Участник:AdmiralHood/Биологишница
Материал из Википедии — свободной encyclopedia
Шаблон:Evolutionary biology Эволюция полового размножения — процесс возникновения и развития половой дифференциации особей различных видов. Все известные виды, размножающиеся половым путём, являются эукариотами и ведут своё происхождение от одного одноклеточного эукариотического организма[1][2][3]. Половым путём размножаются многие протисты, а также многоклеточные растения, животные и грибы. Некоторые виды, такие как коловратки и размножающиеся партенокарпически[англ.] растения, утеряли эту способность. Эволюция полового размножения содержит два взаимосвязанных аспекта: возникновение полов и их дальнейшее развитие. Однако поскольку гипотезы о возникновении полов трудно проверить экспериментально, большинство работ по эволюции полов касается второго аспекта.
It seems that a sexual cycle is maintained because it improves the quality of progeny (fitness), despite reducing the overall number of offspring (the two-fold cost of sex). In order for sex to be evolutionarily advantageous, it must be associated with a significant increase in the fitness of offspring. One of the most widely accepted explanations for the advantage of sex lies in the creation of genetic variation. Another explanation is based on two molecular advantages. The first of these is the advantage of recombinational DNA repair (promoted during meiosis because homologous chromosomes pair at that time), while the second is the advantage of complementation (also known as hybrid vigor, heterosis or masking of mutations).
For the advantage due to genetic variation, there are three possible reasons this might happen. First, sexual reproduction can combine the effects of two beneficial mutations in the same individual (i.e. sex aids in the spread of advantageous traits). Also, the necessary mutations do not have to have occurred one after another in a single line of descendants.[4][неавторитетный источник] Second, sex acts to bring together currently deleterious mutations to create severely unfit individuals that are then eliminated from the population (i.e. sex aids in the removal of deleterious genes). However in organisms containing only one chromosome, deleterious mutations would be eliminated immediately, and therefore removal of harmful mutations is an unlikely benefit for sexual reproduction. Lastly, sex creates new gene combinations that may be more fit than previously existing ones, or may simply lead to reduced competition among relatives.
For the advantage due to DNA repair, there is an immediate large benefit of removing DNA damage by recombinational DNA repair during meiosis, since this removal allows greater survival of progeny with undamaged DNA. The advantage of complementation to each sexual partner is avoidance of the bad effects of their deleterious recessive genes in progeny by the masking effect of normal dominant genes contributed by the other partner.
The classes of hypotheses based on the creation of variation are further broken down below. It is important to realise that any number of these hypotheses may be true in any given species (they are not mutually exclusive), and that different hypotheses may apply in different species. However, a research framework based on creation of variation has yet to be found that allows one to determine whether the reason for sex is universal for all sexual species, and, if not, which mechanisms are acting in each species.
On the other hand, the maintenance of sex based on DNA repair and complementation applies widely to all sexual species.