Danh mục tài liệu tham khảo

Danh mục tài liệu tham khảo

TÀI LIỆU THAM KHẢO Tài liệu tiếng Việt

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antibacterial activities of polymeric quaternary ammonium salts from

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[26] Hui Ai, Furong Wang, Qiusheng Yang, Fen Zhu, Chaoliang Lei, (2008),

Preparation and biological activities of chitosan from the larvae of housefly,

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as a BACE1 inhibitor, Bioorganic & Medicinal Chemistry, 13, pp 6551–

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[29] Jae-Young Je and Se-Kwon Kim, (2006), Reactive oxygen species

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deacetylation, Bioorganic & Medicinal Chemistry, 14, pp 5989–5994

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chitooligosaccharides as prolyl endopeptidase inhibitor, International Journal of Biological Macromolecules, 41, pp 529–533

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activities of water-soluble chitosan derivatives with different degree of

deacetylation, Bioorganic & Medicinal Chemistry Letters, 16, pp 2122–

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[32] Juan Carlos Cabrera, Pierre Van Cutsem, (2005), Preparation of

chitooligosaccharides with degree of polymerization higher than 6 by acid or

enzymatic degradation of chitosan, Biochemical Engineering Journal, 25, pp

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[33] Jukka olappa, artha jalmarsdottir, MarMasson, Ogmundur Runarsson, (2006),

Antimicrobial activity of chitosan N-betainates, Carbohydrate Polymers, 65,

pp 114–118

[34] Jung Hae Yoon, (2005), Enzymatic synthesis of chitooligosaccharides in

organic cosolvents, Enzyme and Microbial Technology, 37, pp 663–668

[35] K.V Harish Prashanth and R.N Tharanathan, (2007), Chitin/chitosan:

modifications and their unlimited application potential - an overview, Food Science & Technology, 18, pp 117-131

[36] Kunio Esumi, Naoko Takei, Tomokazu Yoshimura, (2003),

Antioxidant-potentiality of gold–chitosan nanocomposites, Colloids and Surfaces B: Biointerfaces, 32, pp 117-123

[37] Kyung W Kim , R.L Thomas, (2007), Antioxidative activity of chitosans

with varying molecular weights, Food Chemistry, 101, pp 308–313

[38] Lakia M Champagne, (2008), The synthesis of water soluble N-acyl chitosan

derivatives for characterization as antibacterial agents, Louisiana State University and Agricultural & Mechanical College

[39] Lin Wang, Bishu Pan, Jianchun Sheng, Juan Xu, Qiuhui Hu, (2007),

Antioxidant activity of Spirulina platensis extracts by super critical carbon dioxide extraction, Food Chemistry, 105, pp 36–41

[40] M Marini, M Bondi, R Iseppi, M Toselli, F Pilati, (2007), Preparation and

antibacterial activity of hybrid materials containing quaternary ammonium

salts via sol–gel process, European Polymer Journal, 43, pp 3621–3628

[41] M Thanou, B.I Florea, M.Geldof, H.E Junginger, G Borchard, (2002),

Quaternized chitosan oligomers as novel gene delivery vectors in epithelial

cell lines, Biomaterials, 23, pp 153–159

[42] Maher Z Elsabeea, Rania Elsayed Morsi, A.M Al-Sabagh, (2009), Surface

active properties of chitosan and its derivatives, Colloids and Surfaces B: Biointerfaces, 74, pp 1–16

[43] Ming-Tsung Yen, Joan-Hwa Yang, Jeng-Leun Mau, (2008), Antioxidant

properties of chitosan from crab shells, Carbohydrate Polymers, 74, pp 840–

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[44] Mohamed E.I Badawy, (2005), Fungicidal and insecticidal activity of

O-Acyl chitosan derivatives, Polymer Bulleti, 54, pp 279–289

[45] Moni Rani Saha, Md Ashraful Alam, Raushanara Akter and Rumana

Jahangir, (2008), In vitro free radical scavenging activity of Ixora coccinea

[46] Mrunal R Thatte, (2004), Synthesis and antibacterial assessment of

water-soluble hydrophobic chitosan derivatives bearing quaternary ammonium functionality, Louisiana State University and Agricultural & Mechanical

College

[47] N.M Alves, J.F Mano, (2008), Chitosan derivatives obtained by chemical

modifications for biomedical and environmental applications, International Journal of Biological Macromolecules, 43, pp 401–414

[48] Na Young Yoon, Dai-Nghiep Ngo, Se-Kwon Kim, (2009),

Acetylcholinesterase inhibitory activity of novel chitooligosaccharide

derivatives, Carbohydrate Polymers, 78, pp 869–872

[49] Niranjan Rajapakse, Moon-Moo Kim, Eresha Mendis and Se-Kwon Kim,

(2007), Inhibition of free radical-mediated oxidation of cellular

biomolecules by carboxylated chitooligosaccharides, Bioorganic & Medicinal Chemistry, 15, pp 997–1003

[50] Ogmundur Vidar Runarsson, Clemens Malainer, Jukka Holappa, Snorri Th

Sigurdsson, MárMásson, (2008), Tert-Butyldimethylsilyl O-protected chitosan and chitooligosaccharides: useful precursors for N-modifications in

common organic solvents, Carbohydrate Research, 343, pp 2576–2582

[51] Ogmundur Vidar Runarsson, Jukka Holappa, Tapio Nevalainen, (2007),

Antibacterial activity of methylated chitosan and chitooligomer derivatives:

Synthesis and structure activity relationships, European Polymer Journal, 43,

pp 2660–2671

[52] Ozhan A Aytekin, Shigeru Morimura, (2008), Comparative study of

N-trimethylchitosan (TMC) and chitooligosaccharides on anti-radical

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[53] Paula Gomes, Carlos A.R Gomes ,Mary K.S Batista, Luiz F Pinto, (2008),

Synthesis, structural characterization and properties of water-soluble

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Chemistry, solubility and fiber formation, Progressing Polymer Science

[55] Po-Jung Chien, Fuu Sheu, Wan-Ting Huang, Min-Sheng Su, (2007), Effect

of molecular weight of chitosans on their antioxidative activities in apple

juice, Food Chemistry, 102, pp 1192–1198

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Reninin hibition activity by chitooligosaccharides, Bioorganic & Medicinal Chemistry Letters, 18, pp 2471–2474

[57] Ronge Xing, Huahua Yu, Song Liu, Weiwei Zhang, Quanbin Zhang, Zhien

Li and Pengcheng Li, (2005), Antioxidant activity of differently

regioselective chitosan sulfates in vitro, Bioorganic & Medicinal Chemistry,

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Li, (2005), Preparation of high-molecular weight and high-sulfate content

chitosans and their potential antioxidant activity in vitro, Carbohydrate Polymers, 61, pp 148–154

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Pengcheng Li, (2008), Relevance of molecular weight of chitosan-N-2-hydroxypropyl trimethyl ammonium chloride and their antioxidant activities,

European Journal of Medicinal Chemistry, 43, pp 336-340

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factors affecting radical scavenging activity of chitooligosaccharides (COS)

and its derivatives, Carbohydrate Polymers, 63, pp 122–129

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characterization andantibacterial activities of chitosan, N-trimethyl chitosan (TMC) and N-diethylmethyl chitosan (DEMC) nanoparticles loaded with insulinusing both the ionotropic gelation and polyelectrolyte complexation

methods, International Journal of Pharmaceutics, 355, pp 299–306

[62] Sang-Hoon Lim and Samuel M Hudson, (2004), Synthesis and antimicrobial

activity of a water-soluble chitosan derivative with a fiber-reactive group,

Carbohydrate Research, 339, pp 313–319

[63] San-Lang Wang, Jen-Yi Liou, Tzu-Wen Liang, Kao-Cheng Liu, (2009),

Conversion of squid pen by using Serratia sp.TKU020 fermentation for the

production of enzymes, antioxidants, and N-acetyl chitooligosaccharides,

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biological activities of chitosan oligosaccharides (COS): A review,

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[65] Sevda Senel, Susan J McClure, (2004), Potential applications of chitosan in

veterinary medicine, Advanced Drug Delivery Reviews, 56, pp 1467–1480

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[69] Tao Sun, Dongxiang Zhou, Fang Mao, Yingna Zhu, (2007), Preparation of

low-molecular-weight carboxymethyl chitosan and their superoxide anion

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activity of graft chitosan derivatives, Carbohydrate Polymers, 58, pp 379–

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acetylation (DA) of chitin and chitosan by an improved first derivative UV

method, Carbohydrate Polymers, 73, pp 248–253

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applications: Opportunities galore, Reactive & Functional Polymers, 68, pp

1013–1051

[74] Voravee P Hoven, Varawut Tangpasuthadol, Yaowamand Angkitpaiboon,

Napanporn Vallapa, Suda Kiatkamjornwong, (2007), Surface-charged

chitosan: Preparation and protein adsorption, Carbohydrate Polymers, 68, pp

44–53

[75] Wanvimol Pasanphan , Suwabun Chirachanchai, (2008), Conjugation of

gallic acid onto chitosan: An approach for green and water-based antioxidant,

Carbohydrate Polymers, 72, pp 169–177

[76] Warayuth Sajomsang, Supawan Tantayanon, Varawut Tangpasuthadol,

William H Daly, (2008), Synthesis of methylated chitosan containing aromatic moieties: Chemoselectivity and effect on molecular weight,

Carbohydrate Polymers, 72, pp 740–750

[77] Warayuth Sajomsang, Tantayanon S., Tangpasuthadol V., Daly W.H.,

(2009), Quaternization of N-aryl chitosan derivatives: Synthesis,

characterization and antibacterial activity, Carbohydrate Research

[78] Warayuth Sajomsang, Uracha Ruktanonchai, Pattarapond Gonil, Varissaporn

Mayen, Praneet Opanasopit, (2009), Methylated N-aryl chitosan derivative/DNA complex nano particles for gene delivery: Synthesis and

structure – activity relationships, Carbohydrate Polymers, 78, pp 743–752

[79] Warayuth Sajomsanga, Supawan Tantayanona , Varawut Tangpasuthadol,

Mrunal Thatteb, William H.Daly, (2008), Synthesis and characterization of