無(wú)論智者或是愚者 人人都愛聰明。畢竟 像愛因斯坦 特斯拉或斯蒂芬?;艚疬@類智者 毫無(wú)疑問 幫助我們重塑世界。那么 我們能通過基因來提升整個(gè)人類的智商嗎?
DNA is the basic code of life found in every living organism.And this DNA is made up of genes which in turns are made up of four smaller parts,called Nucleus Basis,represented by the letters,ATG and C.In humans,these basis are arranged as 3 billion pairs,which essentially act as a blueprint for everything the cells in your body need to do.
DNA是每個(gè)生物體內(nèi)生命基礎(chǔ)。DNA由基因構(gòu)成 而基因有由 更小的部分 即堿基構(gòu)成 分別以A T G C表示。人體中 這些基底構(gòu)成了30億種組合,它們成為了你身體細(xì)胞的一舉一動(dòng)的藍(lán)圖。
Literally,all that you are,from the way you look and act,is defined by the organization of these four biological compounds,And scientists have been able to find the connections between the way genes are organized and certain traits you exhibit:from your sex to your eye color,and even,diseases you may develop.It was actually the Human Genome Project,which first began to analyze and map all the genes in the human body.The initial project took over a decade and 3 billion dollars to complete,with teams across the entire globe working together.
或者說 你的一切 無(wú)論是外表還是舉止,都由這四個(gè)生化物的組織構(gòu)成決定??茖W(xué)家也已經(jīng)找到了基因組織和你身上的特質(zhì) 之間的關(guān)系 從你的性別到眼睛的顏色,甚至 你會(huì)生什么病。是“人類基因工程”,最先開始分析并測(cè)序人體內(nèi)所有的基因。初期項(xiàng)目耗時(shí)十余年 投入了30億美元,并調(diào)動(dòng)全球的團(tuán)隊(duì)共同努力。
Today,with a much smaller team,the same could be accomplished in a few days for only 4000 dollars.And the more sequence of genomes we accumulate,whether be from plants or microbes,or humans,the more we have to compare and contrast the traits we see in the outside with the gene combinations we find on the inside.And that's exactly what the Cogintive Genomics Project hopes to achieve.
今天 更小的團(tuán)隊(duì)在幾天內(nèi)就能做到同樣的事 只需4000美元。我們積累的染色體組序列越多,無(wú)論來自植物或微生物 或人類,我們需要做的比較 即我們所看到的外表特征 與內(nèi)在基因組合的關(guān)系就越多。這就是“認(rèn)知基因組”計(jì)劃的目標(biāo)。
By using over 2000 people with IQs over 150,and plans to bring on 20000 more subjects,researchers at BGI Institute in China are looking at the genetic basis for intelligence.In other words,they are scanning through the DNA of thousands of intelligent people to look for patterns that may be responsible for making them smart in the first place.Of course,this is a much more complicated task than looking for,say,a disease pattern.Tay-sach's and Huntington's Disease are both caused by a single gene mutation,and are easily recognized.
通過研究2000名智商超過150的人,以及計(jì)劃中額外的20000人,中國(guó)北京基因組研究所的研究者們正著眼于智力的基因基礎(chǔ)。換句話說 他們?cè)趻呙钄?shù)千名聰明人的DNA 以尋找最初讓他們聰明絕頂?shù)幕蚰J?。?dāng)然 這比尋找導(dǎo)致疾病的基因模式復(fù)雜得多。臺(tái)-薩氏病 及亨廷頓癥都由一條基因變異造成,并很容易被發(fā)現(xiàn)。
Hair and eye color,on the other hand,depending on multiple genes interacting,though,with proper analysis,it can still be predicted.But traits like personality or intelligence,are almost certainly the result thousands of genes interacting in unique ways.A patter which scientists have yet to discover.And the truth is,they may never find one.But what happens if they do? I mean,it could be a future of genius babies.With the advantage of vitro fertilization,you might be able to create multiple embryos and scan their DNA.Scientists will then be able to identify which traits are most likely in the embryo based on the genes,allowing parents to essentially choose which baby they most desire.
另外 頭發(fā)和眼睛的顏色取決于多條基因的相互作用,不過 通過適當(dāng)分析 仍可被預(yù)測(cè)。但性格和智力這樣的特點(diǎn),肯定是上千條基因以獨(dú)特的方式作用的結(jié)果。這個(gè)模式還有待科學(xué)家發(fā)現(xiàn)。真相是 他們也許永遠(yuǎn)也找不到。不過 如果他們發(fā)現(xiàn)了呢?我是說 這可能是一個(gè)天才兒童的未來。利用試管受精 你甚至能做出 多個(gè)胚胎并掃描其DNA。科學(xué)家就可找出哪些特質(zhì)更可能 體現(xiàn)在胚胎中 基于它們的基因,讓家長(zhǎng)選擇自己中意的孩子。
For example,this embryo has a 50% chance of being exceptionally musical,or this one has a 58% chance of having an IQ over 150.In this way,without actually changing the genetic information,but rather screening it,we may actually be able to increase the intelligence of future generation.
比如 這個(gè)胚胎有50%的可能性具有音樂天分,這個(gè)有58%的可能性智商超過150.通過這種方式 不改變基因信息,而通過掃描 我們也許能 提升后代的智力水平。
But what about you?Could you ever change your genetic makeup to make you smarter,faster or stronger right now?