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Enzyme
Compound
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Target Concepts:
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Query: UMLS:C1332347 (
ADH
)
2,230
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The D. melanogaster Adh gene is transcribed from two different promoters; a proximal (larval) promoter is active during late embryonic and larval stages, and a distal (adult) promoter is active primarily in third instar larvae and in adult flies (1). Genetic analyses suggest that several species of the mulleri subgroup (distant relatives of D. melanogaster) have two closely-linked Adh genes, Adh-1 and Adh-2, each of which expresses a different
ADH
protein (2). The temporal pattern of expression of Adh-1 and Adh-2 is similar to the expression of D. melanogaster Adh from the proximal and distal promoters (2,3,4). We are interested in the molecular basis for the pattern of Adh expression in the mulleri subgroup species and in the mechanism of the switch in Adh promoter utilization. For these reasons, we have studied the structure and transcription of the Adh locus of D. mulleri, a species of the mulleri subgroup. We show that the
ADH
-1 and ADH-2 proteins are expressed from two distinct genes separated by 2 kilobase pairs, and that Adh-1 and Adh-2 are transcribed in the expected temporal pattern. In addition, we find a
pseudogene
1.2 kb upstream from Adh-2, which is transcribed in a temporal pattern similar to Adh-2.
...
PMID:Structure and transcription of the Drosophila mulleri alcohol dehydrogenase genes. 299 30
Drosophila alcohol dehydrogenase (Adh) is highly conserved in size, organization, and amino acid sequence. Adh-psi was hypothesized to be a
pseudogene
derived from an Adh duplication in the repleta group of Drosophila; however, several results from molecular analyses of this gene conflict with currently held notions of molecular evolution. Perhaps the most difficult observations to reconcile with the
pseudogene
hypothesis are that the hypothetical replacement sites of Adh-psi evolve only slightly more quickly than replacement sites of closely related, functional Adh genes, and that the replacement sites of the pseudogenes evolve considerably more slowly than neighboring silent sites. The data have been presented as a paradox that challenges our understanding of the mechanisms underlying DNA sequence divergence. Here I show that Adh-psi is actually a new, functional gene recently descended from an Adh duplication. This descendant recruited approximately 60 new N-terminal amino acids, is considerably more basic than
ADH
, and is evolving at a faster rate than Adh. Furthermore, though the descendant is clearly functional, as inferred from molecular evolution and population genetic data, it retains no obvious
ADH
activity. This probably reflects functional divergence from its Adh ancestor.
...
PMID:Origin and evolution of a new gene descended from alcohol dehydrogenase in Drosophila. 907 91
Southern blot analysis of mouse genomic DNA reveals two EcoRI fragments which faintly hybridize to mouse Adh-1 cDNA and are not part of the Adh-1 gene. These fragments were isolated from agarose gels, cloned, and characterized. Sequence analysis of the 2.1-kb EcoRI fragment suggests that it is likely a
pseudogene
since it does not contain a long open reading frame. However; the 2.0-kb EcoRI fragment contains a coding sequence with a long open reading frame which corresponds to exon 6 of the mouse Adh-1 gene. Comparison of the coding sequence with other known ADHs suggests that the sequence has diverged sufficiently from any currently known class of
ADH
to be a possible distinct class. Further confirmation awaits analysis of currently available genomic clones. Using these sequences as probe, restriction fragment length polymorphisms were identified for each sequence between C57Bl/6J and DBA/2J inbred mouse strains. The strain distribution pattern for these allelic differences was determined among the B x D recombinant inbred strains. This analysis revealed that the 2.1-kb EcoRI sequence is located on chromosome 3 but at a distance from the Adh-1/Adh-3 complex as previously reported. However, the new polymorphism identified in the 2.0-kb EcoRI fragment enabled this sequence to be mapped at the Adh-1/Adh-3 complex.
...
PMID:Genetic mapping of a possible new alcohol dehydrogenase sequence to mouse chromosome 3 at the Adh-1/Adh-3 complex. 924 35
The yeast Saccharomyces cerevisiae contains two distinct nuclear glycyl-tRNA synthetase (GlyRS) genes, GRS1 and GRS2. GRS1 is dual functional in that possesses both cytoplasmic and mitochondrial activities, whereas GRS2 is
pseudogene
-like. GlyRS1 and GlyRS2 are highly similar on the whole but are distinguished by a lysine-rich insertion domain of 44 amino acid residues, present only in GlyRS1. We herein present evidence that whereas the insertion domain is dispensable for the complementary activity of GRS1in vivo, deletion of this domain from GlyRS1 reduced its aminoacylation activity by up to 9-fold. On the other hand, fusion of a constitutive
ADH
promoter to GRS2 failed to confer a functional phenotype to the gene, but further fusion of ARC1 (a yeast gene encoding a tRNA-binding protein, Arc1p) to this hybrid gene successfully rescued its activity. Most intriguingly, purified GlyRS2 retained a substantial level of aminoacylation activity. Fusion of Arc1p to this enzyme further enhanced its activity and stability. These findings highlight not only the structural integrity of the
pseudogene
-encoded enzyme but also the necessity of obtaining an auxiliary tRNA-binding domain for functioning of a yeast tRNA synthetase.
...
PMID:Rescuing a dysfunctional homologue of a yeast glycyl-tRNA synthetase gene. 2187 92
