Barrier-to-autointegration factor plays crucial roles in cell cycle progression and nuclear organization in Drosophila

doi:10.1242/jcs.00682

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JCS ePress online publication date 5 Aug 2003
doi: 10.1242/jcs.00682

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Research Article

Barrier-to-autointegration factor plays crucial roles in cell cycle progression and nuclear organization in Drosophila

Kazuhiro Furukawa^*, Shin Sugiyama, Shinichi Osouda, Hidemasa Goto, Masaki Inagaki, Tsuneyoshi Horigome, Saburo Omata, Maeve McConnell, Paul A. Fisher, and Yasuyoshi Nishida
^* Author for correspondence (e-mail: furukawa{at}chem.sc.niigata-u.ac.jp)

Barrier-to-autointegration factor (BAF) is potentially a DNA-bridgingprotein, which directly associates with inner nuclear membraneproteins carrying LEM domains. These features point to a keyrole in regulation of nuclear function and organization, dependenton interactions between the nuclear envelope and chromatin.To understand the functions of BAF in vivo, Drosophila baf nullmutants generated by P-element-mediated imprecise excision wereanalyzed. Homozygous null mutants showed a typical mitotic mutantphenotype: lethality at the larval-pupal transition with smallbrains and missing imaginal discs. Mitotic figures were decreasedbut a defined anaphase defect as reported for C. elegans RNAiexperiments was not observed in these small brains, suggestinga different phase or phases of cell cycle arrest. Specific abnormalitiesin interphase nuclear structure were frequently found upon electronmicroscopic examination of baf null mutants, with partial clumpingof chromatin and convolution of nuclear shape. At the lightmicroscopic level, grossly aberrant nuclear lamina structureand B-type lamin distribution correlated well with the lossof detectable amounts of BAF protein from nuclei. Together,these data represent evidence of BAF's anticipated functionin mediating interactions between the nuclear envelope and interphasechromosomes. We thus conclude that BAF plays essential rolesin nuclear organization and that these BAF functions are requiredin both M phase and interphase of the cell cycle.

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