温度、空气流量是重要的调控因子。
Temperature and airflow were important control factors in bio slurry reactor process.
推测aos是乙烯合成的上游调控因子之一。
It suggests that AOS is one of the up stream regulators in ethylene biosynthesis.
E2F转录因子是控制细胞周期的关键调控因子。
The E2F transcription factors are key regulators in cell cycle regulation.
因此,细胞周期调控因子可能是一种很好的治疗靶分子。
Thus, cell cycle regulators may be an excellent therapeutic targets.
研究发现肥胖,心脏病,营养不良的相关的主要代谢调控因子。
Researchers Discover Master Metabolism Regulator with Links to Obesity, Heart Disease, and Malnutrition.
DMRT基因是一类新发现的含有DM保守盒的转录调控因子。
DMRT genes are a kind of transcription factor which possesses a common motif called the DM domain.
其中,植物激素作为调控因子一直是纤维发育领域研究的热点。
Study on phytohormones, the most important regulators, is always a hot topic of cotton fiber development.
目的:探讨细胞周期调控因子与下咽癌临床生物学行为之间的关系。
Objective:To determine the relationship between cell cycle regulatory factors and biological behavior of hypopharyngeal squamous cell carcinoma.
因此69号基因可能是在脊髓损伤修复过程中起关键作用的调控因子。
Thus we conclude that 69 might be a crucial transcription regulatory factor during spinal cord injury and regeneration.
WRKY蛋白是一个转录调控因子大家族,在植物中参与各种生物进程。
WRKY proteins are a large family of transcriptional regulators involved in a variety of biological processes in plants.
目的观察自体骨髓联合细胞调控因子经皮注射治疗骨折不愈合的临床疗效。
Objective To observe the therapeutic effect of autologous bone marrow in combination with fracture healing stimulin therapy on nonunion.
血浆纤溶酶原激活物抑制剂(PAI) - 1是纤溶系统的主要调控因子。
Plasminogen activator inhibitor-1 (PAI-1) is the main regulator of the fibrinolytic system.
该文综述了蜕皮激素诱导的果蝇程序性细胞死亡中各遗传调控因子之间的关系。
The genetic regulators that are involved in the ecdysone-induced programmed cell death in Drosophila and their relationship between each other were reviewed in this article.
拟南芥WRKY2蛋白定位于细胞核, 表明WRKY2 是转录调控因子。
The fact that Arabidopsis WRKY2 protein was nuclear-localized supported that WRKY2 functioned as a transcription factor.
现就成骨细胞的来源、分化调控因子、复合移植及中医药方面的研究进展作一综述。
In this article, the source of osteoblast, regulatory factor, composite graft and Chinese medicine research progress were reviewed.
PF4属于造血负性调控因子,它抑制造血细胞增殖,但是它的这种作用是可逆的。
PF4 is a negative regulator of hematopoiesis and can inhibit hematopoietic cell proliferation but this effect is reversible.
C2H2型锌指是最普遍的类型,它们作为重要的转录调控因子参与许多的生理过程。
The most common zinc finger gene type is the C2H2 type, which plays an important role in many physiological processes as transcriptional regulators.
PF 4是造血负性调控因子,它是血细胞生成的抑制剂,特别是对巨核细胞的生成。
PF4 can inhibit newborn blood vessel production and is a negative regulator of hematopoiesis.
目的:观察补肾方对慢性再障患者造血调控因子的调节作用,探讨补肾中药的调节机制。
Objective: to observe how Bushen formula to regulate hematopoiesis regulation factors of chronic aplastic anemia patients, and discuss the regulation mechanism of kidney promote herbs.
这种独一无二的特性受到来自于转录因子和表观遗传调控因子二者间复杂相互作用的调控。
This unique property is controlled by a complex interplay between transcriptional factors and epigenetic regulators.
这一结果提示第三信使IEG作为转录调控因子可能参与了铅对学习记忆损害的神经毒性过程。
The results indicated that IEG, as a transcription regular factor, may participate in the neurological toxicity damaging the learning and memory ability induced by lead.
细胞凋亡的发生受胞外或胞内的多种刺激源所诱导,其中热激蛋白是细胞凋亡的调控因子之一。
Apoptosis is induced by an array of extra - or intracellular stimuli and regulated by a variety of proteins including the heat shock proteins (HSPs).
植物病原菌作为森林生态系统的重要组成成分及调控因子之一,在森林动态中扮演着重要的角色。
As a component and regulator in forest ecosystem, plant pathogens play an important role in forest dynamics.
EYA蛋白作为重要的转录调控因子,直接参与胚胎发育过程中的细胞增殖、组织分化和器官发育。
EYA was thought to function as a transcriptional regulatory factor that plays an important role in cell proliferation, tissue differentiation and embryonic development.
并进一步利用免疫印迹、免疫组化技术探讨了细胞周期相关调控因子在游离核分裂关键时期的表达。
Western blotting and immunohistochemical were applied to exploring the expression of the cell-cycle regulating factors during the free nuclei mitosis failure.
为了揭露这些潜在调控因子是如何工作、如何相连的,研究人员系统消除了这些因子,记录通路输出。
To figure out how these potential regulators work and how they are wired together, the researchers systematically eliminated each of them, and recorded the changes in the circuit's output.
文章还介绍了KISS-1、GPR54基因的结构、表达、多态性以及和其它生殖调控因子之间的相互关系。
This review also introduced the structure, expression, homology comparison, polymorphism of KISS-1 and GPR54 genes and their interrelation with other regulators of reproduction.
研究这些调控因子在着床前胚胎发育中的表达模式和调控机制,将有助于我们对早期胚胎发育机制的进一步了解。
The study of the expression pattern and regulation mechanism of these factors in early embryo development would help to further understand the mechanism of early embryogenesis.
锌指蛋白是一类广泛存在于原核和真核生物体中的重要转录调控因子,在动植物的生长发育过程中均起着重要作用。
The family of zinc finger proteins is an important member of transcription factors which exists widely in prokaryote and eukaryote.
锌指蛋白是一类广泛存在于原核和真核生物体中的重要转录调控因子,在动植物的生长发育过程中均起着重要作用。
The family of zinc finger proteins is an important member of transcription factors which exists widely in prokaryote and eukaryote.
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