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1 eby alleviates some of the usual pitfalls of asexual reproduction.
2 eleterious recessive mutations on sexual and asexual reproduction.
3  symptomless phase and facilitating Septoria asexual reproduction.
4 ols the transition from vegetative growth to asexual reproduction.
5 tribution of macronuclear chromosomes during asexual reproduction.
6  budding program during subsequent rounds of asexual reproduction.
7 served maintenance of chromosome copy during asexual reproduction.
8 ch Hymenoptera transition between sexual and asexual reproduction.
9 the population from meiotic mutations due to asexual reproduction.
10 th haploid and diploid phases and sexual and asexual reproduction.
11  expresses all genes required for growth and asexual reproduction.
12 tes photosynthetic carbon uptake, growth and asexual reproduction.
13  forces of evolutionary decay that accompany asexual reproduction.
14 ions, population structure and sexual versus asexual reproduction.
15 1 independent transitions between sexual and asexual reproduction.
16 tasis, correspondingly is predicted to favor asexual reproduction.
17 osed by sexual reproduction as compared with asexual reproduction.
18 al framework for analyzing TE dynamics under asexual reproduction.
19 obacterium Burkholderia, which controls host asexual reproduction.
20 tes that rupture during repetitive cycles of asexual reproduction.
21 auses defects in later vegetative growth and asexual reproduction.
22 ower than an asexual population because only asexual reproduction allows some overlap of successive a
23 ts found here highlight the need to consider asexual reproduction along with mixed mating in models o
24                                  Selfing and asexual reproduction also may allow reproduction when ci
25 us holocyclic aphids exhibit both sexual and asexual reproduction and alternate among primary and sec
26  Lack of congruence is caused by polyploidy, asexual reproduction and over-differentiation by taxonom
27 -an effect that can emerge in evolution with asexual reproduction and results in delayed fixation tim
28 ons suggests multiple independent origins of asexual reproduction, and a divergence-dating analysis i
29 de a lower limit on the number of origins of asexual reproduction, and an upper limit on the age of a
30 leotide resolution during vegetative growth, asexual reproduction, and infection-related morphogenesi
31 losseri is a colonial ascidian that grows by asexual reproduction, and on a weekly basis regenerates
32                            Embryogenesis and asexual reproduction are commonly considered to be coord
33          Although transitions from sexual to asexual reproduction are thought to have important evolu
34                     Gametophytic apomixis is asexual reproduction as a consequence of parthenogenetic
35 out bdelloid rotifers and their reversion to asexual reproduction as it pertains to HGT is included.
36 production has an immediate cost relative to asexual reproduction, as males only express their contri
37 rasites reduce the reproductive advantage of asexual reproduction by adapting to infect clonal genoty
38 ssue dynamics of the adult as well as during asexual reproduction by budding, foot regeneration, or e
39 p) regulates multicellular complexity during asexual reproduction by moderating the core developmenta
40                       Apomixis is a means of asexual reproduction by which plants produce embryos wit
41 tory gene expression during regeneration and asexual reproduction (by fission) in the segmented worm
42 and how a planarian rips itself apart during asexual reproduction can be fully explained through biom
43 ed for correct cell pattern formation during asexual reproduction (conidiation) and for initiation of
44 eles observed here suggests that adoption of asexual reproduction could itself be an evolutionary mec
45                                 During their asexual reproduction cycle (about 48 hours) in human red
46 ent study reveals that the intraerythrocytic asexual reproduction cycle of Plasmodium falciparum ends
47                             The erythrocytic asexual reproduction cycle of Plasmodium falciparum, the
48  malaria are caused by the intraerythrocytic asexual reproduction cycle of Plasmodium falciparum.
49                              During its 48 h asexual reproduction cycle, the malaria parasite Plasmod
50                                   Subsequent asexual reproduction cycles exhibited gradual regaining
51 d does not interfere with vegetative growth, asexual reproduction, differentiation of early sexual ti
52  has the capacity for a significant level of asexual reproduction, each analysis suggested that M. gr
53 s been paid to the consequences of long-term asexual reproduction for sequence evolution in diploid o
54                                              Asexual reproduction in animals, though rare, is the mai
55                                              Asexual reproduction in Aspergillus nidulans is characte
56 xual fertility that accompanied the shift to asexual reproduction in cultivars was reflected by signa
57 sential for vegetative growth and sexual and asexual reproduction in culture.
58    Apomixis is a naturally occurring mode of asexual reproduction in flowering plants that results in
59 nesis (LEC1 and FUS3) processes, we analyzed asexual reproduction in Kalanchoe leaves.
60 ther the presence of Rickettsia is linked to asexual reproduction in Liposcelis.
61 mode of reproduction that evolved long after asexual reproduction in response to specific genetic and
62                                              Asexual reproduction in the annelid Enchytraeus japonens
63       Stolons (elongated stems) are used for asexual reproduction in the crop species potato (Solanum
64  reprogramming in methylomes is required for asexual reproduction in the fungus.
65 g the evolutionary origin and maintenance of asexual reproduction in this species contributes to a ge
66 allocation (carbon storage, root biomass and asexual reproduction) in both treatments relative to the
67 fe history of multigenerational, stolon-like asexual reproduction, interspersed with dispersal by wat
68                                  Facultative asexual reproduction is a trait commonly found in invasi
69                        The commonest type of asexual reproduction is clonal growth (vegetative propag
70                                              Asexual reproduction is expected to reduce the adaptive
71 ature of sessile organisms, but this form of asexual reproduction is thought to interfere with sexual
72                                              Asexual reproduction is widespread in land plants, inclu
73 ce of apomixis-the transition from sexual to asexual reproduction-is a prominent feature of modern ci
74 ascomycetous fungi choose between sexual and asexual reproduction; it is only when appropriately stre
75                     We provide evidence that asexual reproduction likely initiated as a process of or
76                                During normal asexual reproduction, many of these same genes are neede
77 gamy and somatic embryogenesis and that such asexual reproduction may be ancient.
78 xual reproduction on levels of load, and how asexual reproduction may interact with genetic drift (po
79 ther asexual reproduction modes (the regular asexual reproduction mode in this organism and vascular
80 ar budding deviated significantly from other asexual reproduction modes (the regular asexual reproduc
81                           By contrast, under asexual reproduction, non-altruistic genotypes seem to b
82 1736 and 1744 culminated in the discovery of asexual reproduction of an animal by budding, the first
83                               Cloning is the asexual reproduction of an individual, such that the off
84                           Cloning allows the asexual reproduction of selected individuals such that t
85  Arabidopsis does not support the growth and asexual reproduction of the barley pathogen, Blumeria gr
86                                              Asexual reproduction of the parasite within its host cel
87 rsity of mechanisms for achieving sexual and asexual reproduction, often simultaneously.
88                               The effects of asexual reproduction on both the number of deleterious m
89 etic Daphnia to assess the effect of partial asexual reproduction on effective population size and am
90 finite populations to identify the effect of asexual reproduction on levels of load, and how asexual
91 r switches between, for instance, sexual and asexual reproduction, or cyclic and non-cyclic life hist
92  mode and epistasis are allowed to coevolve, asexual reproduction outcompetes sexual reproduction.
93 results offer another ecological context for asexual reproduction: rapid size reduction as a defense.
94                                   Increasing asexual reproduction resulted in an increase in mean fit
95  the regulation of cell identity, sexual and asexual reproduction, secondary metabolism and pathogene
96 e advantages and disadvantages of sexual and asexual reproduction should consider the possibility of
97 roviride, injury results in the formation of asexual reproduction structures restricted to regenerati
98                                        Under asexual reproduction, such hidden epistasis influences e
99 ltanudG mutant forms minute colonies lacking asexual reproduction: this phenotype resembles the pheno
100                                    Apomixis, asexual reproduction through seed, enables breeders to i
101                                    Apomixis, asexual reproduction through seed, is widespread among a
102              This is a key step in apomixis (asexual reproduction through seeds) and could help to pr
103                                    Apomixis, asexual reproduction through seeds, has the potential to
104                    Introduction of apomixis, asexual reproduction through seeds, into crop species ha
105                                              Asexual reproduction through seeds, or apomixis, is a pr
106 netic species) avoid the negative effects of asexual reproduction through the production of rare male
107     The relative contributions of sexual and asexual reproduction to the genetic structure of populat
108       In the freshwater coelenterate, hydra, asexual reproduction via budding occurs at the base of t
109                                              Asexual reproduction via thelytokous parthenogenesis is
110 MAT genes can also affect similar aspects of asexual reproduction when expressed in C. heterostrophus
111 ayed severe morphological defects related to asexual reproduction when grown on glucose (1%) minimal
112  the activation of an alternative pathway of asexual reproduction, which involves gradual regaining o
113 pitulate existing models, which suggest that asexual reproduction will overpower horizontal transfer
114                   The two models incorporate asexual reproduction with varying levels of outcrossing

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