The histone H1(0) contains multiple sequence elements for nuclear targeting.

We have investigated the nuclear transport of the replacement histone H1(0) and have searched for its nuclear localization sequence (NLS). The lysine-rich H1(0) histone differs from the other H1 histones with respect to its mode of expression and to the processing of the respective mRNA. Using the digitonin-permeabilized cell import assay we demonstrate that H1(0) is transported into the nucleus in an energy- and temperature-dependent manner. In competition experiments we show that the transport of H1(0) from the cytoplasm into the nucleus is competed by the SV40 T-antigen-NLS-peptide coupled to HSA, an established substrate of the importin pathway. In transfection studies we have expressed in HeLa cells a series of plasmid constructs containing different fragments of the coding region of the H1(0) histone gene that were fused to the beta-galactosidase gene, and we have determined the subcellular localization of each fusion protein. The results show that H1(0) contains multiple transport-competent sequence elements that can function as NLS and that H1(0) meets the requirements for a transport into the nucleus by an importin-dependent pathway.