Louis Levine scite author profile

Gene arrangement frequencies were determined at two stages in the life history of Drosophila pseudoobscura taken from nature. Three po ulations in the central highlands of Mexico were each sampled twice during 1976.Gene arrangement frequencies were measured in adult males and in larvae that were the offspring of females collected at the same time. The adult males were in all likelihood a representative sample of those who fathered the larvae produced by the wild females. Differences in gene arrangement frequency between these two life stages should indicate the operation of natural selection. One-third of our comparisons of common gene arrangement frequencies in males and in larvae from the next generation were statistically significant, as were one-third of our comparisons of total frequency arrays in the two life stages. We consider the components of selection that could produce such frequency changes and reason that male mating success must be the major one. Gene arrangement frequencies in the Mexican populations fluctuate within wide bounds. Selection must act to retain the polymorphism in the face of this flux in gene arrangement frequencies, and we suggest that male mating success plays an important role. One of the early triumphs of ecological genetics was the demonstration that selection in nature could be intense-in fact, one or several orders of magnitude more powerful than the founders of population genetics imagined. No experimental system played a more important role in the analysis of selection than the chromosomal polymorphism for gene arrangements in Drosophila pseudoobscura. In this species a series of inversions on the third chromosome binds large blocks of genes together as units, just as though they were alleles of a single "supergene." Natural selection was first implicated when Dobzhansky (2) showed that the frequencies of certain gene arrangements went through seasonal cycles in two of three populations on Mt. San Jacinto in California; subsequent studies showed that these cycles were repeated in years scattered over a span of 2 decades (3, 4). The frequencies of gene arrangements in the third population on Mt. San Jacinto did not cycle, but between 1939 and 1946 they underwent a directional change that Dobzhansky (5) also ascribed to natural selection. Dobzhansky and Levene (6) then showed that karyotypic frequencies in eggs laid by wild females were generally in accord with Hardy-Weinberg expectations, but that frequencies in wild males were not. They concluded that the karyotypes suffered differential mortality during the transition from fertilized egg to adult fly. That selection on the D. pseudoobscura inversions occurred in nature seemed to be settled, and it was generally taken for granted that viability differences accounted for the major part of it.Some 20 years later, a series of papers by Prout (7-10) stimulated evolutionary biologists to pay greater attention to the various components to fitness. These components determine the separate bits of selection that operate at...

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Population Genetics of Mexican Drosophila. V. A High Rate of Multiple Insemination in a Natural Population of Drosophila pseudoobscura

Levine¹,

Asmussen²,

Olvera³

et al. 1980

The American Naturalist

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The reproductive capacity of a species is one of its most important attributes, intimately related to its ability to persist in a sometimes harsh environment.Reproductive capacity is a particularly good index of fitness in organisms such as many insects that go through repeated cycles of rapid population growth. In such organisms any feature of the reproductive biology that increases reproductive rate will be favored by natural selection. Repeated mating and sperm storage are specific features which can play important roles in determining female fecundity and male mating success, and hence fitness.Both females and males of many animal species mate repeatedly, and in a sizable fraction of these species the females store sperm. Insects in particular may store sperm for periods of time approaching the lifetime of an adult female. Parker (1970) reviewed the extensive literature on repeated mating and sperm storage in insects. He concluded that these processes are adaptive and the products of a kind of selection he termed sperm competition. The existence of these phenomena in a variety of species, including dragonflies, beetles, bugs, and dipteran flies, makes them of general interest to population biologists. The same processes of repeated mating, sperm storage, and the resultant selection undoubtedly operate in other arthropods and in other phyla. Our own attention has been focused on these processes in Drosophila flies.That female Drosophila store sperm from a mating has been known a long time.Likewise, it has been common knowledge that females in the laboratory will accept additional mates, sometimes long before the sperm from the first mating are exhausted (Lefevre and Jonsson 1962). An up-to-date review of sperm transfer, sperm storage, and sperm utilization in Drosophila may be found in Fowler (1973).Multiple insemination was shown to be rather common in laboratory populations of D. pseudoobscura (Dobzhansky and Pavlovsky 1967) and D. melanogaster

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Interactions between HIV-1 Gag and Viral RNA Genome Enhance Virion Assembly

Dilley

Nikolaitchik

Galli

et al. 2017

J Virol

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Most HIV-1 virions contain two copies of full-length viral RNA, indicating that genome packaging is efficient and tightly regulated. However, the structural protein Gag is the only component required for the assembly of noninfectious viruslike particles, and the viral RNA is dispensable in this process. The mechanism that allows HIV-1 to achieve such high efficiency of genome packaging when a packageable viral RNA is not required for virus assembly is currently unknown. In this report, we examined the role of HIV-1 RNA in virus assembly and found that packageable HIV-1 RNA enhances particle production when Gag is expressed at levels similar to those in cells containing one provirus. However, such enhancement is diminished when Gag is overexpressed, suggesting that the effects of viral RNA can be replaced by increased Gag concentration in cells. We also showed that the specific interactions between Gag and viral RNA are required for the enhancement of particle production. Taken together, these studies are consistent with our previous hypothesis that specific dimeric viral RNA-Gag interactions are the nucleation event of infectious virion assembly, ensuring that one RNA dimer is packaged into each nascent virion. These studies shed light on the mechanism by which HIV-1 achieves efficient genome packaging during virus assembly.IMPORTANCE Retrovirus assembly is a well-choreographed event, during which many viral and cellular components come together to generate infectious virions. The viral RNA genome carries the genetic information to new host cells, providing instructions to generate new virions, and therefore is essential for virion infectivity. In this report, we show that the specific interaction of the viral RNA genome with the structural protein Gag facilitates virion assembly and particle production. These findings resolve the conundrum that HIV-1 RNA is selectively packaged into virions with high efficiency despite being dispensable for virion assembly. Understanding the mechanism used by HIV-1 to ensure genome packaging provides significant insights into viral assembly and replication.

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Fitness and Environmental Variation. 1. A Study of Some Polymorphic Populations of Drosophila pseudoobscura

Beardmore¹,

Levine²

1963

Evolution

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Louis Levine

Evidence for selection by male mating success in natural populations of Drosophila pseudoobscura.

Population Genetics of Mexican Drosophila. V. A High Rate of Multiple Insemination in a Natural Population of Drosophila pseudoobscura

Interactions between HIV-1 Gag and Viral RNA Genome Enhance Virion Assembly

Fitness and Environmental Variation. 1. A Study of Some Polymorphic Populations of Drosophila pseudoobscura

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