Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:3.1.30.2 (
endonuclease
)
18,621
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Alcohol dehydrogenase activity has been measured in 186 iso-second chromosome lines--104 from seven Australian populations and 82 from six Chinese populations. Restriction
endonuclease
variation in the Adh gene region in these lines has previously been described (Jiang & Gibson, 1991). The mean
ADH
activity of AdhF and AdhS lines was significantly higher in the Chinese samples than in the Australian samples. In each population on both continents the mean activity of the AdhF lines is significantly higher than that of the AdhS lines. Six lines homozygous for a thermostability variant, AdhFChD (detected in four of the Chinese populations), had intermediate levels of
ADH
activity and protein amount. In a subset of the lines with the highest and lowest levels of
ADH
, there was a correlation of 0.69 between
ADH
activity and
ADH
CRM. None of the restriction site variants was consistently associated with the amount of
ADH
activity. Associations between BamHI (-7.2), the Adh polymorphism and
ADH
activity suggest that there are modifiers of
ADH
5' to the gene. The deletion (0.2) at position -2.8 on the restriction map (Jiang & Gibson, 1991) was associated with increased levels of
ADH
activity in AdhS lines from China. Two unique insertions in the gene region were associated with low activity in AdhF lines and a null activity allele had a deletion removing most of exon 2. A single line with a duplication of a part of the Adh coding region and of the 5' regulatory section had relatively high
ADH
activity. Considering all the data, the main factor affecting
ADH
activity levels in populations is the frequency of AdhF.
...
PMID:The alcohol dehydrogenase polymorphism in natural populations of Drosophila melanogaster: ADH activity variation restriction site polymorphism and the Adh cline. 134 40
Chromosomal DNA samples derived from various primates and other mammals (horse, sheep, rabbit, and mouse) were digested with restriction
endonuclease
and hybridized with a probe of the sixth exon of the human
ADH
gene, which is highly conserved in the class I alcohol dehydrogenase of these mammalian species. The copy number of the class I
ADH
gene in each species was estimated from the number of hybridized bands. Primate DNA samples showed three distinct bands in the blots of PstI digest and DraI digest. Moreover, most of the bands from primate DNA showed a similarity in size so as to allow us to assign the ADH1, ADH2, and ADH3 homologues in each species. In contrast, mouse has only one gene, and rabbit, sheep, and horse seem to have only two genes, for the class I
ADH
, which showed divergent hybridization bands. These results are consistent with the view that the human class I
ADH
gene cluster has been generated through gene multiplication events which occurred before the Catarrhini branch point in the course of primate evolution.
...
PMID:Multiplication of the class I alcohol dehydrogenase locus in mammalian evolution. 198 5
We have attempted to analyze at the molecular level mutants previously determined as having intragenic lesions caused by X-ray mutagenesis. C.S. Aaron isolated 33 null mutations at the Adh locus and in collaboration with other investigators classified 23 as deletions. Of the eight mutants analyzed here, only two produced a detectable
ADH
protein using the two-dimensional electrophoresis technique. Restriction
endonuclease
and Southern blot analysis showed that three of the mutants were normal compared to the wild-type restriction pattern, with one of the three producing a mutant
ADH
protein. Among the five mutants that had altered restriction patterns, only one mutant produced a detectable mutant
ADH
protein. All the mutants produced a hybridizable mRNA when probed with the genomic clones, suggesting that the mutant phenotype was not due to transcriptional inhibition. Two probable explanations proposed for these observations are (1) mutations may be due to deletions of one or a few bases resulting in frameshifts to nonsense codons and premature termination of
ADH
peptide synthesis or (2) mutations may be a result of transitions to nonsense codons, again producing shortened
ADH
proteins. Those mutants producing a mutant polypeptide may have resulted from mutations to missense rather than nonsense codons. The five mutants showing an abnormal
endonuclease
Southern blot along with the 23 mutants previously shown to be deletions (28/33 or 85%) are associated with multiple DNA chain breaks. Although all of the DNA chain breaks are not necessarily associated with the mutant phenotype of the Adh locus, multiple DNA chain breaks are the most consistent characteristic of ionizing radiation damage to DNA.
...
PMID:Molecular analysis of X-ray-induced alcohol dehydrogenase (ADH) null mutations in Drosophila melanogaster. 298 99
