Main Content
Publications before 1995
1) Lill, R., Robertson, J.M., & Wintermeyer, W. (1984). tRNA Binding Sites of Ribosomes from Escherichia coli. Biochemistry 23, 6710-6717.
2) Robertson, J.M., Lill, R., & Wintermeyer, W. (1984). Elongation Factor G-induced Release of tRNA during Ribosomal Translocation. In "Metabolism and Enzymology of Nucleic Acids including Gene Manipulations 5" (Zelinka, J. & Balan, J., Hrg.), S. 307-319, Institute of Molecular Biology, Slovak Academy of Sciences, Bratislava.
3) Wintermeyer, W., Lill, R., Paulsen, H., & Robertson, J.M. (1985). tRNA Binding to and Topographical Arrangement on E. coli Ribosomes. In "Mechanisms of Protein Synthesis" (Bermek, E., Hrg.) S. 76-89, Springer, Berlin Heidelberg.
4) Lill, R. (1986). Charakterisierung der tRNA-Bindungsstellen von Ribosomen aus Escherichia coli. Dissertation, Universität München.
5) Wintermeyer, W., Lill, R., Paulsen, H., & Robertson, J.M. (1986). Mechanism of Ribosomal Translocation. In "Structure, Function, and Genetics of Ribosomes" (Hardesty, B. & Krämer, G., Hrg.) S. 523-540, Springer, New York.
6) Lill, R., Robertson, J.M., & Wintermeyer, W. (1986). Affinities of the tRNA Binding Sites of Ribosomes from Escherichia coli. Biochemistry 25, 3245-3255.
7) Lill, R. & Wintermeyer, W. (1987). Destabilization of Codon-Anticodon-Interaction in the Ribosomal Exit Site. J. Mol. Biol. 196, 137-148.
8) Lill, R., & Wintermeyer, W. (1988). Quantitative Indicator Assay of tRNA Binding to the Ribosomal P and A Sites. Methods Enzymol. 164, 597-611.
9) Lill, R., Lepier, A., Schwaegele, F., Sprinzl, M., Vogt, H., & Wintermeyer, W. (1988). Specific Recognition of the 3'-Terminal Adenosine of tRNAPhe in the Exit Site of Escherichia coli Ribosomes. J. Mol. Biol. 203, 699-705.
10) Lill, R., Robertson, J.M., & Wintermeyer, W. (1989). Binding of the 3'-terminus of tRNA to 23S rRNA in the ribosomal exit site actively promotes translocation.
EMBO J. 8, 3933-3938.
11) Wintermeyer, W., Lill, R., & Robertson, J.M. (1990). Role of the tRNA Exit Site in Ribosomal Translocation. In "The Ribosome: Structure, Function, and Evolution" (Hill, W.L., Dahlberg, A., Garrett, R.A., Moore, P.B., Schlessinger, D., & Warner, J.R., Hrg.), S. 348-357, Am. Soc. Microbiol., Washington, D.C.
12) Crooke, E., Guthrie, B., Lecker, S., Lill, R., & Wickner, W. (1988). ProOmpA is Stabilized for Membrane Translocation by Either Purified E. coli Trigger Factor or Canine Signal Recognition Particle. Cell 54, 1003-1011.
13) Lill, R., Crooke, E., Guthrie, B., & Wickner, W. (1988). The "Trigger Factor Cycle" includes Ribosomes, Presecretory Proteins, and the Plasma Membrane.
Cell 54, 1013-1018.
14) Cunningham, K., Lill, R., Crooke, E., Rice, M., Moore, K., Wickner, W., & Oliver, D. (1989). SecA protein, a peripheral protein of the Escherichia coli plasma membrane, is essential for the functional binding and translocation of proOmpA. EMBO J. 8, 955-959.
15) Lill, R., Cunningham, K., Brundage, L.A., Ito, K., Oliver, D., & Wickner, W. (1989). SecA protein hydrolyzes ATP and is an essential component of the protein translocation ATPase of Escherichia coli. EMBO J. 8, 961-966.
16) Lecker, S., Lill, R., Ziegelhoffer, T., Georgopoulos, C., Bassford, P.J.Jr., Kumamoto, C.A., & Wickner, W. (1989). Three pure chaperone proteins of Escherichia coli - SecB, trigger factor, and GroEL - form soluble complexes with precursor proteins in vitro. EMBO J. 8, 2703-2709.
17) Lill, R., Dowhan, W., & Wickner, W. (1990). The ATPase activity of SecA is regulated by acidic phospholipids, SecY, and the leader and mature domains of precursor proteins. Cell 60, 271-280.
18) Lill, R., Stuart, R.A., Drygas, M.E., Nargang, F.E, & Neupert, W. (1992). Import of cytochrome c heme lyase into mitochondria: A novel pathway into the intermembrane space. EMBO J. 11, 449-456.
19) Lill, R., Hergersberg, C., Schneider, H., Söllner, T., Stuart, R., & Neupert, W. (1992). General and exceptional pathways of protein import into submitochondrial compartments. In "Membrane biogenesis and protein targeting" (Neupert, W. & Lill, R., Hrg.), S. 265-276, Elsevier Science Publishers, Amsterdam.
20) Neupert, W. & Lill, R. (1992). Membrane biogenesis and protein targeting. In "New Comprehensive Biochemistry, Vol. 22, Neuberger, A. & Van Deenen, L.L.M. (Hrg.). Elsevier Science Publishers, Amsterdam.
21) Segui-Real, B., Kispal, G., Lill, R., & Neupert, W. (1993). Functional independence of the protein translocation machineries in mitochondrial outer and inner membranes: Passage of preproteins through the intermembrane space. EMBO J. 12, 2211-2218.
22) Stuart, R.A., Lill, R., & Neupert, W. (1993). Sorting out mitochondrial proteins.
Trends Cell Biol. 3, 135-137.
23) Mayer, A., Lill, R., & Neupert, W. (1993). Translocation and insertion of precursor proteins into isolated outer membranes of mitochondria. J. Cell Biol. 121, 1233-1243.
24) Harkness, T.A.A., Metzenberg, R.L., Schneider, H., Lill, R., Neupert, W., & Nargang, F.E. (1994). Inactivation of the Neurospora crassa gene encoding the mitochondrial protein import receptor MOM19 by the technique of "sheltered RIP".
Genetics 136, 107-118.
25) Harkness, T.A.A, Nargang, F.E., Van der Klei, I., Neupert, W., & Lill, R. (1994).
A crucial role of the mitochondrial protein import receptor MOM19 for the biogenesis of mitochondria. J. Cell Biol. 124, 637-648.
26) Mayer, A., Driessen, A., Neupert, W., & Lill, R. (1994). Inclusion of proteins into isolated mitochondrial outer membrane vesicles. In: Cell Biology: A laboratory handbook (Celis, J.E., Hrg.), S. 545-549, Academic Press, New York.
27) Neupert, W. & Lill, R. (1994). Protein synthesis: Cradle at the ribosome (News and Views). Nature 370, 421-422.
28) Dahlseid, J.N., Lill, R., Green, J.M., Xu, X., Qiu, Y., & Pierce, S.K. (1994). PBP74, a new member of the mammalian 70-kDa heat shock protein family, is a mitochondrial protein. Mol. Biol. Cell 5, 1265-1275.