Molekulargenetische und zytogenetische Untersuchungen zur paternalen Introgression beim gynogenetischen Amazonenkärpfling, Poecilia formosa / Molecular and cytogenetic analysis of paternal introgression in the gynogenetic Amazon molly, Poecilia formosa

Lamatsch, Dunja

January 2001

Die Frage nach der Entstehung und Beibehaltung von sexueller Reproduktion nimmt in der Biologie eine zentrale Stellung ein. Dazu werden seit langem die Vor- und Nachteile asexueller Fortpflanzung diskutiert, da man sich von einer vergleichenden Betrachtungsweise wichtige Aufschlüsse erwartet. Dem kurzfristigen Vorteil der schnelleren Vermehrung stehen langfristige Nachteile entgegen: Aufgrund fehlender genetischer Rekombinationsprozesse können sich schädliche Mutationen im Laufe der Generationen anhäufen ("Muller’s ratchet"), und schnelle Anpassung an eine veränderte Umwelt oder neue Abwehrstrategien gegen Parasiten werden erschwert. Der Amazonenkärpfling, Poecilia formosa, stellt einen Organismus dar, dessen Fortpflanzung in Folge eines interspezifischen Hybridisierungsereignisses vom üblichen bisexuellen Muster abweicht: Es treten normalerweise nur Weibchen auf, die sich gynogenetisch vermehren. Hierbei werden die unreduzierten diploiden Eizellen durch Spermien sympatrisch vorkommender sexueller Wirtsmännchen nahe verwandter Arten (P. latipinna oder P. mexicana) stimuliert, um eine parthenogenetische Entwicklung der Embryonen zu initiieren. Es findet keine Karyogamie statt, so daß die Nachkommen in der Regel untereinander und mit ihren Müttern genetisch identisch (klonal) sind. Molekularbiologische Untersuchungen ergaben jedoch, daß P. formosa wesentlich älter ist, als dies auf der Basis von "Muller’s ratchet" zu erwarten war. Eine mögliche Erklärung dafür wäre, daß in seltenen Fällen väterliches Erbmaterial an die Nachkommen weitergegeben werden kann (paternale Introgression). Sowohl in natürlichen Lebensräumen als auch unter Laborbedingungen konnten nur zwei Formen paternaler Introgression identifiziert werden: Kommt es aufgrund von Karyogamie zu einer tatsächlichen Befruchtung der diploiden Oozyte durch das haploide Spermium entstehen triploide Individuen. In anderen Fällen verbleiben nach der Aktivierung durch das artfremde Spermium nur geringe DNA-Mengen in der Oozyte, die in den Kern aufgenommen werden und im Karyotyp als überzählige Chromosomen, sog. Mikrochromosomen, zu identifizieren sind. Die beiden Formen paternaler Introgression können jedoch auch kombiniert vorliegen. In diesen Fällen entwickelten sich die Individuen überraschenderweise zu phänotypischen Männchen. Die vorliegenden Ergebnisse über paternale Introgression können zur Aufklärung der Frage beitragen, warum P. formosa und andere asexuelle Organismen offenbar länger überlebten, als vorhergesagt. Im Gegensatz zu den bisherigen Annahmen könnte es sich bei spermienabhängiger Parthenogenese nicht etwa nur um eine unvollkommene Parthenogenese handeln, sondern um einen gut angepaßten Fortpflanzungsmodus, der die Vorteile von asexueller mit denen sexueller Fortpflanzung kombiniert. / One of the greatest challenges in evolutionary biology is explaining the widespread occurrence of sexual reproduction and the associated process of genetic recombination. Comparing the advantages and disadvantages of sexual and asexual reproduction is expected to give major insights to that "queen of questions". Whereas asexual females have the short term advantage of producing twice as many daughters as sexual females, they are also expected to suffer from long-term constraints: Due to the absence of genetic recombination, asexuals are prone to accumulate deleterious mutations (Muller´s ratchet), and adaptation to changing environments or the escape from parasite load will be aggravated. The Amazon molly, P. formosa, resembles an organism which shows an alternative reproductive mode to the ubiquitous bisexual reproduction. Being an all-female species due to interspecific hybridization, it reproduces gynogenetically: Unreduced diploid eggs are only activated by sperm of males of closely related sympatric species. Without karyogamy the oocytes develop parthenogenetically leading to genetically identical (clonal) offspring. Molecular phylogenetic data suggest that P. formosa might have survived longer than predicted by Muller´s ratchet. To explain this paradox, two phenomena which have been observed in natural populations as well as in laboratory broods are taken into consideration: Triploidy and occurrence of microchromosomes as a consequence of paternal introgression. Triploidy results from the successful insemination of the unreduced diploid eggs with haploid host sperm and subsequent karyogamy, whereas microchromosomes are small supernumerary chromosomes that seem to be the left over of the enzymatic machinery which normally clears the egg from the sperm nucleus after activation has occurred. Both forms of paternal introgression may also occur in combination. Surprisingly, these individuals developed spontaneously into males. The results on paternal introgression obtained here can contribute to answer the question why P. formosa as well as other unisexual vertebrates survived longer than predicted. Contradictory to common knowledge, gynogenesis might not be an imperfect parthenogenesis but a well adapted reproductive mode combining the advantages of asexual and sexual reproduction.

Amazon Molly

Introgression

Jungfernzeugung

ddc:570

Molekulargenetische und zytogenetische Untersuchungen zur paternalen Introgression beim gynogenetischen Amazonenkärpfling, Poecilia formosa

Lamatsch, Dunja K.

Unknown Date

Universiẗat, Diss., 2001--Würzburg.

Comparative Study of Dentition Among Species of Poecilia (Pisces)

Lewis, Steven R., Rasch, Ellen M., Hossler, Fred E., Kalbfleisch, John H., Monaco, Paul J.

01 January 1999

Many studies in the genus Poecilia have focused on reproductive and genetic characteristics of Poecilia formosa, the Amazon molly, and its sympatric species P. latipinna and P. mexicana. The research literature of Poecilia dentition has been limited to general tooth morphology. Essentially absent are comparative analyses of dentition patterns and total numbers of teeth. The current study uses dentition analysis as a method to compare species in the genus Poecilia and to address some taxonomic issues related to these fish. The study focused on fish from the areas of southern Texas and northeastern Mexico. Through the use of scanning electron microscopy, the lower jaws of Poecilia spp were examined to determine total numbers of outer and inner teeth. In addition, the differences in distribution patterns of the inner teeth were recorded and compared. Statistical analyses were performed to determine which comparisons were significant. This study reveals several observations: 1) variations in the numbers of outer and inner teeth exist in some of these fish with respect to site of collection; 2) differences in total teeth numbers and dentition patterns were found both interspecifically and intraspecifically; and 3) in addition, dentition analysis provided evidence regarding the origin of P. formosa. This study supports the current notion that P. latipinna, the proported paternal component, and P. mexicana limantouri, the purported maternal component, are the progenitor species of P. formosa. Two unresolved taxonomic questions were addressed through dentition analysis. First, the present study supports the exclusion of the triploid associate of P. formosa as a separate species from P. formosa. Second, this study shows a significant difference in the number of inner teeth and in dentition patterns between P. mexicana limantouri and P. mexicana mexicana. Such differences, in addition to previously known distinguishing characteristics, should prompt careful consideration of whether or not these taxa deserve specific status or retention of their current subspecific status.

amazon molly

dentition analysis

poecilia formosa

poeciliid fishes

Biomedical Sciences

Sperm Availability in Naturally Occurring Bisexual-Unisexual Breeding Complexes Involving Poecilia Mexicana and the Gynogenetic Teleost, Poecilia Formosa

Monaco, Paul J., Rasch, Ellen M., Balsano, Joseph S.

01 May 1981

Testicular maturation indices (TMI) were determined for wild-caught males of Poecilia mexicana by quantitative analysis of the frequency of ongoing stages of spermatogenesis and spermatid differentiation in sections of testes stained with the Feulgen reaction for DNA. In nature, males maintain essentially constant levels of sperm production throughout the year and show no significant variations in mean TMI values associated with season, microhabitat, standard body length, or rank in male dominance hierarchies. Winter males or males isolated from females in the laboratory show accumulation of mature spermatophores. These findings suggest that fluctuations in the microstructure of wild populations of Poecilia from northeastern Mexico may be due primarily to differences in the temporal scheduling of female reproductive cycles and not to limitations imposed by sperm availability or male reproductive competence. The data are discussed in terms of competitive interactions within unisexual-bisexual breeding complexes involving the Amazon molly P. formosa, its related triploid hybrids, and the bisexual species, P. mexicana.

amazon molly

gynogenesis

male reproduction

spermiogenesis

teleost

Biomedical Sciences

Reproductive Behavior and the Maintenance of All-Female Poecilia

Balsano, Joseph S., Randle, Edward J., Rasch, Ellen M., Monaco, Paul J.

01 April 1985

There are four members involved in the breeding complexes of poeciliid fishes found in the freshwaters of northeastern Mexico: males and females of a bisexual species, and diploid and triploid unisexuals. Both unisexuals reproduce by gynogenesis, i.e., an asexual type of reproduction where the sperm triggers egg development but the male genome is excluded to produce clonal offspring. The three types of females are closely related, which suggests that they are potential competitors since all three require the service of the same males. The potential for competition is compounded by a highly skewed sex ratio in favor of females. On the average the unisexuals comprise about 30% of the Poecilia females. This high frequency coupled with a close genetic relatedness to their bisexual hosts, raises the question of how the unisexuals are maintained in nature. Other investigators who work with bisexual/unisexual complexes in the related genus, Poeciliopsis, have postulated that male dominance hierarchies are responsible for restricting the access of subordinate males to their conspecific females. Consequently, these subordinate males mate with unisexual females. The current report tests whether or not this hypothesis applies to bisexual/unisexual complexes of Poecilia. We have found that linear dominance hierarchies appear to function in the defense of home ranges and do not restrict access of males to females. Dominant males exhibit less mating activity than subordinate males towards females. Previous reports showed that males are reproductively competent throughout the year, whereas females show striking asynchrony in their reproductive readiness. Such asynchrony limits the proportion of receptive females at any one time. Consequently, there are more males ready to mate than there are females receptive to their mating attempts. This may lead to mating frenzies. We postulate that these indiscriminate matings maintain the fertility of both unisexuals. When the relative reproductive outputs of adult females are compared, both unisexuals appear as fit as their bisexual congeners.

amazon molly

dominance hierarchy

gynogenesis

mating frenzy

social interaction

triploidy

unisexual

Biomedical Sciences