There is same bases usage frequency in coding sequence between leading strand and lagging strand.
先导链与滞后链编码序列的碱基使用频率基本一致。
Basically, a DNA strand is pushed through a 2nm hole on a silicon chip and, as it moves through, that chip is able to use an electrical charge to read the strand's coding sequence.
DNA链被拉进硅基芯片上的直径2nm的孔,随着它穿过小孔,该芯片可以通过电荷读取到链上的编码序列。
The result show:1 there is same bases usage frequency in coding sequence between leading strand and lagging strand 2 There also same bases usage frequency in first codon, second codon and third codon.
先导链与滞后链在第一、第二、第三密码子碱基使用频率基本一致且显著正相关。
The result show:1 there is same bases usage frequency in coding sequence between leading strand and lagging strand 2 There also same bases usage frequency in first codon, second codon and third codon.
先导链与滞后链在第一、第二、第三密码子碱基使用频率基本一致且显著正相关。
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