Tandem zinc-finger gene families in mammals: Insights and unanswered questions

Mark Shannon, Oak Ridge National Laboratory
Joomyeong Kim, Oak Ridge National Laboratory
Linda Ashworth, Lawrence Livermore National Laboratory
Elbert Branscomb, Lawrence Livermore National Laboratory
Lisa Stubbs, Oak Ridge National Laboratory

Abstract

Evidence for the remarkable conservation of mammalian genomes, in both content and organization of resident genes, is rapidly emerging from comparative mapping studies. The frequent occurrence of familial gene clustering, presumably reflecting a history of tandem in situ duplications starting from a single ancestral gene, is also apparent from these analyses. Genes encoding Kruppel-type zinc-finger (ZNF) proteins, including those containing Kruppel-associated box (KRAB) motifs, are particularly prone to such clustered organization. Existing data suggest that genes in KRABZNF gene clusters have diverged in sequence and expression patterns, possibly yielding families of proteins with distinct, yet related, functions. Comparative mapping studies indicate that at least some of the genes within these clusters in mammals were elaborated prior to the divergence of mammalian orders and, subsequently, have been conserved. These data suggest a possible role for these tandem KRAB-ZNF gene families in mammalian evolution. © 1998 Informa UK Ltd All rights reserved.