Collins C. Njoku scite author profile

Collins C. Njoku

2Publications

88Citation Statements Received

86Citation Statements Given

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University of California, Davis

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Multiple origins promote the ecological amplitude of allopolyploid Aegilops (Poaceae)

Meimberg

Rice

Milan

et al. 2009

American J of Botany

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Polyploidy has been ubiquitous in plant evolution and is thought to be an important engine of biodiversity that facilitates speciation, adaptation, and range expansion. Polyploid species can exhibit higher ecological tolerance than their progenitor species. For allotetraploid species, this higher tolerance is often attributed to the existence of heterosis resulting from entire genome duplication. However, multiple origins of allopolyploid species may further promote their ecological success by providing genetic variability in ecological traits underlying local adaptation and range expansion. Here we show in a group of allopolyploid species in the genus Aegilops that range size and abundance are correlated with the number of inferred origins. We found that allopolyploid Aegilops spp. contain multiple chloroplast haplotypes, each identical to haplotypes of the diploid progenitor species, indicating multiple origins as the major source of variation. The number of inferred origins in each allopolyploid species was correlated to the total area occupied by the allopolyploid and the tendency for the species to be common. Additionally, we found differences in ecological tolerance among independent origins in Aegilops triuncialis. These results strongly support the hypothesis that the introduction of genetic variability by multiple origins can increase the ecological amplitude and evolutionary success of allopolyploid species.

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Dynamics of the Rhomboid-like Protein RHBDD2 Expression in Mouse Retina and Involvement of Its Human Ortholog in Retinitis Pigmentosa

Ahmedli¹,

Gribanova²,

Njoku³

et al. 2013

Journal of Biological Chemistry

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Background: RHBDD2 is distantly related to rhomboids, membrane-bound proteases. Results: In retina, RHBDD2 exists as a monomer in all cells throughout life and a homotrimer only in cone outer segments; a mutation in RHBDD2 possibly leads to retinitis pigmentosa. Conclusion: RHBDD2 plays important roles in development and normal retinal function. Significance: This is the first characterization of RHBDD2 and its association with retinal disease.

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Collins C. Njoku

Multiple origins promote the ecological amplitude of allopolyploid Aegilops (Poaceae)

Dynamics of the Rhomboid-like Protein RHBDD2 Expression in Mouse Retina and Involvement of Its Human Ortholog in Retinitis Pigmentosa

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