Versus Nuclear(与核)研究综述
Versus Nuclear 与核 - Here, we discriminate between the mechanisms responsible for the release of mitochondrial versus nuclear DNA and address their respective functions. [1] Comparative analyses of cpDNAversus nuclear data indicate that this history was accompanied by several clear cases of interspecific introgression. [2] The physical fractionation of cytoplasmic versus nuclear components of cells is a key step for studying the subcellular localization of molecules. [3] A plot of the energy per unit mass, -, against the energy per unit volume, e, shows many orders of magnitude difference between changes in the mechanical state of ordinary matter versus chemical reactions versus nuclear transformations. [4] In addition, we present matched cellular and nuclear microglia RNA‐seq datasets we generated from mouse and human CNS tissue to compare cellular versus nuclear transcriptomes from fresh and frozen samples. [5] A plot of the energy per unit mass, ε, against the energy per unit volume, e, shows many orders of magnitude difference between changes in the mechanical state of ordinary matter versus chemical reactions versus nuclear transformations. [6]nan [1] cpDNA与核数据的比较分析表明,这段历史伴随着几个明显的种间基因渗入案例。 [2] nan [3] 每单位质量的能量 - 与每单位体积的能量 e 的关系图显示了普通物质的机械状态变化与化学反应与核转化之间的许多数量级差异。 [4] nan [5] 每单位质量的能量 ε 与每单位体积的能量 e 的关系图显示了普通物质的机械状态变化与化学反应与核转化之间的许多数量级差异。 [6]
energy per unit 单位能量
A plot of the energy per unit mass, -, against the energy per unit volume, e, shows many orders of magnitude difference between changes in the mechanical state of ordinary matter versus chemical reactions versus nuclear transformations. [1] A plot of the energy per unit mass, ε, against the energy per unit volume, e, shows many orders of magnitude difference between changes in the mechanical state of ordinary matter versus chemical reactions versus nuclear transformations. [2]每单位质量的能量 - 与每单位体积的能量 e 的关系图显示了普通物质的机械状态变化与化学反应与核转化之间的许多数量级差异。 [1] 每单位质量的能量 ε 与每单位体积的能量 e 的关系图显示了普通物质的机械状态变化与化学反应与核转化之间的许多数量级差异。 [2]
Reaction Versus Nuclear 反应与核
A plot of the energy per unit mass, -, against the energy per unit volume, e, shows many orders of magnitude difference between changes in the mechanical state of ordinary matter versus chemical reactions versus nuclear transformations. [1] A plot of the energy per unit mass, ε, against the energy per unit volume, e, shows many orders of magnitude difference between changes in the mechanical state of ordinary matter versus chemical reactions versus nuclear transformations. [2]每单位质量的能量 - 与每单位体积的能量 e 的关系图显示了普通物质的机械状态变化与化学反应与核转化之间的许多数量级差异。 [1] 每单位质量的能量 ε 与每单位体积的能量 e 的关系图显示了普通物质的机械状态变化与化学反应与核转化之间的许多数量级差异。 [2]
versus nuclear transformation 与核转型
A plot of the energy per unit mass, -, against the energy per unit volume, e, shows many orders of magnitude difference between changes in the mechanical state of ordinary matter versus chemical reactions versus nuclear transformations. [1] A plot of the energy per unit mass, ε, against the energy per unit volume, e, shows many orders of magnitude difference between changes in the mechanical state of ordinary matter versus chemical reactions versus nuclear transformations. [2]每单位质量的能量 - 与每单位体积的能量 e 的关系图显示了普通物质的机械状态变化与化学反应与核转化之间的许多数量级差异。 [1] 每单位质量的能量 ε 与每单位体积的能量 e 的关系图显示了普通物质的机械状态变化与化学反应与核转化之间的许多数量级差异。 [2]