Face processing without awareness in the right fusiform gyrus

We report the nucleotide sequence of a promoter recognized by RNA polymerase from the gram-positive bacterium Bacillus subtilis. This promoter, which was isolated from B. subtilis phage SP01 DNA, is homologous to promoters for Escherichia coli RNA polymerase; the sequences of the "-35 region" and the "Pribnow box" were 5'TTGACT and 5'CATAAT, respectively (T is the thymine analog 5-hydroxymethyluracil in SP01 DNA). These sequences each differed by only a single base pair from the preferred sequences for E. coli promoters. Not surprisingly, the SP01 promoter was actively transcribed in vitro by E. coli RNA Polymerase as well as by B. subtilis RNA polymerase.

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Mouse globin system: a functional and evolutionary analysis

Leder

Hansen

Konkel

et al. 1980

Science

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Structural and functional analysis of the mouse alpha-globin and beta-globin genes reveals that the globin genes are encoded in discontinous bits of coding information and that each gene locus is much more complex than was originally supposed. Each seems to consist of an array of several authentic genes as well as several apparently inactive pseudogenes. Comparison of the sequences of some of these genes to one another indicates that chromosomal DNA is a dynamic structure. Flanking and intervening sequences change in two ways: quickly, by duplication and extensive insertions and deletions, and slowly, by point mutation. Active coding sequences are usually limited to the slower mode of evolution. In addition to identifying fast and slow modes of evolution, it has also been possible to test the function of several signals that surround these genes and to identify those that appear to play a role in gene expression.

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Promoter recognition by phage SP01-modified RNA polymerase.

Talkington¹,

Pero²

1978

Proc. Natl. Acad. Sci. U.S.A.

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A modified form of Bacillus subtilis RNA polymerase containing a phage SPOI-coded regulatory protein (the gene 28 product) selectively transcribes "middle" genes of the phage genome in vitro. In this paper, we identify a subset of restriction endonuclease fragments of SPOl DNA that promote specific transcription by the phage-modified polymerase. In the absence of nucleoside triphosphates, RNA polymerase containing the gene 28 protein selectively binds to these DNA fragments thereby forming stable binary complexes that can be isolated on nitrocellulose filters. In contrast, unmodified RNA polymerase containing sigma factor selectively binds to and transcribes a subset of phage DNA fragments that contain "early" sequences and that are in large part distinct from the fragments recognized by the phage-modified transcriptase. Our results strongly suggest that phage "early" and "middle" genes are transcribed from distinct promoters and that the RNA polymerase containing the gene 28 protein binds to sites that are located at or near promoters for SPOI "middle" genes.

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Carol Talkington

Restriction fragment analysis of the temporal program of bacteriophage SP01 transcription and its control by phage-modified RNA polymerases

Nucleotide sequence of a promoter recognized by Bacillus subtilis RNA polymerase

Mouse globin system: a functional and evolutionary analysis

Promoter recognition by phage SP01-modified RNA polymerase.

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