Human genome project

Logo of the human genome project

The Human Genome Project ( HGP , English Human Genome Project ) was an international research project. It was founded in the autumn of 1990 with the aim of fully deciphering the human genome , ie identifying the sequence of the base pairs of human DNA on its individual chromosomes by sequencing . The human genome contains all of the information that can be inherited. With the base pairs of its DNA it codes among other things all proteins . The complete sequencing of the genome forms the basis for research into many biological processes, such as the possibility of researching hereditary diseases and a better understanding of the molecular mechanisms that cause cancer . By comparing the human genome with that of other living beings, scientists hope to gain further knowledge about the origin of certain diseases and new therapeutic options .

Objective of the project

The goals of the project included:

identify all human genes ;

find the sequence of approximately 3 billion base pairs of DNA;

develop and improve relevant technologies such as data analysis;

address ethical , legal and social issues that would arise as a result of the project.

history

The first expression of the human genome visualized as a series of books on display in the 'Medicine Now' room (Wellcome Collection, London). The information from the 3.4 billion base pairs of DNA has been transferred to more than 100 volumes of books, 1000 pages each, in the smallest possible font size.

The project was founded in the USA in October 1990 by Luigi Luca Cavalli-Sforza as part of a publicly financed international research network. The HGP was first headed by James Watson , one of the discoverers of the structure of DNA. In 1992, however, he left the project after a dispute with NIH boss Bernadine Healy because he rejected Healy's attempts to patent gene sequences. He was succeeded by the renowned geneticist Francis Collins . At the beginning, over 1,000 scientists in 40 countries took part in the project. The aim was to sequence the human genome to 2005. 1992, the project published genetic maps for chromosomes 21 and Y . In June 1995 Germany also joined the international human genome project of the Human Genome Organization and began its work one year later. The German Human Genome Project ( DHGP ) is funded by the Federal Ministry of Education and Research and the German Research Foundation. The Human Genome Organization faced private competition in 1998 from the newly founded US company Celera . Chromosome 22 was sequenced until 1999 . In 2000, chromosome 21 was completely sequenced, increasing the opportunities for research into the effects of trisomy 21 .

The HGP reached its peak in public when in 2001 the complete sequencing of the human genome was announced independently of both research companies, which was often dubbed “decryption” in the media.

In 2003 the completion was finally announced within the framework of the applied standards. The German Human Genome Project successfully ended its activities in June 2004. Building on the work of the German Human Genome Project, the Federal Ministry of Education and Research has been funding the National Genome Research Network (NGFN) since 2001 . The focus of the work is the investigation of the genetic causes of common diseases. The ENCODE project was started as a follow-up project by the National Human Genome Research Institute (NHGRI) .

Since April 2003, the human genome has been officially fully deciphered. Although the meaning of all genes is not yet known, these have been researched in follow-up projects of the HGP since 2003.

Overall, the human genome contains around 20,000 to 25,000 genes. At the beginning, at least 100,000 genes were expected to encode all the characteristics of the human body.

Instead of confirming the thesis of genetic determinism , the results of the HGP "quickly made it clear that it would be extremely difficult to infer certain properties of certain genes". Rather, it became apparent that there was no causally directed relationship between genotype and property, “but that the expression of phenotypic characteristics was a highly complex process of interactions and feedback between DNA, RNA , proteins and cytoplasm ” [ibid].

Future tasks

There are many other research projects based on the research of the Human Genome Project , for example the 1000 Genome Project .

Several genes are involved in the development of almost all hereditary diseases. Here, research is now faced with the task of clarifying their interaction in detail in the long term and developing appropriate drugs.

After the genome has been deciphered, efforts are now being made to decipher the entirety of the DNA modifications as well as the transcriptome , proteome and metabolome of humans.

literature

Eric S. Lander, MS Lauren M. Linton, Bruce Birren, et al. : Initial sequencing and analysis of the human genome . In: Nature . tape 409 , no. 6822 , February 15, 2001, ISSN 0028-0836 , p. 860–921 , doi : 10.1038 / 35057062 (English, nature.com ).
SG Gregory, KF Barlow et al. a .: The DNA sequence and biological annotation of human chromosome 1 . In: Nature . tape 441 , 2006, p. 315–321 , doi : 10.1038 / nature04727 (English).

Web links

Management of the Human Genome Project within the US National Institute of Health
German Human Genome Project ( Memento of February 3, 2007 in the Internet Archive ) archived website in the LOC archive
Link to the completely decrypted genome at Gutenberg.org (currently not available as the site is blocked for German IP addresses (as of May 20, 2019))
History of the Human Genome Project (English, Genetics in History; including the history of the Human Genome Project )
National Genome Research Network NGFN
Lisa Gannett: The Human Genome Project. In: Edward N. Zalta (Ed.): Stanford Encyclopedia of Philosophy .

Individual evidence

^ Human Genome Project Information. In: ornl.gov. US Department of Energy Human Genome Project, archived from the original on March 15, 2008 ; accessed on January 31, 2016 .
^ Trends in Human Genetics: Deciphered Life. In: Spektrum.de. Spektrum der Wissenschaft Verlagsgesellschaft mbH, accessed on January 31, 2016 .
^ Human Genome Project Completion: Frequently Asked Questions. In: genome.gov. National Human Genome Research Institute, accessed January 31, 2016 .
↑ When the world pulls together: The Human Genome Project (HGP). In: ngfn.de. National Genome Research Network, accessed January 31, 2016 .
↑ Archive link ( Memento from July 18, 2010 in the Internet Archive )
↑ Martin G. Weiss: The dissolution of human nature . In: Martin G. Weiß (Ed.): Bios and Zoë . Suhrkamp, Frankfurt a. M. 2009, ISBN 978-3-518-29499-4 , pp. 46 .
↑ German addresses are blocked - www.gutenberg.org. Retrieved May 20, 2019 .

[1] Human Genome Project Information. In: ornl.gov. US Department of Energy Human Genome Project, archived from the original on March 15, 2008 ; accessed on January 31, 2016 .

[2] Trends in Human Genetics: Deciphered Life. In: Spektrum.de. Spektrum der Wissenschaft Verlagsgesellschaft mbH, accessed on January 31, 2016 .

[3] Human Genome Project Completion: Frequently Asked Questions. In: genome.gov. National Human Genome Research Institute, accessed January 31, 2016 .

[4] When the world pulls together: The Human Genome Project (HGP). In: ngfn.de. National Genome Research Network, accessed January 31, 2016 .

[5] Archive link ( Memento from July 18, 2010 in the Internet Archive )

[6] Martin G. Weiss: The dissolution of human nature . In: Martin G. Weiß (Ed.): Bios and Zoë . Suhrkamp, Frankfurt a. M. 2009, ISBN 978-3-518-29499-4 , pp. 46 .

[7] German addresses are blocked - www.gutenberg.org. Retrieved May 20, 2019 .