The transcriptional regulatorCPRF1: expression analysis and gene structure M. FeldbrüggeK. HahlbrockB. Weisshaar Original Paper Pages: 619 - 627
Interactions among the bHLH domains of the proteins encoded by theEnhancer of split andachaete-scute gene complexes ofDrosophila F. GiglianiF. LongoP. A. Battaglia Original Paper Pages: 628 - 634
Novel alleles ofcdc13 andcdc2 isolated as suppressors of mitotic catastrophe inSchizosaccharomyces pombe L. D. BerryK. L. Gould Original Paper Pages: 635 - 646
NUT1, a major nitrogen regulatory gene inMagnaporthe grisea, is dispensable for pathogenicity E. H. FroeligerB. E. CarpenterE. Froeliger Original Paper Pages: 647 - 656
Preferential replication-dependent mutagenesis in the lagging DNA strand inEscherichia coli T. IwakiK. KohnoH. Doi Original Paper Pages: 657 - 664
MAGGY, a retrotransposon in the genome of the rice blast fungusMagnaporthe grisea M. L. FarmanY. TosaS. A. Leong Original Paper Pages: 665 - 674
TheMagnaporthe grisea DNA fingerprinting probe MGR586 contains the 3′ end of an inverted repeat transposon M. L. FarmanS. TauraS. A. Leong Original Paper Pages: 675 - 681
Protein-protein interactions in the yeastPKC1 pathway: Pkc1p interacts with a component of the MAP kinase cascade G. ParaviciniL. Friedli Original Paper Pages: 682 - 691
An ABC transporter is essential for resistance to the antitumor agent mithramycin in the producerStreptomyces argillaceus E. FernándezF. LombóJ. A. Salas Original Paper Pages: 692 - 698
Localization ofnusA-suppressing amino acid substitutions in the conserved regions of theβ′ subunit ofEscherichia coli RNA polymerase K. ItoY. Nakamura Original Paper Pages: 699 - 706
Molecular cloning and analysis of the dominant flocculation geneFLO8 fromSaccharomyces cerevisiae O. KobayashiH. SudaH. Sone Original Paper Pages: 707 - 715
Replication properties ofARS1 plasmids inSaccharomyces cerevisiae: dependence on the carbon source F. KirpekarK. Gulløv Short Communication Pages: 716 - 719
Genome mapping ofClostridium perfringens strains with I-CeuI shows many virulence genes to be plasmid-borne S. KatayamaB. DupuyB. China Short Communication Pages: 720 - 726