Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.30.1 (S1 nuclease)
 3,660 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The 5' start sites and the 3' ends of giant transcripts of the approximately 20-kilobase (kb)-long chicken alpha-globin gene domain were identified by reverse transcription with specific primers and by nuclease S1 mapping using cloned and sequenced restriction fragments of the domain. A transcriptional unit of approximately 17 kb was found that includes all three embryonic and adult genes of the cluster. The largest transcript initiates 8 kb upstream of the gene, within a cluster of A + T-rich sequences placed upstream of a matrix attachment point, at one of several CAA(A)T boxes framing a cluster of four TATA boxes. The 5' ends of a group of 2.5-, 5-, and 12-kb globin transcripts accumulating in avian erythroblastosis virus-transformed cells, which transcribe globin genes abortively, map to the sequence ATATATAATAA 1 kb upstream of the embryonic pi-globin gene. This sequence might correspond to a site of RNA processing or of alternative transcription initiation. Transcription of the domain ends about 2 kb downstream of the last gene of the cluster, downstream of an enhancer and immediately upstream of a CR1 repetitive element in an A + T-rich sequence that includes a matrix attachment site. These data indicate that full-domain transcripts including embryonic as well as adult alpha-globin genes exist, and that the region transcribed is framed by A + T-rich linkers and matrix attachment points.
 ...
PMID:The chicken alpha-globin gene domain is transcribed into a 17-kilobase polycistronic RNA. 168 44

This is part of a series of two papers on gene regulation in Bacillus subtilis rRNA-tRNA operons that contain large clusters of tRNA genes. The preceding paper (Vold, B.S., Okamoto, K., Murphy, B.J., and Green, C.J. (1988) J. Biol. Chem. 263, 14480-14484) investigates the rrnB operon containing 21 tRNA genes, and this paper investigates a B. subtilis rRNA-tRNA operon containing 16 tRNA genes and a minor 5 S rRNA. Hybridization studies suggest this minor 5 S rRNA occurs as a single copy in the B. subtilis 168 genome. S1 nuclease mapping indicates that this minor 5 S rRNA gene has its own promoter. No promoters have been found immediately 5' to any of the major 5 S rRNA species in B. subtilis rRNA operons. S1 mapping of the spacer region between the 23 S and minor 5 S rRNA revealed that the maturation of the 23 S rRNA in this operon may arise from an unusual processing mechanism. S1 nuclease mapping experiments suggest the existence of a promoter element immediately upstream of the last gene, for tRNA(Leu CAA), in the operon. A precursor leucine tRNA resulting from transcription of this last tRNA gene was observed in Northern hybridizations, and the amounts of this precursor increased during sporulation. A single terminator-like element is located just upstream of this last tRNA gene; however, S1 nuclease mapping experiments suggest that some read-through transcription occurs. Thus, all 16 tRNA genes are under control of the upstream 16 S rRNA promoters and the minor 5 S rRNA promoter. However, the last tRNA gene is primarily under the control of its own unique promoter.
 ...
PMID:Transcriptional analysis of Bacillus subtilis rRNA-tRNA operons. II. Unique properties of an operon containing a minor 5 S rRNA gene. 313 57

To investigate gene organization and expression signals in extreme thermophilic archaebacteria, tRNA genes were cloned from Thermoproteus tenax. Clones for five tRNA species were obtained, namely for tRNAAla (TGC), tRNAAla (CGC), tRNALeu (CAG), tRNALeu (CAA) and tRNAMet (CAT). Three of the respective genes were located singly in the chromosome, the two others (tRNAAla and tRNAMet) were clustered but in a head to head position. Four of the genes contained intervening sequences, either in the classical position 3' to the anticodon (tRNAMet), or within the anticodon sequence (tRNALeuCAG), or in the hitherto unique position 5' to the anticodon within the anticodon stem region (tRNAAla). Existence of a transcript containing the intervening sequence was demonstrated by nuclease S1 mapping. All tRNA genes were extremely rich in G-C basepairs of helical regions, a feature which may contribute to thermostability of the secondary structure. The start site of transcription of the 16S/23S rRNA operon and of two tRNA genes of Thermoproteus was determined by nuclease S1 mapping. Transcription of the tRNA genes initiates close to or immediately at the 5' end of the structural gene, that of the rRNA operon 175 bp upstream of the coding region. About 18 bp upstream of the transcription initiation site a conserved AT-rich sequence motif occurs within a fairly GC-rich intercistronic spacer. Its putative instability at the high growth temperature of Thermoproteus suggests a function as entry site for RNA polymerase.
 ...
PMID:Genes for stable RNA in the extreme thermophile Thermoproteus tenax: introns and transcription signals. 1598 38