Polskie Towarzystwo Chitynowe / Polish Chitin SocietyInstytut Biopolimerów i Włókien Chemicznych / The Institute of Biopolymers and Chemical Fibres
Where you are: PTChitJournal PCACDVII (2001)

VII (2001)

A. Wojtasz-Pająk
The impact of the diversity of raw materiał and technological process parameters on chitin properties, p. 7

J. Szumilewicz, L. Szosland
Determination of the absolute molecular weight of chitin by means of size exclusion chromatography coupled with triple detection system, p. 15

S. Trzciński, D. U. Staszewska, M. Bohdanecky
Kinetic and hpsec investigations of the sonochemical degradation of chitosans, p. 21

L. Szosland, J. Szumilewicz, A. Włochowicz, D. Mikuta
Selected physicomechanical properties of dibutyrylchitin and chitin fibres, p. 33

M. Wiśniewska-Wrona, H. Struszczyk
Modificacation of chitosan structure duringits processing, p. 47

A. V. llyina, V. P. Varlamov, L. A. Gabdrakhmanova, D. V. Yusupova
Chitinolytic complex of Serratia marcescens as the tool in obtaining of Iow-molecular-weight water-soluble chitosan, p. 57

G. E. Bannikova, V. P. Varlamov, G. A. Vikhoreva, P. P. Sukhanova
Depolymerization  of  sulfated  chitosan  with  Chitinolytic  complex  from Streptomyces kurssanovii, p. 65

D. Pięta, A. Pastucha, H. Struszczyk
Efficiency of chitosan in limiting fungi pathogenic for runner bean, p. 73

Małgorzata M. Jaworska, Maciej Pilarek, Ewa Konieczna
Chitin deacetylase from Absidia orchidis, p. 79

M. H. Struszczyk, M. G. Peter, F. Loth, H. Pospieszny
Biodegradation of films and paper sheets containing chitosan, p. 87

A. Pawlak, M. Mucha
Spectroscopic study of chitosan degradation processes, p. 101

J. Ignacak, M. Lekka, H. Struszczyk, P. Laidler
The influence of microcrystalline chitosan of various deacetylation degree on energetic metabolism and elasticity of ehrlich ascites tumour cells, p. 117

M. Grabowska, J. Ignacak, H. Struszczyk
The influence of microcrystalline chitosan on (Ca2+AtPase activity from cancerous cell membrane in vitro and intracellular ions level, p. 125

B. Kochańska, A. Kędzia
In vitro assessment of oral cavity derived yeastlike fungi susceptibility to chitosan ascorbate, p. 135

B. Kochańska, A. Kędzia
In vitro assessment of the susceptibility of obligate anaerobic bacteria isolated from pathological gingival pockets to chitosan ascorbate, p. 141

D. Paluch, J. Staniszewska-Kuś, L. Solski, M. Szymonowicz, L. Szosland
Comparative biological investigation of the fibres of dibutyrylchitin and regenerated chitin, p. 147

L. B. Orlikowski, C. Skrzypczak, A. Niekraszewicz, H. Struszczyk
Influence of chitosan on the development of Fusarium wilt of camation, p. 155

J. Borkowski, O. Nowosielski, T. Kotlińska, A. Niekraszewicz, H. Struszczyk
Influence of chitosan and tytanit on the growth and healthiness of the lettuce, top onion and the glasshouse tomato, p. 159

W. Folkman, H. Pospieszny
Molecular basis of systemie acquired resistance induced by chitosan and its oligomers, p. 169

S. Chirkov, Z. Kochkina
Influence of chitosan on bacteriophage infections, p. 175

A.Niekraszewicz, H. Struszczyk, H. Malinowska, A. Szymański, M. Kucharska
Application of selected chitosan forms for modification of paper properties, p. 183

R. Cisło, I. Krucińska, J. Bliska, L. Szosland
Anałysis of properties of dressing nonwovens manufactured from regenerated chitin and dibutyrylochitin fibres, p. 191

B. Filipowska, A. Walawska, E. Rybicki
Application of chitosan in textile finishing, p. 201

Z. Modrzejewska
Flat and capillary chitosan membranes in environmental protection, biotechnology and medicine, p. 221

Seat of PTChit is Institute of Biopolymers and Chemical Fibres

ul. M. Skłodowskiej Curie 19/27, 90 - 570 Łódź, Poland • tel. + 42 638 03 38 (39), fax: + 42 637 65 10,

e-mail: ibwch@ibwch.lodz.plbiomater@ibwch.lodz.pl