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Stefan.Janecek@savba.sk
phone: ++ 421 2 5930 7420
fax: ++ 421 2 5930 7416 |
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Dubravska cesta 21 SK-84551
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PUBLICATIONS OF STEFAN JANECEK -
2001-2005 |
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1. |
Machovic, M., Svensson, B., MacGregor, E.A. &
Janecek, S. (2005) A new clan of CBM families based on bioinformatics of
starch-binding domains from families CBM20 and CBM21. FEBS Journal 272:
5497-5513. |
[PubMed] |
[PDF] |
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2. |
Janecek, S. (2005) Amylolytic families of glycoside hydrolases:
focus on the family GH-57. Biologia, Bratislava
60 (Suppl. 16): 177-184. |
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[PDF] |
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3. |
Zona, R. A. & Janeček, Š. (2005) Relationships
between SLH motifs from different glycoside hydrolase families. Biologia,
Bratislava 60 (Suppl. 16): 115-121. |
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[PDF] |
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4. |
Markovic, O. & Janecek, S. (2004) Pectin methyl
esterases: sequence-structural features and phylogenetic relationships. Carbohydrate
Research 339: 2281-2295. |
[PubMed] |
[PDF] |
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5. |
Zona, R., Chang-Pi-Hin, F., O’Donohue, M.J. &
Janecek, S. (2004) Bioinformatics of the family 57 glycoside hydrolases and
identification of catalytic residues in amylopullulanase from Thermococcus
hydrothermalis. European Journal of Biochemistry 271:
2863-2872. |
[Pubmed] |
[PDF] |
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6. |
Oslancova, A. & Janecek, S. (2004)
Evolutionary relatedness between glycolytic enzymes most frequently occurring
in genomes. Folia Microbiologica 49: 247-258. |
[PubMed] |
[PDF] |
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7. |
Da Lage, J.L., Feller, G. & Janecek, S.
(2004) Horizontal gene transfer from Eukarya to Bacteria and domain
shuffling: the α-amylase model. Cellular and Molecular Life Sciences
61: 97-109. |
[PubMed] |
[PDF] |
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8. |
Machovic, M. & Janecek, S. (2003) The
invariant residues in the α-amylase family: just the catalytic triad. Biologia,
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[PDF] |
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9. |
Janecek, S., Svensson, B. & MacGregor, E.A.
(2003) Relation between domain evolution, specificity, and taxonomy of the
α-amylase family members containing a C-terminal starch-binding domain. European
Journal of Biochemistry 270: 635-645. |
[PubMed] |
[PDF] |
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10. |
Oslancova, A. & Janecek, S. (2002)
Oligo-1,6-glucosidase and neopullulanase enzyme subfamilies from the
α-amylase family defined by the fifth conserved sequence region. Cellular
and Molecular Life Sciences 59: 1945-1959. |
[PubMed] |
[PDF] |
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11. |
Janecek, S. (2002) A motif of a microbial
starch-binding domain found in human genethonin. Bioinformatics 18:
1534-1537. |
[PubMed] |
[PDF] |
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12. |
Kovacova, A. & Janecek, S. (2002)
Evolutionary relationships of glycolytic (β/α)8-barrel
enzymes present in completely sequenced genomes. Biologia, |
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[PDF] |
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13. |
Janecek, S. (2002) How many conserved sequence regions are there in the α-amylase family? Biologia, Bratislava 57 (Suppl. 11): 29-41. |
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[PDF] |
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14. |
Kovacova, A., Ruttkay-Nedecky, G., Haverlik, I.K.
& Janecek, S. (2002) Sequence similarities and evolutionary relationships
of influenza virus A hemagglutinins. Virus Genes 24: 57-63. |
[PubMed] |
[PDF] |
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15. |
Markovic, O. & Janecek, S. (2001) Pectin
degrading glycoside hydrolases of family 28: sequence-structural features,
specificities and evolution. Protein Engineering 14: 615-631. |
[PubMed] |
[PDF] |
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16. |
Puskarova, A., Janecek, S., Ferianc, P. &
Polek, B. (2001) Putative Cd-stress proteins YodA, YrpE and PXO1-130 share
sequence similarity with adhesin AdcA. Biologia, |
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17. |
Horvathova, V., Janecek, S. & Sturdik, E.
(2001) Amylolytic enzymes: molecular aspects of their properties. General
Physiology and Biophysics 20: 7-32. |
[PubMed] |
[PDF] |
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18. |
MacGregor, E.A., Janecek, S. & Svensson, B.
(2001) Relationship of sequence and structure to specificity in the
α-amylase family of enzymes. Biochimica et Biophysica Acta 1546:
1-20. |
[PubMed] |
[PDF] |
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