.67, issue.0, pp.222-229, 2014.

M. Dirosa, J. P. Giroud, and D. A. Willoughby, Studies of the mediators of the acute inflammatory response induced in rats in different sites by carrageenan and turpentine, J. Pathol, vol.104, pp.15-29, 1971.

R. Ó. Dorchaí, H. E. Rubalcava, J. B. Thomson, B. Zeeh-;-a2, C. et al., Triterpenoids-IV: The cyclamigenins A1, vol.24, pp.5649-5654, 1968.

C. Doyen, M. Vernet, and J. L. Bertrand, Etude des variations comparées de 4 protéines de l'inflammation, de la vitesse de sédimentation et de la leucocytose en pathologie infectieuse de l'adulte, Médecine et Maladies Infectieuses, vol.22, issue.12, pp.1152-1158, 1992.

J. J. Dubost, M. Soubrier, M. N. Meunier, and B. Sauvezie, De la vitesse de sédimentation au profil inflammatoire, La Revue de Médecine Interne, vol.15, issue.11, pp.727-733, 1994.

J. A. Duke, Medicinal Plants in the Bible, 1983.

M. Eddouks and M. Maghrani, Phlorizin-like effect of Fraxinus excelsior in normal and diabetic rats, Journal of Ethnopharmacology, vol.94, issue.1, pp.149-154, 2004.

. El, M. Beyrouthy, N. Arnold, . Delelis, . A. Dusollier et al., Plants used as remedies antirheumatic and antineuralgic in the traditional medicine of Lebanon, Journal of Ethnopharmacology, vol.120, issue.3, pp.315-334, 2008.

J. El-ghoul, N. Ghanem-boughanmi, and M. Ben-attia, Biochemical study on the protective effect of ethanolic extract of Zygophyllum album on streptozotocin-induced oxidative stress and toxicity in mice, Biomedicine & Preventive Nutrition, vol.1, issue.2, pp.79-83, 2011.

A. El-hamsas-el-youbi, D. Bousta, I. Ouahidi, and L. Aarab, Criblage pharmacologique primaire d'une plante endémique originaire du Sud Marocain (Tetraena gaetula, 2010.

M. , Beier & Thulin), Comptes Rendus Biologies, vol.333, issue.10, pp.736-743

M. H. Elgamal, K. H. Shaker, K. Pöllmann, and K. Seifert, Triterpenoid saponins from Zygophyllum species, Phytochemistry, vol.40, issue.4, pp.1233-1236, 1995.

M. H. Elgamal, H. S. Soliman, D. T. Elmunajjed, G. To´thto´th, A. Simon et al., Two triterpene saponins from Arenaria filicaulis, Phytochemistry, vol.49, pp.189-193, 1998.

T. M. El-sheikh, Z. I. Al-fifi, and M. A. Alabboud, Larvicidal and repellent effect of some Tribulus terrestris L., (Zygophyllaceae) extracts against the dengue fever mosquito, Aedes aegypti (Diptera: Culicidae), Journal of Saudi Chemical Society, issue.0

R. Engler, Monokines et protéines de la réaction inflammatoire I. Aspect fondamental, Immuno-analyse & Biologie Spécialisée, vol.4, issue.2, pp.9-16, 1989.

R. Engler, Protéines de la réaction inflammatoire, Revue Française des Laboratoires, pp.93-99, 1995.

E. F. Eskander and H. Won-jun, Hypoglycemic and hyperinsulinic effects of some Egyptian herbs used for the treatment of diabetes mellitus (type II) in rats, Egyptian Journal of Pharmaceutical, vol.36, pp.331-342, 1995.

Y. L. Feng, B. Xie, H. R. Li, Q. M. Xu, X. J. Zhang et al., A new sulfated triterpenoid from the bark of Zygophyllum fabago L, Chinese Chemical Letters, vol.21, pp.1100-1102, 2010.

P. C. Feng and S. Patrick, Studies of the action of hypoglycin-A, an hypoglycaemic substance, Brit. j. Phannacol, vol.13, pp.125-130, 1958.

J. C. Frot, H. Hofmann, F. Muller, M. F. Benazet, and P. Giraudet, Le concept du profil prot6ique, Ann Biol Clin, vol.42, pp.1-8, 1984.

N. Fukuda, H. Tanaka, and Y. Shoyama, Isolation of the pharmacologically active saponin Ginsenoside Rb1 from ginseng by immunoaffinity column chromatography, Journal of Natural Products, vol.63, pp.283-285, 2000.

J. E. Gearien and K. A. Mede, Cholinergics, anticholinesterases, and antispasmodics, Principles of Medicinal Chemistry, pp.353-376, 1981.

A. Gepdiremen, V. Mshvildadze, H. Süleyman, and R. Elias, Acute anti-inflammatory activity of four saponins isolated from ivy: alpha-hederin, hederasaponin-C, hederacolchiside-E and hederacolchiside-F in carrageenan-induced rat paw edema, Phytomedicine, vol.12, issue.6-7, pp.440-444, 2005.

S. Ghosal, R. S. Srivastava, D. C. Chatter-jee, and S. K. Dutta, Fenugreekine, a new steroidal sapogenin-peptide ester of Trigonella foenum-graecum, Phytochemistry, vol.13, pp.2247-2251, 1974.

Q. Q. Gong, L. H. Mu, P. Liu, S. L. Yang, B. Wang et al., Chinese Chem. Lett, p.449, 2010.

J. Gonnet and B. Fenet, Cyclamen Red" Colors Based on a Macrocyclic Anthocyanin in Carnation Flowers, J. Agric. Food Chem, vol.48, pp.22-26, 2000.

T. H. Grenby, Intense sweeteners for the food industry: an overview, Trends Food Sci. Technol, vol.2, pp.2-6, 1991.

M. Haddad, T. Miyamoto, V. Laurens, and M. Lacaille-dubois, Two new biologically active triterpenoidal saponins acylated with salicylic acid from Albizzia adianthifolia, J. Nat. Prod, vol.66, pp.372-377, 2003.

A. I. Hamed and N. A. El-emary, Triterpene saponins from Glinus lotoides var. dictamnoides, Phytochemistry, vol.50, pp.477-480, 1999.

A. I. Hamed, I. Springuel, N. A. El-emary, H. Mitome, H. Miyaoka et al., Triterpenoidal saponin glycosides from Glinus lotoides VAR. DICTAMNOIDES, Phytochemistry, vol.43, pp.183-188, 1996.

Y. Hammouda and M. S. Amer, Antidiabetic effect of tecomine and tecostanine, j. Pharm. Sci, vol.55, p.1454, 1452.

Y. Hammouda, A. Rashid, and M. S. Amer, Hypoglycaemic properties of tecomine and tecostanine. Letters to the Editor, Pharm. Pharmacol, vol.16, pp.833-834, 1964.

M. Hanss, Anomalies du fibrinogène, une thrombophilie d'actualité, Journal des Maladies Vasculaires, vol.30, issue.4, p.7, 2005.

S. Hara, H. Okabe, and K. Mihashi, Chem. Pharm. Bull, vol.35, p.501, 1987.

K. Haralampidis, M. Trojanowska, and A. E. Osbourn, Biosynthesis of triterpenoid saponins in plants, Advances in Biochemical Engineering/ Biotechnology, vol.75, pp.31-49, 2002.

V. Haridas, C. J. Arntzen, and J. U. Gutterman, Avicins, a family of triterpenoid saponins from Acacia victoria (Bentham), inhibit activation of nuclear factor-kB by inhibiting both its nuclear localization and ability to bind DNA, Proc. Natl. Acad. Sci. USA, vol.98, pp.11557-11562, 2001.

H. H. Hassanean, E. K. Desoky, and M. M. El-hamouly, Quinovic acid glycosides from Zygophyllum album, Phytochemistry, vol.33, issue.3, pp.663-666, 1993.

L. Heng, J. Vincken, G. A. Van-koningsveld, L. Legger, H. Gruppen et al., b. Bitterness of saponins and their content in dry peas, J. Sci. Food Agric, vol.86, pp.1225-1231, 2006.
URL : https://hal.archives-ouvertes.fr/hal-01871837

M. Y. Heng, S. N. Tan, J. W. Yong, and E. S. Ong, Emerging green technologies for the chemical standardization of botanicals and herbal preparations, Trends in Analytical Chemistry, vol.50, pp.1-10, 2013.

J. C. Henquin, S. Charles, M. Nenquin, E. Mathot, and T. Tamagawa, Diazoxide and D600 inhibition of insulin release. Distinct mechanisms explain the specificity for different stimuli, Diabetes, vol.31, pp.776-783, 1982.

S. Hiai, H. Oura, and T. Nakajima, COLOR REACTION OF SOME SAPOGENINS AND SAPONINS WITH VANILLIN AND SULFUR1C ACID, Planta Med, vol.29, issue.02, pp.116-122, 1976.

C. T. Hii and S. L. Howell, Effects of epicatichin on rat Islets of Langerhans, Diabetes, vol.33, pp.291-296, 1984.

R. S. Hill, J. M. Oberwetter, A. E. Boyd, and . Iii, Increase in cAMP levels in ? -cell line potentiates insulin secretion without altering cytosolie free-calcium concentration, Diabetes, vol.36, pp.440-446, 1987.

S. A. Holstein and R. J. Hohl, Isoprenoids: remarkable diversity of form and function, Lipids, vol.39, pp.293-309, 2004.

K. Hostettmann and A. Marston, Saponins. Chemistry and pharmacology of natural products, 2005.

J. Huang, Y. Ogihara, H. Zhang, N. Shimizu, and T. Takeda, Triterpenoid saponins from Ardisia mamillata, Phytochemistry, vol.54, pp.817-822, 2000.

W. Hui and M. Li, Phytochemistry, vol.16, p.1309, 1977.

S. R. Hussein, M. M. Marzouk, L. F. Ibrahim, S. A. Kawashty, and N. A. Saleh, Flavonoids of Zygophyllum album L.f. and Zygophyllum simplex L. (Zygophyllaceae), Biochemical Systematics and Ecology, vol.39, issue.4-6, pp.778-780, 2011.

M. Jaeger and R. L. Aspers, Chapter Five -Covariance NMR and Small Molecule Applications, Annual Reports on NMR Spectroscopy. A. W. Graham, vol.83, pp.271-349, 2014.
DOI : 10.1016/b978-0-12-800183-7.00005-8

N. Jalali, R. Naderi, A. Shahi-gharahlar, and J. A. Silva, Tissue culture of Cyclamen spp, Scientia Horticulturae, vol.137, issue.0, pp.11-19, 2012.

Z. Jia, K. Koike, T. Ohmoto, and M. Ni, Phytochemistry, vol.37, p.1389, 1994.

M. Jitsuno and Y. Mimaki, Triterpene glycosides from the aerial parts of Larrea tridentata, Phytochemistry, vol.71, pp.2157-2167, 2010.

H. Jouad, M. Haloui, H. Rhiouani, J. E. Hilaly, and M. Eddouks, Ethnobotanical survey of medicinal plants used for the treatment of diabetes, cardiac and renal diseases in the North centre region of Morocco (Fez-Boulemane), Journal of Ethnopharmacology, vol.77, issue.2-3, pp.175-182, 2001.

M. Kallersjö, G. Bergquist, and A. Anderberg, Generic realignment .New York. on morphological, anatomical and rbcL DNA sequence data, Bot. J. Linn. Soc, vol.122, issue.9, pp.1335-1341, 2000.

M. S. Kamel, Studies on Balanites aegyptiaca fruits, an antidiabetic Egyptian folk medicine, Chemical and Pharmaceutical Bulletin, vol.39, pp.1229-1233, 1991.

K. Kaoru, A. Michiko, S. Masaaki, Y. Yang, K. Kiyotaka et al., Pharm.Biol, p.50, 1998.

M. Kay, Healing with Plants in the American and MexicanWest, pp.178-181, 1996.

E. J. Kennelly, L. Cai, L. Long, L. Shamon, K. Zaw et al., Novel highly sweet secodammarane glycosides from Pterocarya paliurus, J. Agric. Food Chem, vol.43, pp.2602-2607, 1995.
DOI : 10.1021/jf00058a009

S. S. Khan, A. Khan, A. Khan, A. Wadood, U. Farooq et al., Urease inhibitory activity of ursane type sulfated saponins from the aerial parts of Zygophyllum fabago Linn, Phytomedicine, vol.21, issue.3, pp.379-382, 2014.

A. Khorolragchaa, Y. Kim, S. Rahimi, J. Sukweenadhi, M. Jang et al., Grouping and characterization of putative glycosyltransferase genes from Panax ginseng Meyer, Gene, vol.536, issue.1, pp.186-192, 2014.

I. Kitagawa, Licorice root. A natural sweetener and an important ingredient in Chinese medicine, Pure Appl. Chem, vol.74, pp.1189-1198, 2002.

H. Kohda, O. Takeda, and S. Tanaka, Molluscicidal triterpenoidal saponin from Lysimachia sikokiana, Chem. Pharm. Bull, vol.37, p.3304, 1989.

J. O. Kokwano, Medicinal plants of East Africa, East Africa Literature Bureau. Dar er Salaam, p.34, 1976.

M. J. Kulshreshtha, D. K. Kulshreshtha, and R. P. Rastogi, The triterpenoids, Phytochemistry, vol.11, pp.2369-2381, 1972.

I. Kushner, The phenomenon, O f the acute phase response. In: C-reactive protein and the plasma protein response to tissue injury. Kushner I, Volanakis JE, GewUrz H, Ann NY Acad Sci, vol.389, pp.39-48, 1982.

R. Lasztity, M. Hidvegi, and A. Bata, Saponins in food, Food Rev. Int, vol.14, pp.371-390, 1998.

F. Lattanzio, E. Greco, D. Carretta, R. Cervellati, P. Govoni et al., In vivo anti-inflammatory effect of Rosa canina L. extract, Journal of Ethnopharmacology, vol.137, issue.1, pp.880-885, 2011.

D. Laurence and P. Nicole, Résonance magnétique nucléaire Aspects théoriques, 2006.

L. Gall, C. , C. Désidéri-vaillant, and X. Nicolas, Significations d'une protéine C-réactive supérieure à 500 mg/l : à propos de 91 prélèvements dans un centre hospitalier brestois, Pathologie Biologie, vol.59, issue.6, pp.319-320, 2011.

H. Liu and K. Nakanishi, The structures of balanitins, potent molluscicides isolated from Balanites aegyptiaca, Tetrahedron, vol.38, pp.513-519, 1982.

J. Liu and T. Henkel, Traditional Chinese medicine (TCM): arepolyphenols and saponins the key ingredients triggering biological activities, Current Medicinal Chemistry, vol.9, pp.1483-1485, 2002.

M. M. Lotlikar and M. R. Rao, Pharmacology of a hypoglycemic principle isolated from the fruits of Momordica charantia, Indian J. Pharmacy, vol.28, p.129, 1966.

P. Lu and Y. Hsieh, Preparation and characterization of cellulose nanocrystals from rice straw, Carbohydrate Polymers, vol.87, issue.1, pp.564-573, 2012.

L. Stryer, J. M. Berg, and J. L. Tymoczko, Biochimie, éditions Flammarion, collection « Médecine-Sciences, vol.5, pp.978-980, 2003.

W. Ma, M. Mizutani, K. E. Malterud, S. L. Lu, B. Ducrey et al., Saponins from the roots of Panax notoginseng, Phytochemistry, vol.52, pp.1133-1139, 1999.

E. Maes, J. Wieruszeski, Y. Plancke, and G. Strecker, Structure of three Kdncontaining oligosaccharide-alditols released from oviducal secretions of Ambystoma tigrinum: characterization of the carbohydrate sequence Fuc (?1-5) *Fuc (?1-4)+ Kdn (?2-3/6), FEBS Letters, vol.358, issue.2, pp.205-210, 1995.

S. B. Mahato and A. K. Nandy, Review article number 60. Triterpenoid saponins discovered between 1987 and 1989, Phytochemistry, vol.30, pp.1357-1390, 1991.

S. B. Mahato, A. K. Nandy, and G. Roy, Review article number 67, Triterpenoids. Phytochemistry, vol.31, pp.2199-2249, 1992.

S. B. Mahato, B. C. Pal, and A. K. Nandy, Structure elucidation of two L. Affre, Bot. J. Linn. Soc, vol.118, p.309, 1992.

S. B. Mahato and S. Sen, Review article number 118, Advances in triterpenoid research, vol.44, pp.1185-1236, 1990.

M. Matos, M. P. Sousa, M. Machado, and R. B. Filho, Quinovic acid glycosides from Guettarda angelica, Phytochemistry, vol.25, pp.1419-1422, 1986.

M. Menet, Principes de la spectrométrie de masse, Revue Francophone des Laboratoires, pp.41-53, 2011.

M. R. Meselhy, Hopane-type saponins from Polycarpon succulentum-II, Phytochemistry, vol.48, pp.1415-1421, 1998.

G. Mihci-gaidi, D. Pertuit, T. Miyamoto, J. F. Mirjolet, O. Duchamp et al., Triterpene saponins from Cyclamen persicum, Nat Prod Commun, vol.5, issue.7, pp.1023-1028, 2010.

G. Mihci-gaidi, S. Ozbey, I. Orhan, B. Sener, T. Miyamoto et al., Triterpene saponins from Cyclamen trocopteranthum, vol.76, issue.8, pp.818-839, 2010.

M. R. Meselhy and E. A. Aboutabl, Hopane-type saponins from Polycarpon succulentum growing in Egypt, Phytochemistry, vol.44, pp.925-929, 1997.

G. A. Miana and H. M. Al-hazimi, Assignment of the 13C NMR spectrum of quinovic acid, Phytochemistry, vol.26, issue.1, pp.225-227, 1986.

T. K. Nguyen, R. Dauwe, F. Bourgaud, and E. Gontier, Chapter Eight -From Bioreactor to Entire Plants: Development of Production Systems for Secondary Metabolites, Advances in Botanical Research. G.-G. h. Nathalie, vol.68, pp.205-232, 2013.

P. Noirez, O. Agbulut, and A. Ferry, Effet d'un médicament anti-inflammatoire nonstéroïdien sur la régénération musculaire chez le rat, Science & Sports, vol.15, issue.3, pp.165-167, 2000.

K. Oda, H. Matsuda, T. Murakami, S. Katayama, T. Ohgitani et al., Adjuvant and haemolytic activities of 47 saponins derived from medicinal and food plants, Biological Chemistry, vol.381, pp.67-74, 2000.

C. O. Okoli and P. A. Akah, Mechanisms of the anti-inflammatory activity of the leaf extracts of Culcasia scandens P. Beauv (Araceae), Pharmacology Biochemistry and Behavior, vol.79, issue.3, pp.473-481, 2004.

W. Oleszek and A. Stochmal, Triterpene saponins and flavonoids in the seeds of Trifolium species, Phytochemistry, vol.61, pp.165-170, 2002.

B. Oliver-bever and G. R. Zahnd, Plants with oral hypoglycaemic action, Quart. J. Crude Drug Res, vol.17, pp.139-196, 1979.

K. Oobayashi, K. Yoshikawa, and S. Arihara, Structural revision of bryonoside and structure elucidation of minor saponins from Bryonia dioica, Phytochemistry, vol.31, pp.943-946, 1992.

A. E. Osbourn, Saponins and plant defense -a soap story, Trends Plant Sci, vol.1, pp.4-9, 1996.

S. A. Ouf, F. Hady, M. H. Elgamal, and K. H. Shaker, Isolation of antifungal compounds from someZygophyllum species and their bioassay against two soil-borne plant pathogens, Folia Microbiologica, vol.39, pp.215-221, 1994.

1. Ozden, G. Deniz, E. Tasali, A. Ulusarac, T. Altu_ et al., The effect of vitamin E on glycosylated hemoglobin levels in diabetic rats: A preliminary report, Diabetes Res, vol.12, pp.123-124, 1989.

P. Ozenda, , p.320, 1983.

H. Pambou-tchivounda, B. Koudogbo, J. C. Tabet, and E. Casadevall, A triterpene saponin from Cylicodiscus gabunensis, Phytochemistry, vol.29, pp.2723-2725, 1990.

J. Park, E. Park, D. Kim, K. Jung, J. Jung et al.,

. Kim, Anti-inflammatory mechanism of ginseng saponins in activated microglia, Journal of Neuroimmunology, vol.209, issue.1-2, pp.40-49, 2009.

P. R. Petit, Y. D. Sauvaire, D. M. Hillaire-buys, O. M. Leconte, Y. G. Baissac et al., Steroid saponins from fenugreek seeds: extraction, purification, and pharmacological investigation on feeding behaviour and plasma cholesterol, Steroids, vol.60, pp.674-680, 1995.

I. Podolak, P. Koczurkiewicz, A. Galanty, and M. Michalik, Cytotoxic triterpene saponins from the underground parts of six Lysimachia L. species, Biochemical Systematics and Ecology, vol.47, pp.116-120, 2013.

K. Pöllmann, K. Schaller, U. Schweizer, M. Elgamal, K. H. Shaker et al., Triterpenoid saponins from Zygophyllum decumbens, Phytochemistry, vol.48, pp.875-880, 1998.

K. Pöllmann, S. Gagel, M. H. Elgamal, K. H. Shaker, and K. Seifert, Triterpenoid saponins from the roots of Zygophyllum species, Phytochemistry, vol.44, issue.3, pp.485-489, 1997.

I. Posadas, M. C. Terencio, A. Randazzo, L. Gomez-paloma, M. Payá et al., Inhibition of the NF-?B signaling pathway mediates the anti-inflammatory effects of petrosaspongiolide M, Biochemical Pharmacology, vol.65, issue.5, pp.887-895, 2003.

K. R. Price, I. T. Johnson, and G. R. Fenwick, The chemistry and biological significance of saponins in foods and feedstuffs, Crit. Rev. Food Sci. Nutr, vol.26, pp.27-135, 1987.

A. Pueschel, H. Schwenkel, and T. Winkelmann, Primulaceae, Review of Palaeobotany and Palynology, vol.72, issue.3-4, pp.31-70, 1974.

M. M. Radwan, Y. Luo, and J. M. Pezzuto, Cycloartane andoleanane saponins from Egyptian Astragalus spp. as modulators of lymphocyte proliferation, Planta Medica, vol.68, pp.986-994, 2002.

C. Renaudeau, J. Vigezzi, J. Ramirez-martinez, A. Deshayes, M. Chaillou et al., Evaluation de l'automate d'électrophorèse polyslit?, Revue Française des Laboratoires, pp.41-46, 1998.

G. Reznicek, J. Jurenitsch, W. Robien, and W. Kubelka, Saponins in Cyclamen species: Configuration of cyclamiretin C and structure of isocyclamin, Phytochemistry, vol.28, issue.3, pp.825-828, 1989.

B. L. Rhinehart, K. M. Robinson, A. J. Payne, M. E. Wheatly, L. Fisher et al., Castanospermine blocks thehyperglycemic response to carbohydrates in vivo: a result of intestinal disaccharidase inhib ition, Life Sci, vol.41, pp.2325-2331, 1987.

L. Robert, Serum haptoglobin in clinical biochemistry: Change of a paradigm, Pathologie Biologie, vol.61, issue.6, pp.277-279, 2013.

D. Roland, Les plantes supérieures : divines et / ou diaboliques, Les débis scientifiques du 21 eme siècle, Conférences et débats, 2005.

F. Rouessac, A. Rouessac, D. Cruché, and . Éd, Analyse chimiqueMéthodes et techniques instrumentales modernes.Current practice of gas chromatographymass spectrometry, Niessen WMA. Chromatographic Science Series, issue.86, 2001.

J. Ryu, J. Park, J. Eun, J. Jung, and D. H. Sohn, A dammarane glycoside from Korean red ginseng, Phytochemistry, vol.44, pp.931-933, 1997.

O. Safir, S. Fkih-tetouani, D. Tommasi, N. Aquino, and R. , Saponins from Zygophyllum gaetulum, Journal of Natural Products, vol.61, pp.130-134, 1998.

S. Sahpaz, P. M. Gupta, and K. Hostettmann, Triterpene saponins from Randia formosa, Phytochemistry, vol.54, pp.77-84, 2000.

N. P. Sahu, K. Koike, S. Banerjee, B. Achari, and T. Nikaido, Triterpenoid saponins from Mollugo spergula, Phytochemistry, vol.58, pp.1177-1182, 2001.

R. Sanoko, G. Speranza, C. Pizza, and N. De-tommasi, Triterpene saponins from Alternanthera repens, Phytochemistry, vol.51, pp.1043-1047, 1999.

S. A. Sasmakov, M. Putieva, . Zh, Z. Saatov, V. V. Kachala et al., Triterpene glycosides of Zygophyllum eichwaldii C.A.M, vol.37, pp.91-92, 2001.

K. Seibert, J. Masferrer, and P. Isakson, Role of cyclooxygenase-2 in inflammation, Pathophysiology, vol.1, p.34, 1994.

M. C. Sheahan and M. W. Chase, Phylogenetic relationships within Zygophyllaceae based on DNA sequences of three plastid regions, with special emphasis on Zygophylloideae, Syst. Bot, vol.25, pp.371-384, 2000.

M. C. Sheahan and M. W. Chase, A phylogenetic analysis of Zygophyllaceae based morphological, anatomical and rbc L DNA sequence data, Botanical Journal of the Linnean Society, vol.122, pp.279-300, 1996.

H. Shen, W. Zuo, H. Wang, Y. Zhao, Z. Guo et al., Steroidal saponins from dragon's blood of Dracaena cambodiana, Fitoterapia, vol.94, issue.0, pp.94-101, 2014.

M. Skinner, B. L. Parker, and J. S. Kim, Chapter 10 -Role of Entomopathogenic Fungi in Integrated Pest Management, Integrated Pest Management. D. P. Abrol, pp.169-191, 2014.

D. Smati, A. Mitaine-offer, T. Miyamoto, V. Hammiche, and M. Lacaille-dubois, UrsaneType Triterpene Saponins from Zygophyllum geslini, Helvetica Chimica Acta, vol.90, pp.712-719, 2007.

D. Smati, A. Longeon, and M. Guyot, 3?-(3,4-Dihydroxycinnamoyl)-erythrodiol, a cytotoxic constituent of Zygophyllum geslini collected in the Algerian Sahara, Journal of Ethnopharmacology, vol.95, issue.2-3, pp.405-407, 2004.
URL : https://hal.archives-ouvertes.fr/hal-00016006

D. Smati, V. Hammiche, H. Nehari, B. Alamir, and R. Merad, Zygophyllum geslini coss.: chemical investigation of hypoglycemic activity, WOCMAP I-Medicinal and Aromatic Plants Conference, vol.29, 1993.

M. Solignac, Apport d'un anti-inflammatoire non stéroïdien bioadhésif dans le traitement des pathologies articulaires et péri-articulaires, La Presse Médicale, vol.33, issue.14, pp.3-4, 2004.

S. G. Sparg, M. E. Light, and J. Van-staden, Biological activities and distribution of plant saponins, Journal of Ethnopharmacology, vol.94, issue.2-3, pp.219-243, 2004.

E. Speroni, R. Cervellati, G. Innocenti, S. Costa, M. C. Guerra et al., Anti-inflammatory, anti-nociceptive and antioxidant activities of Balanites aegyptiaca (L.) Delile, Journal of Ethnopharmacology, vol.98, pp.117-125, 2005.

R. Sun and J. Chen, Saponins from Oxytropis bicolour, Phytochemistry, vol.44, pp.505-507, 1997.

A. Tahraoui, J. El-hilaly, Z. H. Israili, and B. Lyoussi, Ethnopharmacological survey of plants used in the traditional treatment of hypertension and diabetes in south-eastern Morocco (Errachidia province), Journal of Ethnopharmacology, vol.110, pp.105-117, 2007.

A. Takhtajan, Diversity and classification of flowering plants, 1996.

N. Tan, J. Zhou, and S. Zhao, Advances in structural elucidation of glucuronide oleananetype triterpene carboxylic acid 3, 28-O-bisdesmosides, Phytochemistry, vol.52, pp.153-192, 1962.

L. A. Tapondjou, D. Lontsi, B. L. Sondengam, F. Shaheen, M. I. Choudhary et al., Saponins from Cussonia bancoensis and their inhibitory effects on nitric oxide production, Journal of Natural Products, vol.66, pp.1266-1269, 2003.

R. Teng, W. Ni, Y. Hua, and C. Chen, Two new tirucallanetype triterpenoid saponins from Sapindus mukorossi, Acta Bot. Sin, vol.45, pp.369-372, 2003.

R. Thoma, T. Schulz-gasch, B. D'arcy, J. Benz, J. Aebl et al., Insight into steroid scaffold formation from the structure of human oxidosqualene cyclase, Nature, vol.432, pp.118-122, 2004.

Y. Touitou, 1 -Introduction aux Médicaments Définitions et Buts de la Pharmacologie. Pharmacologie (11e édition), pp.3-8, 2007.

V. Treyvaud, A. Marston, W. Dyatmiko, and K. Hostettmann, Molluscicidal saponins from Phytolacca icosandra, Phytochemistry, vol.55, pp.603-609, 2000.

N. J. Tyler, L. V. Gusta, and D. B. Fowler, the influence of nitrogen, phosphorus and potassium on the cold acclimation of winter wheat (Triticum aestivum L.), Canadian Journal of Plant Science, vol.61, issue.4, pp.879-885, 1981.

Y. Uematsu, K. Hirata, and K. Saito, Spectrophotometric determination of saponin in Yucca extract used as food additive, J. AOAC Int, vol.83, pp.1451-1454, 2000.

A. Van and O. W. , Shrub invasions of North American semiarid grasslands, Annual Review of Ecology and Systematics, vol.31, pp.197-215, 2000.

Y. Vergne-salle-pascale, B. David, T. Philippe, B. Richard, L. Jeanlouis et al., Effects of the active metabolite of leflunomide, A77 1726, on cytokine release and the MAPK signalling pathway in human rheumatoid arthritis synoviocytes, Cytokine, vol.31, issue.5, pp.335-348, 2005.

L. Verotta, M. Guerrini, N. A. El-sebakhy, A. M. Assad, S. M. Toaima et al., Cycloartane and oleanane saponins from Egyptian Astragalus spp. as modulators of lymphocyte proliferation, Planta Medica, vol.68, pp.986-994, 2002.

J. Vincken, L. Heng, A. De-groot, and H. Gruppen, Saponins, classification and occurrence in the plant kingdom, Phytochemistry, vol.68, issue.3, pp.275-297, 2007.

V. Ralph, T. James, F. , S. Jeffrey, and L. , Quantitative comparison of the analgesic and anti-inflammatory activities of aspirin, phenacetin and acetaminophen in rodents, European Journal of Pharmacology, vol.37, issue.1, pp.23-30, 1976.

L. Voutquenne, P. Guinot, O. Thoison, T. Sevenet, and C. Lavaud, Oleanolic glycosides from Pometia ridleyi, Phytochemistry, vol.64, pp.781-789, 2003.
URL : https://hal.archives-ouvertes.fr/hal-01996963

J. Wandji, F. Tillequin, D. A. Mulholland, J. C. Shirri, N. Tsabang et al., Pentacyclic triterpenoid and saponins from Gambeya boukokoensis, Phytochemistry, vol.64, pp.845-849, 2003.

H. Wang, J. Gao, J. Kou, D. Zhu, and B. Yu, Anti-inflammatory activities of triterpenoid saponins from Polygala japonica, Phytomedicine, vol.15, issue.5, pp.321-326, 2008.

K. U. Wendt, Enzyme mechanisms for triterpene cyclization: new pieces of the puzzle, Angew. Chem., Int. Ed, vol.44, pp.3966-3971, 2005.

K. U. Wendt, G. E. Schulz, E. J. Corey, and D. R. Liu, Enzyme mechanisms for polycyclic triterpene formation, Angew. Chem, vol.39, pp.2812-2833, 2000.

R. E. Widmer, . A. ;-r, and . Larson, 15 -Cyclamen, pp.385-407, 1992.

C. A. Winter, E. A. Risley, and G. W. Nuss, Carrageenan-induced edema in the hind paw of rat as an assay for anti-inflammatory activity drugs, Proc Soc Exp Biol Med, vol.111, pp.544-551, 1962.

G. M. Woldemichael and M. Wink, Triterpene glycosides of Lupinus angustifolius, Phytochemistry, vol.60, pp.323-327, 2002.

A. Wong and F. Poli, Chapter Three -Solid-State 17O NMR Studies of Biomolecules, Annual Reports on NMR Spectroscopy. A. W. Graham, vol.83, pp.145-220, 2014.

C. Wu, Y. Hseu, J. Lien, L. Lin, Y. Lin et al., Triterpenoid contents and antiInflammatory properties of the methanol extracts of Ligustrum species leaves, Molecules, vol.16, pp.1420-3049, 2011.

T. Xiang, Y. Tezuka, L. Wu, A. H. Banskota, and S. Kadota, Saponins from Lonicera bournei, Phytochemistry, vol.54, pp.795-799, 2000.

J. Xu and R. Xu, Cycloartane-type sapogenins and their glycosides from Curculigo orchioides, Phytochemistry, vol.31, pp.2455-2458, 1992.

J. Xu, R. Xu, and X. Li, Glycosides of a cycloartane sapogenin from Curculigo orchioides, Phytochemistry, vol.31, pp.233-236, 1992.

R. Xu, G. C. Fazio, and P. T. Matsuda, On the origins of triterpenoid skeletal diversity, Phytochemistry, vol.65, pp.261-291, 2004.

S. Yahara, N. Ding, T. Nohara, K. Masuda, and H. Ageta, Taraxastane glycosides from Eclipta alba, Phytochemistry, vol.44, pp.131-135, 1997.

N. Yayli, C. Baltaci, A. Zengin, M. Kuçukislamoglu, and H. Genc, A triterpenoid saponin from Cyclamen coum, Phytochemistry, vol.48, issue.5, pp.881-884, 1998.

H. J. You, C. Y. Choi, and J. Y. Kim, Ursolic acid enhances nitric oxide and tumor necrosis factor-a production via nuclear factor-kB activation in the resting macrophages, FEBS Lett, vol.509, pp.156-160, 2001.

Y. Zhang, C. Liu, Y. Qi, S. Li, and J. Wang, Application of accelerated solvent extraction coupled with counter-current chromatography to extraction and online isolation of saponins with a broad range of polarity from Panax notoginseng, Separation and Purification Technology, vol.106, issue.0, pp.82-89, 2013.

J. Zhao, X. Yang, and M. Hattori, Three new triterpene saponins from the seeds of Aesculus chinensis, Chemical and Pharmaceutical Bulletin, vol.49, pp.626-628, 2001.

B. *afrocyclamin, = {(3?, 20?)-28,30-Dihydroxy

. -?-l-arabinopyranoside, MeOH).1H-and 13C-NMR: voir partie résultats et discussion. FAB-MS (neg.): 1203, 1059 (*M?H?144+-),927 (*M?H?144?132+-), 765 (*M?H?144?132?162+-), 603 (*M?H?144?132?162?162+-), 471 (*M?H?144?132?162?162?132+-), vol.3