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Cited by 1,267 publications
(1,049 citation statements)
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References 116 publications
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“…Using this analysis, proteins predicted for chickpea were most similar to those from M. truncatula (89.7% of predicted chickpea proteins were similar to M. truncatula proteins) and least similar to those from A. thaliana (79.2% had similarity with A. thaliana proteins) (Supplementary Table 12). We also observed five instances in which organelle genome segments of >10 kb had been integrated into chickpea pseudomolecules, consistent with findings in both plant and animal genomes 12 . (Fig.…”
Section: Genome Assembly and Annotationsupporting
confidence: 88%
“…Using this analysis, proteins predicted for chickpea were most similar to those from M. truncatula (89.7% of predicted chickpea proteins were similar to M. truncatula proteins) and least similar to those from A. thaliana (79.2% had similarity with A. thaliana proteins) (Supplementary Table 12). We also observed five instances in which organelle genome segments of >10 kb had been integrated into chickpea pseudomolecules, consistent with findings in both plant and animal genomes 12 . (Fig.…”
Section: Genome Assembly and Annotationsupporting
confidence: 88%
“…The longest one is about 50 kb in the scaffold 000124. This observation is also not unexpected, as long stretches of chloroplast and mitochondrial DNA have been shown to be transferred into nuclear chromosomes of several plant and animal species during evolution 11 .…”
Section: Sequencing and Assemblymentioning
confidence: 64%
“…This process led to a massive, and largely unidirectional, transfer of genetic information to the nucleus, leaving contemporary mitochondrial genomes to encode a very small percentage of the proteins essential for function. Aside from some of the organelle's own translational apparatus, mitochondrially encoded proteins generally range in number from 13 in most animals to around 20-50 in most plants [4,5]. Unique to plants, this endosymbiosis was followed by a second event with a cyanobacterial progenitor, supplying photosynthetic capabilities to the cell by the present-day chloroplast.…”
Section: A Rationale For Protein Dual Targetingmentioning
confidence: 99%