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活性调控
相关语句
  activity regulation
     Effects of NAT on growth and physiological activity regulation of plants
     NAT对植物生长及生理活性调控作用的初步研究
短句来源
     Peptide-transporters(PepT1) and it's activity regulation
     小肽转运蛋白(PepT1)及其活性调控
短句来源
     These proteins may be involved in maturation, transport, localization, and activity regulation of the Crk1.
     这些蛋白质可能参与Crk1的成熟、转运、定位以及活性调控
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  “活性调控”译为未确定词的双语例句
     Objective To study the biological significance of telomeric repeat binding factor-1(TRF-1) and Tankyrase 1 expression in oral squamous carcinoma and the mechanism of Tankyrase 1 regulating telomerase activity.
     目的研究端粒相关调控蛋白端锚聚合酶-1(Tankyrase 1)和端粒重复序列结合因子-1(TRF-1)在口腔颌面部鳞癌细胞中的表达,初步探讨Tankyrase 1对端粒酶活性调控的机制。
短句来源
     The Manner of p300 Participating in the Activation of IL-12 p40 Gene Transcription
     p300参与IL-12 p40启动子活性调控的作用方式
短句来源
     Regulation of the Expression and Activity of β1, 4-Galactosyltransferase Ⅰ by Focal Adhesion Kinase
     粘着斑激酶对β1,4-半乳糖基转移酶Ⅰ的表达和活性调控
短句来源
     Study on Mechanism and Regulation of CD3AK Cytotoxic Activity
     CD3AK杀伤机理及其杀伤活性调控效应的初步研究
短句来源
     CONCLUSION: Gyp regulated lymphocyte transformation and DNA synthesis by regulating DNA polymerase Ⅱ activity.
     结论:Gyp能通过调节DNA多聚酶Ⅱ活性调控淋巴细胞转化.
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  相似匹配句对
     Intramolecular Regulation of Cardiovascular Bioactive Peptides
     心血管活性多肽的分子内调控
短句来源
     Mechanisms of the Regulation in the Telomerase Activity
     端粒酶的活性及其调控机制
短句来源
     Activated Carbon Fibers
     活性碳纤维
短句来源
     regulate and control the enterprise groups with state policy;
     国家政策调控 ;
短句来源
     Active Packaging Materials
     活性包装材料
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  activity regulation
Major enzyme types involved in the transformation of lignin and aromatic xenobiotics are discussed, with emphasis on activity regulation under the conditions of secondary metabolism and oxidative stress.
      
Specific features of enzyme activity regulation by citrate and trans-aconitate under these conditions were revealed.
      
In the EEG of children with learning problems and a deficit of voluntary activity regulation (VAR), signs of the functional immaturity of the fronto-thalamic regulatory system (FTS) were found.
      
New data demonstrate that changes in chromatin structure play a greater role in the fine gene activity regulation than considered before.
      
Gene activity regulation at the level of genome domains is considered with special emphasis on locus control regions (LCR), which are thought to act as dominant regulatory elements providing for the active state of tissue-specific gene domains.
      
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A rat tetrapliod cell line,named RC,was established from a rat sarcoma.The RC cells with typical morphology of fibroblasts can grow very well on glass surface in RPMI1640 medium containing 15% calf serum,but not in half-soft agar.The cell line has been subcultured for 112 passages.The results from chromosome G-banding analysis indicate that the RC cell is tetrapliod cell in which one X chromosome has a homogeneously staining region.The NOR activity of the RC cells is significantly higher than the doubled NOR...

A rat tetrapliod cell line,named RC,was established from a rat sarcoma.The RC cells with typical morphology of fibroblasts can grow very well on glass surface in RPMI1640 medium containing 15% calf serum,but not in half-soft agar.The cell line has been subcultured for 112 passages.The results from chromosome G-banding analysis indicate that the RC cell is tetrapliod cell in which one X chromosome has a homogeneously staining region.The NOR activity of the RC cells is significantly higher than the doubled NOR activity of rat dipliod cells (P<0.001).The RC cell line is useful for research on transcription of the genes coding for 18S+28S rRNA and relationship between gene exhibition and gene dosage.There is extremely high activity of phosphotase in the RC cells.The isoenzyme pattern of the RC cells is quite different from the rat muscle cells.The results from injection of the RC cells in vivo and observation of scanning electron microscope on the cells demonstrate that the RC cells are non-lumorigenic.There is no difference in chromosome C-banding patterns between the RC cells and the rat dipliod cells.

从大鼠自然诱发的肉瘤细胞中,我们建立了一个四倍体细胞系(4n=84),命名为RC(ratcell)。它具有典型的成纤维细胞外形,能在玻璃表面贴壁生长,但不能生长在琼脂半固体培养基中。该细胞在含15%小牛血清的RPMI 1640培养基中生长良好,至今已连续繁殖112世代,细胞群体倍增时间约为15小时。染色体G-带分析表明,RC为整四倍体细胞,它的1条X染色体在第32至34区为均染区。RC细胞核仁组织者(NORs)活性显然比大鼠二倍体细胞NORs活性的加倍还高(P<0.001)。这个具有非常高NORs活性的RC细胞系对于研究细胞18S+28S rRNA基因转录活性的调控、基因表达与基因剂量关系有一定的意义。RC细胞还有异常高的磷酸酯酶活性,而且它的同工酶谱也与大鼠肌肉细胞明显不同。体内接种实验和扫描电镜的观察表明,RC是非致瘤细胞。RC细胞各号染色体的C-带图样与大鼠二倍体细胞无明显的差异。

The changes in the ultrastructure of fibrillar centres, morphological type of nucleolus, and the content of Ag-nucleolus protein of Sodium Butyrate treated MGC-803 cells have been studied. It was found that the number of fibrillar centres and Ag-staining granules, content of Ag-staining protein of nucleolus were decreased, and nucleolar morphological type was changed from reticulated to ring-shaped in NaBT treated MGC-803 cells.These results indicate that NaBT regulate the proliferation and differentiation of...

The changes in the ultrastructure of fibrillar centres, morphological type of nucleolus, and the content of Ag-nucleolus protein of Sodium Butyrate treated MGC-803 cells have been studied. It was found that the number of fibrillar centres and Ag-staining granules, content of Ag-staining protein of nucleolus were decreased, and nucleolar morphological type was changed from reticulated to ring-shaped in NaBT treated MGC-803 cells.These results indicate that NaBT regulate the proliferation and differentiation of cells by inhibiting rRNA synthesis and rDNA transeriptional activity.

用透射电镜观察到MGC-803细胞的核仁是网织型的,在网眼内分布有电子密度低的纤维中心。MGC-803细胞经丁酸钠作用后,其核仁的类型发生了改变,多呈环型的,核仁的中央有一个大的纤维中心;纤维中心和银染颗粒的大小和数目明显减低;用图像分析仪测得核仁银染蛋白所占面积与核总面积的比值也明显降低。结果提示:丁酸钠可能通过抑制rRNA合成和rDNA转录活性调控MGC-803细胞的增殖。

This paper analysed the content of starch and soluble sugars in pericarp, the amylase activities in pericarp and 32P transport intensity of 7 rapeseed varieties (Brassica napus L. ) in different pod growth stages. and found that the amylase activity in pericarp was a key regulating factor. The amylase activety in pericarp not only regulated the transformation of starch to soluble sugars. but also affected the transport intensity of assimilates to seeds.

本文通过测定7个甘蓝型油菜品种在不同角果发育时期的角果皮内淀粉与可溶性糖含量,角果皮内淀粉酶活性以及角果皮内(32)_P向籽粒的运输强度,发现油菜角果内同化物的转运和分配是受角果皮内淀粉酶活性调控的,角果皮内淀粉酶活性调控淀粉向可溶性糖的转变,并进而影响同化物向籽粒的运输强度。

 
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