总之,化学合成的“主食股”的互补碱基组成的用于保存到位结构。
Short, chemically synthesized "staple strands," composed of complementary bases are used to hold the structure in place.
本文通过对B—DNA分子中互补碱基对A—T、G—C水合作用的量子化学计算以及最优化处理求得了它们水合作用的最优配位模式。
The optimal co-ordination mode for the hydration of complementary bases G-C, A-T in B-DNA molecule has been derived by using quantum chemical calculations and empirical potential energy functions.
失去特定的碱基互补配对,复制酶系就不能合成模板链的互补链,而是在经过复制叉后留下一个裂口。
Without specific base pairing, the replication enzymes cannot specify a complementary strand, and gaps are left after the passing of a replication fork.
失去特定的碱基互补配对,复制酶系就不能合成模板链的互补链,而是在经过复制叉后留下一个裂口。
Without specific base pairing, the replication enzymes cannot specify a complementary strand, and gaps are left after the passing of a replication fork.
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