【揽瓜阁 外刊精读7.0】Day3 2021.04.14【自然科学-生物、气候】

妥妥

  揽瓜阁俱乐部第七期

  Day3 2021.04.14

【自然科学-生物】A tiny genetic alteration may have let vertebrates leave the sea

(The Economist - 517字 短精读)

About 370m years ago, in the latter part of the Devonian period, the ancestor of all land vertebrates stepped out of the ocean and began to take advantage of the untapped riches found ashore. This was a big step, both literally and metaphorically, and evolutionary biologists have long assumed that bringing about the anatomical shift from functional fin to proto-leg which enabled it to happen required a fortuitous coincidence of several genetic mutations. This, though, may not be the case. A paper just published in Cell, by Brent Hawkins, Katrin Henke and Matthew Harris of Harvard University, suggests the process was propelled by a single genetic change of the smallest sort possible.

The better to understand the origin of tetrapods, as land vertebrates are known collectively to zoologists, the trio were looking at what happened to zebrafish (a common subject of experiments in developmental biology because they are small, transparent and breed prolifically) when they made minor tweaks to those fishes’ genes. Searching through more than 10,000 mutated specimens they noticed that one group of mutants sported an unusual pattern of bones in their pectoral fins. Instead of having four, they had six.

Intriguingly, the additional pairs were some distance from the body, and the bones involved lay parallel with each other in the way that the radius and ulna do in the forelimb of a tetrapod (see diagram). Moreover, and yet more intriguingly, the two new bones integrated neatly with the fin’s muscles and articulated well with the rest of the local skeleton. Most intriguingly of all, however, was that this considerable anatomical shift was brought about by the substitution in a single type of protein molecule, called Wasl, of a single one of its amino-acid building blocks.

Wasl is a signalling protein. But it is not one which, as far as the team could tell by searching through the literature on embryonic development, had previously been associated by anyone with the process of limb formation in vertebrates. However, an experiment they then conducted on mice, which involved knocking out the gene that encodes Wasl, resulted in deformation of the pertinent bones in all four of the rodents’ limbs, not just the forelimbs. Clearly, then, this protein does indeed play a role in tetrapod limb formation.

The most recent common ancestor of zebrafish and mice predates even the Devonian. That gives lots of time for patterns of embryonic development to have changed in the lines leading to those two species—and, specifically, to have changed in the way that the fins of modern fish develop. So the fact that nowadays the mutation the team have discovered affects only the pectoral fin does not rule out the possibility of its having also stimulated, way back then, the arrival in the pelvic fin of the fishy progenitor of the mouse, of the bones now known as the fibula and tibia. It therefore looks quite possible that Drs Hawkins, Henke and Harris have found the source of the crucial change that enabled the ancestor of mice—and of human beings, too—to scramble ashore and leave the sea behind.

【自然科学-气候】 Milkweed

（ WSY -436 字 短精读）

【笔记格式要求】

同学们精读这 2 篇文章并进行笔记打卡

精读笔记格式要求：

1.总结文章中心大意

2.总结分论点或每段段落大意

3.摘抄印象深刻或者觉得优美的句子

4.总结文章中的生词

5.记录阅读时间、总结时间、总时间

这里也给大家三点学习小建议哦~

精读：如遇到读不懂的复杂句，建议找出句子主干，分析句子成分，也可以尝试翻译句子来帮助理解~

英俊子遥想明天

0414
【自然科学-生物】A tiny genetic alteration may have let vertebrates leave the sea
(The Economist - 517字 短精读)

文章大意：研究证明观点“一个很小的基因改变会导致脊椎动物离开海洋”
段落大意：
1、现象：海洋的脊椎动物离开海洋
2、引用观点： a fortuitous coincidence of several genetic mutations【一些巧合】
3、BW&KH&MH质疑： a single genetic change of the smallest sort 【一个小基因改变】
4、研究展开：对象：zebrafish+发现：有一组这种鱼的胸鳍有6块骨头，而不是4块→另外两个骨头来自于一个蛋白质分子Wasl
5、对Wasl进行展开：先妥协：和脊椎动物肢体形成过程无关+ 转回：Wasl确实和四足动物肢体形成有关【验证质疑√】
6、同方向展开：验证质疑√四足动物的祖先来自海洋，由于小基因的改变使得其爬上岸

So the fact that nowadays the mutation the team have discovered affects only the pectoral fin does not rule out the possibility of its having also stimulated, way back then, the arrival in the pelvic fin of the fishy progenitor of the mouse, of the bones now known as the fibula and tibia.
出现了GMAT SC的不优结构！！ Noun of Noun doing 【哈哈哈是被支配的恐惧】
基因突变只改变胸鳍的事实并没有去除掉一种可能性，那就是这个事实也推动了老鼠鱼类祖先的到来

intriguing   adj. 有趣的；迷人的/v. 引起…的兴趣；策划阴谋；私通（intrigue的ing形式）
Progenitor n. 祖先 先驱,前辈 原本,正本
Tetrapod 四足动物   pectoral fin胸鳍  fortuitous 偶然的  ashore adv. 在岸上；向岸 adj. 在岸上的；在陆上的

再战请勿拦

打卡

CCCGO

A tiny genetic alteration may have let vertebrates leave the sea
1.总结文章中心大意
   New option: A tiny genetic alteration may have let vertebrates leave the sea.
And it is supported by experiments.

2.总结分论点或每段段落大意
P1: Background - Vertebrates leave the ocean.
      Old assumption – because of coincidence of genetic mutations.
      New opinion – because of genetic change (by BK, KH and MH)

P2+P3+P4: Introduced the experiment in the research.
   Changed the zebrafish’s gene ->
   one group was spotted additional pair of bone ->
                                                 lay in the way like tetrapod
   the additional pair of bones       integrated with the muscle and other bones  ->
                                                 from the Wasl

   Wasl is not related to limb formation as a signaling protein ->
   But experiment on mice showed that Wasl is related to limb formation.

P5: The author thinks that the trio scientists have found the source of change that enable vertebrates leave the ocean.
      
3.摘抄印象深刻或者觉得优美的句子
   Intriguingly, the additional pairs were some distance from the body, and the bones involved lay parallel with each other in the way that the radius and ulna do in the forelimb of a tetrapod (see diagram). Moreover, and yet more intriguingly, the two new bones integrated neatly with the fin’s muscles and articulated well with the rest of the local skeleton. Most intriguingly of all, however, was that this considerable anatomical shift was brought about by the substitution in a single type of protein molecule, called Wasl, of a single one of its amino-acid building blocks.
三层递进，即是对前一个试验结果的解释，又是对后文另一个试验的过渡。

4.总结文章中的生词
    Vertebrate n. 脊椎动物
                      adj. 脊椎动物（有关）的；有脊椎的
   Devonian 泥盆纪
   泥盆纪在19世纪通常被称为“温室时代”或“蕨类植物时代”。这些称呼来自当时欧洲地质学家的偏见，他们的研究集中在泥盆纪期间靠近赤道的地区，而世界其他地区的气候较冷。在1830年之前，地质学界认为石炭纪直接跟随志留纪时期。但是这种时间顺序是在发现志留纪时期的地质层中存在煤之后提出的。

   泥盆纪作为地质时期的确立是一场重大争论的高潮，这场争论发生于1830年–1837年左右。最终英国地质学家莫企逊与亚当·塞奇威克在1839年共同确定了泥盆纪。

脊椎动物
泥盆紀時的魚類呈現高度的多樣化，因此這個時代又常被稱為「魚類時代」。在泥盆紀早期，甲胄鱼类繁盛；在泥盆紀中晚期有颌鱼类開始展現多樣性，種類比起志留紀和泥盆紀早期時更加繁盛；有颌鱼类中的盾皮魚类主宰了海洋環境。

无脊椎动物
腕足类和珊瑚比起志留紀更加繁盛；原始菊石出现。

陆地与淡水
昆虫出现；节肢动物遍布了整个陸地的森林。有颌鱼类中的肉鳍鱼类主宰了淡水環境；肉鳍鱼类在泥盆紀晚期開始爬上陸地，腹鰭與胸鰭演化成強健的四肢。

   Anatomical adj. 解剖的；解剖学的；结构上的
   Fortuitous adj. 偶然的
   Mutation n. 突变；变化；元音变化
   Mutate vi. 变化，产生突变
                vt. 改变，使突变
   Mutant adj. 突变的；因基因变异而不同的
                n. 突变体；突变异体怪物；令人讨厌（或可怕）的事物
   Tetrapod n. 四足动物；（有四足支撑的）四脚物
                   adj. 四足动物的
   Intriguingly adv. 有趣地；有魅力地
   Ulna n. 尺骨
   Amino n. （化学）氨基
               adj. 氨基的
   Embryonic adj. [胚] 胚胎的；似胚胎的
   Pelvic adj. 骨盆的
   Fibula n. [解剖] 腓骨；扣针，搭扣
   Tibia n. 胫骨；[昆] 胫节（昆虫）

5.阅读时间: 5min
   总结时间: 20min

Milkweed
1.总结文章中心大意
   The experiments of milkweed show that the relationship of insects and the plant varies even within a species.

2.总结分论点或每段段落大意
   New research: plants show a surprising amount variation in shaping the word around them even within a specie.

   Old view: Mutualism within milkweed plant and aphids and ants.
   Aphids drink plant’s sap and produce honeydew -> Ants eat honeydew -> Ant protect plants -> Plants provide sap for aphids.

   BUT KM and AA wonder the relationship held on a plant by plant basis.

   Their experiment:
   Sample - 10 X 32 families.
   Time – whole summer.
   Result – 20 families: ants increased the aphids population
                  12 families: ants decreased the aphids population
   Conclusion – milkweed plays a role in changing the relationship between the two insects.

   Explain of the conclusion: different genotypes lead to variation.
     
   Supported by community ecologist GW whose major is about individual genetic differences, and by GC.
     
3.摘抄印象深刻或者觉得优美的句子
   This averages out of ants boosting aphid populations overall but reveals a previously unimagined role for milkweeds in changing the relationship between the two insects...

4.总结文章中的生词
   Milkweed n. 乳草属植物；马利筋属植物；野参类
   Sap n. （植物的）液，汁；精力，元气；坑道，地道；（非正式）笨蛋，傻瓜；大头短棒，棍棒
          v. 使衰竭，使伤元气；挖坑道；挖掘以破坏基础；（水等作用）逐渐侵蚀；用大头短棒击
   Caterpillar n. [无脊椎] 毛虫；履带车
                    adj. 有履带装置的
   Befuddle v. 使糊涂，使迷惑；使昏沉，使昏迷

5.阅读时间: 4min
   总结时间: 30min

超级努力的Evita

【水生-陆生进化】
1.        主旨：介绍水生动物进化到陆生动物的关键原因，是一个单一的突变引起的
2.        结构：
【P1】驳斥旧观点，引出新观点
【P2-P4】介绍实验是如何发现突变是来自于一个单一的特殊蛋白质
【P5】再次表明作者态度，作者支持新观点
精读后补充：作者列出新观点（态度是支持新观点），然后介绍实验发展这个蛋白质关键作用的过程（虽然文献无相关记载，但是剔除蛋白质之后四肢无法生成，故可得蛋白质对四肢形成的重要作用。）结尾说虽然该突变看着作用小，但不能排除它对进化的进一步作用，因此这个微小突变就可能是水生到陆生动物进化的关键原因。
3.        生词：
vertebrates脊椎动物；untapped 未开发的riches 财富；metaphorically比喻的；anatomical解剖学上的；proto原型；bringing about引起；propelled推进；prolifically多产的；Intriguingly有趣的；ulna尺骨；forelimb前肢，前翼；signalling发信号的；predates在日期上早于
4.        句子： So the fact that nowadays the mutation the team have discovered affects only the pectoral fin does not rule out the possibility of its having also stimulated, way back then, the arrival in the pelvic fin腹鳍 of the fishy progenitor 起源of the mouse, of the bones now known as the fibula腓骨 and tibia胫骨
5.        时间：
【第一遍】阅读4’00’，总结大纲4’34’’,
【第二遍】精读+标注单词+写补充信息 12’’09
【总时间】约25mins

想考IVY

英俊子遥想明天 发表于 2021-4-14 09:44
0414
【自然科学-生物】A tiny genetic alteration may have let vertebrates leave the sea
(The Economis ...

感觉段落 划分的好有结构层级啊呜呜

风一样的小葵

【第一篇】
1.总结文章中心大意
A tiny genetic alteration may have let vertebrates leave the sea

2.总结分论点或每段段落大意
提出总论点：3个人一起提出鱼类进化到陆地脊椎动物可能是因为单个基因的变化
实验对象：斑马鱼，众多实验标本中，有一组有6个鱼鳍，而不是通常的4个
观察结果：突变斑马鱼的2个突变鱼鳍和周围组织衔接很好，并且是由于一个W的蛋白分子的突变引起的
进一步验证论点：虽然W没有正式被证实和四肢进化有关，但是在一个针对小白鼠的实验中，去掉了w后四肢都有退化现象而不仅仅是前肢，因此w确实和四肢进化有关
鱼和老鼠的祖先都有充分时间进行进化，老鼠祖先的腹鳍也可能是由此激发的，进而发展为现在的腓骨和胫骨。3人的实验找到了老鼠、人类祖先离开大海爬向岸上的主要来源

3.摘抄印象深刻或者觉得优美的句子
This was a big step, both literally and metaphorically, and evolutionary biologists have long assumed that bringing about the anatomical shift from functional fin to proto-leg which enabled it to happen required a fortuitous coincidence of several genetic mutations.

4.总结文章中的生词
ashore 岸上
metaphoricall 隐喻的
anatomical  解剖的
proto-leg 原始腿
fortuitous  偶然
propelled by 由...推动
tetrapods 四足动物
trio 三个人
zebrafish 斑马鱼
breed prolifically 多产
tweak 调整
pectoral  胸的
mutant 突变体
ulna 尺骨（尺骨为前臂的稳定骨，是两根前臂骨中位于内侧且较长的骨）
forelimb 前肢
musculature 肌肉组织
intriguingly 有趣的
neatly 整齐地
articulated 铰接的
a single one of its amino-acid building blocks 它的氨基酸组成部分中的一个
a signalling protein 信号蛋白
pertinent 相关的
knocking out 淘汰
predate 早于
Devonian 泥盆纪
pelvic fin 腹鳍
fibula 腓骨（下肢小腿长骨之一。较细，在小腿外侧）
tibia 胫骨 （小腿的内侧,小腿内侧的骨头粗,名字叫胫骨）
femur 大腿骨

5.记录阅读时间、总结时间、总时间
20min
25min
45min

风一样的小葵

【第二篇】
1.总结文章中心大意
一种植物可以根据自己的利益来影响与昆虫间的互助关系

2.总结分论点或每段段落大意
【一种实验结果】实验表明，一种M植物可以和蚜虫 蚂蚁保持互助关系。
【提出质疑】这种关系是否在植物间有所不同
【进行新的实验并观察结果】进行了一个广泛的实验，一部分的实验结果表明蚂蚁使蚜虫数量增多，另一部分蚜虫变少；研究员认为减少的原因在于植物的操纵现象，虽然植物利用蚜虫吸引蚂蚁来赶走猎食者，但是蚜虫会吸食植物的糖和水分，因此一部分基因类别的植物希望有更少的蚜虫
【总结结论】这个实验完成了之前没有做过的连结，植物能控制与昆虫的互助关系是一个大发现

3.摘抄印象深刻或者觉得优美的句子

4.总结文章中的生词
maddening 使发疯
aphids 蚜虫
defecate 排便；澄清
mutualism 互助主义
befuddle 使迷惑
ripple effects 涟漪效应

5.记录阅读时间、总结时间、总时间
15min
15min
30min

塔塔Thanos

https://mubu.com/doc/6dGGmRrhTbQ
day3

超级努力的Evita

【Milkweed】
1.        主旨：介绍Milkweed在它自己以及aphids和ants这种共生结构中的控制角色
2.        结构：
【P1】引出主题，植物可以影响自己和周围其他物种的相互关系
【P2】介绍MW和两种昆虫的共生关系
【P3-P5】实验过程以及实验结果
【P6】结论，MK会控制这两种昆虫的数量关系
精读后补充：做实验的目的是想要验证，共生关系是否是按株出现的个例，还是该植物的普遍现象。实验发现植物蚜虫数量增多会吸引更多蚂蚁来保护自己，但是蚜虫会消耗植物的能量，所以有时候蚜虫数量不能太多。研究个体基因差异以及其在社群中的连锁反应有利于弄清之前关于社群生态的迷思。
3.        生词：
sort out挑选出，分类；promise to do承诺做某事；maddening令人发狂的；aphid蚜虫；defecate排泄；honeydew蜜露；mutualism共栖；genotypes基因型；ripple effect连锁反应；make sense of搞清……的意思；befuddle使糊涂。
句子： The study “makes a connection that nobody has made before,’ for individual genetic differences and their ripple effects through a community promises to make sense of previously befuddling variation in community ecology.   
4.        时间：
【第一遍】阅读4’00’，总结大纲3’53’’,
【第二遍】精读+标注单词+写补充信息 12’’04
【总时间】约20mins