虽然缺乏饮食也会导致高血压,JAM - 1基因及其表达的差异也可以解释高血压会在家族成员中流传的原因。
Variations in the JAM-1 gene and its expression may explain why high blood pressure tends to run in families, although it is also caused by a poor diet.
研究人员比较蜜蜂从殖民地与健康受影响的殖民地。他们在寻找基因表达的差异在蜜蜂的胆量。
The team compared bees from affected colonies with those from healthy colonies. They were looking for differences in gene expression in the guts of the bees.
差异表达的基因的功能涉及细胞生长增殖调控、凋亡、细胞周期、应激反应、转运及代谢酶等方面。
The expressions of the various genes modulated cell growth and proliferation, apoptosis, cell cycle, stress response, transporters, chaperones, transcription regulation and drug metabolism.
小组发现,处于3个月大的幼年期小鼠和16个月大相当于中老年的小鼠间,有着难以置信的基因表达差异。
The team found staggering differences in gene expression between juvenile 3-month-old mice and 16-month-old mice (equivalent to late middle age in humans).
结果表明:三个品种鸡的心肌、肝脏组织分别检测到18和20条差异表达的基因片段。
Among the three breeds, 18 and 20 differential expressed fragments were detected in cardiac muscle and liver tissues, respectively.
移植器官和血液基因表达的差异彰显出局部免疫监测的重要性。
Differences in gene expression between the graft and blood underline the importance of local immune monitoring.
方法:将基因内翻译起始序列合成后克隆到上游含有起始密码和无起始密码的报告质粒中,研究表达水平的差异。
Methods:One of the three internal translation initiation region(TIR) was chemically synthesized and cloned into the report plasmid, and the expression of the report gene was studied.
抑制性消减杂交是一种简便易行、特异性高的高效分离差异表达基因的方法。
Suppression subtractive hybridization(SSH), which is feasible and highly specific, is one of the most efficient methods for cloning differentially expressed genes.
目的探讨应激引起大鼠脑卒中时细胞与机体防御基因的表达差异以及其在发病学中的意义。
Objective To explore the differential expression of genes for cell and organism defense in brain tissue in stroke-like episodes induced by stress in rats.
结论S SH技术是一种高效的筛选差异表达基因的方法,本实验结果为深入研究晕船易感性机制提供了重要的线索。
Conclusion SSH is an effective method for screening differentially expressed genes, the results of this study are helpful in exploring the mechanism of seasickness susceptibility.
在小鼠不同的遗传群组或品系之间,受检查的基因中超过半数的表达模式显示了显著的、本地化的差异。
More than half of the genes examined showed striking, localized differences in expression patterns between the different genetic groups, or strains, of mice.
目的克隆、分离血管内皮细胞在致动脉粥样硬化因素作用下差异表达的基因,了解动脉粥样硬化发生的分子机制。
Objective to isolate and clone the differential expressed genes induced by atherogenic factors on vascular endothelium and to understand the molecular mechanism of atherosclerosis.
这种不同发育阶段的形态学上和生物学上的变化必然伴随着不同的基因差异表达模式,导致血吸虫独特的代谢和发育过程。
It is believed that these biological and morphological changes are accompanied by differential gene expression pattern at the various stages, which result in special metabolism and development.
方法采用差异显示反转录- P CR (DDRT - PCR)方法,寻找骨组织内与健骨冲剂疗效相关的有差异表达的基因。
Methods differential display reverse transcription PCR (DDRT-PCR) was used to detect the differentially expressed genes in bone tissues associated with therapeutic effect of JGG.
目的克隆死亡因子相关基因15(MRG15)并研究其在正常晶状体和年龄相关性白内障晶状体上皮细胞中的表达,比较二者的差异。
ObjectiveTo clone the gene of mortality factor related gene 15(MRG15) and to investigate its expression in lens epithelium cell(LEC) of normal and age related cataractous eyes.
结论:获得的差异表达片段为进一步克隆甲状腺癌相关基因及功能研究奠定了良好的基础。
Conclusions: the differentially expressed fragments establish a favorable foundation for cloning genes related to thyroid carcinoma and continuing with their functional studies.
个体与种类之间的重大差异可能由基因表达的许多细小但清晰的差异的整合的结果。
It is likely that many important differences between individuals and species may result from combinations of many small but clear differences in gene expression.
因此研究支气管哮喘在疾病发作期嗜酸细胞差异表达的基因,具有十分重要而现实的科学意义。
So, it's scientific significance is very important, to study the differently expressed genes in eosinophils of patient with asthma.
结论:应用基因芯片技术筛选了与IEC缺血缺氧损伤密切相关的差异表达基因,为阐明这方面的机制提供了新的线索。
CONCLUSION: cDNA microarray can be used to screen diversified gene expression related to injury under ischemia and anoxia, which brings some new clues for studying the mechanism of IECs injury.
S100蛋白基因成员在增生性瘢痕和瘢痕疙瘩中的差异表达有助于两者的鉴别诊断。
S100 protein genes differentially express in hyperplastic scar and keloid, which facilitate the differential diagnosis between the two.
目的:构建与免疫基因相关的基因芯片,并利用其筛选出与急性排异反应相关的差异表达基因。
Object: to construct the gene array related with immunology gene and bolting the deference related with acute rejection by gene array to express gene.
结果高恶性度胶质瘤的差异表达基因数多,而低恶性度胶质瘤的差异表达基因数少。
Results More differential expression genes were detected in the malignant gliomas than the low grade and benign ones.
特定条件下的差异表达基因筛选是科学家使用芯片的初衷,也是芯片数据分析中很重要的一种应用。
The essential and initial problem of gene expression microarray data analysis is to identify differentially expressed genes (DEGs), under certain conditions.
杂种优势的产生与亲本和子代间基因的差异表达密切相关。
Differential gene expression is mainly responsible for heterosis between parents and progeny.
目的运用基因芯片技术研究氪激光诱导大鼠脉络膜新生血管的差异表达基因,为脉络膜新生血管的治疗提供实验依据。
Objective to explore different gene expression of choroidal neovascularization with gene chip technology and to provide experimental evidence for therapy of choroidal neovascularization.
目的探讨高脂饮食对大鼠神经肽Y(NPY)基因表达及分泌的影响及大鼠肥胖易感性差异的机制。
Objective To explore the effect of high-fat diet on the hypothalamic neuropeptide Y(NPY)expression and the mechanisms which predispose some individuals to become obese on high-fat diet.
结论:CAR可有效减少压力超负荷心肌肥厚幼鼠的心肌细胞凋亡,防治CHF ,效果以大剂量明显,这可能与其对凋亡相关基因表达影响的差异有关。
CONCLUSION: CAR can effectively decrease myocardiocyte apoptosis, prevent and cure CHF. The effects are dose-dependent, associated with changes of the expression of apoptosis-associated gene.
为了在基因表达水平上研究其耐盐机制,本实验室制作了盐藻在高渗震荡下的表达谱基因芯片,从中筛选到了一系列高渗震荡下差异表达的序列。
In order to study the salt tolerance mechanism at the expression level, our laboratory made the expression gene chips of Dunalliena salina after high salt shock.
目的利用基因芯片初步观察糖尿病外周血管病变的血管组织基因谱的差异性表达。
Objective To study the gene expression profile of artery in patients with diabetic peripheral angiopathy.
目的利用基因芯片初步观察糖尿病外周血管病变的血管组织基因谱的差异性表达。
Objective To study the gene expression profile of artery in patients with diabetic peripheral angiopathy.
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