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Now, if you look on your handout, there's a reconstruction of this tent-like sanctuary at the top as well as a schematization of its contents below.
你们可以看一下我发的材料,最上面有对这个像帐篷一样的圣所的重组,下面有对这个圣所里面内容的图示。
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Like we talked about with insulin; make large quantities of this recombinant viral protein, and use that as a vaccine.
就像我们讲过的胰岛素,生成大量重组的病毒蛋白,并将其作为疫苗使用
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He could take our molecules which have been scattered, put them back together, " and say "Ha, that's your body."
他可以收起,我们散落的分子,将它们重组,然后说“看,那是你的肉体“
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And there are some early indications that the mass actually increases after each reorganization.Now I will send you on the weekend with a chemistry joke.
还有一些早期的标志,质量事实上上升了,在每个重组之后,现在,周末我会给你们发化学笑话。
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So Augustus actually reconstituted the Senate, and it was just that, a Senate reconstituted by the emperor.
奥古斯都早已重组元老院,由帝王重组的元老院。
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So in music what has happened is that we have organized this steady stream of beats in ways that we can understand.
因此在音乐里,我们用可以理解的方式,把这些稳定的一连串拍进行重组
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As readers, it's our duty, it's our obligation, to sort out and to reassemble.
作为读者,我们的任务和责任,就是鉴别挑选和重组。
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You make a recombinant virus that has all the normal components of the virus but also has a gene that you want.
你就造出了一个重组病毒,它有普通病毒的各种组分,又带有你需要的基因
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Then we say the watch and the tower, in both cases is the same object when it was reassembled, we reassembled the body.
当我们说到手表和塔的例子时,两个例子中当物体被重组时,都是原来那个物体,我们重组了肉体之后。
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Here is the explanation of why those 2 things work differently in the reassembling cases.
现在我给你们讲解一下为何,这两个重组例子的结果会不同。
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This concept of introducing foreign genes, genes that are made of recombinant DNA into animals using this kind of technique is widely used in biomedical research.
这种通过基因重组,来向动物体内导入外源基因的方法,广泛应用于,各种生物医药的研究中
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We can certainly understand the possibility that God would perform a miracle, put the molecules back together, to turn the body back on, same body, same person.
我们可以理解上帝可能,有能力制造这个奇迹,把所有的分子重组,把肉体重组,同样的肉体,同一个人。
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Talking that way assumes that when you put the body back together, when God puts the body back together on Judgement Day, that that's still my body.
如果有那种可能,那么当你把肉体重组,当上帝在审判日,把肉体重组时,那个还是我的肉体。
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Remind you, that's not to say that I myself do believe that there will be a Judgement Day, and on that day God will reassemble the bodies.
提醒大家,我并不是说,我自己相信,有审判日的到来,那天上帝会重组所有肉体。
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I just have to confess, I don't know what the best thing to say about these cases, I find myself inclined to think reassembled watch, same watch; reassembled tower, not same tower.
我必须得承认,我不知道,究竟怎么样解释这些例子好,我发现自己还是觉得,重组的手表是原来的手表;,重搭的塔并非原来的塔。
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The reassembled watch isn't the very same watch.
重组的手表不会是,原来那个手表。
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So van Inwagen concludes, if you have an object, and you take it apart, and then put them all back together again, you don't have the very same object that you started out with.
所以范·,因瓦根总结道,如果你将拥有的物体拆开,再把所有的零件重组,你手上的并非,原来的那个物体。
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If God gathers up all those small molecules, that had composed my body, reassembles them in the right order and put these calci molecules next to that hydrogen molecules, so forth and so on, reassembles them in a right way.
如果上帝重组了所有构成我肉体的,微粒分子,将它们以正确的次序重组,把大量的钙生分子和,氢分子放在一起,组合起来,将它们以对的次序重组。
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Not every plasmid in your test tube is going to have the right gene inserted in the right way.
不是试管里的每个质粒,都会与正确的DNA片段重组
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Some are going to reform and some are going to reform with the gene in, and some probably aren't going to reseal at all under the conditions that I've used.
有些质粒会自己合上,有些质粒会与DNA片段重组并合上,还有的在我提供的条件下,也根本合不上
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The answer is it will want to reform with itself, and if I have these in solution then how many reform with itself and how many reform with the molecule I'm interested probably depends on the relative concentrations of both in the solution and what conditions I have it at.
答案是质粒有可能会自己闭合,如果质粒和我感兴趣的DNA片段,都在溶液里那有多少质粒会自己合上,有多少与我感兴趣的DNA重组呢,这大概取决于两者在溶液里的相对浓度,和我让溶液处在什么条件下
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That's why molecular biology, one of the reasons why it's turned out to be such a powerful tool, because if you can think creatively you can find all different ways to using these very simple principles to recombine molecules, to make unique new DNA sequences.
这就是分子生物学,如此有用的原因之一,因为如果你有创造力,你可以用各种方法,运用这些简单的原理来重组分子,创造独特的DNA新序列
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