Publications


  1. A functional study of genes essential for autogamy and nuclear reorganization in Paramecium. Nowak JK, Gromadka R, Juszczuk M, Jerka-Dziadosz M, Maliszewska K, Mucchielli MH, Gout JF, Arnaiz O, Agier N, Tang T, Aggerbeck LP, Cohen J, Delacroix H, Sperling L, Herbert CJ, Zagulski M, Bétermier M. Eukaryot Cell. 2011 Jan 21. [Epub ahead of print]

  2. Sequencing the Potato Genome: Outline and First Results to Come from the Elucidation of the Sequence of the World's Third Most Important Food Crop. Richard G. F. Visser, Christian W. B. Bachem, Jan M. de Boer, Glenn J. Bryan, Swarup K. Chakrabati, Sergio Feingold, Robert Gromadka, Roeland C. H. J. van Ham, Sanwen Huang, Jeanne M. E. Jacobs, Boris Kuznetsov, Paulo E. de Melo, Dan Milbourne, Gisella Orjeda, Boris Sagredo and Xiaomin Tang Am. J. Pot Res 2009 Nov.;86(6):417-429.

  3. High coding density on the largest Paramecium tetraurelia somatic chromosome. Zagulski M, Nowak JK, Le Mouel A, Nowacki M, Migdalski A, Gromadka R, Noel B, Blanc I, Dessen P, Wincker P, Keller AM, Cohen J, Meyer E, Sperling L. Curr Biol. 2004 Aug 10;14(15):1397-404.

  4. Functional and physical interactions of Faf1p, a Saccharomyces cerevisiae nucleolar protein. Karkusiewicz I, Rempola B, Gromadka R, Grynberg M, Rytka J. Biochem Biophys Res Commun. 2004 Jun 25;319(2):349-57.

  5. Functional and physical interactions of Krr1p, a Saccharomyces cerevisiae nucleolar protein. Gromadka R, Karkusiewicz I, Rempola B, Rytka J. Acta Biochim Pol. 2004;51(1):173-87.

  6. Random sequencing of Paramecium somatic DNA. Sperling L, Dessen P, Zagulski M, Pearlman RE, Migdalski A, Gromadka R, Froissard M, Keller AM, Cohen J. Eukaryot Cell. 2002 Jun;1(3):341-52

  7. Two different species of Euglena, E. geniculata and E. myxocylindracea (euglenophyceae), are virtually genetically and morphologically identical. Zakrys B, Milanowski R, Empel J, Borsuk P, Gromadka R and Kwiatkowski J. J. Phycol. December 2002, Volume 38 Issue 6 Page 1190-1199

  8. Paramecium genome survey: a pilot project. Dessen P, Zagulski M, Gromadka R, Plattner H, Kissmehl R, Meyer E, Betermier M, Schultz JE, Linder JU, Pearlman RE, Kung C, Forney J, Satir BH, Van Houten JL, Keller A, Froissard M, Sperling L, Cohen J. Trends Genet. 2001 Jun;17(6):306-8.

  9. The KRR1 gene encodes a protein required for 18S rRNA synthesis and 40S ribosomal subunit assembly in Saccharomyces cerevisiae.Robert Gromadka and Joanna Rytka Acta Biochimica Polonica 47(4), 993-1005 (2000)

  10. Ribosome biogenesis and nucleolar function in yeast Saccharomyces cerevisiae. R.Gromadka and J.Rytka. - Cellular & Molecular Biology Letters 5: 191-216(2000)

  11. Disruption of six novel yeast genes located on chromosome II reveals one gene essential for vegetative growth and two required for sporulation and conferring hypersensitivity to various chemicals. R.Kucharczyk, R.Gromadka, A.Migdalski, PP.Slonimski, J.Rytka. Yeast 15: 987-1000(1999)

  12. Large-Scale Phenotypic Analysis--the Pilot Project on Yeast Chromosome III. -K.-J.Rieger, A.Kaniak, J.-Y.Coppee, G.Aljinovic, A.Baudin-Baillieu, G.Orlowska, R.Gromadka, O.Groudinsky, J.-P.diRago and P.Slonimski-Yeast 13: 1547-1562(1997)

  13. A novel cross phylum of proteins comprises a KRR1 (Ycl059c) gene which is essential for viability of Saccharomyces cerevisiae. -R.Gromadka, A.Kaniak, P.P.Slonimski, J.Rytka- Gene 171: 27-32 (1996)

  14. Subtelomeric duplication in Saccharomyces cerevisiae chromosomes III and XI: topology, arrangements, corrections of sequence and strain-specific polymorphism. -R.Gromadka, M.Góra, U.Zielenkiewicz, P.P.Slonimski, J.Rytka- Yeast 12: 583-91 (1996)

  15. The sequence of 24.3 kb from chromosome X reveals five complete open reading frames, all of which correspond to new genes, and a tandem insertion of a Ty1 transposon. -M.Zagulski, B.Babinska, R.Gromadka, A.Migdalski, J.Rytka, J.Sulicka, C.J.Herbert- Yeast 11: 1179-86 (1995)

  16. A new essential gene located on Saccharomyces cerevisiae chromosome IX. -A.Kurlandzka, J.Rytka, R.Gromadka, M.Murawski- Yeast 11: 885-90 (1995)