2.From human genome to man-made life: J. Craig Venter leads the life sciences.
Mingwei SUN ; Yin LI ; George F GAO
Chinese Journal of Biotechnology 2010;26(6):697-706
For the first time ever, the scientists of J. Craig Venter team have created actual self-replicating synthetic life. The research was just published in the Journal of Science on May 20, 2010. Although this news immediately brings the worry about the possible potential threat to biosecurity and biosafety as well as the ethical disputes, it yet indicates that mankind have made a new step forward in synthetic biology. In the time of post-genome era, we believe the advancement of synthetic biology that might affect or change the future life of human being will be widely used in energy, environment, materials, medication and many other fields.
Biological Science Disciplines
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methods
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Cloning, Organism
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Genome, Human
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genetics
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Human Genome Project
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Humans
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Synthetic Biology
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trends
3.National human genome projects: an update and an agenda
Epidemiology and Health 2017;39(1):2017045-
Population genetic and human genetic studies are being accelerated with genome technology and data sharing. Accordingly, in the past 10 years, several countries have initiated genetic research using genome technology and identified the genetic architecture of the ethnic groups living in the corresponding country or suggested the genetic foundation of a social phenomenon. Genetic research has been conducted from epidemiological studies that previously described the health or disease conditions in defined population. This perspective summarizes national genome projects conducted in the past 10 years and introduces case studies to utilize genomic data in genetic research.
Epidemiologic Studies
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Ethnic Groups
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Genetic Research
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Genetics
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Genome
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Genome, Human
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Genomics
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Human Genome Project
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Humans
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Humans
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Information Dissemination
4.National human genome projects: an update and an agenda.
Epidemiology and Health 2017;39(1):e2017045-
Population genetic and human genetic studies are being accelerated with genome technology and data sharing. Accordingly, in the past 10 years, several countries have initiated genetic research using genome technology and identified the genetic architecture of the ethnic groups living in the corresponding country or suggested the genetic foundation of a social phenomenon. Genetic research has been conducted from epidemiological studies that previously described the health or disease conditions in defined population. This perspective summarizes national genome projects conducted in the past 10 years and introduces case studies to utilize genomic data in genetic research.
Epidemiologic Studies
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Ethnic Groups
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Genetic Research
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Genetics
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Genome
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Genome, Human*
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Genomics
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Human Genome Project*
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Humans
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Humans*
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Information Dissemination
7.Genomics and world health: hopes and realities.
Journal of Zhejiang University. Science. B 2006;7(2):161-161
Due to lack of appreciation of the complexities of the interactions between nature and nurture, claims for the rapid improvements in medical care following the human genome project have been exaggerated. Although some progress has been made in certain fields, the full scope of genomic medicine may not be realised for many years.
Genetics, Medical
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Genomics
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Global Health
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Human Genome Project
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Humans
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Metaphysics
8.Next-Generation Sequencing and Epigenomics Research: A Hammer in Search of Nails.
Shrutii SARDA ; Sridhar HANNENHALLI
Genomics & Informatics 2014;12(1):2-11
After the initial enthusiasm of the human genome project, it became clear that without additional data pertaining to the epigenome, i.e., how the genome is marked at specific developmental periods, in different tissues, as well as across individuals and species-the promise of the genome sequencing project in understanding biology cannot be fulfilled. This realization prompted several large-scale efforts to map the epigenome, most notably the Encyclopedia of DNA Elements (ENCODE) project. While there is essentially a single genome in an individual, there are hundreds of epigenomes, corresponding to various types of epigenomic marks at different developmental times and in multiple tissue types. Unprecedented advances in next-generation sequencing (NGS) technologies, by virtue of low cost and high speeds that continue to improve at a rate beyond what is anticipated by Moore's law for computer hardware technologies, have revolutionized molecular biology and genetics research, and have in turn prompted innovative ways to reduce the problem of measuring cellular events involving DNA or RNA into a sequencing problem. In this article, we provide a brief overview of the epigenome, the various types of epigenomic data afforded by NGS, and some of the novel discoveries yielded by the epigenomics projects. We also provide ample references for the reader to get in-depth information on these topics.
Biology
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Computers
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DNA
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Epigenomics*
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Genetics
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Genome
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Human Genome Project
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Jurisprudence
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Methylation
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Molecular Biology
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RNA
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Virtues
9.Progress of model organism genome.
Journal of Biomedical Engineering 2004;21(3):506-511
This paper presents a description of the rules of construction and function of genome as well as evolutional relationship between organisms, and opens out the essence of life through introducing the progress in genome of model organism. The other purpose of this review is to highlight the status and function of model organism in the research of comparing genomics so as to provide the model of cycle for researches into high creature life, especially human beings life.
Animals
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Chromosome Mapping
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Genes
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genetics
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Genome
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Genomics
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methods
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trends
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Human Genome Project
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Humans
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Models, Animal