Olawale Mashood Aliyu scite author profile

The data presented here provide a framework for choosing specific genotypes for correlations with large "omics" data sets being collected for Boechera to study population structure, gene flow, and evolution of specific traits. We hypothesize that low levels of apomeiosis represent an ancestral condition of Boechera, whereas high apomeiosis levels may have been induced by global gene regulatory changes associated with hybridization.

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A Conserved Apomixis-Specific Polymorphism Is Correlated with Exclusive Exonuclease Expression in Premeiotic Ovules of Apomictic Boechera Species

Corral

et al. 2013

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Apomixis (asexual seed production) is characterized by meiotically unreduced egg cell production (apomeiosis) followed by its parthenogenetic development into offspring that are genetic clones of the mother plant. Fertilization (i.e. pseudogamy) of the central cell is important for the production of a functional endosperm with a balanced 2:1 maternal:paternal genome ratio. Here, we present the APOLLO (for apomixis-linked locus) gene, an Aspartate Glutamate Aspartate Aspartate histidine exonuclease whose transcripts are down-regulated in sexual ovules entering meiosis while being up-regulated in apomeiotic ovules at the same stage of development in plants of the genus Boechera. APOLLO has both "apoalleles," which are characterized by a set of linked apomixis-specific polymorphisms, and "sexalleles." All apomictic Boechera spp. accessions proved to be heterozygous for the APOLLO gene (having at least one apoallele and one sexallele), while all sexual genotypes were homozygous for sexalleles. Apoalleles contained a 20-nucleotide polymorphism present in the 59 untranslated region that contains specific transcription factor-binding sites for ARABIDOPSIS THALIANA HOMEOBOX PROTEIN5, LIM1 (for LINEAGE ABNORMAL11, INSULIN1, MECHANOSENSORY PROTEIN3), SORLIP1AT (for SEQUENCES OVERREPRESENTED IN LIGHT-INDUCED PROMOTERS IN ARABIDOPSIS THALIANA1), SORLIP2AT, and POLYA SIGNAL1. In the same region, sexalleles contain transcription factorbinding sites for DNA BINDING WITH ONE FINGER2, DNA BINDING WITH ONE FINGER3, and PROLAMIN BOX-BINDING FACTOR. Our results suggest that the expression of a single deregulated allele could induce the cascade of events leading to asexual female gamete formation in an apomictic plant.

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Hybrid apomicts trapped in the ecological niches of their sexual ancestors

Mau

Lovell

Corral

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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Asexual reproduction is expected to reduce the adaptive potential to novel or changing environmental conditions, restricting or altering the ecological niche of asexual lineages. Asexual lineages of plants and animals are typically polyploid, an attribute that may influence their genetic variation, plasticity, adaptive potential, and niche breadth. The genus Boechera (Brassicaceae) represents an ideal model to test the relative ecological and biogeographic impacts of reproductive mode and ploidy because it is composed of diploid sexual and both diploid and polyploid asexual (i.e., apomictic) lineages. Here, we demonstrate a strong association between a transcriptionally conserved allele and apomictic seed formation. We then use this allele as a proxy apomixis marker in 1,649 accessions to demonstrate that apomixis is likely to be a common feature across the Boechera phylogeny. Phylogeographic analyses of these data demonstrate (i) species-specific niche differentiation in sexuals, (ii ) extensive niche conservation between differing reproductive modes of the same species, (iii) ploidy-specific niche differentiation within and among species, and (iv) occasional niche drift between apomicts and their sexual ancestors. We conclude that ploidy is a substantially stronger and more common driver of niche divergence within and across Boechera species although variation in both traits may not necessarily lead to niche evolution on the species scale.Boechera | UPGRADE2 | APOLLO | geographic parthenogenesis | niche conservation

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On the origin and evolution of apomixis in Boechera

et al. 2013

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The genetic mechanisms causing seed development by gametophytic apomixis in plants are predominantly unknown. As apomixis is consistently associated with hybridity and polyploidy, these confounding factors may either A) be the underlying mechanism for the expression of apomixis, or B) obscure the genetic factors which cause apomixis. To distinguish between these hypotheses, we analyzed the population genetic patterns of diploid and triploid apomictic lineages and their sexual progenitors in the genus Boechera (Brassicaceae). We find that while triploid apomixis is associated with hybridization, the majority of diploid apomictic lineages are likely the product of intra-specific crosses. We then show that these diploid apomicts are more likely to sire triploid apomictic lineages than conspecific sexuals. Combined with flow cytometric seed screen phenotyping for male and female components of apomixis, our analyses demonstrate that hybridization is an indirect correlate of apomixis in Boechera. KeywordsBoechera; Apomixis; Apomeiosis; Hybridization; Polyploidy Sexual, outcrossing reproduction is the ancestral state of embryo development in flowering plants (Karron et al. 2012). This breeding system has generated much of the biodiversity on earth and provides species with the potential to adapt to changing conditions, thus improving the chance for long term survival. Despite these advantages, many groups of plants have independently evolved asexual methods to produce seed (van Dijk and Vijverberg 2005;Carman 1997). Among these mechanisms, gametophytic apomixis (hereon "apomixis") is one of the most common (Hörandl and Hojsgaard 2012 requires the coordination of several independent phenotypes including the formation of an unreduced embryo sac (female apomeiosis) and embryo development from an unfertilized and unreduced egg cell (parthenogenesis). Other traits, including the production of unreduced pollen (male apomeiosis) and the development of functional endosperm (e.g. pseudogamy) are typical of apomictic genotypes (Mogie 1992;Bicknell and Koltunow 2004). Considering that apomixis evolves from sexuality, the expression of any one of these traits alone would be deleterious. For example, female apomeiosis without parthenogenesis would lead to ploidy increases after each generation (although see Van Dijk & Vijverberg, 2005). The evolutionary mechanism causing the simultaneous establishment of these traits is the foremost debate in the apomixis literature.Many authors have suggested that the genome-wide affects of hybridization and polyploidy may induce apomixis (Carman 1997;Comai et al. 2003;Madlung et al. 2002;Sharbel et al. 2010; Wang et al. 2004) as evidenced by the nearly uniform pattern of hybridity and polyploidy in apomictic lineages (Pongratz et al. 1997;Bicknell and Koltunow 2004;Mogie 1986; Asker and Jerling 1992;Nelson-Jones et al. 2002). However, this correlation may be indirect: since apomictic lineages are expected to accumulate mutations through time (Hopf et al. 1988;Kondrashov 1985), hybridity ...

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