Researchers report the simultaneous completion of the first genomes of wild Arabidopsis thaliana strains as part of the 1001 Genomes Project.
Researchers at the Max Planck Institute for Developmental Biology in Tuebingen, Germany, reported the completion of the first genomes of wild strains of the flowering plant Arabidopsis thaliana. The entire genomes of two individuals of this species, one from Ireland, the other from Japan, have now been compared in great detail. They were found to be astonishingly different from each other, as Detlef Weigel and his colleagues write in Genome Research.
This study marks the starting point of the 1001 Genomes Project in which a total of thousand and one individuals of the same species will be sequenced. The scientists aim at correlating the genetic differences between the different strains with variation in the speed of plant growth and their resistance against infectious germs. These strategies could then also be applied to crop plants or trees.
Every genome is different. Everybody knows that the genome of apes must be different from our human genome and that both are different from the genome of a sunflower. It is only a few years ago that a huge research community produced at great cost a single human genome sequence. The assumption was that it would unlock all the essential features of our species, since any differences between us were thought to be very minor, on the order of 0.1 percent of the entire genome.
Similar views prevailed for other species, including thale cress Arabidopsis thaliana, a model organism in plant science. It is one of the best-understood organisms on earth, however, the genetic differences that allow different strains of this plant to thrive in very different places all over the Northern hemisphere are largely unknown.
Until very recently, it was assumed that the similarity in appearance of different individuals of thale cress is matched by a similar degree of similarity in the genetic material. “But is it really true that such subtle differences in our DNA or in that of thale cress can account for the great variation in individual traits? Is there indeed something like ‘the’ genome of a species, or do have to change our point of view and focus on the genome of an individual?” asks Detlef Weigel, director at the Max Planck Institute for Development Biology.
Recent advances in the technology of DNA sequencing have reduced the price for reading a single genome by several orders of magnitude, and this can now be accomplished within a week, rather than months or years. However, there are still few analytical tools for the torrent of data produced by the new generation of sequencing machines, such as the one sold by the San Diego based company Illumina. The Max Planck Institute group had to overcome a series of technical challenges to reconstruct the genome sequences of the two strains it analyzed from the rather short snippets of sequences that the Illumina instrument delivers. But the first feasibility study has now been finished, demonstrating that even with these very short sequence reads not only point differences can be identified, but also missing or extra genetic material can be tracked down. “We are confident that our method is robust, and we have begun to sequence the genomes of 80 thale cress strains”, says Weigel. The project should be finished by January 2009.
The study marks the start of a project on a much larger scale. Within the next two years the 1001 Genomes project, spearheaded by Weigel, plans to sequence at least 1001 different thale cress individuals from around the world. The hope is that armed with this information, it will be possible to correlate genetic differences with variation in the speed with which plants grow, how much they branch, or how well they resist infectious germs. This project, in turn, will inform similar projects on crop plants, which have much larger genomes and are therefore more difficult to analyze.
While this is very exciting, the task will not be done once every individual genome is sequenced. In every cell, the genomes are packaged in different ways, allowing for different activities of the same genetic material. With the next sequencing techniques, these subtle differences can be studied as well. Thus, the 1001 Genomes project will peel away only the first layer of variation.
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Journal reference:
Ossowski et al. Sequencing of natural strains of Arabidopsis thaliana with short reads. Genome Research, September 25, 2008; DOI: 10.1101/gr.080200.108
Please respond with a paragraph response addressing your thoughts, implications on society, where this project is at right now (this requires additional research), etc. (10 points)
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I think that don't matter how many projects we come up with all human are different.The one percent that make us different makes us unique in many different ways. Whether technology in the future can prove otherwise, i still think environment has a huge part to play when defining someone.Everyone adapt to their environment differently so no matter what everyone is different.
ReplyDeleteCarlissa Kyte
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ReplyDeleteI believe that this project could introduce commonalities between the Arabidopsis thaliana and other individual genomes.This would be significant in order to have a common template for reference. In turn, this would prevent unneeded sequencing of plants thats are similar to the Arabidopsis thaliana. The subtle differences that arise between plants such as the Arabidopsis thaliana can also help to explain the differences that arise in individual genomes.The text states thats researchers will also run tests on crop plants. I believe this is a good idea in order to have a bigger variety of genome sequences from plants.
ReplyDeleteI believe that this project will advance our ongoing human genome project. However it should've been expected that the plants would be very different, although organisms are .1 % different that is still a very high percentage considering the fact that we have millions of DNA sequences. These advances in DNA sequencing has made it far less expensive and time consuming. Although they said that the project should be completed in two year I believe that similar to the Human Genome Project it would be completed in less time than expected, and we will have the ability to find out what DNA sequences codes for specific traits.
ReplyDelete-Kamille Coleman
I believe this project's goal is very exciting, and interesting. I look forward to retaining more knowledge as to why humans are very similar, and it is interesting that the 0.1 percent difference of human beings, is the thing that allows human beings to differ. The constant advances in technology helps people gradually learn about themselves and the way they relate to others.
ReplyDeleteArabidopsis thaliana, the small flowering plant that is widely used as a small organism in plant biology, offers alot. It offers impotreant advantages for basic research in gentics and molecular biology. This is very interesting, considering that this is a plant. The 1001 Genome Project goal, is to shorten the time required to find a specific genotype for a particular phenotype, which is very exciting considering the many benefits to that opportunity.
-Lorina Kegler
Yes This project is getting us further to our goals to obtain more human variation information. This article is very interesting because we are gettiong closer but, thier;s just the face that we have that .1 percent that can such a big diference.Also can throw off the whole project. As stated 1001genomes.org," Along these lines it is worth reiterating that the often-quoted 1% divergence between humans and chimps turned out to be a red herring. While we differ from our closest living relatives only by about one out of every hundred bases that can be aligned, there is a much larger fraction of our genome(s) that we do not share at all." That fraction does play a part in who we are and our traits. Our enviroment does play a part, how a person or organismis brought or born in a enviroment does affect its actions and how they live. This project will succed because of technology increase at such a rapid rate. We will have so much information giving us closer and closer to discovery what each gene is for whether its diabetes or even cancer.
ReplyDeleteDa'Neane BEll
I believe that this project is very thought provoking. I still don't get how humans are 99 percent alike because we all look different and act differently. I also believe that the Arabidopsis thaliana will further technology in the Human Genome project and will help find ways to discover more genes. It is very interesting to me that genetic information and DNA sequencing can be found through a flower. I look forward to seeing the Human Genome project grow and connect will the Arabidopsis thaliana.
ReplyDeleteGordon Porter