[1]Piot P. The science of AIDS: A tale of two worlds. Science, 1998,280(5371): 1 844-1 845
[2]
[11]Yoshida T, Kang B W, Hattori T, et al. Anti-HIV activity of sulfonated arabinofuranan and xylofuranan. Carbohydrate Polymers, 2001,44 (2): 141-150
[3]
[12]Shin-Ichiro N, Hideaki K, Katsuhiko S, et al. Regioselective syntheses of sulfated polysaccharide: specific antiHIV1 activity of novel chitin sulfates. Carbohydrate Research, 1998,306(3) :427-433
[4]
[13]Carlucci M J, Pujol C A, Ciancial M, et al. Antiherpetic and anticoagulant properties of carrageenans from the red seaweed Gigartin skottsbergii and their cyclized derivatives: Correlation between structure and biological activity. Int J Biol Macromol, 1997,20(2) :97-105
[5]
[14]Kazuyuki H, Takashi Y, Hideki N, et al. Synthesis of sulfonated amino-polysaccharides having anti-HIV and blood anticoagulant activities. Carbohydrate Research,1998,312(1-2): 1-8
[6]
[15]Hayakawa Y, Hayashi T, Lee J B, et al. Inhibition of thrombin by sulfated polysaccharides isolated from green algae. BBA/Protein Structure and Molecular Enzymology,2000,1543(1) :86-94
[7]
[16]Shanmugam M, Mody K H, Siddhanta A K. Blood anticoagulant sulphated polysaccharides of the marine green algae Codium dwarkense ( Boergs ) and C. tomentosum (Huds) Stackh. Indian J Exp Biol, 2001,39(4): 365-370
[8]
[17]Mulloy B, Mour P A, Gray E. Structure/function studies of anticoagulant sulphated polysaccharides using NMR. J Biotechnol, 2000,77 ( 1 ): 123-135
[9]
[18]Gao Y, Katsuraya K, Kaneko Y, et al. Synthesis of azidothymidine-bound curdlan sulfate with anti-human immunodeficiency virus activity in vitro. Polymer Journal,1998,30( 1 ): 31-36
[10]
[19]Jimenez-Escrig A, Sanchez-Muniz F J. Dietary fibre from edible seaweeds: P chemical structure phusicochemical properties and effects on cholesterol metabolism. Nutrition Research, 2000,20(4): 585-598
[11]
[20]Clercq E De. Current lead natural products for the chemotherapy of human mmunodeficiency virus (HIV) infection. Med Res Rev,2000,20(5) :323-349
[12]
[21]Witvrouw M, Clercq E De. Sulfated polysaccharides extracted from sea algae as potential antiviral drugs. Gen Pharmacol, 1997,29(4): 497-511
[13]
[22]Haslin C, Lahaye M, Pellegrini M, et al. In vitro antiHIV activity of sulfated cell-wall polysaccharides from gametic, carposporic and tetrasporic stages of the Mediterranean red alga Asparagopsis armata. Planta Med,2001,67(4) :301-305
[14]
[23]Hoshino T, Hayashi T, Hayashi K, et al. An antivirally active sulfated polysaccharide from Sargassum horneri (Turner) C. AGARDH. Biol Pharm Bull, 1998,21 (7):730-734
[15]
[24]Blinkova L P, Gorobets O B, Baturo A P. Biological activity of Spirulina. Microbial Epidemiol Immunobiol,2001,2(1):114-118
[16]
[25]Ayehunie S, Belay A, Baba T, et al. Inhibition of HIV-1replication by an aqueous extract of Spirulina platensis (Arthrospira platensis ). J Acquir Immune Defic Syndr Hum Retrovirol, 1998,18 ( 1 ): 7-12
[17]
[26]Shan B E, Yoshida Y, Kuroda E, et al. Brief communication immunomodulating activity of seaweed extract on human lymphocytes in vitro. International Journal of Immunopharmacology, 1999,21 ( 1 ): 59-70
[18]
[2]Witvrouw M, Clercq E De. Sulfated polysaccharides extracted from sea algae as potential antiviral drugs. Gen Phar macol, 1997,29 (4): 497 -511
[19]
[3]Douek D C, Brenchley J M, Betts M R,et al. HIV preferentially infects HIV-specific CD4 + T cells. Nature, 2002,417( 1 ) :95-98
[20]
[4]Clercq E De. Strategies in the design of antiviral drugs.Nature Reviews Drug Discovery,2002, ( 1 ): 13-25
[21]
[5]Balter M. Revealing HIV\'s T cell passkey. Science, 1998,280(5371): 1 833-1 834
[22]
[6]Schaeffer D J, Krylov V S. Anti-HIV activity of extracts and compounds from algae and cyanobacteria. Ecotoxicology and Environmental Safety, 2000,45 (3): 208-227
[23]
[7]Centers for Disease Control and Prevention. Prevention of pneumococcal disease: recommendations of the Advisory Committee on Immunization Practices (ACIP). Morb Mortal Wkly Rep, 1997,46 (RR-08): 1-24
[24]
[8]Feikin D R, Eliea C M, Goetzb M B, et al. Randomized trial of the quantitative and functional antibody responses to a 7-valent pneumococcal conjugate vaccine and/or 23-valent polysaccharide vaccine among IV-infected adults. Vaccine,2002,20(3-4): 545-553
[25]
[9]Tan X, Phillip D M. CAT-transfected epithelial cells provide evidence for a CD4 independent pathway of HIV infection. J of Reproductive Immunology, 1998,41 (1-2): 307-319
[26]
[10]Yoshida T. Synthesis of polysaccharides having specific biological activities. Prog in Polym Sci, 2001,26 (3): 379-441
