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1.
Keeping Drosophila cultures at 28 C results in elimination of all minor multiple ADH bands, thought to be due to conformational change. Thus in diploid and triploid adults heterozygous for the Adh F and Adh Salleles, relative staining intensities are found for the three bands which were in conformity with the assumption that both alleles are equally expressed. Among all polymorphic strains derived from natural Central European and Mediterranean populations, the strain +Tüb is unique in that its Adh Fallele is closely linked to a new recessive lethal factor, named 1(2)Stm. All Adh F 1/AdhF 1 pupae are unable to emerge, and die. The lethal effect is obvious 50 hr earlier by retarded eye, bristle, and body wall pigmentation. Although all pupae of the phenotype F die, Adh F allele frequency scarcely seems to be lowered in this natural population.  相似文献   

2.
The Adh and αGpdh allozyme loci (both located on the second chromosome) showed considerable fluctuations in allele frequencies in a seminatural population of Drosophila melanogaster during 1972–97. Both long-term and short-term fluctuations were observed. The short-term fluctuations occurred within almost all years and comparison of allele frequencies between winters and summers showed significantly higher AdhS (P < 0.001) and αGpdhF (P < 0.01) allele frequencies in summers. Frequencies of these alleles were significantly positively correlated with environmental temperature, suggesting the adaptive significance of these allozyme polymorphisms. Frequency changes of the Odh locus (located on the third chromosome) showed no seasonal pattern and were not correlated with environmental temperature. Almost all short-term and long-term increases in AdhS frequency were accompanied by a corresponding decrease in αGpdhS frequency (r = –0.82, P < 0.001) and vice versa. Further analysis showed that gametic disequilibria between the Adh and αGpdh loci, which frequently occurred, were due to the presence of inversion In(2L)t located on the same chromosome arm and In(2L)t frequencies were positively correlated with environmental temperature. Gametic disequilibria between Adh and Odh and between Odh and αGpdh were hardly observed. Because In(2L)t is exclusively associated with the AdhS/αGpdhF allele combination, the observed correlated response in Adh/αGpdh allele frequencies is (at least partly) explained by hitchhiking effects with In(2L)t. This means that the adaptive value of the allozyme polymorphisms has been overestimated by ignoring In(2L)t polymorphism. Fluctuations in Adh allele frequencies are fully explained by selection on In(2L)t polymorphism, whereas we have shown that αGpdh frequency fluctuations are only partly explained by chromosomal hitchhiking, indicating the presence of selective differences among αGpdh genotypes in relation with temperature and independent of In(2L)t. Frequency fluctuations of αGpdh and In(2L)t are consistent with their latitudinal distributions, assuming that temperature is the main environmental factor varying with latitude that causes directly or indirectly these frequency distributions. However, the results of the tropical greenhouse population show no correlation of Adh (independent of In(2L)t) and Odh allele frequencies with environmental temperature, which may indicate that the latitudinal distribution in allele frequencies for these loci is not the result of selection on the F/S polymorphism in a direct way.  相似文献   

3.
Summary The relative activities of alcohol dehydrogenase isozymes have been studied during the development of the endosperm and scutellum of heterozygous Adh 1 F /Adh 1 S maize kernels. The products of the Adh 1 F allele are found earlier than the products of the Adh 1 S allele in both the scutellum and the endosperm. A second gene (Adh r )which controlsthe activity level of ADH is active in the scutellum only. The Adh r N allele specifies increase in the relative activity of the Adh 1 S products from 26 to 38 days after pollination. This increase is prevented by the Adh r L allele which is dominant. These results ar discussed on the basis of the limited factor hypothesis proposed recently by Schwartz (1971) for the regulation of the Adh 1gene in maize.  相似文献   

4.
Data from genetic crosses of Peromyscus maniculatus and P. polionotus suggest that electrophoretic variants of liver alcohol dehydrogenase are coded by alleles at a single locus. These alleles, designated Adh F , Adh S , and Adh N , determine, respectively, the fast, slow, and not detectable (null) ADH electrophoretic phenotypes. Heterozygotes (Adh F /Adh S ) exhibit three bands on zymograms, suggesting a dimeric subunit structure for the enzyme. However, Adh F /Adh N and Adh S /Adh N animals exhibit a single band, suggesting that the Adh N allele does not produce a polypeptide subunit capable of dimerizing into an active molecule. Fast and slow electrophoretic phenotypes exhibit multiple bands which can be converted into single major fast and slow bands, respectively, upon treatment with oxidized or reduced NAD. Addition of NAD also stabilizes both the fast and slow enzyme to heat inactivation at 60 C for at least 30 min.This work was supported by Predoctoral Fellowship AA-05067 from the National Institute of Alcohol Abuse and Alcoholism to K. G. B. and South Carolina Commission on Alcohol and Drug Abuse Grant 7607. Also, partial support was provided by NIH Grant CA-16184.  相似文献   

5.
Inoue Y  Tobari YN  Tsuno K  Watanabe TK 《Genetics》1984,106(2):267-277
The frequencies of a polymorphic inversion, In(2L)t, and of Adh and αGpdh alleles were analyzed in three natural populations of Drosophila melanogaster from Japan. Significant positive correlations between the frequencies of In(2L)t and AdhS or αGpdhF were detected due to tight linkage. An analysis of correlation with latitude showed that the negative cline of AdhS frequency could be explained entirely by its linkage with In(2L)t; the frequency of AdhS on the standard chromosome did not show a latitudinal cline. To the contrary, the cline of αGpdhF frequency itself was positive, and its linkage with In(2L)t makes the positive cline unclear. These results suggest that the two allozymes themselves respond to latitudinal natural selection in different ways. When these populations were transferred to laboratory cages and maintained for a long time, they lost the chromosomal polymorphism but retained stable enzyme polymorphisms, although allele frequencies in the cage were not the same as in nature. The frequencies of Adh and αGpdh alleles were close to those in earlier cage populations of the same geographical origin.  相似文献   

6.
A rapid and reproducible enzymatic rate assay for the quantitative determination of the concentration of active sites is presented for the alleloenzymes AdhS and AdhF from Drosophila melanogaster. Using this procedure the turnover numbers as catalytic-center activities were found to be 12.2 sec–1 for AdhF and 3.4 sec–1 for AdhS with secondary alcohols. This showed a slower dissociation of the coenzyme from the binary enzyme-NADH complex with AdhS and hence a stronger binding of NADH to this alleloenzyme. With ethanol, the catalytic-center activity was 1.4 sec–1 for AdhS and 2.8 sec–1 for AdhF, and hence the single amino acid mutation distinguishing the two alleloenzymes also affected hydride transfer.  相似文献   

7.
The cellar population of Drosophila melanogaster at the Chateau Tahbilk Winery (Victoria, Australia) was perturbed for alcohol dehydrogenase (Adh) gene frequencies. Phenol oxidase (Phox) frequencies were also perturbed and monitored as a control. Subsequent gene frequency changes, together with information on population structure, indicated that selection acted on the chromosome regions of both loci. Adh gene frequencies returned to preperturbation levels in a predictable manner. A model in which the relative fitness of Adh phenotypes was determined by temperature-dependent specific activities of enzymes of Adh genotypes adequately accounts for the rate of gene frequency change at this locus. Thus temperature behaves as a selective agent in modulating Adh gene frequencies in this cellar environment.  相似文献   

8.
Four Drosophila melanogaster strains, each homozygous for one of the two major ADH aliozymes, Fast and Slow (Adh F1, Adh S , Adh F2 and Adh S2) were used to study the interaction of the Adh locus with ethanol and temperature. The separate and especially the combined effects of these two parameters allow the conclusion that the Adh locus of D. melanogaster intervenes in the adaptation process through the heat shock protein system.  相似文献   

9.
Alcohol dehydrogenase (ADH) activity variation in male flies taken directly from seven natural populations ofDrosophila melanogaster is largely accounted for by segregation of alleles at theAdh structural gene locus. There was little overlap in the ADH activities ofAdh F andAdh s homozygotes. Body weights varied only slightly betweenAdh genotypes and contributed little to ADH variation. Between and within population variation in ADH activity and ADH protein in flies in the wild is mainly due to the relative frequencies ofAdh F andAdh s.  相似文献   

10.
Lines homozygous for the Adh S and Adh F alleles were extracted from a French and an African natural population of D. melanogaster. The lines from each geographic region were then crossed and the Mendelian F2 constituted the first generation subjected to selection for an increase in adult survival in the presence of 2% ethanol.The responses to selection were similar in the two strains, in spite of their different ethanol tolerance. In less than 10 generations, life span with ethanol increased from about 7 to more than 12 days, with realized heritabilities of 0.14 and 0.18. This extension of longevity was also observed with other concentrations of ethanol but not with water alone. The increase in life span in presence of alcohol appears to result from unknown metabolic processes, which are not obligatorily related to the capacity of the flies to tolerate starvation, nor to their size, their lipid content of their ethanol tolerance. In the two lines, however, the Adh S allele was quickly eliminated, suggesting a selective advantage for the F allele.  相似文献   

11.
Drosophila melanogaster larvae were subjected to 10 generations of selection on 6% ethanol at 17, 25, and 30°C. For each temperature there was a significant (P<0.01) increase in the frequency of the Adh isoallele. Controls with no ethanol showed no change in the frequency of the Adh F isoallele. Larvae subjected to stronger selection on 8% ethanol confirmed the results. When adults of various ages were subjected to 16 and 32°C, the ADHF isoenzyme retained its twofold advantage in activity over ADHS regardless of the temperature. The same result was obtained with larvae at 16 and 35°C. Although some effect of temperature was demonstrated, it was concluded that the effect was not strong enough for temperature to be a selective factor under the conditions studied. However, ethanol is a strong selective factor for laboratory populations.  相似文献   

12.
Chambers  G. K. 《Biochemical genetics》1984,22(5-6):529-549
Alcohol dehydrogenase has been purified from Drosophila melanogaster lines bearing the Adh F, AdhS, and Adh FCh.D. alleles. Biochemical investigations show that the properties of the purified enzymes are very similar to those of crude enzyme extracts except that the pure enzymes are more heat stable. ADH-FCh.D. resembles ADH-S very closely in specific activity, substrate specificity, and a number of kinetic parameters including limiting values for K m(app.) for ethanol. However, it is considerably more heat stable than either of the two common variants. ADH-F differs from ADH-S and ADH-FCh.D. particularly with regard to the rate of oxidation of secondary alcohols. Atomic absorbtion spectroscopy shows that all three allozymes lack zine or other divalent cations as active-site components. Peptide mapping experiments identify one very active cysteinyl residue; and amide residues in the NAD+ binding domain.  相似文献   

13.
Two unlinked genes, Adh 1 and Adh 2, control the production of alcohol dehydrogenase (ADH) in seeds of the annual sunflower (Helianthus annuus). Each gene is polymorphic, having F and S alleles. Starch gel electrophoretic zymograms of the four possible double homozygotes have three bands, representing two homodimers and an intermediately migrating intergenic isozyme. Zymograms of double heterozygotes consist of nine bands produced by ten isozymes: six intragenics and four intergenics, two of which are coincident. Results of dissociation-recombination (D-R) experiments are reported which demonstrate the subunit composition of the intergenic isozymes, thus supporting the relationships suggested by genetic studies. Densitometric tracings of the zymogram of a cleared gel and measurements of activities of homodimer isozymes eluted from gels following D-R of an intergenic isozyme showed that the Adh 2 isozymes were more than twice as active as those of Adh 1. Measurements of activities of crude extracts from the four possible double homozygous genotypes indicated that the seeds of the genotype Adh 1 F /Adh 1 F , Adh 2 S /Adh 2 S produced more activity than the other three. This genotype is the most common one found in wild and cultivated stocks. Isozymes eluted following electrophoresis of the same extracts had averages of 19%, 70%, and 11% of total activity contributed by the Adh 1, Adh2, and intergenic isozymes, respectively. A simple but efficient method of isozyme elution from starch gels is described which resulted in nearly full expected recovery (approximately 46%) of the ADH activity in the applied sample.Supported by Graduate School and BioMed grants and by NSF Grant GB35853.  相似文献   

14.
The ADH allozyme pattern was tested in seeds of 1553 varieties of the world collection of safflower (Carthamus tinctorius L.) and 36 collections belonging to 14 wild species of the genus Carthamus L. with different chromosome numbers (n=10, 11, 12, 22, and 32). Two genes, Adh 1 and Adh 2, have been identified. The Adh 1 locus controls the allozyme bands found in the faster-moving anodal zone, and the Adh 2 gene controls the cathodal band. A third group of bands which migrates slowly toward the anode and stains weakly is probably interaction products of the two genes. Two codominant alleles Adh 1 S and Adh 1 F , specifying allozymes with different migration rates in the fast-moving anodal zone, were found in cultivated safflower. The frequency of the Adh 1 F allele was very low. A third homologous allele, Adh 1 T , was present only in the polyploid wild species. The Adh 2 was stable, without any variation in migration rate. In addition to the variation in migration rates, there was also variation in activity levels of the products of both the Adh 1 and Adh 2 genes. The contribution of this study to our understanding of the origin of the polyploid species C. lanatus, C. baeticus, and C. turkestanicus is discussed.This research has been financed in part by a grant made to A. Ashri by the U.S. Department of Agriculture, Agricultural Research Service, authorized by P.L. 480, Project No. A10-CR-18, Grant No. FG-Is-234.Based in part on a thesis submitted by M. P. to the Faculty of Agriculture, The Hebrew University, Rehovot, in partial fulfillment of the requirements for the M.Sc. degree.Graduate Student, Faculty of Agriculture.  相似文献   

15.
When Adh F /Adh S heterozygote homogenates are stained after electrophoresis, considerable variation is observed in the activity ratio of the FF dimer to the SS dimer. Two Adh S strains showed a sharp, consistent difference when crossed to a common Adh F strain. Optical scanning and genetic analysis confirmed that this difference originates close to the Adh locus. Since the morphs varied concordantly in their activities on numerous alcohols, and since aging and heat-treatment experiments failed to reveal a stability difference, it is proposed that the difference is regulatory in nature, affecting ADH synthesis and primarily cis-acting. A survey of wild flies revealed additional variation in the FF/SS activity ratio. Further genetic analysis showed that the basis of this variation is not restricted to the second chromosome. Furthermore, modification of the activity ratio implies some degree of allelespecificity on the part of the modifiers.This work was supported in part by money collected by Jewish Community of Iowa City, Iowa, and by NSF Grant 76-01903 to Roger Milkman.  相似文献   

16.
Starch gel electrophoresis revealed that the alcohol dehydrogenase (ADH-2) locus was polymorphic in two populations (from Agua Caliente, California and the Grand Canyon, Arizona) of cactophilic Drosophila mojavensis that utilize barrel cactus (Ferocactus acanthodes) as a host plant. Electromorphs representing products of a slow (S) and a fast (F) allele were found in adult flies. The frequency of the slow allele was 0.448 in flies from Agua Caliente and 0.659 in flies from the Grand Canyon. These frequencies were intermediate to those of the low (Baja California peninsula, Mexico) and high (Sonora, Mexico and southern Arizona) frequency Adh-2S populations of D. mojavensis that utilize different species of host cacti.  相似文献   

17.
Strains of Drosophila melanogaster homozygous for either the Adh F or the Adh S allele were kept on food supplemented with ethanol for 20 generations. These strains (FE and SE) were tested for tolerance to ethanol and compared with control strains (FN and SN). The E strains showed increased tolerance to ethanol both in the adult and in the juvenile life stages. In adults the increase in tolerance was not accompanied by an increase in overall ADH activity. However, there were changes in the distribution of ADH over the body parts. Flies of the FE strain possessed significantly more ADH in the abdomen, compared with FN. Another set of FN and SN populations were started both on standard food and on ethanol food with reduced yeast concentrations. After 9 months ADH activities were determined in flies from these populations which had been placed on three different media: the food the populations had been kept on, regular food and regular food supplemented with ethanol. The phenotypic effects of yeast reduction on ADH activity were considerably, but longterm genetic effects were limited.  相似文献   

18.
Although empirical studies frequently suggest that genotype-by-environment (G X E) interaction can maintain genetic variation, very few data are available to test for the specific conditions necessary for the existence of a protected polymorphism (i.e., the property of persistence of an allele even when initially rare). Drosophila species live in patchy environments and their local population structure may be characterized to some extent by Levene's migration pattern, namely by a single pool of individuals that presumably mate at random and breed on discrete and ephemeral resources. We present here a field experiment that links Drosophila ecology and population genetics, which used the alcohol dehydrogenase (Adh) and α-glycerophosphate dehydrogenase (αGpdh) polymorphic loci in D. melanogaster flies raised from Opuntia ficus-indica fruits (prickly pears). The results show that there is density-dependent mortality in those fruits with a relatively high number of larvae (i.e., selection is “soft”) and suggest that there is differential viability for αGpdh genotypes. Additionally, a pattern of G X E interaction for fitness values, which is fully compatible with the theoretical conditions required for the existence of a protected polymorphism, was found after weighting the fitness estimates by the relative contribution that each fruit makes to the total adult population. The strong association between AdhS and αGpdhF alleles suggests that the occurrence of the common cosmopolitan inversion In(2L)t in the population might be responsible for the negative frequency-dependent selection predicted by Levene's model when genetic variation persists in heterogeneous environments.  相似文献   

19.
Ten Indian geographical populations of D. melanogaster were assayed electrophoretically for Adh genic variation. The Indian geographical populations of D. melanogaster revealed significant clinal variation (3 % for 1 d? latitude) at Adh locus and AdhF allelic frequency correlated significantly with increase in latitude. It was suggested that the abundance of secondary alcohols in the southern Indian tropical and humid environment might exert selective pressure favouring higher frequency of AdhS allele. Patterns of ethanol utilization as well as ethanol tolerance were analyzed in larval and adult individuals of six geographical populations of D. melanogaster. Latitudinal variation in ethanol tolerance was observed in D. melanogaster populations from India. The parallel occurrence of latitudinal variation it Adh locus as well as ethanol tolerance in Indian geographical populations of D. melanogaster could be maintained by balancing natural selection varying spatially along the north-south axis of the Indian sub-continent.  相似文献   

20.
Summary The products of the Adh 1 F allele which specifies an active enzyme, and the Adh 1 Cm allele which specifies a stable enzyme, interact in the heterodimer to give an active stable alcohol dehydrogenase. Investigations on the nature of the heterotic interaction are presented including comparisons of in vivo and in vitro synthesized heterodimers.Dedicated to Dr. M. M. Rhoades on the occasion of this 70th birthday, with gratitude, admiration, and appreciation.  相似文献   

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