Nucleoside diphosphate kinases in mammalian signal transduction systems: recent development and perspective.

The role of nucleoside diphosphate (NDP) kinase with special reference to mammalian signal transduction systems was described. The interaction between NDP kinases and G proteins was reevaluated in view of their protein structural information and its significance was extended further on the basis of recent findings obtained with small molecular weight G proteins such as Rad, menin, and Rac. Meanwhile, observations suggesting involvement of NDP kinases in the regulation of cell growth and differentiation led to the realization that NDP kinases may play a crucial role in receptor tyrosine kinase signal transduction systems.

Molecular evolution of nucleoside diphosphate kinase genes: conserved core structures and multiple-layered regulatory regions.

Genomic data regarding the nucleoside diphosphate (NDP) kinase genes have been accumulated from diverged phyla. Comparison of their regulatory sequences have shed light on the multiple facets of gene regulation systems. Phylogenetic studies, including CpG island and intron-mapping, and homologous sequence comparison, have suggested that the regions of the major mammalian genes, the ortholog (rat alpha or nm23-H2) and its paralog (rat beta or nm23-H1), have been constructed by a stepwise gain and loss of alien genes resulting in "multiple-layered" regulatory systems.