DNA methylation and the regulation of gene expression.

An inverse relationship between a eukaryotic gene's level of methylation and its level of expression has long been recognized, and generally believed to result from reduced binding of postulated activator proteins to methylated target DNAs. There are, however, some genes where there is no apparent correlation between levels of methylation and gene expression, and even a small class where gene activation is correlated with increased methylation of the DNA. I propose a unifying hypothesis to explain these apparently divergent cases: methylation acts to reduce or abolish binding of regulatory proteins to their DNA target sites. In the majority of genes, methylation acts to block binding of activating factors; "indifferent" genes lack such methylation sites, while the minority class, which is more active when methylated, contains methylation sites which block binding of repressor proteins.

What do ras oncogenes do?

The ras oncogenes play a crucial role in the regulation of cellular proliferation, probably by coupling growth factor receptors to the PI second messenger pathway. Additional experiments are needed to verify and detail this mechanism, and to examine the question of differing roles for the three ras variants.

A processed chicken pseudogene (CPS1) related to the ras oncogene superfamily.

We describe the first polyA-containing processed pseudogene reported in the chicken. It includes a 0.52 kb open reading frame which could encode a 175 amino acid protein. The putative protein shows extensive homology to the ras oncogene superfamily, being most closely related to the yeast protein YP2. It is one of the two most divergent members of the ras superfamily yet described and is the most homologous of any ras-related protein to the G-protein alpha-transducin. The chicken genome contains at least one other gene highly homologous to CPS1; at least one member of the CPS1 family is active, but only early in chicken development. This pattern of expression, and the presence of mutations in regions known to activate human c-ras genes to oncogenicity, suggest that CPS1 may represent a new oncogene family.

The sequence of a mouse embryonic beta-globin gene. Evolution of the gene and its signal region.

We have determined the nucleotide sequence of an embryonic beta-globin gene of the Balb/c mouse. It possesses structural features typical of known expressed beta-globins, including 5'-untranslated region, potential capping site, initiation and terminator codons, poly(A) addition signal, splicing signals, and intervening sequences. There is a striking 15-base homology between the putative RNA polymerase binding site of this gene and the corresponding region of a human embryonic beta-gene which may be important in the control of expression during embryonic development. The sequence of the gene predicts the sequence of the entire y2 protein, which has not previously been available. As expected from evolutionary considerations, it is more homologous to human embryonic beta-globin than to mouse adult beta-globin.

The organization and evolution of cloned globin genes.

The globin genes represent a complex set of sequences that are expressed in a coordinate fashion during the development of red blood cells. while this complex family of genes may consist of as many as ten to fourteen members [34], three of these genes have now been cloned and their entire nucleotide sequence determined. As was initially observed in the case of beta globin major gene, all are encoded in three distinct coding blocks separated by two intervening sequences of DNA. Their intervening sequences of DNA are preserved, with respect to location, but are widely divergent, with respect to size and sequence. The divided information in each gene is edited and spliced together at the level of its initial RNA transcript which is complementary to the entire gene sequence including its intervening sequences. Structural correlation analyses have allowed us to identify sites in all three genes that might be responsible for the initiation of transcription, RNA splicing, and poly A addition. The function of these sites has been tested by cloning these genes in an animal virus vector SV40. Such animal virus hybrids have been used to infect tissue culture cells and have directed the synthesis of both alpha and beta mouse globin in cells of monkey origin. These studies indicate that such signals operate across species barriers and further indicate that the animal virus vector system will be useful in elucidating their function.

The evolution and sequence comparison of two recently diverged mouse chromosomal beta--globin genes.

We have determined the entire nucleotide sequence of a cloned mouse beta--globinminor gene and compared it to the closely related sequence of the betamajor gene. These two genes differ by nine amino acids and presumably evolved from a common ancestral gene as recently as 50 million years ago. Since these genes are closely linked and coordinately expressed, they provide an especially favorable opportunity to assess selection and mutation as these processes affect genes under similar constraints. We find that evolution has preserved these two genes in two short segments of DNA which include their immediately adjacent flanking regions. These regions presumably encode functions that are necessary for proper globin gene expression. In contrast, the more distal flanking sequences and major segments of the long intervening sequences have diverged much more sharply. The homology pattern in these genes also provides considerable insight into the mechanisms by which less constrained nucleotide sequences diverge rapidly. Change in such regions apparently occurs less by point mutation than by insertion, deletion and duplication of relatively short segments of the genome.

Is there specific transcription from isolated chromatin?

Hg-UMP-containing transcripts made from chick erythroid chromatins with E. coli RNA polymerase hybridize to chick globin cDNA. Contamination with endogenous globin RNA has been largely removed by purification on SH-agarose columns at 55 degrees C. Some endogenous globin mRNA sequences remain, probably as hybrids with "anti-sense" Hg-transcripts produced by RNA-dependent RNA synthesis. Heating to 115 degrees C before SH-agarose chromatography eliminates these contaminants. Hg-transcripts from adult and embryonic erythroid chromatins purified by this method are hybridized to globin cDNA; they contain a 4- to 6-fold higher proportion of globin-specific sequences (10-13 PPM) than do transcripts from brain chromatin. Dissociation of erythroid chromatins in salt and urea, followed by reconstitution using standard methods, destroys even this low degree of specificity.

RNA aggregation during sulfhydryl-agarose chromatography of mercurated RNA.

Isolation of newly synthesized mercurated RNA transcripts by chromatography on sulfhydryl-agarose has recently been used to reduce contamination by endogenous RNA derived from the chromatin template. We show that substantial RNA aggregation occurs during standard isolation procedures, causing significant retention of endogenous (unmercurated) RNA on sulfhydryl-agarose. We describe methods to reduce substantially this problem and discuss the implications of our findings for interpretation of previous hybridization and transcription experiments.