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Citácie vo WOS: 3

1. Jeong, KS; Lee, SE; Han, JW; Yang, SU; Lee, BM; Noh, TH; Cha, JS. 2008. Virulence reduction and differing regulation of virulence genes in rpf mutants of Xanthomonas oryzae pv. oryzae. PLANT PATHOLOGY JOURNAL 24 (2): 143-151.

2. Perez-Avalos, O; Sanchez-Herrera, LM; Salgado, LM; Ponce-Noyola, T. 2008. A bifunctional endoglucanase/endoxylanase from Cellulomonas flavigena with potential use in industrial processes at different pH. CURRENT MICROBIOLOGY 57 (1): 39-44.

3. Wang, Q; Xia, T. 2008. Importance of C-terminal region for thermostability of GH11 xylanase from Streptomyces lividans. APPLIED BIOCHEMISTRY AND BIOTECHNOLOGY 144 (3): 273-282.
BIELY, P. - MISLOVIČOVÁ, D. - TOMAN, R. Soluble chromogenic substrates for the assay of endo-1,4-β-xylanases and endo-1,4-β-glucanases. In Analytical Biochemistry. Vol. 144, (1985), p. 142-146.

Citácie vo WOS: 1

1. Maurelli, L; Giovane, A; Esposito, A; Moracci, M; Fiume, I; Rossi, M; Morana, A.
2008. Evidence that the xylanase activity from Sulfolobus solfataricus O alpha is encoded by the endoglucanase precursor gene (sso1354) and characterization of the associated cellulase activity. EXTREMOPHILES 12 (5): 689-700.
BIELY, P. - PUCHART, V. - CÔTÉ, G.L. Enzymic alpha-galactosylation of a cyclic glucotetrasaccharide derived from alternan. In Carbohydrate Research. Vol. 332, (2001),
p. 299-303.

Citácie vo WOS: 1

1. Zhao, H; Lu, LL; Xiao, M; Wang, QP; Lu, Y; Liu, CH; Wang, P; Kumagai, H; Yamamoto, K. 2008. Cloning and characterization of a novel alpha-galactosidase from Bifidobacterium breve 203 capable of synthesizing Gal-alpha-1,4 linkage. FEMS MICROBIOLOGY LETTERS 285 (2): 278-283.
BIELY, P. - PULS, J. - SCHNEIDER, H. Acetyl xylan esterases in fungal cellulolytic systems. In FEBS Letters. Vol. 186, (1985), p. 80-84.

Citácie vo WOS: 3

1. Chungool, W; Thongkam, W; Raweesri, P; Thamchaipenet, A; Pinphanichakarn, P. 2008. Production, purification, and characterization of acetyl esterase from Streptomyces sp PC22 and its action in cooperation with xylanolytic enzymes on xylan degradation. WORLD JOURNAL OF MICROBIOLOGY & BIOTECHNOLOGY 24 (4): 549-556.

2. Martinez-Martinez, I; Navarro-Fernandez, J; Lozada-Ramirez, JD; Garcia-Carmona, F; Sanchez-Ferrer, A. 2008. YesT: A new rhamnogalacturonan acetyl esterase from Bacillus subtilis. PROTEINS-STRUCTURE FUNCTION AND BIOINFORMATICS 71 (1): 379-388.

3. Navarro-Fernandez, J; Martinez-Martinez, I; Montoro-Garcia, S; Garcia-Carmona, F; Takami, H; Sanchez-Ferrer, A. 2008. Characterization of a new rhamnogalacturonan acetyl esterase from Bacillus halodurans C-125 with a new putative carbohydrate binding domain. JOURNAL OF BACTERIOLOGY 190 (4): 1375-1382.
BIELY, P. - VRŠANSKÁ, M. Xylanase of Cryptococcus albidus. In Methods in Enzymology. Vol. 160, (1988), p. 638-648.

Citácie vo WOS: 1

1. Picart, P; Diaz, P; Pastor, FIJ. 2008. Stachybotrys atra BP-A produces alkali-resistant and thermostable cellulases. ANTONIE VAN LEEUWENHOEK INTERNATIONAL JOURNAL OF GENERAL AND MOLECULAR MICROBIOLOGY 94 (2): 307-316.
BIELY, P. - VRŠANSKÁ, M. - CLAEYSSENS, M. The endo-1,4-β-glucanase-I from Trichoderma reesei - action on β-1,4-oligomers and polymers derived from D-glucose and D-xylose. In European Journal of Biochemistry. Vol. 200, (1991), p. 157-163.

Citácie vo WOS: 2

1. Nakazawa, H; Okada, K; Kobayashi, R; Kubota, T; Onodera, T; Ochiai, N; Omata, N; Ogasawara, W; Okada, H; Morikawa, Y. 2008. Characterization of the catalytic domains of Trichoderma reesei endoglucanase I, II, and III, expressed in Escherichia coli. APPLIED MICROBIOLOGY AND BIOTECHNOLOGY 81 (4): 681-689.

2. Rudsander, UJ; Sandstrom, C; Piens, K; Master, ER; Wilson, DB; Brumer, H; Kenne, L; Teeri, TT. 2008. Comparative NMR analysis of cellooligosaccharide hydrolysis by GH9 bacterial and plant endo-1,4-ss-glucanases. BIOCHEMISTRY 47 (18): 5235-5241.


BIELY, P. - VRŠANSKÁ, M. - KRÁTKY, Z. Xylan-degrading enzymes of the yeast Cryptococcus albidus. Identification and cellular localization. In European Journal of Biochemistry. Vol. 108, (1980), p. 313-321.

Citácie vo WOS: 2

1. Bhadra, B; Rao, RS; Singh, PK; Sarkar, PK; Shivaji, S. 2008. Yeasts and yeast-like fungi associated with tree bark: Diversity and identification of yeasts producing extracellular endoxylanases. CURRENT MICROBIOLOGY 56 (5): 489-494.

2. Basaran, P; Ozcan, M. 2008. Characterization of beta-xylosidase enzyme from a Pichia stipitis mutant. BIORESOURCE TECHNOLOGY 99 (1): 38-43.


BIELY, P. - VRŠANSKÁ, M. - KUČÁR, Š. Identification and mode of action of endo-1,4-β-xylanases. In VISSER, J. - BELDMAN, G. - KUSTERS-VAN SOMEREN, M.A. - VORAGEN, A.G.J. Xylans and Xylanases. Amsterdam: Elsevier Science Publishers, 1992. 576 p. Progress in Biotechnology Series, vol. 7. ISBN 0-444-89477-2. p. 81-96.

Citácie vo WOS: 2

1. Basaran, P; Ozcan, M. 2008. Characterization of beta-xylosidase enzyme from a Pichia stipitis mutant. BIORESOURCE TECHNOLOGY 99 (1): 38-43.

2. Croes, E; Gebruers, K; Robben, J; Noben, JP; Samyn, B; Debyser, G; Van Beeumen, J; Delcour, JA; Courtin, CM. 2008. Variability of polymorphic families of three types of xylanase inhibitors in the wheat grain proteome. PROTEOMICS 8 (8): 1692-1705.


BIELY, P. - VRŠANSKÁ, M. - TENKANEN, M. - KLUEPFEL, D. Endo-β-1,4-xylanase families: differences in catalytic properties. In Journal of Biotechnology. Vol. 57, (1997),
p. 151-166.

Citácie vo WOS: 13

1. Andre-Leroux, G; Berrin, JG; Georis, J; Arnaut, F; Juge, N. 2008. Structure-based mutagenesis of Penicillium griseofulvum xylanase using computational design. PROTEINS-STRUCTURE FUNCTION AND BIOINFORMATICS 72 (4): 1298-1307.

2. Lee, CC; Kibblewhite-Accinelli, RE; Smith, MR; Wagschal, K; Orts, WJ; Wong, DWS. 2008. Cloning of Bacillus licheniformis xylanase gene and characterization of recombinant enzyme. CURRENT MICROBIOLOGY 57 (4): 301-305.

3. Berrin, JG; Juge, N. 2008. Factors affecting xylanase functionality in the degradation of arabinoxylans. BIOTECHNOLOGY LETTERS 30 (7): 1139-1150.

4. Ustinov, BB; Gusakov, AV; Antonov, AI; Sinitsyn, AP. 2008. Comparison of properties and mode of action of six secreted xylanases from Chrysosporium lucknowense. ENZYME AND MICROBIAL TECHNOLOGY 43 (1): 56-65.

5. Wakiyama, M; Tanaka, H; Yosbihara, K; Hayashi, S; Ohta, K. 2008. Purification and properties of family-10 endo-1,4-beta-xylanase from Penicillium citrinum and structural organization of encoding gene. JOURNAL OF BIOSCIENCE AND BIOENGINEERING 105 (4): 367-374.

6. Vegas, R; Alonso, JL; Dominguez, H; Parajo, JC. 2008. Enzymatic processing of rice husk autohydrolysis products for obtaining low molecular weight oligosaccharides. FOOD BIOTECHNOLOGY 22 (1-2): 31-46.

7. Lazaridou, A; Chornick, T; Biliaderis, CG; Izydorczyk, MS. 2008. Sequential solvent extraction and structural characterization of polysaccharides from the endosperm cell walls of barley grown in different environments. CARBOHYDRATE POLYMERS 73 (4): 621-639.

8. Badhan, AK; Chadha, BS; Saini, HS. 2008. Purification of the alkaliphilic xylanases from Myceliophthora sp IMI 387099 using cellulose-binding domain as an affinity tag. WORLD JOURNAL OF MICROBIOLOGY & BIOTECHNOLOGY 24 (7): 973-981.

9. Chithra, M; Muralikrishna, G. 2008. Characterization of purified xylanase from finger millet (Eleusine coracana-Indaf 15) malt. EUROPEAN FOOD RESEARCH AND TECHNOLOGY 227 (2): 587-597.

10. Esteghlalian, AR; Kazaoka, MM; Lowery, BA; Varvak, A; Hancock, B; Woodward, T; Turner, JO; Blum, DL; Weiner, D; Hazlewood, GP. 2008. Prebleaching of softwood and hardwood pulps by a high performance xylanase belonging to a novel clade of glycosyl hydrolase family 11. ENZYME AND MICROBIAL TECHNOLOGY 42 (5): 395-403.

11. Butt, MS; Tahir-Nadeem, M; Ahmad, Z; Sultan, MT. 2008. Xylanases and their applications in baking industry. FOOD TECHNOLOGY AND BIOTECHNOLOGY 46 (1): 22-31.

12. Vandermarliere, E; Bourgois, TM; Rombouts, S; Van Campenhout, S; Volckaert, G; Strelkov, SV; Delcour, JA; Rabijns, A; Courtin, CM. 2008. Crystallographic analysis shows substrate binding at the -3 to +1 active-site subsites and at the surface of glycoside hydrolase family 11 endo-1,4-beta-xylanases. BIOCHEMICAL JOURNAL 410: 71-79, Part 1.

13. Vardakou, M; Dumon, C; Murray, JW; Christakopoulos, P; Weiner, DP; Juge, N; Lewis, RJ; Gilbert, HJ; Flint, JE. 2008. Understanding the structural basis for substrate and inhibitor recognition in eukaryotic GH11 xylanases. JOURNAL OF MOLECULAR BIOLOGY 375 (5): 1293-1305.

Citácie v SCOPUS: 1

1. Brienzo, M., Arantes, V., & Milagres, A. M. F. (2008). Enzymology of the thermophilic ascomycetous fungus thermoascus aurantiacus. Fungal Biology Reviews, 22(3-4), 120- 130.

Citácie v publ. neregistrovaných v citačných indexoch: 1

1. GOESAERT, H. - COURTIN, C.M. - DELCOUR, J.A. Use of enzymes in the production of cereal-based functional foods and food ingredients. In ARENDT, E. - DAL BELLO, F. Gluten-Free Cereal Products and Beverages. Burlington: Academic Press, 2008. ISBN: 978-0123737397. Chapter 11, p. 237-266.
BIELY, P. - WONG, K.K.Y. - SUCKLING, I.D. - ŠPÁNIKOVÁ, S. Transacetylations to carbohydrates catalyzed by acetylxylan esterase in the presence of organic solvent. In Biochimica et Biophysica Acta. Vol. 1623, (2003), p. 62-71.

Citácie vo WOS: 2

1. Weadge, JT; Clarke, AJ. 2008. Transacetylation of carbohydrates in organic solvent catalysed by O-acetylpeptidoglycan esterase from Neisseria gonorrhoeae. BIOCATALYSIS AND BIOTRANSFORMATION 26 (1-2): 68-75.

2. Yang, CH; Liu, WH. 2008. Purification and properties of an acetylxylan esterase from Thermobifida fusca. ENZYME AND MICROBIAL TECHNOLOGY 42 (2): 181-186.


BÍLIK, V. Reactions of saccharides catalyzed by molybdate ions. II. Epimerization of D-glucose and D-mannose. In Chemické Zvesti. Vol. 26, (1972), p. 183-186.

Citácie vo WOS: 3

1. Hricoviniova, Z. 2008. Microwave-assisted stereospecific intramolecular rearrangement of (1 -> 6)-linked disaccharides catalyzed by Mo(VI). TETRAHEDRON- ASYMMETRY 19 (15): 1853-1856.

2. Hricoviniova, Z. 2008. Isomerization as a route to rare ketoses: the beneficial effect of microwave irradiation on Mo(VI)-catalyzed stereospecific rearrangement. TETRAHEDRON-ASYMMETRY 19 (2): 204-208.

3. Kockritz, A; Kant, M; Walter, M; Martin, A. 2008. Rearrangement of glucose to mannose catalysed by polymer-supported Mo catalysts in the liquid phase. APPLIED CATALYSIS A-GENERAL 334 (1-2): 112-118.
BÍLIK, V. Reactions of saccharides catalyzed by molybdate ions. III. Preparation of L- glucose by epimerization of L-mannose or L-mannose phenylhydrazone. In Chemické Zvesti. Vol. 26, (1972), p. 187-189.

Citácie vo WOS: 2

1. Hricoviniova, Z. 2008. Microwave-assisted stereospecific intramolecular rearrangement of (1 -> 6)-linked disaccharides catalyzed by Mo(VI). TETRAHEDRON- ASYMMETRY 19 (15): 1853-1856.

2. Hricoviniova, Z. 2008. Isomerization as a route to rare ketoses: the beneficial effect of microwave irradiation on Mo(VI)-catalyzed stereospecific rearrangement. TETRAHEDRON-ASYMMETRY 19 (2): 204-208.


BÍLIK, V. Reactions of saccharides catalyzed by molybdate ions. IV. Epimerization of aldopentoses. In Chemické Zvesti. Vol. 26, (1972), p. 372-375.

Citácie vo WOS: 1

1. Hricoviniova, Z. 2008. Microwave-assisted stereospecific intramolecular rearrangement of (1 -> 6)-linked disaccharides catalyzed by Mo(VI). TETRAHEDRON- ASYMMETRY 19 (15): 1853-1856.
BÍLIK, V. Epimerization of aldoses catalyzed by molybdate ions. In Chemické Listy. Vol. 77, (1983), p. 496-505.

Citácie vo WOS: 2

1. Hricoviniova, Z. 2008. Microwave-assisted stereospecific intramolecular rearrangement of (1 -> 6)-linked disaccharides catalyzed by Mo(VI). TETRAHEDRON- ASYMMETRY 19 (15): 1853-1856.

2. Hricoviniova, Z. 2008. Isomerization as a route to rare ketoses: the beneficial effect of microwave irradiation on Mo(VI)-catalyzed stereospecific rearrangement. TETRAHEDRON-ASYMMETRY 19 (2): 204-208.


BÍLIK, V. - ČAPLOVIČ, J. Reactions of saccharides catalyzed by molybdate ions. VII. Preparation of L-ribose, D- and L-lyxose. In Chemické Zvesti. Vol. 27, (1973), p. 547-550.

Citácie vo WOS: 1

1. Gratien, J; Heck, MP; Mioskowski, C. 2008. C-2 Epimerization of aldonolactones promoted by magnesium iodide: a new way towards non-enzymatic epimerization. CARBOHYDRATE RESEARCH 343 (1): 18-30.
BÍLIK, V. - JURČOVÁ, E. - SUTORIS, V. Reactions of saccharides catalyzed by molybdate ions. XX. Preparation of epilactose and epimaltose. In Chemické Zvesti. Vol. 32, (1978), p. 252-257.

Citácie vo WOS: 1

1. Paul, S; Jayaraman, N. 2008. Synthesis of 2-deoxy-D-arabino/lyxo-hexopyranosyl disaccharides. CARBOHYDRATE RESEARCH 343 (3): 453-461.
BÍLIK, V. - JURČOVÁ, E. - SUTORIS, V. Application of raffinose in the preparation of epimelibiose. In Listy cukrovarnícke. Vol. 94, (1978), p. 88-91.

Citácie vo WOS: 1

1. Hricoviniova, Z. 2008. Microwave-assisted stereospecific intramolecular rearrangement of (1 -> 6)-linked disaccharides catalyzed by Mo(VI). TETRAHEDRON- ASYMMETRY 19 (15): 1853-1856.
BÍLIK, V. - KUČÁR, Š. Stereoselective hydroxylation of glycals. In Carbohydrate Research. Vol. 13, (1970), p. 311-313.

Citácie vo WOS: 1

1. Levecque, P; Gammon, DW; Kinfe, HH; Jacobs, P; De Vos, D; Sels, B. 2008. Tandem epoxidation-alcoholysis or epoxidation-hydrolysis of glycals catalyzed by Titanium(IV) isopropoxide or Venturello's phosphotungstate complex. ADVANCED SYNTHESIS & CATALYSIS 350 (10): 1557-1568.
BÍLIK, V. - MATULOVÁ, M. - KNĚZEK, I. Reactions of saccharides catalyzed by molybdate ions. XLIV. Isolation of alditols from the mixture of saccharides. In Chemical Papers. Vol. 45, (1991), p. 829-836.

Citácie vo WOS: 1

1. Kockritz, A; Kant, M; Walter, M; Martin, A. 2008. Rearrangement of glucose to mannose catalysed by polymer-supported Mo catalysts in the liquid phase. APPLIED CATALYSIS A-GENERAL 334 (1-2): 112-118.
BÍLIK, V. - TIHLÁRIK, K. Reactions of saccharides catalyzed by molybdate ions. IX. Epimerization of ketohexoses. In Chemické Zvesti. Vol. 28, (1974), p. 106-109.

Citácie vo WOS: 2

1. Kim, NH; Kim, HJ; Kang, DI; Jeong, KW; Lee, JK; Kim, Y; Oh, DK. 2008. Conversion shift of D-fructose to D-psicose for enzyme-catalyzed epimerization by addition of borate. APPLIED AND ENVIRONMENTAL MICROBIOLOGY 74 (10): 3008-3013.

2. Gullapalli, P; Takata, G; Poonperm, W; Rao, D; Morimoto, K; Akimitsu, K; Tajima, S; Izumori, K. 2007. Bioproduction of D-psicose from allitol with Enterobacter aerogenes IK7: A new frontier in rare ketose production. BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY 71 (12): 3048-3054.


BÍLIKOVÁ, K. - HANES, J. - NORDHOFF, E. - SAENGER, W. - KLAUDINY, J. - ŠIMÚTH, J. Apisimin, a new serine-valine-rich peptide from honeybee (Apis mellifera L.) royal jelly: purification and molecular characterization. In FEBS Letters. Vol. 528, (2002), p. 125-129.

Citácie vo WOS: 3

1. Liu, JR; Yang, YC; Shi, LS; Peng, CC. 2008. Antioxidant Properties of Royal Jelly Associated with Larval Age and Time of Harvest. JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY 56 (23): 11447-11452.

2. Chan, QWT; Foster, LJ. 2008. Changes in protein expression during honey bee larval development. GENOME BIOLOGY 9 (10): art. no. R156.

3. Tao, T; Su, SK; Miao, YG; Yue, WF; Du, HH; Chen, SL; Liu, F; Zhan, Y. 2008. Expression of Apalbumin1 of Apis cerana cerana in the Larvae of Silkworm, Bombyx mori. JOURNAL OF AGRICULTURAL AND FOOD CHEMISTRY 56 (20): 9464-9468.
BÍLIKOVÁ, K. - KLAUDINY, J. - ŠIMÚTH, J. Characterization of the basic major royal jelly protein MRJP2 of honeybee (Apis mellifera) and its preparation by heterologous expression in E-coli. In Biologia. Vol. 54, (1999), p. 733-739.

Citácie vo WOS: 1

1. Qu, N; Jiang, J; Sun, LX; Lai, CC; Sun, LF; Wu, XJ. 2008. Proteomic characterization of royal jelly proteins in Chinese (Apis cerana cerana) and European (Apis mellifera) honeybees. BIOCHEMISTRY-MOSCOW 73 (6): 676-680.
BÍLIKOVÁ, K. - WU, G.S. - ŠIMÚTH, J. Isolation of a peptide fraction from honeybee royal jelly as a potential antifoulbrood factor. In Apidologie. Vol. 32, (2001), p. 275-283.

Citácie vo WOS: 1

1. Qu, N; Jiang, J; Sun, LX; Lai, CC; Sun, LF; Wu, XJ. 2008. Proteomic characterization of royal jelly proteins in Chinese (Apis cerana cerana) and European (Apis mellifera) honeybees. BIOCHEMISTRY-MOSCOW 73 (6): 676-680.
BILISICS, L. - VOJTAŠŠÁK, J. - CAPEK, P. - KOLLÁROVÁ, K. - LIŠKOVÁ, D. Changes in glycosidase activities during galactoglucomannan oligosaccharide inhibition of auxin induced growth. In Phytochemistry. Vol. 65, (2004), p. 1903-1909.

Citácie vo WOS: 1

1. Willfor, S; Sundberg, K; Tenkanen, M; Holmbom, B. 2008. Spruce-derived mannans - A potential raw material for hydrocolloids and novel advanced natural materials. CARBOHYDRATE POLYMERS 72 (2): 197-210.
BOHÁČOVÁ, V. - DOČOLOMANSKÝ, P - BREIER, A. - GEMEINER, P. - ZIEGELHÖFFER, A. Interactions of lactate dehydrogenase with anthraquinone dyes: characterization of ligands for dye-ligand chromatography. In Journal of Chromatography B. Vol. 715, (1998), p. 273-281.

Citácie vo WOS: 1

1. Riahi, S; Ganjali, MR; Norouzi, P. 2008. Quantum mechanical description of the interactions between DNA and 9,10-anthraquinone. JOURNAL OF THEORETICAL & COMPUTATIONAL CHEMISTRY 7 (3): 317-329.
BOUTHERIN, B. - MAZEAU, K. - TVAROŠKA, I. Conformational statistics of pectin substances in solution by a metropolis Monte Carlo study. In Carbohydrate Polymers. Vol. 32, (1997), p. 255-266.

Citácie vo WOS: 2

1. Ralet, MC; Crepeau, MJ; Lefebvre, J; Mouille, G; Hofte, H; Thibault, JF. 2008. Reduced number of homogalacturonan domains in pectins of an Arabidopsis mutant enhances the flexibility of the polymer. BIOMACROMOLECULES 9 (5): 1454-1460.

2. McConaughy, SD; Stroud, PA; Boudreaux, B; Hester, RD; McCormick, CL. 2008. Structural characterization and solution properties of a galacturonate polysaccharide derived from Aloe vera capable of in situ gelation. BIOMACROMOLECULES 9 (2): 472-480.


BRADBROOK, G.M. - GESSLER, K. - CÔTÉ, G.L. - MOMANY, F. - BIELY, P. - BORDET, P. - PEREZ, S. - IMBERTY, A. X-ray structure determination and modeling of the cyclic tetrasaccharide cyclo-{-> 6)-α-D-Glcp-(1→3)-α-D-Glcp-(1→6)-α-D-Glcp-(1→3)-α-D-Glcp-(1→}. In Carbohydrate Research. Vol. 329, (2000), p. 655-665.

Citácie vo WOS: 2

1. Shizuma, M; Kiso, T; Terauchi, H; Takai, Y; Yamada, H; Nishimoto, T; Ono, D; Shimomura, O; Nomura, R; Miwa, Y; Nakamura, M; Nakano, H. 2008. Evaluation of Chiral Amino Acid Discrimination by a Permethylated Cyclic Tetrasaccharide, cyclo-{- > 6)-alpha-D-Glcp-(1 -> 3)-alpha-D-Glcp-(1 -> 6)-alpha-D-Glcp-(1 -> 3)-alpha-D-Glcp- (1 ->}, Using FAB Mass Spectrometry. CHEMISTRY LETTERS 37 (10): 1054-1055.

2. Suarez, ER; Bugden, SM; Kai, FB; Kralovec, JA; Noseda, MD; Barrow, CJ; Grindley, TB. 2008. First isolation and structural determination of cyclic beta-(1 -> 2)-glucans from an alga, Chlorella pyrenoidosa. CARBOHYDRATE RESEARCH 343 (15): 2623- 2633.


BREIEROVÁ, E. - MÁROVÁ, I. - ČERTÍK, M. The role of the carotenoid pigments in yeast cells under stress conditions. In Chemické Listy. Roč. 99, 2005, č. CHLSAC 99(s), s. s109-s111. ISSN 0009-2770. Proceedings of 3rd Meeting on Chemistry & Life, 20-22 September 2005, Brno, Czech Republic.

Citácie vo WOS: 1

1. Krulikovska, T; Patakova, P; Lukco, M. 2008. Method of Isolation of Carotenoid Dyes from Rhodotorula Yeasts. CHEMICKE LISTY 102 (12): 1145-1149.
BREIEROVÁ, E. - VAJCZIKOVÁ, I. - SASINKOVÁ, V. - STRATILOVÁ, E. - FIŠERA, M. - GREGOR, T. - ŠAJBIDOR, J. Biosorption of cadmium ions by different yeast species. In Zeitschrift für Naturforschung C. Vol. 57, (2002), p. 634-639.

Citácie vo WOS: 2

1. Ghorbani, F; Younesi, H; Ghasempouri, SM; Zinatizadeh, AA; Amini, M; Daneshi, A. 2008. Application of response surface methodology for optimization of cadmium biosorption in an aqueous solution by Saccharomyces cerevisiae. CHEMICAL ENGINEERING JOURNAL 145 (2): 267-275.

2. Villegas, LB; Fernandez, PM; Amoroso, MJ; de Figueroa, LIC. 2008. Chromate removal by yeasts isolated from sediments of a tanning factory and a mine site in Argentina. BIOMETALS 21 (5): 591-600.


BREŽNÝ, R. - MIHÁLOV, V. - KOVÁČIK, V. Low-temperature thermolysis of lignins I. Reactions of β-O-4 model compounds. In Holzforschung. Vol. 37, (1983), p. 199-204.

Citácie vo WOS: 5

1. Hosoya, T; Kawamoto, H; Saka, S. 2008. Secondary reactions of lignin-derived primary tar components. JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS 83 (1): 78- 87.

2. Nakamura, T; Kawamoto, H; Saka, S. 2008. Pyrolysis behavior of Japanese cedar wood lignin studied with various model dimers. JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS 81 (2): 173-182.

3. Kawamoto, H; Ryoritani, M; Saka, S. 2008. Different pyrolytic cleavage mechanisms of beta-ether bond depending on the side-chain structure of lignin dimers. JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS 81 (1): 88-94.

4. Toh, K; Murae, T. 2008. Structural change of extracted lignin by white rot and brown rot fungi and thermal alteration of the lignin after the microbial treatments. PETROLEUM GEOCHEMISTRY AND EXPLORATION IN THE AFRO-ASIAN REGION: 87-93. edited by Liang, DG; Wang, D; Li, ZX. presented at 6th International Conference on Petroleum Geochemistry and Exploration in the Afro-Asian Regions in Beijing, PEOPLES R CHINA, OCT 12-14, 2004.

5. Kawamoto, H; Nakamura, T; Saka, S. 2008. Pyrolytic cleavage mechanisms of lignin- ether linkages: A study on p-substituted dimers and trimers. HOLZFORSCHUNG 62 (1): 50-56.
BREŽNÝ, R. - ŠURINA, I. - KOŠÍK, M. Low temperature thermolysis of lignins. II. Thermofractography and thermal analysis of β-O-4 model compounds. In Holzforschung. Vol. 38, (1984), p. 19-24.

Citácie vo WOS: 2

1. Kawamoto, H; Ryoritani, M; Saka, S. 2008. Different pyrolytic cleavage mechanisms of beta-ether bond depending on the side-chain structure of lignin dimers. JOURNAL OF ANALYTICAL AND APPLIED PYROLYSIS 81 (1): 88-94.

2. Kawamoto, H; Nakamura, T; Saka, S. 2008. Pyrolytic cleavage mechanisms of lignin- ether linkages: A study on p-substituted dimers and trimers. HOLZFORSCHUNG 62 (1): 50-56.


BROADLEY, M.R. - WHITE, P.J. - HAMMOND, J.P. - ZELKO, I. - LUX, A. Zinc in plants. In New Phytologist. Vol. 173, (2007), p. 677-702.

Citácie vo WOS: 17

1. Palmgren, MG; Clemens, S; Williams, LE; Kraemer, U; Borg, S; Schjorring, JK; Sanders, D. 2008. Zinc biofortification of cereals: problems and solutions. TRENDS IN PLANT SCIENCE 13 (9): 464-473.

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