Look at all the data that goes into protein folding.
看看所有进入蛋白质折叠【译注】的数据。
They have traditionally maintained a large number of CPUs that have to be spun up around that activity and it can take 70 hours to finish up the whole protein folding analysis.
传统方式中,他们会维护海量的CPU,这些CPU的计算围绕着上述活动展开,一般需要70个小时才能完成整个的蛋白质折叠分析。
One way scientists try to understand protein folding is by simulating it on computers.
科学家试图理解蛋白质折叠的一种方式是通过在计算机上进行模拟。
That is because GPUs are well suited to the types of calculations involved when simulating protein folding.
这是因为模拟蛋白质折叠时所进行的计算,其类型能被图形处理器很好的适应。
Studying protein folding is key to understanding several neurodegenerative diseases that are a result of the incorrect folding of certain protein strings.
学习蛋白质折叠式了解一些神经性能疾病的关键,而这些疾病则是由于某些蛋白质的折叠错误而产生的。
The hundreds of steps of folding that create a complex protein can take a cell many minutes to complete.
而把那些垃圾蛋白打包折叠成更复杂的蛋白需要经过数百个步骤并耗去细胞许多分钟。
In trials of the game hundreds of players were given 40 protein puzzles to solve (for the trials, the folding solutions were already known).
在该游戏的试验中,数百玩家有40个待解决的蛋白质难题(为了试验,折叠的解决方案已知)。
The Blue Gene/L technology offers a powerful way to study these types of diseases, because it provides a more cost-effective (and faster) way to model the effects of protein folding and misfolding.
BlueGene/L技术提供了一种强大的方法来研究这些类型的疾病,因为它能够更加经济高效地(和更快地)建模蛋白质折叠和错误折叠的效果。
Salesin thought so, too—in fact, he thought protein folding would make a terrific computer game.
Salesin也是这么想的——实际上,他认为蛋白质的折叠可以做成一个很棒的电脑游戏。
Incorrect folding is believed to lead to a variety of diseases like Alzheimer's; therefore, the study of protein folding is of fundamental importance.
不正确的折叠会导致很多疾病,例如alzheimer病;因此,对于蛋白质折叠的研究非常重要。
But understanding the rules of protein folding remains one of biology's central problems.
但是弄清蛋白质折叠的规则一直是生物学的核心问题之一。
Even if we could solve protein-folding, the next stage would be to predict the structure of cells on the basis of the interactions of millions of proteins and other molecules.
即使我们能抓住蛋白质折叠的规律,下一步就是通过分析数百万蛋白质和其它分子之间的相互作用,来预测细胞的结构。
And one research team built a supercomputer with customized integrated circuits that dramatically speed protein-folding calculations, allowing simulations on the time scale of milliseconds.
而且一个研究团队组建了一台拥有定制的集成电路的超级计算机,定制的集成电路极大地提高了蛋白质折叠计算的速度,允许在毫秒级的时间精度上进行仿真。
As such, calreticulin presumably does not alter protein folding but regulates proper timing for efficient folding and subunit assembly.
因此,推测钙网蛋白不会改变蛋白质的折叠,而是在恰当的时间点调节有效折叠和亚基组装。
Calcium is a universal signaling molecule involved in many cellular functions such as cell motility, metabolism, protein modification, protein folding, and apoptosis.
钙是一种通用的信号传导分子,参与许多细胞功能,如细胞运动、代谢、蛋白质修饰、蛋白质折叠和细胞凋亡。
We mainly introduce the background, model and importance of computer simulation for protein folding.
介绍了计算机模拟蛋白质折叠问题的背景、模型和意义。
The HP Lattice model is an important simplified model in research protein folding.
HP格点模型是研究蛋白质折叠的一种重要的简化模型。
The process of renaturation is established in the understanding to the mechanism of protein folding in vitro.
变复性实验是建立在对蛋白质体外折叠机制的了解的基础上。
The research of the nascent peptide folding is the key to resolve the problems of the protein folding.
新生肽链折叠的研究是解决目前蛋白质折叠研究中所遇到问题的关键。
Our goal: to understand protein folding, misfolding, and related diseases.
项目目标:了解蛋白质折叠、误折以及相关的疾病。
Protein folding and protein design has become one of the most actively studied problems in modern molecular biology.
蛋白质折叠和蛋白质设计的研究是当代分子生物学的热点问题,具有重要的科学意义。
The effects of molecular chaperones, protein aggregation and macromolecular crowding on protein folding have been studied.
研究了细胞内存在的分子伴侣、蛋白质聚集和大分子拥挤环境对蛋白质折叠的影响。
We study the rate of protein folding and binding at different temperature, different folding energy and different length of protein.
研究肽链长度对蛋白质折叠和结合速度的影响。
Enumerating the allowed sequences for a given fold is known as the 'inverse protein folding problem'.
为一个给定的折叠列举允许的序列被称为逆蛋白质折叠问题。
Recently it applied on the problem of protein folding and 3d structure prediction using these methods are then reviewed. The effect and feature of these methods are also analyzed and compared.
对国内外近年来应用这些方法在蛋白质3d结构预测及折叠的研究工作进行了回顾,并分析、比较了这几种方法的效果和特点。
Other projects soon followed, focused on everything from the search for large prime Numbers to protein folding.
其它项目也随之而来,从寻找最大的素数到蛋白质折叠分析。
Due to the complexity of protein folding mechanism, simplified models are widely used to study the essential and general properties of protein folding up to date.
由于蛋白质折叠机制的复杂性,直到现在,在蛋白质折叠普遍性质的研究中简化模型仍被广泛地使用。
Due to the complexity of protein folding mechanism, simplified models are widely used to study the essential and general properties of protein folding up to date.
由于蛋白质折叠机制的复杂性,直到现在,在蛋白质折叠普遍性质的研究中简化模型仍被广泛地使用。
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