DNA replication dynamics are associated with genome composition in Plasmodium species

Francis I.G. Totanes, Sarah E. Chapman, Subash K. Rai, Mathew Jones, Michael A Boemo, Catherine J Merrick
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Abstract

Plasmodium species have variable genome compositions: many have an A/T-content of at least 80% while others are similar in composition to human cells. Here, we made a direct comparison of DNA replication dynamics in two Plasmodium species whose genomes differ by ~20% A/T-content. This yielded fundamental insights into how DNA composition may affect replication. The highly A/T-biased genome of P. falciparum showed unusual replication dynamics that were not observed in the more balanced P. knowlesi - which had dynamics more like those of human cell lines. We observed that replication forks moved 50% slower in P. falciparum than in P. knowlesi. In P. falciparum, replication forks slowed down over the course of S-phase whereas in P. knowlesi, fork speed increased as in human cells. Furthermore, in both P. knowlesi and human cells, replication forks were strikingly slowed by sequences of particularly high A/T-bias, but in P. falciparum, although replication forks were inherently slow, they were not particularly slow in such biased sequences. Thus, the replisome of P. falciparum may have evolved alongside its extremely biased genome, making it unusually robust to sequence bias. Since several antimalarial drugs act to stall DNA replication, this study may have implications for the effectiveness of, and development of, antimalarial therapies.
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DNA 复制动态与疟原虫物种的基因组组成有关
疟原虫的基因组组成各不相同:许多疟原虫的 A/T-content 至少为 80%,而其他疟原虫的基因组组成则与人类细胞相似。在这里,我们对基因组中A/T-含量相差约20%的两种疟原虫的DNA复制动态进行了直接比较。这从根本上揭示了DNA组成如何影响复制。恶性疟原虫高度A/T偏倚的基因组显示出不寻常的复制动态,而在较为平衡的克雷西疟原虫中却没有观察到这种动态,后者的动态更像人类细胞系的动态。我们观察到,恶性疟原虫的复制叉移动速度比柯莱西疟原虫慢 50%。在恶性疟原虫体内,复制叉的速度在S期过程中减慢,而在克利斯疟原虫体内,复制叉的速度与人类细胞一样在增加。此外,在知更鸟和人类细胞中,A/T偏倚特别高的序列会明显减慢复制叉的速度,但在恶性疟原虫中,虽然复制叉的速度本来就很慢,但在这种偏倚序列中,复制叉的速度并不特别慢。因此,恶性疟原虫的复制体可能是伴随着其极度偏倚的基因组进化而来的,使其对序列偏倚异常强大。由于几种抗疟药物会阻止DNA复制,这项研究可能会对抗疟疗法的有效性和发展产生影响。
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