Diversity and evolution of rice progenitors in Australia

Moner, Ali Mohammad; Furtado, Agnelo; Chivers, Ian; Fox, Glen; Crayn, Darren M.; Henry, Robert J.

doi:10.1002/ece3.3989

Cited by 16 publications

(40 citation statements)

References 19 publications

(51 reference statements)

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“…These variants seem to reflect the heterozygous nature of these plants ( Figure 13). This suggests that they have resulted from hybridisation between these populations in agreement with our overall analysis of the nuclear genes (Moner et al, 2018). Figure 45 -57).…”

Section: Protein Alignment and 3d Structuresupporting

confidence: 85%

“…Intermediate location of those accessions (WR-65 and WR-44) and jumping between clades across all starch related genes was interesting ( Figure 12, 13 and Figure 45-57). Read alignment showed two types of reads that are unlikely to be an error and gave strong evidence of hybridisation between Australian wild rice populations taxa A and B (Moner et al, 2018).…”

Section: Discussionmentioning

confidence: 99%

“…Later studies (Brozynska et al, 2014b;Brozynska et al, 2017;Moner et al, 2018;Wambugu et al, 2015) using NGS data on both the chloroplast and nuclear levels showed the unique characterisation of the Australian wild rice (Figure 2 andFigure 3). The importance of these taxa lies in their having been found in remote areas geographically and far from human intervention and cross pollination with domesticated rice, which kept them as pure as ancient wild rice.…”

Section: Oryza Rufipogonmentioning

confidence: 99%

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Genetic diversity of Australian wild rice

Moner¹,

Imad²

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Rice (Oryza sativa) is the most important crop in the world. Two thirds of the world population consume rice as main part of their daily diet. Crop wild relatives are essential to provide new genetic resources in order to improve crops to meet food demand and cope with environmental changes. Domestication of rice led to loss of many important genes through application of strong selection for the traits favoured by humans. Australian wild rice has unique features and is found

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Section: Protein Alignment and 3d Structuresupporting

confidence: 85%

Section: Discussionmentioning

confidence: 99%

Section: Oryza Rufipogonmentioning

confidence: 99%

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Genetic diversity of Australian wild rice

Moner¹,

Imad²

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“…This showed that the cp genome of Australian O. rufipogon, Jpn1 (taxon A) has a closer relationship to O. meridionalis than to Asian O. rufipogon, although its nuclear type tended to show higher similarity to Asian O. rufipogon. Another perennial species, Jpn2 (taxon B), also shared similarity not only with the cp genome to O. meridionalis but also the nuclear type [14,17,18]. This analysis showed that all Australian wild rice shared some cp genetic similarity with O. meridionalis.…”

Section: Introductionmentioning

confidence: 78%

Molecular and Morphological Divergence of Australian Wild Rice

Lam

Ichitani

Henry

et al. 2020

Plants

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Two types of perennial wild rice, Australian Oryza rufipogon and a new taxon Jpn2 have been observed in Australia in addition to the annual species Oryza meridionalis. Jpn2 is distinct owing to its larger spikelet size but shares O. meridionalis-like morphological features including a high density of bristle cells on the awn surface. All the morphological traits resemble O. meridionalis except for the larger spikelet size. Because Jpn2 has distinct cytoplasmic genomes, including the chloroplast (cp), cp insertion/deletion/simple sequence repeats were designed to establish marker systems to distinguish wild rice in Australia in different natural populations. It was shown that the new taxon is distinct from Asian O. rufipogon but instead resembles O. meridionalis. In addition, higher diversity was detected in north-eastern Australia. Reproductive barriers among species and Jpn2 tested by cross-hybridization suggested a unique biological relationship of Jpn2 with other species. Insertions of retrotransposable elements in the Jpn2 genome were extracted from raw reads generated using next-generation sequencing. Jpn2 tended to share insertions with other O. meridionalis accessions and with Australian O. rufipogon accessions in particular cases, but not Asian O. rufipogon except for two insertions. One insertion was restricted to Jpn2 in Australia and shared with some O. rufipogon in Thailand.

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“…The wild species of genus Oryza is regarded as valuable resource for rice improvement because of its high genetic diversity (Brar, ; Sun, Wang, Li, Yoshimura, & Iwata, ). Application of wild rice to breeding programs can facilitate adaptation to climate change and meet the demand for food security in the face of rapid world population growth (Henry, ; Henry et al, ; Mickelbart, Hasegawa, & Bailey‐Serres, ; Moner et al, ).In this context, Oryza rufipogon and its relatives can provide a rich repository of genes and alleles for potential utilization in rice improvement with the help of genomics‐assisted breeding. Such studies can provide specific insight into natural genetic resources that can be preserved and utilized efficiently.…”

Section: Introductionmentioning

confidence: 99%

Genetic diversity among perennial wild rice Oryza rufipogon Griff., in the Mekong Delta

Lam

Buu

Lang³

et al. 2019

Ecology and Evolution

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Oryza rufipogon Griff. is a perennial species of wild rice widely distributed along the channels and rivers of the Mekong Delta, Vietnam. This study attempted to find centers of diversity among wild rice populations in this area and their inter‐relationships. The highest genetic diversity was found in the Dong Thap population and the lowest in the Can Tho population. Maternal diversity evaluated using chloroplast INDELs detected ten plastid types, five of which were novel relative to other Asian countries. The mitochondrial genome suggested two unique deletions. One 699‐bp deletion via short tandem repeats was accompanied by another deletion including orf153 . All accessions carrying the mitochondrial type were found in a particular plastid type. This unique maternal lineage was confined to specific channels where it showed vigorous vegetative growth in comparison to upstream areas where various maternal lineages and maximum genetic diversity occurred. This area along the Mekong Delta is a center of not only nuclear but also maternal diversity.

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Diversity and evolution of rice progenitors in Australia

Cited by 16 publications

References 19 publications

Genetic diversity of Australian wild rice

Genetic diversity of Australian wild rice

Molecular and Morphological Divergence of Australian Wild Rice

Genetic diversity among perennial wild rice Oryza rufipogon Griff., in the Mekong Delta

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