植物防卫反应基因的表达调控是植物防卫反应中的重要环节,而转录因子在转录调控中起着重要的作用。
Transcriptional regulation of defense gene expression is a crucial part of the plant defense responses. Transcription factors play important roles in the transcriptional regulation of gene expression.
作为转录因子的STAT 3参与很多基因的表达和调控,并与其他转录因子形成复杂的调控网络。
As a transcription factor, STAT3 participated in the control of their target genes' expression and forms a complicated network together with other transcription factors.
只在调控特殊基因的转录中起作用的转录因子。
Transcription factors that only act to regulate transcription of specific genes.
植物热激转录因子主要调控植物热激蛋白基因的转录表达,对植物的耐热性起着重要的作用。
Plant heat shock transcription factors (HSFs) played the key roles in regulating the expression of heat shock protein genes.
线粒体转录终止因子蛋白的作用是与线粒体dna的特异位点结合,导致线粒体基因转录停止。
The function role of mitochondrial transcription termination factor is binding mitochondrial special DNA and leading to terminate mitochondrial gene transcription.
目的观察各种肝富集转录因子对乙型肝炎病毒(HBV)基因转录和病毒复制水平的影响,探讨其在HBV嗜肝性机理中的作用。
Objective To investigate the effects of various liver-enriched transcription factors in regulating HBV transcription and replication, and to explore their potential roles in HBV hepatotropism.
转录因子在基因转录和调控过程中发挥着很重要的作用。
Transcription factors play a very important role in gene transcription and regulation.
转录因子ap - 2就在许多参与哺乳动物发育、分化和癌症形成的基因转录调节中起到了重要的作用。
Transcription factor AP-2 plays an important role in regulating transcription of a number of genes in mammalian development, differentiation and carcinogenesis.
目的研究MTS1基因arf启动子基础转录调控区的转录激活及其与E2 F1转录因子之间的关系。
Objective to study the effect of E2F1 transcription factor on the transcriptional activity of basic transcriptional regulatory region in the ARF promoter of MTS1 gene.
研究人员曾经认为主控转录因子通过直接调节许多基因来产生广泛的影响,但事实上具有最多直接的调节靶标的转录因子处于这种层次网络的中间。
Finally, one might think master TFs achieve their wide influence through directly regulating many targets, but TFs with most direct targets are in the middle of the hierarchy.
甲状腺器官形态形成早期阶段,某些转录因子通过激活甲状腺特异基因的转录,对甲状腺细胞迁移、增殖与分化起重要作用。
Genes involved at early stage of the morphogenesis play important roles in thyroid cell migration, proliferation and differentiation by activating thyroid-specific gene transcription.
然而,质体仅具有半自主性转录和翻译机制,其内源基因的转录要依赖于核基因编码的转录因子。
However, plastids only have a semi-autonomous transcription and translation machinery. The transcription of endogenous plastid genes is largely dependent on nuclear-encoded transcription factors.
细胞核中,抑制素通过与转录因子如rb和p 53相互作用来调节靶基因的转录(2,5)。
In the nucleus prohibitins interact with transcription factors such as Rb and p53 to regulate target gene transcription (2, 5).
细胞核中,抑制素通过与转录因子如rb和p 53相互作用来调节靶基因的转录(2,5)。
In the nucleus prohibitins interact with transcription factors such as Rb and p53 to regulate target gene transcription (2, 5).
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