Silene ''Silene'' is a genus of flowering plants in the family Caryophyllaceae. Containing nearly 900 species, it is the largest genus in the family. Common names include campion and catchfly. Many ''Silene'' species are widely distributed, particularl ...

'' is a flowering plant genus that has evolved a dioecious reproductive system. This is made possible through heteromorphic sex chromosomes expressed as XY. ''Silene'' recently evolved sex chromosomes 5-10 million years ago and are widely used by geneticists and biologists to study the mechanisms of sex determination since they are one of only 39 species across 14 families of angiosperm that possess sex-determining genes. ''Silene'' are studied because of their ability to produce offspring with a plethora of reproductive systems. The common inference drawn from such studies is that the sex of the offspring is determined by the Y chromosome.

Evolution of Sex Chromosomes

Biologists have found that sex chromosomes in plants originated from pairs of autosomes. As these chromosomes diverge from their autosomal ancestor and from each other as a homologous pair, they have the potential to increase or decrease in size due to mutation and recombination. In the case of ''Silene'', the pair of automsomal chromosomes are transformed into heteromorphic sex-determining chromosomes expressed as XY. It is important to recognize that not all species of ''Silene'' have this sex determination system. A few, such as ''S. colpophylla,'' possess homomorphic sex chromosomes. Plants with sex-determining chromosomes, like ''Silene,'' can develop uni-sexual reproductive structures because of the loss and gain of sex-determining genes. Mutations can cause female sterility, male sterility, or adverse combinations of genes that can lead to monoecy,

gynodioecy Gynodioecy is a rare breeding system that is found in certain flowering plant species in which female and hermaphroditic plants coexist within a population. Gynodioecy is the evolutionary intermediate between hermaphroditism (exhibiting both fem ...

, and dioecy.

Species of ''Silene'' with different reproductive systems

The mechanisms involved in the sex determination of Silene are complex and can lead to various reproductive systems among the offspring. The table below provides only a few examples of these possible systems. Those which are most commonly found within this genus are

hermaphroditism In reproductive biology, a hermaphrodite () is an organism that has both kinds of reproductive organs and can produce both gametes associated with male and female sexes. Many taxonomic groups of animals (mostly invertebrates) do not have s ...

(monoecious plant with both staminate and pistillate), dioecy (male and female reproductive systems found in separate morphs), and

(existence of female and hermaphroditic reproductive systems among the individuals of the population).

Sexual system A sexual system is a pattern of sex allocation or a distribution of male and female function across organisms in a species. Terms like reproductive system and mating system have also been used as synonyms. The distinction between sexual systems ...

s vary across species most silene species are

hermaphroditic In reproductive biology, a hermaphrodite () is an organism that has both kinds of reproductive organs and can produce both gametes associated with male and female sexes. Many taxonomic groups of animals (mostly invertebrates) do not have s ...

representing 58.2% of silene species, 14.3% are dioecious, 13.3%

gynodioecious Gynodioecy is a rare breeding system that is found in certain flowering plant species in which female and hermaphroditic plants coexist within a population. Gynodioecy is the evolutionary intermediate between hermaphroditism (exhibiting both fema ...

, and 12.2% being both gynodioecious and

gynomonoecious Gynomonoecy is defined as the presence of both female and hermaphrodite flowers on the same individual of a plant species. It is prevalent in Asteraceae but is poorly understood. It is a monomorphic sexual system alongside monoecy, andromonoecy ...

trioecy Trioecy, or subdioecy, is a rare sexual system characterized by the coexistence of males, females, and hermaphrodites. It has been found in both plants and animals. Trioecy is sometimes referred to as a mixed mating system alongside androdioecy an ...

andromonoecy Andromonoecy is a breeding system of plant species in which male and hermaphrodite flowers are on the same plant. It is a monomorphic sexual system alongside monoecy, gynomonoecy and trimonoecy. Andromonoecy is frequent among genera with zygomorp ...

, and

gynomonoecy Gynomonoecy is defined as the presence of both female and hermaphrodite flowers on the same individual of a plant species. It is prevalent in Asteraceae but is poorly understood. It is a monomorphic sexual system alongside monoecy, andromonoecy ...

have also been reported but are extremely rare.

Genetics

Out of 300,000 species of angiosperm, ''Silene'' are among the 5 to 10 percent whose individual offspring can be of different sexes. Hetermorphic sex-determining chromosomes are very infrequent in plant genera; some notable examples that possess them, other than ''Silene'', are '' Rumex,

Humulus ''Humulus'', hop, is a small genus of flowering plants in the family Cannabaceae. The hop is native to temperate regions of the Northern Hemisphere. Hops are the female flowers (seed cones, strobiles) of the hop species '' H. lupulus''; as a main ...

, and

Cannabis ''Cannabis'' () is a genus of flowering plants in the family Cannabaceae. The number of species within the genus is disputed. Three species may be recognized: '' Cannabis sativa'', '' C. indica'', and '' C. ruderalis''. Alternative ...

''. All species of ''Silene'' that are diploid possess the same number of chromosomes (n=12); males possess sex-determining Y chromosomes that are much larger than the X chromosomes. Recombination generally occurs only when two X chromosomes (XX) pair during female meiosis. Contrastingly, recombination is suppressed across most of the Y chromosomes during pairing in male meiosis (XY). When recombination does occur in XY chromosomes, it is confined to the tips of the chromosome, leaving most of the genetic material in the Y chromosome intact.

Importance of Y-chromosome

Several studies concentrated on ''Silene latifolia'' have shown a correlation between loci on the Y chromosome and the sex that is expressed phenotypically in the flower''.'' Two of these sex-linked genes “promote maleness” (male fertility and male promotion) and one of them codes for female suppression. Therefore, the Y chromosome carries three dominant genes that determine the sexual expression in a ''Silene'' offspring. If there are deletions and mutations in the Y chromosome during reproduction, then different sex-linked genes are lost. The different combinations of possible sex-related genes that an individual ''Silene'' can have in one Y chromosome are what creates the rich variation of sexual phenotypes throughout this genus. Silene latifolia Y Chromosome

Sexual Expression

The system for determining sex in ''Silene latifolia'' is close to that found in humans because in both cases the Y chromosome determines what reproductive mechanisms will be expressed in the offspring. They differ because there are multiple sex determining genes on the Y chromosome of ''S. latifolia'', while in humans the presence or absence of the Y chromosome strictly determines whether the offspring is male or female. Different combinations of the genes present in a ''Silene'' Y chromosome affect the sexual expression in the organism''.'' For example, there are two genetic variations that can lead to male sterility in ''S. latifolia'': if it possesses two Y chromosomes (YY) or if the Y chromosome possesses the female suppression and male promoting genes. ''Silene'' are also susceptible to a type of sexually transmitted infection that causes sterility. Another possible combination includes the presence of all three sex-linked genes (male suppressing, female suppressing, and male promoting) which produce virile male offspring. The flower is hermaphrodite when both male promoting and male fertility genes are present. Lastly, Y chromosomes carrying both female suppression and male fertility genes creates an asexual organism.

References