基因算命

宁静纯我心 感得事物人 写朴实清新. 闲书闲话养闲心,闲笔闲写记闲人;人生无虞懂珍惜,以沫相濡字字真。
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23andMe is the first and only genetic service available directly to you that includes reports guide your life style. If you don't like your genes, you can change. No doubt, CRISPR/Cas8 system will help lead to the old Chinese way to change human fate, but for better or worse - only God knows. Heckuva unknown to me: Human acts as force of natural selection - fear nature or not fear nature? Your choice!

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“科学家” 俞强的基因宿命论,以此存照。

已有 3076 次阅读 2014-4-6 20:50 |系统分类:观点评述    推荐到群组

刚看到此文。什么是命运?命运能被改变吗?——和一个考研生的对话

 老俞居然成了基因宿命论鼓吹者。 科学网竟然推荐。 甚至有人评价:”看得出来您是一个好老师“。

如果科学网上是中国科学界的一个反映的话, 真是令人可叹!

 以科学家的名义写此类毫无科学依据,主观杜撰的论点,害人匪浅!

老俞是不是下一步可以基因算命了?是不是也准备申请专利?

 以此存照。

 


 

 

 

 

 



http://blog.sciencenet.cn/blog-453765-782769.html  此文来自科学网傅新元博客,转载请注明出处。
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5 蔡小宁 王德华 林中祥 曹聪 郝炘

发表评论 评论 (6 个评论)

[6]殷一鸣  2016-4-12 20:25
 
优生学的萌芽!很可怕
[5]李毅伟  2014-6-21 07:56
 
命运难以捉摸,拿不定主意时不妨以“丢筛子”作为模型和指引。
[4]宋华华  2014-4-9 06:06
 
傅老师的论断偏颇,不接受!
[3]宋华华  2014-4-9 06:01
 
傅老师的论断有事偏颇,不接受!
[2]俞强  2014-4-7 00:51
 
老傅你最好平心静气认真读完我的文章再根据我的具体观点进行批驳,而不是上来就戴帽子、打棍子。讲道理我认,打棍子我不认。我认为中国文化中有精华,需要我们用现代科学的观点去研究。我的大部分博文的观点都是要找出文化的生物学基础。我对“命运”的科学解释是:基因+环境。你要批判的“命运”是什么?和我对命运的理解一样吗?你可以花一点时间写一篇讲道理的文章来讨论这个问题。
你为什么认为我说的“做喜欢和对社会有用的事,尽人事听天命”会“害人”呢?害在哪里?
宿命论是不用努力,而我说的是尽人事。两者的区别你明白吗?
[1]蔡小宁  2014-4-6 22:01
 
宿命论打击人的信心。

Clustered regularly interspaced short palindromic repeats (CRISPR, pronounced crisper[2]) are segments of prokaryotic DNA containing short repetitions of base sequences. Each repetition is followed by short segments of "spacer DNA" from previous exposures to a bacteriophage virus or plasmid.[3]

The CRISPR/Cas system is a prokaryotic immune system that confers resistance to foreign genetic elements such as those present within plasmids and phages,[4][5][6] and provides a form of acquired immunity. CRISPR spacers recognize and cut these exogenous genetic elements in a manner analogous to RNA interference in eukaryotic organisms.[3] CRISPRs are found in approximately 40% of sequenced bacterial genomes and 90% of sequenced archaea.[7][note 1]

The use of CRISPR for editing genes[8][9] was the AAAS's choice for breakthrough of the year in 2015.[10]

The CRISPR interference technique has enormous potential application, including altering the germline of humans, animals, and other organisms and modifying the genes of food crops. By delivering the Cas9 protein and appropriate guide RNAs into a cell, the organism's genome can be cut at any desired location.[11][12][13] CRISPRs have been used in concert with specific endonuclease enzymes for genome editing and gene regulation in species throughout the tree of life.[14] Ethical concerns have been expressed about the prospect of using this nascent biotechnology for editing the human germline

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