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Maciej Zylicz

This is a preview profile on BiomedExperts - the first literature-based scientific social network. It brings the right researchers together and allows them to collaborate online. Collexis and Dell provide the BiomedExperts network of +1.8 Million pre-calculated profiles free of charge to researchers worldwide.

Research Profile (preview)

Chemicals & Drugs

Living Beings

Physiology

DNA Replication

Concepts & Ideas

Kinetics

Phenomena

Disorders

Protein Denaturation

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Network (preview)

Co-Publications
Name
30
Georgopoulos, Costa
13
Liberek, Krzysztof
10
Wawrzynow, A
6
Skowyra, Dorota
3
King, Frank
3
Helwak, Aleksandra
3
MCMACKEN, ROGER
2
Walerych, Dawid
2
Marszalek, Jaroslaw
2
Kelley, William
2
Tanfani, Fabio
2
Kudla, Grzegorz
2
Bertoli, Enrico
1
Banecki, Bogdan
1
LEARN, BRIAN

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Publications

TOP 3
Walerych D; Olszewski M B; Gutkowska M; Helwak A; Zylicz M; Zylicz A
Hsp70 molecular chaperones are required to support p53 tumor suppressor activity under stress conditions.
Zylicz Maciej
How I became a biochemist.
Wawrzynow Bartosz; Zylicz Alicja; Wallace Maura; Hupp Ted; Zylicz Maciej
MDM2 chaperones the p53 tumor suppressor.

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All Publications

2009: Walerych D; Olszewski M B; Gutkowska M; Helwak A; Zylicz M; Zylicz A
Hsp70 molecular chaperones are required to support p53 tumor suppressor activity under stress conditions.
Oncogene 2009;28(48):4284-94.
2008: Zylicz Maciej
How I became a biochemist.
IUBMB life 2008;60(4):245-8.
2007: Wawrzynow Bartosz; Zylicz Alicja; Wallace Maura; Hupp Ted; Zylicz Maciej
MDM2 chaperones the p53 tumor suppressor.
The Journal of biological chemistry 2007;282(45):32603-12.
2006: Kudla Grzegorz; Lipinski Leszek; Caffin Fanny; Helwak Aleksandra; Zylicz Maciej
High guanine and cytosine content increases mRNA levels in mammalian cells.
PLoS biology 2006;4(6):e180.
2004: Walerych Dawid; Kudla Grzegorz; Gutkowska Malgorzata; Wawrzynow Bartosz; Muller Lin; King Frank W; Helwak Aleksandra; Boros Joanna; Zylicz Alicja; Zylicz Maciej
Hsp90 chaperones wild-type p53 tumor suppressor protein.
The Journal of biological chemistry 2004;279(47):48836-45.
2001: King F W; Wawrzynow A; Höhfeld J; Zylicz M
Co-chaperones Bag-1, Hop and Hsp40 regulate Hsc70 and Hsp90 interactions with wild-type or mutant p53.
The EMBO journal 2001;20(22):6297-305.
2001: Zylicz M; King F W; Wawrzynow A
Hsp70 interactions with the p53 tumour suppressor protein.
The EMBO journal 2001;20(17):4634-8.
2001: Banecki B; Wawrzynow A; Puzewicz J; Georgopoulos C; Zylicz M
Structure-function analysis of the zinc-binding region of the Clpx molecular chaperone.
The Journal of biological chemistry 2001;276(22):18843-8.
2001: Zylicz M; Wawrzynow A
Insights into the function of Hsp70 chaperones.
IUBMB life 2001;51(5):283-7.
2001: Genevaux P; Wawrzynow A; Zylicz M; Georgopoulos C; Kelley W L
DjlA is a third DnaK co-chaperone of Escherichia coli, and DjlA-mediated induction of colanic acid capsule requires DjlA-DnaK interaction.
The Journal of biological chemistry 2001;276(11):7906-12.
1999: Gonciarz-Swiatek M; Wawrzynow A; Um S J; Learn B A; McMacken R; Kelley W L; Georgopoulos C; Sliekers O; Zylicz M
Recognition, targeting, and hydrolysis of the lambda O replication protein by the ClpP/ClpX protease.
The Journal of biological chemistry 1999;274(20):13999-4005.
1999: Konieczny I; Zylicz M
Role of bacterial chaperones in DNA replication.
Genetic engineering 1999;21():95-111.
1998: Zylicz M; Liberek K; Wawrzynow A; Georgopoulos C
Formation of the preprimosome protects lambda O from RNA transcription-dependent proteolysis by ClpP/ClpX.
Proceedings of the National Academy of Sciences of the United States of America 1998;95(26):15259-63.
1997: Deloche O; Liberek K; Zylicz M; Georgopoulos C
Purification and biochemical properties of Saccharomyces cerevisiae Mdj1p, the mitochondrial DnaJ homologue.
The Journal of biological chemistry 1997;272(45):28539-44.
1996: Wu B; Wawrzynow A; Zylicz M; Georgopoulos C
Structure-function analysis of the Escherichia coli GrpE heat shock protein.
The EMBO journal 1996;15(18):4806-16.
1996: Wawrzynow A; Banecki B; Zylicz M
The Clp ATPases define a novel class of molecular chaperones.
Molecular microbiology 1996;21(5):895-9.
1996: Banecki B; Liberek K; Wall D; Wawrzynów A; Georgopoulos C; Bertoli E; Tanfani F; Zylicz M
Structure-function analysis of the zinc finger region of the DnaJ molecular chaperone.
The Journal of biological chemistry 1996;271(25):14840-8.
1996: Banecki B; Zylicz M
Real time kinetics of the DnaK/DnaJ/GrpE molecular chaperone machine action.
The Journal of biological chemistry 1996;271(11):6137-43.
1995: Blaszczak A; Zylicz M; Georgopoulos C; Liberek K
Both ambient temperature and the DnaK chaperone machine modulate the heat shock response in Escherichia coli by regulating the switch between sigma 70 and sigma 32 factors assembled with RNA polymerase.
The EMBO journal 1995;14(20):5085-93.
1995: Wawrzynów A; Banecki B; Wall D; Liberek K; Georgopoulos C; Zylicz M
ATP hydrolysis is required for the DnaJ-dependent activation of DnaK chaperone for binding to both native and denatured protein substrates.
The Journal of biological chemistry 1995;270(33):19307-11.
1995: Wawrzynów A; Zylicz M
Divergent effects of ATP on the binding of the DnaK and DnaJ chaperones to each other, or to their various native and denatured protein substrates.
The Journal of biological chemistry 1995;270(33):19300-6.
1995: Ziemienowicz A; Zylicz M; Floth C; Hübscher U
Calf thymus Hsc70 protein protects and reactivates prokaryotic and eukaryotic enzymes.
The Journal of biological chemistry 1995;270(26):15479-84.
1995: Wawrzynow A; Wojtkowiak D; Marszalek J; Banecki B; Jonsen M; Graves B; Georgopoulos C; Zylicz M
The ClpX heat-shock protein of Escherichia coli, the ATP-dependent substrate specificity component of the ClpP-ClpX protease, is a novel molecular chaperone.
The EMBO journal 1995;14(9):1867-77.
1995: Wall D; Zylicz M; Georgopoulos C
The conserved G/F motif of the DnaJ chaperone is necessary for the activation of the substrate binding properties of the DnaK chaperone.
The Journal of biological chemistry 1995;270(5):2139-44.
1994: Wall D; Zylicz M; Georgopoulos C
The NH2-terminal 108 amino acids of the Escherichia coli DnaJ protein stimulate the ATPase activity of DnaK and are sufficient for lambda replication.
The Journal of biological chemistry 1994;269(7):5446-51.
1993: Ziemienowicz A; Skowyra D; Zeilstra-Ryalls J; Fayet O; Georgopoulos C; Zylicz M
Both the Escherichia coli chaperone systems, GroEL/GroES and DnaK/DnaJ/GrpE, can reactivate heat-treated RNA polymerase. Different mechanisms for the same activity.
The Journal of biological chemistry 1993;268(34):25425-31.
1993: Wojtkowiak D; Georgopoulos C; Zylicz M
Isolation and characterization of ClpX, a new ATP-dependent specificity component of the Clp protease of Escherichia coli.
The Journal of biological chemistry 1993;268(30):22609-17.
1993: Osipiuk J; Georgopoulos C; Zylicz M
Initiation of lambda DNA replication. The Escherichia coli small heat shock proteins, DnaJ and GrpE, increase DnaK's affinity for the lambda P protein.
The Journal of biological chemistry 1993;268(7):4821-7.
1993: Zylicz M
The Escherichia coli chaperones involved in DNA replication.
Philosophical transactions of the Royal Society of London. Series B, Biological sciences 1993;339(1289):271-7; discussion 277-8.
1992: Banecki B; Zylicz M; Bertoli E; Tanfani F
Structural and functional relationships in DnaK and DnaK756 heat-shock proteins from Escherichia coli.
The Journal of biological chemistry 1992;267(35):25051-8.
1992: Liberek K; Galitski T P; Zylicz M; Georgopoulos C
The DnaK chaperone modulates the heat shock response of Escherichia coli by binding to the sigma 32 transcription factor.
Proceedings of the National Academy of Sciences of the United States of America 1992;89(8):3516-20.
1991: Ang D; Liberek K; Skowyra D; Zylicz M; Georgopoulos C
Biological role and regulation of the universally conserved heat shock proteins.
The Journal of biological chemistry 1991;266(36):24233-6.
1991: Liberek K; Skowyra D; Zylicz M; Johnson C; Georgopoulos C
The Escherichia coli DnaK chaperone, the 70-kDa heat shock protein eukaryotic equivalent, changes conformation upon ATP hydrolysis, thus triggering its dissociation from a bound target protein.
The Journal of biological chemistry 1991;266(22):14491-6.
1991: Liberek K; Marszalek J; Ang D; Georgopoulos C; Zylicz M
Escherichia coli DnaJ and GrpE heat shock proteins jointly stimulate ATPase activity of DnaK.
Proceedings of the National Academy of Sciences of the United States of America 1991;88(7):2874-8.
1991: Osipiuk J; Zylicz M
Role of the Escherichia coli grpE heat shock protein in the initiation of bacteriophage lambda DNA replication.
Acta biochimica Polonica 1991;38(1):191-200.
1990: Skowyra D; Georgopoulos C; Zylicz M
The E. coli dnaK gene product, the hsp70 homolog, can reactivate heat-inactivated RNA polymerase in an ATP hydrolysis-dependent manner.
Cell 1990;62(5):939-44.
1990: Sell S M; Eisen C; Ang D; Zylicz M; Georgopoulos C
Isolation and characterization of dnaJ null mutants of Escherichia coli.
Journal of bacteriology 1990;172(9):4827-35.
1990: Lipinska B; Zylicz M; Georgopoulos C
The HtrA (DegP) protein, essential for Escherichia coli survival at high temperatures, is an endopeptidase.
Journal of bacteriology 1990;172(4):1791-7.
1990: Liberek K; Osipiuk J; Zylicz M; Ang D; Skorko J; Georgopoulos C
Physical interactions between bacteriophage and Escherichia coli proteins required for initiation of lambda DNA replication.
The Journal of biological chemistry 1990;265(6):3022-9.
1989: Zylicz M; Ang D; Liberek K; Georgopoulos C
Initiation of lambda DNA replication with purified host- and bacteriophage-encoded proteins: the role of the dnaK, dnaJ and grpE heat shock proteins.
The EMBO journal 1989;8(5):1601-8.
1988: Zylicz M; Ang D; Liberek K; Yamamoto T; Georgopoulos C
Initiation of lambda DNA replication reconstituted with purified lambda and Escherichia coli replication proteins.
Biochimica et biophysica acta 1988;951(2-3):344-50.
1988: Liberek K; Georgopoulos C; Zylicz M
Role of the Escherichia coli DnaK and DnaJ heat shock proteins in the initiation of bacteriophage lambda DNA replication.
Proceedings of the National Academy of Sciences of the United States of America 1988;85(18):6632-6.
1988: Swindle J; Zylicz M; Georgopoulos C; Li J; Greenblatt J
Purification and properties of the NusB protein of Escherichia coli.
The Journal of biological chemistry 1988;263(21):10229-35.
1987: Zylicz M; Ang D; Georgopoulos C
The grpE protein of Escherichia coli. Purification and properties.
The Journal of biological chemistry 1987;262(36):17437-42.
1987: Yamamoto T; McIntyre J; Sell S M; Georgopoulos C; Skowyra D; Zylicz M
Enzymology of the pre-priming steps in lambda dv DNA replication in vitro.
The Journal of biological chemistry 1987;262(17):7996-9.
1987: Skowyra D; Zylicz M
[Heat-shock proteins]
Postepy biochemii 1987;33(2-3):259-76.
1986: Ang D; Chandrasekhar G N; Zylicz M; Georgopoulos C
Escherichia coli grpE gene codes for heat shock protein B25.3, essential for both lambda DNA replication at all temperatures and host growth at high temperature.
Journal of bacteriology 1986;167(1):25-9.
1985: LeBowitz J H; Zylicz M; Georgopoulos C; McMacken R
Initiation of DNA replication on single-stranded DNA templates catalyzed by purified replication proteins of bacteriophage lambda and Escherichia coli.
Proceedings of the National Academy of Sciences of the United States of America 1985;82(12):3988-92.
1983: Zylicz M; LeBowitz J H; McMacken R; Georgopoulos C
The dnaK protein of Escherichia coli possesses an ATPase and autophosphorylating activity and is essential in an in vitro DNA replication system.
Proceedings of the National Academy of Sciences of the United States of America 1983;80(21):6431-5.
1980: Grzesiuk E; Zylicz M; Lipinska B; Taylor K
Phage lambda integration protein: synthesis in lambda-infected minicells and membrane affinity.
FEBS letters 1980;115(2):281-4.

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