Mariusz Jaskolski

Selected publications, listed by subject or back to homepage

Retroviral proteases

• M.Miller, M.Jaskolski, J.K.Mohana Rao, J.Leis, A.Wlodawer:
  Crystal structure of a retroviral protease proves relationship to aspartic protease family.
  Nature 337, 576-579 (1989). [PubMed]
• I.T.Weber, M.Miller, M.Jaskolski, J.Leis, A.M.Skalka, A.Wlodawer:
  Molecular Modeling of the HIV-1 Protease and Its Substrate Binding Site.
  Science 243, 928-931 (1989). [PubMed]
• A.Wlodawer, M.Miller, M.Jaskolski,B.K.Sathyanarayana, E.Baldwin, I.T.Weber, L.M.Selk, L.Clawson, J.Schneider, S.Kent:
  Crystal Structure of a Synthetic HIV-1 Protease Proves Conserved Fold in Retroviral Proteases.
  Science 245, 616-621 (1989). [PubMed]
• M.Jaskolski, M.Miller, J.K.M.Rao, J.Leis, A.Wlodawer:
  Structure of the Aspartic Protease from Rous sarcoma Retrovirus Refined at 2-A Resolution.
  Biochemistry 29, 5889-5898 (1990). [PubMed]
• M.Jaskolski, A.G.Tomasselli, T.K.Sawyer, D.G.Staples, R.L.Heinrikson, J.Schneider, S.B.H.Kent, A.Wlodawer:
  Structure at 2.5-? resolution of chemically synthesized human immunodeficiency virus type 1 protease complexed with a hydroxyethylene-based inhibitor.
  Biochemistry 30, 1600-1609 (1991). [PubMed]
• T.Sawyer, D.Staples, L.Liu, A.Tomaselli, B.Dunn, W.Lowther, J.Hinzmann, R.Poorman, A.Wlodawer, M.Jaskolski:
  HIV Protease (HIV PR) Inhibitor Structure-Activity, Selectivity and Active Site Molecular Modeling of High Affinity Leu-psi-[CH(OH)CH2]Val Modified Viral and Nonviral Substrate Analogs.
  Int. J. Peptide Protein Res.40, 274-281 (1992). [PubMed]
• E.Buchtelova, J.Hasek, J.Dohnalek, E.Tykarska, M.Jaskolski, L.Olivi:
  Preliminary crystallographic study of native HIV-1 protease inhibited by hydroxyethylamine modified tetraopeptides of Boc-Phe-psi[(R/S)-CH(OH)CH2NH]Phe-Ile-Phe-NH2 type.
  Materials Structure 6, 6-7 (1999).
• E.Buchtelova, J.Hasek, J.Dohnalek, H.Petrokova, J.Duskova, T.Skalova, J.Brynda, J.Sedlacek, M.Hradilek, J.Konvalinka, E.Tykarska, M.Jaskolski, L.Olivi:
  Product of autodigestion at Leu63-Ile64 site binds to HIV-1 protease instead of inhibitor Boc-Phe-psi[(S)-CH(OH)CH2NH]Phe-Ile-Phe-NH2.
  Materials Structure 8, 31-32 (2001).
• A.Hilgeroth, E.Tykarska, M.Jaskolski (2002),
  Crystal structure of a novel synthetic inhibitor of HIV-1 protease.
  J. Mol. Struct. 605, 63-70.
• M.Li, G.Laco, M.Jaskolski, J.Rozycki, J.Alexandratos, A.Wlodawer, A.Gustchina (2005),
  Crystal structure of HTLV protease: From treating AIDS to fighting cancer.
  Proc. Natl. Acad. Sci. USA. 102, 18332-18337. [PubMed]
• M.Jaskolski, A.Gustchina, A.Wlodawer (2006),
  Lessons learned fighting HIV can be applied to anti-cancer drug design.
  Cell Cycle 5, 463-464. [PubMed]
• M.Jaskolski (2009),
  Proteazy retrowirusowe po 20 latach: reminiscencje.
  Postepy Biochemii, 55, 15-20. [PubMed]
• F.Khatib, F.DiMaio, Foldit Contenders Group, Foldit Void Crushers Group, S.Cooper, M.Kazmierczyk, M.Gilski, Sz.Krzywda, H.Zabranska, I.Pichova, J.Thompson, Z.Popovic, M.Jaskolski, D.Baker (2011),
  Crystal structure of monomeric retroviral protease solved by protein folding game players.
  Nature Struct. Mol. Biol. 18, 1175-1177. doi:10.1038/nsmb.2119. [PubMed]
• M.Gilski, M.Kazmierczyk, Sz.Krzywda, H.Zabranska, S.Cooper, Z.Popovic, F.Khatib, F.DiMaio, J.Thompson, D.Baker, I.Pichova, M.Jaskolski (2011),
  High-resolution structure of retroviral protease folded as a monomer.
  Acta Cryst. D67, 907-914. [PubMed]

Retroviral integrase

• G.Bujacz, M.Jaskolski, J.Alexandratos, A.Wlodawer, G.Merkel, R.A.Katz, A.M.Skalka:
  The Catalytic Domain of Avian Sarcoma Virus Integrase: Conformation of the Active-site Residues in the Presence of Divalent Cations.
  Structure 4, 89-96 (1996). [PubMed]
• G.Bujacz, M.Jaskolski, J.Alexandratos, A.Wlodawer, G.Merkel, R.A.Katz, A.M.Skalka:
  High-resolution structure of the catalytic domain of Avian sarcoma virus integrase.
  J. Mol. Biol. 253, 333-346 (1995). [PubMed]
• G.Bujacz, M.Jaskolski, J.Alexandratos, A.Wlodawer, G.Merkel, R.A.Katz, A.M.Skalka:
  Crystal structure of the catalytic domain of avian sarcoma virus integrase.
  In: Techniques in Protein Chemistry VII, ed. D.R.Marshak, pp. 383-389, Academic Press, 1996.
• J.Alexandratos, G.Bujacz, M.Jaskolski, A.Wlodawer, G.Merkel, R.A.Katz, A.M.Skalka:
  Crystal structure of avian sarcoma virus integrase with bound essential cations.
  In: Techniques in Protein Chemistry VIII, ed. D.R.Marshak, pp.417-425, Academic Press, 1997.
• M.Jaskolski, J.Alexandratos, G.Bujacz, A.Wlodawer (2009),
  Piecing together the structure of retroviral integrase, an important target in AIDS therapy.
  FEBS J. 276, 2936-2946. [PubMed]
• M.Jaskolski, J.N.Alexandratos, G.Bujacz, A.Wlodawer (2011),
  Structural studies of retroviral integrases. In: Retroviral Integrase (Ed. N.Neamati). pp 35-49. Wiley.

L-Asparaginases

• A.L.Swain, M.Jaskolski, D.Housset, J.K.M.Rao, A.Wlodawer:
  Crystal structure of E. coli L-asparaginase, an enzyme used in cancer therapy.
  Proc. Natl. Acad. Sci. USA 90, 1474-1478 (1993). [PubMed]
• D.Bonthron, M.Jaskolski:
  Why a "benign" mutation kills enzyme activity. Structure-based analysis of the A176V mutant of S. cerevisiae L-asparaginase I.
  Acta Biochim. Polon., 44, 491-504 (1997). [PubMed]
• M.Jaskolski:
  L-Asparaginase ? an Anticancer Drug and Challenge for Crystallography.
  Modern Cancer Treat. 1, 10-11 (1998).
• D.Borek, J.Podkowinski, A.Kisiel, M.Jaskolski:
  Isolation and characterization of cDNA encoding L-asparaginase from Lupinus luteus (PGR99-050).
  Plant Physiol. 119, 1568-1569 (1999).
• M.Kozak, M.Jaskolski:
  Crystallization and preliminary crystallographic studies of a new crystal form of Escherichia coli L-asparaginase II (Ser58Ala mutant).
  Acta Cryst. D56, 509-511 (2000). [PubMed]
• D.Borek, M.Jaskolski:
  Crystallization and preliminary crystallographic studies of a new L-asparaginase encoded by the Escherichia coli genome.
  Acta Cryst. D56, 1505-1507 (2000). [PubMed]
• M.Kozak, M.Jaskolski, K.H.Rohm:
  Preliminary crystallographic studies of Y25F mutant of periplasmic Escherichia coli asparaginase.
  Acta Biochim. Polon. 47, 807-814 (2000). [PDF]
• M.Jaskolski, M.Kozak, J.Lubkowski, G.Palm, A.Wlodawer:
  Structures of two highly homologous bacterial L-asparaginases: a case of enantiomorphic space groups.
  Acta Cryst. D57, 369-377 (2001). [PubMed]
• M.Kozak, D.Borek, M.Janowski, M.Jaskolski:
  Crystallization of D90E mutant of Escherichia coli L-asparaginase II in five crystal forms.
  Acta Cryst. D58, 130-132 (2002). [PubMed]
• D.Borek, M.Jaskolski:
  Sequence analysis of enzymes with asparaginase activity.
  Acta Biochim. Polon. 48, 893-902 (2001). [PDF]
• D.Borek, K.Michalska, K.Brzezinski, A.Kisiel, J.Podkowinski, D.T.Bonthron, D.Krowarsch, J.Otlewski, M.Jaskolski (2004),
  Expression, purification, and catalytic activity of Lupinus luteus asparagine b-amidohydrolase and its Escherichia coli homolog.
  Eur. J. Biochem.271, 3215-3226. [PubMed]
• K.Michalska, K.Brzezinski, M.Jaskolski (2005),
  Crystal structure of isoaspartyl aminopeptidase in complex with L-aspartate.
  J. Biol. Chem. 280, 28484-28491. [PubMed]
• K.Michalska, G.Bujacz, M.Jaskolski (2006),
  Crystal structure of plant asparaginnase.
  J. Mol. Biol. 360, 105-116. [PubMed]
• K.Michalska, M.Jaskolski (2006),
  Structural aspects of L-asparaginases, their friends and relations.
  Acta Biochim. Polon. 53, 627-640. [PDF]
• K.Michalska, D.Borek, A.Hernandez-Santoyo, M.Jaskolski (2008),
  Crystal packing of plant-type L-asparaginase from Escherichia coli.
  Acta Cryst. D64, 309-320. [PubMed]
• K.Michalska, A.Hernandez-Santoyo, M.Jaskolski (2008),
  The mechanism of autocatalytic activation of plant-type L-asparaginases.
  J. Biol. Chem. 283, 13388-13397. [PubMed]

Proteases/inhibitors

• M.Kozak, E.Kozian, Z.Grzonka, M.Jaskolski:
  Crystallization and preliminary crystallographic studies of a new crystal form of papain from Carica papaya.
  Acta Biochim. Polon., 44, 601-606 (1997). [PubMed]
• M.Kozak, E.Kozian, Z.Grzonka, M.Jaskolski:
  Crystallization and Preliminary Crystallographic Studies of a Covalent Complex Between Papain and an Oxirane-Based Inhibitor.
  In: Peptides 1996, eds. R.Ramage and R.Epton. The European Peptide Society, 551-552 (1998).
• C.Czaplewski, Z.Grzonka, M.Jaskolski,F.Kasprzykowski, M.Kozak, E.Politowska, J.Ciarkowski:
  Binding modes of a new epoxysuccinyl-peptide inhibitor of cysteine proteases. Where and how do cysteine proteases express their selectivity?
  Biochim. Biophys. Acta 1431, 290-305 (1999). [PubMed]
• M.Kozak, E.Jankowska, R.Janowski, Z.Grzonka, A.Grubb, M.Alvarez-Fernandez, M.Abrahamson, M.Jaskolski:
  Expression of a selenomethionyl derivative and preliminary crystallographic studies of human cystatin C.
  Acta Cryst. D55, 1939-1942 (1999). [PubMed]
• Z.Grzonka, E.Jankowska,F.Kasprzykowski, R.Kasprzykowska, L.Lankiewicz, W.Wiczk, E.Wieczerzak,J.Ciarkowski, P.Drabik, R.Janowski, M.Kozak, M.Jaskolski, A.Grubb:
  Structural studies of cysteine proteases and their inhibitors.
  Acta Biochim. Polon. 48, 1-20 (2001). [PDF]
• J.Otlewski, M.Jaskolski, O.Buczek, T.Cierpicki, H.Czapinska, D.Krowarsch, A.O.Smalas, D.Stachowiak, A.Szpineta, M.Dadlez:
  Structure-function relationship of serine protease - protein inhibitor interaction.
  Acta Biochim. Polon. 48, 419-428 (2001). [PDF]
• R.Janowski, G.Bujacz, D.Gerlach, M.Jaskolski (2002),
  Crystallization and preliminary crystallographic studies of Streptococcus pyogenes cysteine protease precursor.
  Acta Cryst. D58, 723-726. [PubMed]
• R.Janowski, M.Kozak, E.Jankowska, Z.Grzonka, M.Jaskolski (2004),
  Two polymorphs of a covalent complex between papain and a diazomethylketone inhibitor.
  J. Peptide Res. 64, 141-150. [PubMed]
• A.Ljunggren, I.Redzynia, M.Alvarez-Fernandez, M.Abrahamson, J.S.Mort, J.Krupa, M.Jaskolski, G.Bujacz (2007),
  Crystal structure of the parasitic protease inhibitor chagasin in complex with a host target cysteine protease.
  J. Mol. Biol. 371, 137-153. [PubMed]
• I.Redzynia, A.Ljunggren, M.Abrahamson, J.S.Mort, J.Krupa, M.Jaskolski, G.Bujacz (2008),
  Displacement of the occluding loop by the parasite protein, chagasin, results in efficient inhibition of human cathepsin B.
  J. Biol. Chem. 283, 22815-22825. [PubMed]
• I.Redzynia, A.Ljunggren, A.D.Bujacz, M.Abrahamson, M.Jaskolski, G.D.Bujacz (2009),
  Crystal structure of the parasite inhibitor chagasin in complex with papain allows identification of structural requirements for broad reactivity and specificity determinants for target proteases.
  FEBS J. 276, 793-806. [PubMed]
• M.Jaskolski (2011),
  A new piece in the 3D jigsaw of malaria parasite.
  Structure 19, 901-902. [PubMed]

3D Domain swapping

• R.Janowski, M.Kozak, E.Jankowska, Z.Grzonka, A.Grubb, M.Abrahamson, M.Jaskolski:
  Human cystatin C, an amyloidogenic protein, dimerizes through three-dimensional domain swapping.
  Nature Struct. Biol. 8, 316-320 (2001). [PubMed]
• M.Jaskolski:
  3D Domain swapping, protein oligomerization, and amyloid formation.
  Acta Biochim. Polon. 48, 807-827 (2001). [PDF]
• P.P.Liberski, M.Jaskolski (2002),
  Prion diseases: a dual view of the prion hypothesis as seen from a distance. Dedicated to Dr. Carleton Gajdusek on the occasion of his 80th birthday.
  Acta Neurobiol. Exp. 62, 197-226. [PubMed]
• M.Jaskolski, P.P.Liberski (2002),
  Kurt Wuthrich - co-winner of the Nobel Prize in Chemistry, 2002.
  Acta Neurobiol. Exp. 62, 288-289.
• M.Nilsson, X.Wang, S.Rodziewicz-Motowidlo, R.Janowski, V.Lindstrom, P.Onnerfjord, G.Westermark, Z.Grzonka, M.Jaskolski, A.Grubb (2004),
  Prevention of domain swapping inhibits dimerization and amyloid fibril formation of cystatin C use of engineered disulfide bridges, antibodies and carboxymethylpapain to stabilize the monomeric form of cystatin C.
  J. Biol. Chem. 279, 24236-24245. [PubMed]
• R.Janowski, M.Abrahamson, A.Grubb, M.Jaskolski (2004),
  3D Domain-Swapped Dimers of N-Truncated Human Cystatin C.
  J. Mol. Biol. 341, 151-160. [PubMed]
• P.P.Liberski, M.Jaskolski, P.Brown (2004),
  Gerstmann-Straussler-Scheinker disease. II. An effect of GSS mutation on PRP structure.
  Folia Neuropathol. 42, 140-152. [PubMed]
• R.Janowski, M.Kozak, M.Abrahamson, A.Grubb, M.Jaskolski (2005),
  3D Domain-swapped human cystatin C with amyloid-like intermolecular b-sheets.
  Proteins: Structure Function, and Bioinformatics 61, 570-578. [PubMed]
• M.Jaskolski, A.Grubb (2005),
  Cystatin C. In: Amyloid proteins: The Beta Sheet Conformation and Disease Vol. 2 (Ed. J.D.Sipe).
  Wiley-VCH Verlag, Weinheim.
• S.Rodziewicz-Motowidlo, M.Wahlbom, X.Wang, J.Lagiewka, R.Janowski, M.Jaskolski, A.Grubb, Z.Grzonka (2006),
  Checking the conformational stability of cystatin C and its L68Q variant by molecular dynamics studies: Why is the L68Q variant amyloidogenic?
  J. Struct. Biol. 154, 68-78. [PubMed]
• E.Levy, M.Jaskolski, A.Grubb (2006),
  Cerebral Cystatin C amyloid Angiopathy
  Brain Pathol. 16, 6-7. [PubMed]
• S.Giannini, A.Sanders, M.Jaskolski, A.Grubb, R.A.Staniforth (2006),
  Cystatins: 3D Domain Swapping and Amyloid Angiopathy. A General Mechanism for the Formation of Amyloid Fibrils? In: Human Stefins and Cystatins (Molecular Anatomy and Physiology of Proteins). (Ed. E.Zerovnik).
  Nova Science Publishers, Inc.
• M.Jaskolski (2007),
  Three-dimensional domain swapping and its relevance to conformational diseases. In: Evolving Methods for Macromolecular Crystallography. (Eds. R.J.Read, J.L.Sussman).
  Springer.
• M.Wahlbom, X.Wang, V.Lindstrom, E.Carlemalm, M.Jaskolski, A.Grubb (2007),
  Fibrillogenic oligomers of human cystatin C are formed by propagated domain swapping.
  J. Biol. Chem. 281, 18318-18326. [PubMed]
• R.Kolodziejczyk, K.Michalska, A.Hernandez-Santoyo, M.Wahlbom, A.Grubb, M.Jaskolski (2010),
  Crystal structure of human cystatin C stabilized against amyloid formation.
  FEBS J., 277, 1726-1737. [PubMed]
• M.Orlikowska, E.Jankowska, R.Kolodziejczyk, M.Jaskolski, A.Szymanska (2010),
  Hinge-loop mutation can be used to control 3D domain swapping and amyloidogenesis of human cystatin C.
  J. Struct. Biol., 173, 406-413. [PubMed]
• M.Jaskolski (2011),
  3D Domain swapping - implications for conformational disorders and ways of control.
  BioTechnologia 92, 34-44. [PDF]

Protein structure at high resolution

• H.Czapinska, J.Otlewski, Sz.Krzywda, G.M.Sheldrick, M.Jaskolski:
  High Resolution Structure of Bovine Pancreatic Trypsin Inhibitor with Altered Binding Loop Sequence.
  J. Mol. Biol. 295, 1237-1249 (2000). [PubMed]
• A.Addlagatta, H.Czapinska, Sz.Krzywda, J.Otlewski, M.Jaskolski:
  Ultrahigh-resolution structure of a BPTI mutant.
  Acta Cryst. D57, 649-663 (2001). [PubMed]
• M.Jaskolski, A.Addlagatta:
  Protein Structure Dissected at Ultra High Resolution.
  In: Methods in Macromolecular Crystallography. D.Turk, L.Johnson eds. IOS Press (2001).
• R.Thaimattam, E.Tykarska, A.Bierzynski, G.M.Sheldrick, M.Jaskolski (2002),
  Atomic resolution structure of squash trypsin inhibitor: unexpected metal coordination.
  Acta Cryst. D58, 1448-1461. [PubMed]
• R.Thaimattam, M.Jaskolski (2004),
  Synchrotron radiation in atomic-resolution studies of protein structure.
  J. Alloys Comp. 362, 12-20.
• W.Bialek, Sz.Krzywda, M.Jaskolski, A.Szczepaniak (2009),
  Atomic-resolution structure of reduced cyanobacterial cytochrome c6 with an unusual sequence insertion.
  FEBS J. 276, 4426-4436. [PubMed]

Nucleosides

• M.Jaskolski, W.Krzyzosiak, H.Sierzputowska-Gracz, M.Wiewiorowski:
  Comparative Structural Analysis of Cytidine, Ethenocytidine and Their Protonated Salts. I. Crystal and Molecular Structure of Ethenocytidine.
  Nucleic Acids Res. 9, 5423-5442 (1981). [PubMed]
• W.Krzyzosiak, M.Jaskolski, H.Sierzputowska-Gracz, M.Wiewiorowski:
  Comparative Structural Analysis of Cytidine, Ethenocytidine and Their Protonated Salts.II. IR Spectral Studies.
  Nucleic Acids Res. 10, 2741-2753, (1982). [PubMed]
• M.Jaskolski:
  Ethenoadenosine. Acta Cryst. B38, 3171-3174 (1982).
• M.Jaskolski:
  Crystal and Molecular Structure of 1,N6-Ethenoadenosine Hydrochloride.
  J. Cryst. Spectr. Res. 14, 45-57 (1984).
• L.Kozerski, H.Sierzputowska-Gracz, W.Krzyzosiak, M.Bratek-Wiewiorowska, M.Jaskolski, M.Wiewiorowski:
  Comparative Structural Analysis of Cytidine, Ethenocytidine and Their Protonated Salts. III. 1H, 13C and 15N NMR Studies at Natural Isotope Abundance.
  Nucleic Acids Res. 12, 2205-2223 (1984). [PubMed]
• M.Jaskolski, M.Alejska:
  Structure of 3-Methylcytidinium Chloride.
  Acta Cryst. C41, 599-602 (1985).
• M.Wiewiorowski, M.D.Bratek-Wiewiorowska, M.Alejska, A.Perkowska, W.Krzyzosiak, M.Jaskolski, U.Rychlewska:
  The Influence of Counter Anions on the Conformations and Molecular Interactions of Protonated Nucleosides.
  Chem. Scripta 26, 229-240 (1986).
• M.Jaskolski, B.Skalski, D.A.Adamiak, R.W.Adamiak:
  Structure of N-(2-Amino-6-purinyl)pyridinium Chloride Dihydrate.
  Acta Cryst. C43, 2110-2113 (1987).
• M.Jaskolski, M.Wiewiorowski:
  Structure of 3-Methylcytidinium Nitrate.
  Acta Cryst. C43, 89-92 (1987).
• M.Jaskolski, B.Skalski, D.A.Adamiak:
  Structure of N,N'-(2,4-Pyrimidinediyl)dipyridinium Dichloride Monohydrate. Dedicated to Professor Maciej Wiewiorowski on the occasion of his 70th birthday.
  Acta Cryst. C44, 1409-1412 (1988).
• M.Jaskolski:
  Structure of Cytidinium Dihydrogenphosphate.
  Acta Cryst. C45, 85-89 (1989).
• M.Jaskolski:
  Structure of 2'-Deoxycytidinium Dihydrogenphosphate.
  Acta Cryst. C47, 153-156 (1991).
• M.Jaskolski, B.Skalski, D.A.Adamiak:
  Structure of 2-(Pyridinium-1)-4-(4'-formylbutadien-1',3'-yl)amino-5-fluoropyrimidine Chloride Trihydrate.
  Acta Cryst. C47, 1009-1012 (1991).
• M.Gilski, E.Bartoszak, M.Jaskolski:
  Structure of 3,N4-Ethenocytidinium Dihydrogenphosphate.
  Acta Cryst. C47, 1460-1463 (1991).
• M.D.Bratek-Wiewiorowska, M.Alejska, N.Malinowska, J.Sarzynska, M.Figlerowicz, E.Utzig, W.Zielenkiewicz, M.Jaskolski, M.Wiewiorowski:
  Crystal Engineering of Cytidine and Deoxycytidine Sulfates. I. Preparation and Unusual Properties.
  Tetrahedron 48, 4893-4904 (1992).
• M.Jaskolski, A.Myszka, M.Gilski, M.Alejska, N.Malinowska:
  Base Pairing of Hemiprotonated 2'-Deoxycytidine. Crystal and Molecular Structure of (Hydrated) 2'-Deoxycytidine Hemiperchlorate.
  Pol. J. Chem. 67, 745-753 (1993).
• M. Gilski, M. Jaskolski:
  Crystal and Molecular Structure of Cytidinium Sulfate.
  Pol. J. Chem. 67, 1841-1850 (1993).
• M.Jaskolski, M.Gdaniec, M.Gilski, M.Alejska, M.D.Bratek-Wiewiorowska:
  Crystal Structure of 2'-deoxycytidine hemidihydrogenphosphate reveals C+.C base pairs and tight, hydrogen-bonded (H2PO4)inf columns.
  J. Biomol. Struct. Dyn. 11, 1-20 (1994). [PubMed]
• M.Jaskolski, M.Wiewiorowski:
  Isomorphism, solid state transformations, and disorder in the crystal structures of cytidinium and 2'-deoxycytidinium salts.
  In: Organic Crystal Chemistry, ed. D.Jones. Oxford Univ. Press, 203-217 (1994).
• M.Jakob, R.Kolodziejczyk, M.Orlowski, Sz.Krzywda, A.Kowalska, J.Dutko-Gwozdz, T.Gwozdz, M.Jaskolski, A.Ozyhar (2007),
  Novel DNA-binding element within the C-terminal extension of the nuclear receptor DNA-binding domain.
  Nucleic Acids Res. 35, 2705-2718. [PubMed]
• K.Brzezinski, A.Brzuszkiewicz, M.Dauter, M.Kubicki, M.Jaskolski, Z.Dauter (2011),
  High regularity of Z-DNA revealed by ultra high-resolution crystal structure at 0.55 A.
  Nucleic Acids Res. 39, 6238-6248. [PDF]
• P.Drozdzal, K.Michalska, R.Kierzek, L.Lomozik, M.Jaskolski (2011),
  Structure of an RNA/DNA dodecamer corresponding to the HIV-1 polypurine tract at 1.6 A resolution.
  Acta Cryst. D68, 169-175. [PubMed]

Biogenic polyamines

• M.Jaskolski, M.Alejska, M.Wiewiorowski:
  Crystal and Molecular Structure of Putrescinium Hydrogen Phosphate Dihydrate.
  J. Cryst. Spectr. Res. 16, 31-39 (1986).
• M.Jaskolski:
  Structure of Putrescinium Dinitrate.
  Acta Cryst. C43, 1761-1763 (1987).
• M.Jaskolski:
  Structure of Sperminium Tetranitrate.
  Acta Cryst. C43, 1375-1378 (1987).
• M.D.Bratek-Wiewiorowska, M.Alejska, M.Figlerowicz, J.Barciszewski, M.Wiewiorowski, M.Jaskolski:
  Interaction of polyamines, their protonated salts and metal complexes with nucleic acid fragments.
  Pure Appl. Chem. 59, 407-414 (1987).
• M.Jaskolski, I.Olovsson:
  Structure of Putrescinium Dinitrate at Three Low Temperatures (30, 120 and 275K).
  Acta Cryst. B45, 78-85 (1989).
• E.Bartoszak, M.Jaskolski:
  Structure of Putrescinium Dihydrogendiphosphate.
  Acta Cryst. C46, 2158-2160 (1990).
• E.Bartoszak-Adamska, M.Figlerowicz, M.Wiewiorowski, T.Gustafsson, I.Olovsson, M.Jaskolski:
  The influence of (O,N)-deuteration on the crystal and molecular structure, thermal stability and spectroscopic properties of 1,3-propanediammonium hydrogenphosphate monohydrate.
  Pol. J. Chem. 74, 393-408 (2000).

Alkaloids

• D.Pyzalska, M.Jaskolski, T.Borowiak, J.Wolinska-Mocydlarz:
  The Structure of Dehydromultiflorine Perchlorate.
  Acta Cryst. B36, 1685-1687 (1980).
• B.Golankiewicz, M.Gdaniec, M.Jaskolski, Z.Kosturkiewicz:
  Hydrogenation Products of Some Cinchona Alkaloids. Part VI. Crystal Structure of alpha-1',2',3',4',10,11-Hexahydrocinchonine Dihydrochloride. Absolute Configuration around the 4' Chiral Center of Hexahydrocinchonines and Their Derivatives.
  Pol. J. Chem. 55, 2279-2287 (1981).
• P.Dokurno, M.Jaskolski, Z.Kosturkiewicz, D.Matecka, M.D.Rozwadowska:
  Structure of (-)-Narcotine Hemiacetal.
  Acta Cryst. C47, 1012-1014 (1991).

Hormones

• A.Anthony, M.Jaskolski, A.Nangia, G.R.Desiraju:
  5-beta-Andrastan-3,17-dione.
  Acta Cryst. C54, 1898-1900 (1998).
• A.Anthony, M.Jaskolski, A.Nangia, G.R.Desiraju:
  17-Ethylenedioxyandrost-4-ene-3,6-dione and 17-Ethylenedioxyandrost-1,4-diene-3,6-dione.
  Acta Cryst. C54, 1894-1898 (1998).
• A.Anthony, M.Jaskolski, A.Nangia (1999),
  Androst-4-ene-3,6,17-trione.
  Acta Cryst. C55, 787-789.
• J.Biesiadka, M.M.Sikorski, G.Bujacz, M.Jaskolski (1999),
  Crystallization and preliminary X-ray structure determination of Lupinus luteus PR10 protein.
  Acta Cryst. D55, 1925-1927. [PubMed]
• J.Biesiadka, G.Bujacz, M.M.Sikorski, M.Jaskolski (2002),
  Crystal structures of two homologous pathogenesis-related proteins from yellow lupine.
  J. Mol. Biol. 319, 1223-1234. [PubMed]
• G.D.Bujacz, O.Pasternak, Y.Fujimoto, Y.Hashimoto, M.M.Sikorski, M.Jaskolski (2003),
  Crystallization and preliminary crystallographic studies of cytokinin-specific binding protein from mung bean.
  Acta Cryst. D59, 522-525. [PubMed]
• R.Kolodziejczyk, M.Kochman, G.Bujacz, P.Dobryszycki, A.Ozyhar, M.Jaskolski (2003),
  Crystallization and preliminary crystallographic studies of Juvenile Hormone Binding Protein from Galleria mellonella hemolymph.
  Acta Cryst. D59, 519-521. [PubMed]
• O.Pasternak, J.Biesiadka, R.Dolot, G.Bujacz, M.M.Sikorski, M.Jaskolski (2005),
  Crystal structure of a yellow lupine pathogenesis-related PR-10 protein belonging to a novel subclass.
  Acta Cryst. D61, 99-107. [PubMed]
• O.Pasternak, G.D.Bujacz, Y.Fujimoto, Y.Hashimoto, F.Jelen, J.Otlewski, M.M.Sikorski, M.Jaskolski (2006),
  Crystal structure of Vigna radiata Cytokinin-Specific Binding Protein in Complex with Zeatin.
  The Plant Cell 18, 2622-2634. [PDF]
• R.Kolodziejczyk, G.Bujacz, M.Jakob, A.Ozyhar, M.Jaskolski, M.Kochman (2008),
  Insect juvenile hormone binding protein exhibits ancestral fold present in human lipid binding proteins.
  J. Mol. Biol. 377, 870-881. [PubMed]
• H.Fernandes, O.Pasternak, G.Bujacz, A.Bujacz, M.M.Sikorski, M.Jaskolski (2008),
  L. luteus pathogenesis-related protein as a reservoir for cytokinins.
  J. Mol. Biol., 378, 1040-1051. [PubMed]
• H.Fernandes, M.Konieczna, R.Kolodziejczyk, G.Bujacz, M.Sikorski, M.Jaskolski (2008),
  Crystallization and preliminary crystallographic studiem of Hyp-1, a St John's wort protein implicated in the biosynthesis of hypericin.
  Acta Cryst. F64, 405-408. [PubMed]
• H.Fernandes, G.Bujacz, A.Bujacz, F.Jelen, M.Jasinski, P.Kachlicki, J.Otlewski, M.Sikorski, M.Jaskolski (2009),
  Cytokinin-induced structural adaptatability of a Lupinus luteus PR-10 protein.
  FEBS J. 276, 1596-1609. [PubMed]
• K.Michalska, H.Fernandes, M.Sikorski, M.Jaskolski (2010),
  Crystal structure of Hyp-1, a St John's wort protein with implication in the biosynthesis of hypericin.
  J. Struct. Biol. 169, 161-171. [PubMed]
• M.Jaskolski (2009),
  Bialka PR-10 jako rezerwuar ligandow w komorce roslinnej.
  Postepy biol. kom. 36, 59-68.
• A.Pietrzyk, A.Bujacz, M.Lochynska, M.Jaskolski, G.Bujacz (2011),
  Isolation, purification, crystallization and preliminary X-ray studies of two 30 kDa proteins from silkworm haemolymph.
  Acta Cryst. F67, 372-376. [PubMed]

Small and large biologicals - other

• A.Wojtczak, M.Jaskolski, Z.Kosturkiewicz (1988),
  Structure of Histaminium Dinitrate.
  Acta Cryst. C44, 1779-1781.
• M.Kozak, B.Hayward, D.Borek, D.T.Bonthron, M.Jaskolski (2001),
  Expression, purification and preliminary crystallographic studies of human ketohexokinase.
  Acta Cryst. D57, 586-588 (2001). [PubMed]
• K.Brzezinski, R.Janowski, J.Podkowinski, M.Jaskolski (2001),
  Sequence determination and analysis of S-adenosyl-L-homocysteine hydrolase from yellow lupine (Lupinus luteus).
  Acta Biochim. Polon. 48, 477-483 (2001). [PDF]
• E.Jankowska, M.Gilski, M.Jaskolski, Z.Grzonka, L.Lankiewicz (2002),
  Crystal structure of N-t-butoxycarbonyl-N-methyl-(O-benzyl)-L-tyrosine.
  Acta Cryst. C58, 353-354. [PubMed]
• K.Brzezinski, B.Rogozinski, T.Stepkowski, G.Bujacz, M.Jaskolski (2004),
  Cloning, purification, crystallization and preliminary crystallographic studies of Bradyrhizobium fucosyltransferase NodZ.
  Acta Cryst. D60, 344-346. [PubMed]
• G.Tamulaitiene, S.Grazulis, A.Janulaitis, R.Janowski, G.Bujacz, M.Jaskolski (2003),
  Crystallization and preliminary crystallographic studies of a bifunctional restriction endonuclease Eco57I.
  Biochim. Biophys. Acta 1698, 251-254. [PubMed]
• K.Brzezinski, T.Stepkowski, S.Panjikar, G.Bujacz, M.Jaskolski (2007),
  High-resolution structure of NodZ fucosyltransferase involved in the biosynthesis of the nodulation factor.
  Acta Biochim. Polon. 54, 537-549. [PDF]
• K.Brzezinski, G.Bujacz, M.Jaskolski (2008),
  Purification, crystallization and preliminary crystallographic studies of plant S-adenosylhomocysteine hydrolase (Lupinus luteus).
  Acta Cryst. F64, 671-673. [PubMed]
• M.Tarnawski, Sz.Krzywda, A.Szczepaniak, M.Jaskolski (2008),
  Rational "correction" of the amino acid sequence of RbcX protein from the thermophilic cyanobacterium Thermosynechococcus elongatus dramatically improves crystallization.
  Acta Cryst. F64, 870-874. [PubMed]
• O.Cakici, M.Sikorski, T.Stepkowski, G.Bujacz, M.Jaskolski (2008),
  Cloning, expression, purification, crystallization and preliminary X-ray analysis of NodS N-methyltransferase from Bradyrhizobium japonicum WM9.
  Acta Cryst. F64, 1149-1152. [PubMed]
• O.Cakici, M.Sikorski, T.Stepkowski, G.Bujacz, M.Jaskolski (2010),
  Crystal structures of NodS N-methyltransferase from Bradyrhizobium japonicum in ligand-free form and as SAH complex.
  J. Mol. Biol., 404, 874-889. [PubMed]
• M.Tarnawski, Sz.Krzywda, W.Bialek, M.Jaskolski, A.Szczepaniak (2011),
  Structure of RuBisCO chaperone RbcX from the thermophilic cyanobacterium Thermosynechococcus elongatus.
  Acta Cryst. F67, 851-857. [PubMed]
• M.Zarzycki, R.Kolodziejczyk, E.Maciaszczyk, R.Wysocki, M.Jaskolski, A.Dzugaj (2011),
  Structure of E69Q mutant of human muscle fructose-1,6-bisphosphatase.
  Acta Cryst. D67, 1028-1034. [PubMed]
• K.Brzezinski, Z.Dauter, M.Jaskolski (2011),
  Crystal structures of NodZ 1,6-fucosyltransferase in complex with GDP and GDP-fucose.
  Acta Cryst. D68, 160-168. [PubMed]
• K.Brzezinski, Z.Dauter, M.Jaskolski (2011),
  High-resolution structures of complexes of plant S-adenosyl-L-homocysteine hydrolase (Lupinus luteus).
  Acta Cryst. D , accepted.

Amidines

• E.Tykarska, M.Jaskolski, Z.Kosturkiewicz:
  Structure of N2-(p-Methoxyphenyl)-N1,N1-penthamethylenebenzamidine.
  Acta Cryst. C42, 740-743 (1986).
• J.Oszczapowicz, E.Tykarska, M.Jaskolski, Z.Kosturkiewicz:
  Structure of N1-Methyl-N1-phenyl-N2-(p-tolyl)benzamidine.
  Acta Cryst. C42, 1816-1818 (1986).
• E.Tykarska, M.Jaskolski, Z.Kosturkiewicz:
  Structure of N2-(m-Chlorophenyl)-N1,N1-pentamethylenebenzamidine.
  Acta Cryst. C42, 208-210 (1986).
• E.Ciszak, M.Gdaniec, M.Jaskolski, Z.Kosturkiewicz:
  Structure of N1,N2-Di(p-tolyl) acetamidine.
  Acta Cryst. C44, 2144-2146 (1988).
• K.Surma, M.Jaskolski, Z.Kosturkiewicz, J.Oszczapowicz:
  Structure of N2-p-Nitrophenylbenzamidine.
  Acta Cryst. C44, 1031-1033 (1988).
• E.Ciszak, M.Gdaniec, M.Jaskolski, Z.Kosturkiewicz, J.Owsianski, E.Tykarska:
  The Structures of Three N1,N1-Dimethyl-N2-p-nitrophenylamidines: Form-, Acet- and 2,2-Dimethylpropionamidine.
  Acta Cryst. C45, 433-438 (1989).
• E.Ciszak, M.Jaskolski, Z.Kosturkiewicz:
  Structure of N1,N1-(3-oxopentamethylene)-N2-phenylacetamidine.
  Acta Cryst. C46, 456-458 (1990).

Liquid crystals

• U.Baumeister, H.Hartung, M.Gdaniec, M.Jaskolski:
  Crystal and Molecular Structure of the Nematogenic Compound 4'-Cyanophenyl-4-n-pentoxybenzoate.
  Mol. Cryst. Liq. Cryst. 69, 119-130, (1981).
• U.Baumeister, H.Hartung, M.Jaskolski:
  The Crystal and Molecular Structure of the Nematogenic Compound 4'-Cyanophenyl-4-n-pentylcyclohexanoate.
  Cryst. Res. and Technol. 17, 153-180, (1982).
• U.Baumeister, H.Hartung, M.Jaskolski:
  The Crystal and Molecular Structure of 4'-Cyano\-phenyl-4-n-Pentylbenzoate.
  Mol. Cryst. Liq. Cryst. 88, 167-181 (1982).
• U.Baumeister, W.Brandt, H.Hartung, M.Jaskolski:
  Zum Konformationsverhalten substituierter Benzoesaeurephenylester - Molekuel- und Kristallstruktur der nematogenen Verbindung 4-n-Pentoxybenzoesaeure-4'-(b-cyanoethyl)-phenylester.
  J. Prakt. Chem. 325, 742-752 (1983).
• I.Rapthel, H.Hartung, M.Jaskolski:
  Structure of the Nematogenic Compound 5,8-Dihydro-6,7-Dimethyl-1,4-naphtalenediyl Bis(4-ethoxybenzoate), C30H30O6.
  Acta Cryst. C39, 748-750 (1983).
• H.Hartung, U.Baumeister, F.Thielmann, M.Jaskolski:
  Structure of the Nematogenic Compound 6-Hexylamino-1,2,4, 5-tetrazin-3-yl 4-Pentyloxybenzoate, C20H29N5O3.
  Acta Cryst. C40, 482-484 (1984).
• I.Rapthel, H.Hartung, R.Richter, M.Jaskolski:
  Zum konfor4mationsverhalten isomerer Phenylpyrimidine - Molekuel- und Kristallstruktur von 5-Chlor-2-(4-n-hexyloxyphenyl)-pyrimidin.
  J. Prakt. Chem. 325, 489-495 (1984).
• U.Baumeister, H.Hartung, M.Jaskolski:
  The Crystal and Molecular Structure of the Nematogenic Compound 5,8-Dihydro-5,8-methano-1,4-naphtalenediyl-bis(4-ethoxybenzoate).
  Cryst. Res. and Technol. 19, 681-690 (1984).
• U.Baumeister, W.Brandt, H.Hartung, W.Wedler, M.Jaskolski, H.J.Deutscher, R.Frach:
  Conformational Behaviour of the Nematogenic Compound 4-Cyanophenyl-trans-4-[(trans-4-n-butylcyclohexyl)-methyl] cyclohexanoate - Crystal Structure and Theoretical Conformational Analysis.
  Mol. Cryst. Liq. Cryst. 130, 321-336 (1985).
• H.Hartung, U.Baumeister, M.Jaskolski:
  Molekul- und Kristallstruktur der mesogenen Verbindung 4-n-Nonyloxybenzoesaure-4'-(2,2-dicyanethenyl)phenylester.
  Z. Chem. 26. Jg., 32-33 (1986).
• H.Hartung, U.Baumeister, M.Jaskolski, A.Madicke, A.Wiegeleben:
  Crystal Structure and Thermal Phase Behaviour of 2,3-Dicyano-4-n-hexyloxyphenyl-trans-4-n-heptylcyclohexanoate.
  Cryst. Res. and Technol. 21, 103-110 (1986).
• G.Winter, H.Hartung, M.Jaskolski:
  Crystal and Molecular Structure of Two Isostructural 2,5-Diphenyl Pyrimidines.
  Mol. Cryst. Liq. Cryst. 149, 17-27 (1987).
• G.Winter, H.Hartung, W.Brandt, M.Jaskolski:
  Crystal Structure and Conformational Behavior of Smectogenic 2-Phenyl-5-(4-n-pentoxyphenyl)Pyrimidine.
  Mol. Cryst. Liq. Cryst. 150b, 289-300 (1987).
• R.Krieg, H.-J.Deutscher, U.Baumeister, H.Hartung, M.Jaskolski:
  Liquid Crystalline 4-(4-Cyanocyclohexyl)cyclohexyl Esters. Crystal and Molecular Structure of Smectogenic trans-4-(cis-4-Cyanocyclohexyl)cyclohexyl trans-4-n-Heptylcyclohexanoate.
  Mol. Cryst. Liq. Cryst. 166, 109-122 (1989).

Complexes

• A.Wojtczak, M.Jaskolski, Z.Kosturkiewicz:
  Bis(5-(2-ammonioethyl)imidazole-N3)tetrakis(isothiocyanato) nickel(II), (Ni(C5H10N3)2(NCS)4).
  Acta Cryst. C39, 545-547 (1983).
• L.Lomozik, A.Wojciechowska, M.Jaskolski:
  Complex Formation Studies of Copper(II) and Zinc(II) with Asparagine and Aspartic Acid in Aqueous Solution.
  Monatsh. Chem. 114, 1185-1188 (1983).
• A.Wojtczak, M.Jaskolski, Z.Kosturkiewicz:
  ab,cf-Bis(4-(2-aminoethyl)imidazole-N3,N8)-de-bis(isothiocyanato)nickel(II).
  Acta Cryst. C41, 1752-1755 (1985).
• A.Wojtczak, M.Jaskolski, Z.Kosturkiewicz:
  Structure of catena-Bis[4-(2-aminoethyl)imidazole-N3,N8]-mi-chloro-copper(II) Chloride Dihydrate.
  Acta Cryst. C43, 645-648 (1987).
• A.Wojtczak, M.Jaskolski:
  Structure of Histaminium Tetraaquadisulfatomanganate(II) Monohydrate.
  Acta Cryst. C45, 30-33 (1989).
• A.Wojtczak, M.Jaskolski, T.Ossowski:
  Structure of [10-(2-Aminophenyl)-5-methyl-1,5,9-triaza-9-decene-N,N',N'',N''']iodocopper(II) Iodide.
  Acta Cryst. C46, 1918-1920 (1990).
• A.Wojtczak, E.Szlyk, M.Jaskolski, E.Larsen:
  An Optically Active Nickel(II) Schiff Base Coordination Compound N,N'-(1R,2R)-(-)-1,2-Cyclohexylenebis(salicylideneiminato)nickel(II).
  Acta Chem. Scand. 51, 274-278 (1997).
• E.Szlyk, A.Wojtczak, M.Jaskolski, M.Gilski, J.G.Haasnoot, J.Reedijk:
  The crystal and molecular structures of dichlorobis(5,7-diphenyl-1,2,4-triazolo[1,5-a]pyrimidine)zinc(II) (1) and dichlorobis(5,7-diphenyl-1,2,4-triazolo[1, 5-a]pyrimidine)cobalt(II) (2).
  Inorg. Chim. Acta 260, 145-150 (1997).
• Sz.Krzywda, G.N.Murshudov, A.M.Brzozowski, M.Jaskolski, E.E.Scott, S.A.Klizas, Q.H.Gibson, J.Olson, A.J.Wilkinson (1998),
  Stabilizing Bound O2 in Myoglobin by Valine68 (E11) to Asparagine Substitution.
  Biochemistry 37, 15896-15907 (1998). [PubMed]

Hydrogen bond

• M.Jaskolski, M.Gdaniec, Z.Kosturkiewicz:
  X-Ray Study on a System with Short O...O Intramolecular Hydrogen Bond. Crystal and Molecular Structure of 1, 2-Di(N-Piperidyl)ethane-bis-N-oxide Monoperchlorate.
  Pol. J. Chem. 56, 297-305 (1982).
• M.Jaskolski, I.Olovsson, R.Tellgren, D.Mickiewicz-Wichlacz:
  A Neutron Diffraction Study of 1,1'-Ethylenebis(piperidine 1-oxide) Monoperchlorate.
  Acta Cryst. B38, 291-294 (1982).
• M.Jaskolski:
  Very Bent D-H...A Hydrogen Bonds: an Angular Criterion.
  Pol. J. Chem. 58, 955-957 (1984).
• I.Olovsson, M.Jaskolski:
  Reaction Coordinate for the Proton Transfer in Some Hydrogen Bonds.
  Pol. J. Chem. 60, 759-766 (1986).
• J.Baran, Z.Dega-Szafran, M.Jask?lski, M.K.Marchewka, H.Ratajczak, M.Szafran:
  X-ray, phase transition, IR and Raman studies of the solid cpmplex of bis(pyridine betaine)-sulphuric acid.
  J.Mol.Struct. 406, 127-135 (1997).
• M.Szafran, M.Jaskolski, I.Kowalczyk, Z.Dega-Szafran:
  Structure, conformation and hydrogen bonding of some pyridiniumpropionate complexes.
  J. Mol. Struct. 448, 77-89 (1998).
• J.Wasicki, M.Jaskolski, Z.Pajak, M.Szafran, Z.Dega-Szafran, M.A.Adams, S.F.Parker:
  Crystal structure and molecular motion in pyridine N-oxide hemiperchlorate.
  J. Mol. Struct. 476, 81-95 (1999).
• Z.Dega-Szafran, M.Jaskolski, M.Szafran:
  OHO hydrogen bond and electrostatic interactions in a complex of pyridine betaine with phenylacetic acid studied by X-ray diffraction, FTIR spectroscopy and PM3, DFT calculations.
  J. Mol. Struct. 555, 191-200 (2000).
• E.Bartoszak-Adamska, G.Wojciechowski, M.Jaskolski, B.Brzezinski:
  Cooperative intramolecular hydrogen bonds in the structure of 5,5'-dibromo-3-diethylaminomethyl-2,2'-biphenol.
  J. Mol. Struct. 525, 253-259 (2000).
• Z.Dega-Szafran, M.Jaskolski, I.Kurzyca, P.Barczynski, M.Szafran (2001),
  Molecular structure, hydrogen bonding, basicity and spectroscopic properties of N,N'-dimethylpiperazine betaines and their hydrohalides.
  J. Mol. Struct. 614, 23-32.
• Z.Dega-Szafran, M.Jaskolski, M.Szafran, E.Dulewicz (2001),
  Bis(N-methylpiperidine betaine) hydrobromide: crystal structure and hydrogen bonding.
  J. Mol. Struct. 615, 33-43.
• Z.Dega-Szafran, M.Szafran, A.Addlagatta, M.Jaskolski (2001),
  Crystal structure and vibrational spectrum of bis(N-methyl-piperidine betaine) hexafluorosilicate.
  J. Mol. Struct. 598, 267-276.
• Z.Dega-Szafran, M.Jaskolski, I.Kurzyca, P.Barczynski, M.Szafran (2002),
  Molecular structure, hydrogen bonding, basicity and spectroscopic properties of N,N'-dimethylpiperazine betaines and their hydrohalides.
  J. Mol. Struct. 614, 23-32.
• Z.Dega-Szafran, M.Szafran, E.Dulewicz, A.Addlagatta, M.Jaskolski (2003),
  Crystal and molecular structure of N-methylpiperidine betaine hydrochloride.
  J. Mol. Struct. 654, 71-80.
• E.Bartoszak-Adamska, Z.Dega-Szafran, M.Przedwojska, M.Jask?lski (2003),
  Crystal and molecular structure of 1:1 complex of N-methylmorpholine betaine with salicylic acid.
  Pol. J. Chem. 77, 1711-1722.
• Z.Dega-Szafran, M.Szafran, E.Dulewicz, A.Addlagatta, M.Jaskolski (2004),
  Crystal and molecular structure of bis(N-methylpiperidine betaine) hydroiodide.
  J. Mol. Struct. 691, 217-225.
• M.Szafran, Z.Dega-Szafran, R.Thaimattam, M.Jaskolski (2004),
  Crystal and molecular structure of N-methylpiperidine betaine hydrofluoride.
  J. Mol. Struct. 706, 49-55.
• Z.Dega-Szafran, M.Szafran, M.Jaskolski, E.Dulewicz (2004),
  Effect of counter ion and stoichiometry on the structure, hydrogen bonding and conformation of N-methylpiperidine betaine hydrohalides.
  Ann. Soc. Chem. Pol. 3, 399-402.
• M.Szafran, B.Nowak-Wydra, M.Jaskolski, E.Bartoszak-Adamska, A.Szwajca, Z.Dega-Szafran (2005),
  Structures of pyrido[1,2a]pyrazinium and pyrido[1,2c][1,4]oxazonium bromides studied by 1H, 13C and 15N NMR, FTIR, X-ray and DFT methods.
  J. Mol. Struct. 743, 7-20.
• M.Szafran, Z.Dega-Szafran, M.Jaskolski, A.Addlagatta, E.Dulewicz (2005),
  The influence of halide anions on the molecular structure of bis(N-methylpiperidine betaine) monocation with short hydrogen bond.
  J. Mol. Struct. 741, 171-181.
• Z.Dega-Szafran, M.Jaskolski, M.Szafran (2006),
  Crystal and molecular structure of 1:1 complex between piperidine-3-carboxylic acid and p-hydroxybenzoic acid studied by X-ray diffraction, FTIR, 1H and 13C N MR spectroscopy, and DFT methods.
  Pol. J. Chem. 81, 931-946.
• Z.Dega-Szafran, E.Dulewicz, M.Szafran, R.Thaimattam, M.Jaskolski (2007),
  Structure, conformation and hydrogen bonding of 4-(N-methylpiperidinium)-butyric acid bromide.
  J. Mol. Struc. 828, 19-24.
• E.Bartoszak-Adamska, Z.Dega-Szafran, M.Krociak, M.Jaskolski, M.Szafran (2009),
  Hydrogen bonds in 1:1 complex of piperidine-3-carboxylic acid with salicylic acid.
  J. Mol. Struct. 920, 68-74.
• E.Bartoszak-Adamska, Z.Dega-Szafran, M.Jaskolski, M.Szafran (2009),
  Structural studies of a very short OHO hydrogen bond in bis(4-(N-methylpiperidinium)-butyrate) hydrobromide.
  J. Phys. Org. Chem. 22, 356-361.
• I.Kowalczyk, E.Bartoszak-Adamska, M.Jaskolski, Z.Dega-Szafran, M.Szafran (2010),
  Structure of 1-H-2-oxo-2,3-dihydroimidazo[1,2-a]pyridinium perchlorate by X-ray diffraction, DFT calculations and by FTIR and NMR spectroscopy.
  J. Mol. Struct. 976, 119-128.
• E.Bartoszak-Adamska, Z.Dega-Szafran, M.Jaskolski, M.Szafran (2011),
  Diastereomeric complex of (R/S)-piperidine-3-carboxylic acid with (2R,3R)-tartaric acid: Structural, spectroscopic and computational studies.
  J. Mol. Struct. 999, 98-105.

Proton sponges

• E.Bartoszak, M.Jaskolski, T.Gustaffson, .Olovsson, E.Grech:
  Structure of Thiocyanate Salt of 1, 8-bis(Dimethylamino)naphthalene (DMAN+SCN-) at 188 and 290 K.
  Acta Cryst. B50, 358-363 (1994).
• E.Bartoszak, Z.Dega-Szafran, M.Grundwald-Wyspianska, M.Jaskolski, M.Szafran:
  X-Ray, FT-IR, 1H and 13C NMR, and PM3 Studies of (N-H.N)+ and (O-H.O)- Intramolecular Hydrogen Bonds in a Complex of 1,8-Bis(dimethylamino)naphthalene with Maleic Acid.
  J. Chem. Soc. Faraday Trans. 2085-2094 (1993).
• E.Bartoszak, Z.Dega-Szafran, M.Jaskolski, M.Szafran:
  X-Ray, FT-IR, 1H and 13C NMR, PM3 and AM1 Studies of (N-H.N)+ and (O-H.O)- Hydrogen Bonds in a Complex of 1,8-Diaminonaphthalene with Maleic Acid: Proton Cavity and Basicity of Proton Sponges.
  J. Chem. Soc. Faraday Trans. 91, 87-92 (1995).
• E.Bartoszak-Adamska, E.Grech, M.Jaskolski:
  X-ray, IR and 1H NMR Studies of 1:1 Adduct of 1,8-Bis(dimethylamino)naphthalene (DMAN) and 1,1-Cyclobutanedicarboxylic Acid (CBDC).
  Pol. J. Chem. 72, 347-354 (1998).
• E.Bartoszak-Adamska, M.Jaskolski, B.Brzezinski:
  Crystal chemistry of protonated 1,2-bis(di-R-aminomethyl)benzenes. Part I: 1,2-bis(dimethylaminomethyl)benzene perchlorate.
  J. Mol. Struct. 446, 229-234 (1998).
• E.Bartoszak-Adamska, M.Jaskolski, B.Brzezinski:
  Crystal chemistry of protonated 1,2-bis(di-R-aminomethyl)benzenes. Part II: 1,2-bis(dimethylaminomethyl)benzene nitrate.
  J. Mol. Struct. 448, 57-62 (1998).
• E.Bartoszak-Adamska, M.Jaskolski, B.Brzezinski:
  Crystal chemistry of protonated 1,2-bis(di-R-aminomethyl)benzenes. Part III: 1,2-bis(diethylaminomethyl)benzene perchlorate.
  J. Mol. Struct. 475, 167-173 (1999).
• E.Bartoszak-Adamska, M.Jaskolski, H.Urjasz, B.Brzezinski (2005),
  Crystal chemistry of protonated 1,2-bis(di-R-aminomethyl)benzenes. Part VII: 1,2-bis(dipropylaminomethyl)benzene perchlorate.
  J. Mol. Struct. 738, 271-274.

Crystal engineering

• M.Gilski, M.Jaskolski:
  Molecular Recognition Motifs in Cytidinium and 2'-Deoxycytidinium Salts with Composite Anions.
  Acta Biochim. Polon. 45, 917-928 (1998). [PubMed]
• A.Anthony, M.Jaskolski, A.Nangia, G.R.Desiraju:
  Isostructurality in crystalline oxa-androgenes. A case of C-O-H...O and C-H...O interaction mimicry and solid solution formation.
  Chem. Commun. 1998, 2537-2538 (1998).
• A.Anthony, A.Nangia, M.Jaskolski:
  Crystal chemistry of some synthetic 2-oxa-steroids: conformation, packing motifs and isostructurality.
  Acta Cryst. B56, 512-525 (2000). [PubMed]
• P.Vishweshwar, R.Thaimattam, M.Jaskolski, G.R.Desiraju (2002),
  Supramolecular synthons based on N-H...N and C-H...O hydrogen bonds. Crystal engineering of a helical structure with 5,5-diethylbarbituric acid.
  Chem. Commun. 2002, 1830-1831. [PubMed]
• S.Aitipamula, P.K.Thallapally, R.Thaimattam, M.Jaskolski, G.R.Desiraju (2002),
  Topological Equivalences between Organic and Coordination Polymer Crystal Structures: An Organic Ladder formed with three-connected Molecular and Supramolecular Synthons.
  Org. Lett. 4, 921-924. [PubMed]
• S.Aitipamula, G.R.Desiraju, M.Jaskolski, A.Nangia, R.Thaimattam (2003),
  Multiple molecules in the crystallographic asymmetric unit. An alternative mode of close packing of networks of rigid hydrogen bonded molecules.
  Cryst. Eng. Commun. 5, 447-450.
• S.Aitipamula, A.Nangia, M.Jaskolski, R.Thaimattam (2003),
  Hydrogen bond networks in tris(4-hydroxyphenyl)methane and its 1:1 molecular complex with 4,4'-bipyridine.
  Acta Cryst. C59, o481-o484. [PubMed]
• B.K.Saha, A.Nangia, M.Jaskolski (2005),
  Crystal engineering with hydrogen bonds and halogen bonds.
  Cryst. Eng. Commun. 7, 355-358.
• R.Thaimattam, M.Szafran, Z.Dega-Szafran, M.Jaskolski (2008),
  Conformational richness and multiple Z' in salt co-crystal of N-methylpiperidine betaine with N-methylpiperidine betaine haxafluorosilicate.
  Acta Cryst. B64, 483-490. [PubMed]

Methodology

• M.Jaskolski:
  A Comparison of Two Methods for the Calculation of Pseudorotation Parameters.
  Acta Cryst. A40, 364-366 (1984).
• M.Jaskolski, L.Lomozik:
  A Note on the Application of Significance Tests Based on the R-factor Ratio to the Selection of Species in Complex-formation Equilibria.
  Talanta 32, 511-512 (1985).
• M.Jaskolski:
  Is the Deformation Energy of a Molecular Fragment in Crystals Distributed According to a Boltzmann-like Law?
  Pol. J. Chem. 60, 263-267 (1986).
• L.Lomozik, M.Jaskolski, A.Wojciechowska:
  A Multistage Verification Procedure for the Selection of Models in the Studies of Complex Formation Equilibria.
  Pol. J. Chem. 65, 1797-1807 (1991).
• M.Jaskolski:
  A Note on the Structure Determinations of Putrescinium Monohydrogenphosphate Dihydrate.
  J. Solid State Chem. 487-489 (1992).
• Z.Dauter, M.Jaskolski:
  2'-Deoxycytidine Hemidihydrogenphosphate: Comparison of Crystal Structure Refinements Based on Diffractometer and Image Plate Data.
  Pol. J. Chem. 70, 1018-1029 (1996).
• M.Jaskolski, A.Wlodawer:
  A Minimalist's Approach to the Phase Problem - Phasing Selenomethionyl Protein Structures Using CuKa Data.
  Acta. Cryst. D52, 1075-1081 (1996).
• M.Cyranski, M.Gilski, M.Jaskolski, T.M.Krygowski (2003),
  On the Aromatic Character of the Heterocyclic Bases of DNA and RNA.
  J. Org Chem. 68, 8607-8613. [PubMed]
• M.Jaskolski, M.Li, G.Laco, A.Gustchina, A.Wlodawer (2006),
  Molecular replacement with pseudosymmetry and model dissimilarity: a case study.
  Acta Cryst. D62, 208-215. [PubMed]
• M.Jaskolski, M.Gilski, Z.Dauter, A.Wlodawer (2007),
  Stereochemical restraints revisited: how accurate are refinement targets and how much should protein structures be allowed to deviate from them?
  Acta Cryst. D63, 611-620. [PubMed]
• M.Jaskolski, M.Gilski, Z.Dauter, A.Wlodawer (2007),
  Numerology versus reality: a voice in a recent dispute.
  Acta Cryst. D63, 1282-1283. [PubMed]
• O.Pasternak, A.Bujacz, J.Biesiadka, G. Bujacz, M.Sikorski, M.Jaskolski (2008),
  MAD phasing using the (Ta6Br12)2+ cluster: a retrospective study.
  Acta Cryst. D6464, 595-606. [PubMed]
• Z.Dauter, M.Jaskolski, A.Wlodawer (2010),
  Impact od synchrotron radiation on macromolecular crystallography: A personal view.
  J. Synchrotron Rad. 17, 433-444. [PubMed]

Education

• M.Jaskolski:
  Least-Squares Calculation of Pseudorotation Parameters in a Five-Membered Ring.
  J. Chem. Educ. 980-981 (1983).
• L.Lomozik, M.Jaskolski, A.Gasowska:
  Comparative Analysis of the Performance of the Computer Programs SCOGS, MINIQUAD, and SUPERQUAD in Studies of Complex-Formation Equilibria.
  J. Chem. Educ. 72, 27-30 (1995).
• M.Jaskolski:
  Integrating biocrystallography into traditional biology and chemistry curricula.
  J. Appl. Cryst. 34, 371-374 (2001).
• A.Wlodawer, W. Minor, Z.Dauter, M.Jaskolski (2008),
  Protein crystallography for non-crystallographers, or how to get the best (but not more) from published macromolecular structures.
  FEBS J. 275, 1-21. [PubMed]
• M.Jaskolski (2009),
  From atomic resolution to molecular giants: an overview of crystallographic studies of biological macromolecules with synchrotron radiation.
  Acta Phys. Polon. A, 117, 257-263.
• Z.Dauter, M.Jaskolski (2010),
  How to read (and understand) Volume A of International Tables for Crystallography: an introduction for nonspecialists.
  J. Appl. Cryst., 43, 1150-1171.
• M.Jaskolski (2010),
  Krystalografia dla biologow. Wydawnictwo Naukowe UAM Poznan.
• Z.Dauter, M.Jaskolski (2011),
  Zastosowanie promieniowania synchrotronowego w krystalografii bialek. In: Promieniowanie synchrotronowe w spektroskopii i badaniach strukturalnych. Wybrane zagadnienia (B.J.Kowalski, W.Paszkowicz, E.A.Gorlich, eds.), pp. 305-328. PTPS Krakow.

Curious

• W.R.Dolbier, M.Gdaniec, E.Gomulka, M.Jaskolski, H.Koroniak:
  The Effect of Fluorine Substituents on the Structure of Cyclopropane. The Structure of 4,4,8,8-Tetrafluorotricyclo[5.1.0.0(3,5)]octane.
  Tetrahedron 40, 3945-3948 (1984).
• W.R.Dolbier, M.Gdaniec, M.Jaskolski, H.Koroniak:
  The Structure of syn-4,4,8,8-Tetrafluorotricyclo[5.1.0.0(3,5)]octane.
  J. Mol. Struct. 147, 155-160 (1986).
• Sz.Krzywda, M.Jaskolski, M.Gdaniec, Z.Dega-Szafran, M.Grundwald-Wyspianska, M.Szafran, Z.Dauter, G.Davies:
  Structure and FTIR spectra of 3:2 complexes of trimethylamine N-Oxide and 4-dimethylamine-2,6-dimethylpyridine N-oxide with perchloric acid.
  J. Mol. Struct. 375, 197-206 (1996).
• G.M.Zatorska, G.S.Dmytriv, V.V.Pavlyuk, E.Bartoszak-Adamska, M.Jaskolski (2002),
  Crystal structure of the new intermetallic compound Zr2-xLix+ySi1-y (x=0.17, y=0.12) and its relation with the disilicide ZrSi2.
  J. Alloys Comp. 346, 154-157.
• T.Stepkowski, K.Brzezinski, A.B.Legocki, M.Jaskolski, G.Bena (2005),
  Bayesian phylogenetic analysis reveals two-domain topology of S-adenosylhomocysteine hydrolase protein sequences.
  Mol. Phylogenet. Evol.34, 15-28. [PubMed]
• A.Wlodawer, J.Lubkowski, W.Minor, M.Jaskolski (2010),
  Is too "creative" language acceptable in crystallography?
  Acta Cryst. D66, 1041-1042. [PubMed]
• M.Jaskolski (2010),
  Personal remarks on the future of protein crystallography and structural biology.
  Acta Biochim. Polon. 57, 261-264. [PubMed]

Last update: December 22, 2011