Honeysuckle flower extract

Product Name: Honeysuckle Flower Extract Powder Chlorogenic Acid

Latin Name: Lonicera japonica.

Part used: Flower

Appearance: Brown Powder

Main Ingredients: Chlorogenic Acid

Specification: 10:1(TLC),  Chlorogenic 20%-98%

Function: Health protect

About Honeysuckle flower:

Lonicera japonica, the Japanese honeysuckle or suikazura is a species of honeysuckle native to eastern Asia including China, Japan and Korea. It is a twining vine able to climb up to 10 metres (33 ft) high or more in trees, with opposite, simple oval leaves 3–8 centimetres (1.2–3.1 in) long and 2–3 centimetres (0.79–1.18 in) broad. The flowers are double-tongued, opening white and fading to yellow, and sweetly vanilla scented. The fruit is a black spherical berry 3–4 millimetres (0.12–0.16 in) diameter containing a few seeds.This species is often sold by American nurseries as the cultivar 'Hall's Prolific' (Lonicera japonica var. halliana). It is an effective groundcover, and has pleasant, strong-smelling flowers. It can be cultivated by seed, cuttings, or layering. In addition, it will spread itself via shoots if given enough space to grow.

 Pls kindly contact at email sales09@staherb.cn for more product information!

Honeysuckle flower extract main function:

 1.Honeysuckle Flower Extract Powder Chlorogenic Acid have an effect on protection of cardiovascular and cerebrovascular diseases. 

2.Honeysuckle Flower Extract Powder Chlorogenic Acid can anti mutagenesis and anti-cancer.

3.Honeysuckle Flower Extract Powder Chlorogenic Acid have antilipemic effect.

4.Honeysuckle Flower Extract Powder Chlorogenic Acid can anti-leukemia.

5.Honeysuckle Flower Extract Powder Chlorogenic Acidhave immunity regulative effect.

6.Honeysuckle Flower Extract Powder Chlorogenic Acid can lowof blood sugar.

 

Honeysuckle flower extract application:

1. As raw materials of drugs for antican cer, anti-mutagenic and cardiovascular, it is mainly used in pharmaceutical field;

2. As active ingredients of products for antibacterial, boosting the immunity, lipid-lowering and blood sugar lowering, it is mainly used in health product industry;

3. As product for dispelling acne, soothing and anti-inflammatory, it is mainly used in cosmetic industry;

4. As a toothpaste additive and active ingredients of disinfectant products, it is used in daily chemicals industry.

 

Why Choose staherb honeysuckle flower extract chlorogenic acid?

 Changsha staherb Natural Ingredients Co., Ltd. specializes in the research,produce and sale for natural plant extracts, chemical intermediates, and chemical raw materials field many years. 

Staherb supplies good quality raw material and excellent service and for pharmaceuticals field, food field, health supplements field, cosmetics field, beverage field, natural pigment field etc. 
Staherb with advanced science research, modern management, good sales and after sales ability wins the satisfactions of clients from home and abroad.

References:

  1. 1.Arbos KA, Claro ML, Borges L, Santos CAM, Weffort-Santos AM (2008) Human erythrocyte as a system for evaluating the antioxidant capacity of vegetable extracts. Nutr Res 28:457–463

  2. 2.Arora A, Byren TM, Nair MG, Strasburg GM (2000) Modulation of liposomal membrane fluidity by flavonoids and isoflavonoids. Arch Biochem Biophys 373(1):102–109 

  3. 3.Attar M, Kates M, Khalil MB, Carrier D, Wong PTT (2000) A Fourier-transform infrared study of the interaction between germ-cell specific sulfogalactosylglycerolipid and dimyristoylglycerophosphocholine. Chem Phys Lipids 106:101–114

  4. 4.Bessis M (1977) La forme et la deformabilite des erythrocytes normaux et dans certaines anemies hemolytiques congenitales. Nouv Rev Fr d’Hematol 18:75–94

  5. 5.Bonarska-Kujawa D, Pruchnik H, Oszmiański J, Sarapuk J, Kleszczyńska H (2011a) Changes caused by fruit extracts in the lipid phase of biological and model membranes. Food Biophys 6:58–67

  6. 6.Bonarska-Kujawa D, Cyboran S, Oszmiański J, Kleszczyńska H (2011b) Extracts from apple leaves and fruits as effective antioxidants. J Med Plants Res 5(11):2339–2347 

  7. 7.Bonarska-Kujawa D, Pruchnik H, Kleszczyńska H (2012) Interaction of selected anthocyanins with erythrocytes and liposome membranes. Cell Mol Biol Lett 17:289–308

  8. 8.Bonarska-Kujawa D, Cyboran S, Żyłka R, Oszmiański J, Kleszczyńska H (2014) Biological activity of blackcurrant extracts (Ribes nigrum L.) in relation to erythrocyte membranes. BioMed Res Int 783059:13.

  9. 9.Bors M, Sicińska P, Michałowicz J, Wieteska P, Gulewicz K, Bukowska B (2012) Evaluation of the effect of Uncaria tomentosa extracts on the size and shape of human erythrocytes (in vivo). Environ Toxic Pharm 33:127–134 

  10. 10.Bradford M (1976) Rapid and sensitive method for the quantization of microgram quantities of protein utilizing the principle of protein-dye binding. Anal Biochem 72:248–254 

  11. 11.Chaudhuri S, Banerjee A, Basu K, Sengupta B, Sengupta PK (2007) Interaction of flavonoids with red blood cell membrane lipids and proteins: antioxidant and antihemolytic effects. Int J Biol Macromol 41:42–48 

  12. 12.Chen PN, Chu SC, Chiou HL, Kuo WH, Chiang CL, Hsieh YS (2006) Mulberry anthocyanins, cyanidin 3-rutinoside and cyanidin 3-glucoside, exhibited an inhibitory effect on the migration and invasion on human lung cancer cell line. Canc Lett 235:248–259 

  13. 13.Cyboran S, Bonarska-Kujawa D, Kapusta I, Oszmiański J, Kleszczyńska H (2011) Antioxidant potentials of polyphenolic extracts from leaves of trees and fruit bushes. Curr Top Biophys 34:15–21 

  14. 14.Cyboran S, Oszmiański J, Kleszczyńska H (2012) Interaction between plant polyphenols and the erythrocyte membrane. Cell Mol Biol Lett 17:77–88 

  15. 15.Deuticke B (1968) Transformation and restoration of biconcave shape of human erythrocytes induced by amphiphilic agents and changes of ionic environment. Biochim Biophys Acta 163:494–500 

  16. 16.Dodge JT, Mitchell C, Hanahan DJ (1963) The preparation and chemical characteristics of hemoglobin-free ghosts of erythrocytes. Arch Biochem 100:119–130 

  17. 17.Everitt CH, Haydon DA (1968) Electrical capacitance of a lipid membrane separating two aqueous phases. J Theor Biol 18:371–379 

  18. 18.Fettiplace R, Gordon LGM, Hladky SB, Requena J, Zingsheim HP, Hydon DA (1975) Techniques in the formation and examination of “black” lipid bilayer membranes. In: Korn ED (ed) Methods in membrane biology, vol 4. Plenum Press, New York, pp 1–75 

  19. 19.Iglic A, Kralj-Ilgic V, Hagerstand VH (1998) Amphiphile induced echinocyte-spheroechinocyte transformation of red blood cell shape. Eur Biophys J 27:335–339 

  20. 20.Kalinowski S, Figaszewski Z (1995) A four electrode potentiostat-galvanostat for measurements of bilayer lipid membrane capacitance. Meas Sci Technol 6:1043–1049 

  21. 21.Kong JM, Chia LS, Goh NK, Chia TF, Brouillard R (2003) Analysis and biological activities of anthocyanins. Phytochem 64:923–933 

  22. 22.Kusznierewicz B, Piekarska A, Mrugalska B, Konieczka P, Namieśnik J, Bartoszek A (2012) Phenolic composition and antioxidant properties of Polish blue-berried honeysuckle genotypes by HPLC-DAD-MS, HPLC postcolumn derivatization with ABTS or FC, and TLC with DPPH visualization. J Agri Food Chem 60:1755–1763 

  23. 23.Lakowicz JR (2006) Fluorescence anisotropy. Principles of fluorescence spectroscopy, 3rd edn. Springer, New York, pp 353–382 

  24. 24.Lewis RNAH, McElhaney RN, Pohle W, Mantsch HH (1994) Components of the carbonyl stretching band in the infrared spectra of hydrated 1,2-diacylglycerolipid bilayers: a reevaluation. Biophys J 67:2367–2375

  25. 25.Lifen H, Zhou B, Yang L, Liu ZL (2004) Inhibition of free radical initiated peroxidation of human erythrocyte ghosts by flavanols and their glycosides. Org Biomol Chem 2:1419–1423

  26. 26.Maddy AH, Dunn MJ, Kelly PG (1972) The characterization of membrane proteins by centrifugation and gel electrophoresis. A comparison of proteins prepared by different methods. Biochim Biophys Acta 288:263–278

  27. 27.Movileanu L, Neagoe I, Flonta ML (2000) Interaction of the antioxidant flavonoid quercetin with planar lipid bilayers. Int J Pharm 205:135–146

  28. 28.Mueller P, Rudin DO, Tien HT, Wescott WC (1962) Reconstitution of cell membrane structure in vitro and its transformation into an excitable system. Nature 194:979–980

  29. 29.Nenadis N, Boyle S, Bakalbassis EG, Tsimidou M (2003) An experimental approach to structure-activity relationships of caffeic and dihydrocaffeic acids and related monophenols. J Am Oil Chem Soc 80(5):451–458

  30. 30.Oszmiański J, Wojdyło A, Gorzelny J, Kapusta I (2011) Identification and characterization of low molecular weight polyphenols in berry leaf extracts by HPLC-DAD and LC-ESI/MS. J Agri Food Chem 59:12830–12835

  31. 31.Parasassi T, Krasnowska EK, Bagatolli L, Gratton E (1998) Laurdan and prodan as polarity-sensitive fluorescent membrane probes. J Fluorescence 8(4):365–373

  32. 32.Pawlikowska-Pawlęga B, Gruszecki WI, Misiak LE, Gawron A (2003) The study of the quercetin action on human erythrocyte membranes. Biochem Pharmacol 66:605–612

  33. 33.Pawlikowska-Pawlęga B, Misiak LE, Zarzycka B, Paduch R, Gawron A, Gruszecki WI (2013) FTIR, 1H NMR and EPR spectroscopy studies on the interaction of flavone apigenin with dipalmitoylphosphatidylcholine liposomes. Biochem Biophys Acta 1828:518–527

  34. 34.Rice-Evans CA, Miller NJ, Paganga G (1997) Antioxidant properties of phenolic compounds. Trends Plant Sci 2(4):152–159

  35. 35.Rop O, Reznicek V, Mlcek T, Jurikowa T, Balik J, Sochor J, Kramrova D (2011) Antioxidant and radical oxygen species scavenging activities of 12 cultivars of blue honeysuckle fruit. Hort Sci (Prague) 38:63–70

  36. 36.Sheetz MP, Singer SJ (1974) Biological membranes as bilayer couples. A molecular mechanism of drug-erythrocyte interactions. Proc Nat Acad Sci USA 71:4457–446

  37. 37.Suwalsky M, Oyarce K, Avello M, Villena F, Sotomayor CP (2009) Human erythrocytes and molecular models of cell membranes are affected in vitro by Balbisia peduncularis (Amancay) extracts. Chem-Biol Interact 179:413–418

  38. 38.Tien HT (1974) Bilayer lipid membranes: theory and practice. Marcel Dekker, Inc., New York

  39. 39.Włoch A, Kapusta I, Bielecki K, Oszmiański J, Kleszczyńska H (2013) Activity of hawthorn leaf and bark extracts in relation to biological membrane. J Membr Biol 246:545–556

  40. 40.Xiaofei S, Hu P, Maoxing L, Xiaolou M, Hong D (2011) Lonicera japonica Thunb.: ethnopharmacology, phytochemistry and pharmacology of an important traditional Chinese medicine. J Ethnopharm 138:1–21

  41. 41.Zhang YL, Frangos JA, Chachisvilis M (2006) Laurdan fluorescence senses mechanical strain in the lipid bilayer membrane. Biochem Biophys Res Com 347:838–841

  42. 42.Zhinan X, Zhengxiang N (2008) Scavenging and antioxidant properties of compound derived from chlorogenic acid in South-China honeysuckle. LWT 41:1189–1203