human genome

human genome

 all of the approximately three billion base pairs of deoxyribonucleic acid ( DNA) that make up the entire set of chromosomes (chromosome) of the human organism. The human genome includes the coding regions of DNA, which encode all the genes (gene) (about 25,000) of the human organism, as well as the noncoding regions of DNA, which do not encode any genes. By 2003 the DNA sequence of the entire human genome was known.

      The human genome, like the genomes of all other living animals, is a collection of long polymers of DNA. These polymers are maintained in duplicate copy in the form of chromosomes in every human cell and encode in their sequence of constituent bases ( guanine [G], adenine [A], thymine [T], and cytosine [C]) the details of the molecular and physical characteristics that form the corresponding organism. The sequence of these polymers, their organization and structure, and the chemical modifications they contain not only provide the machinery needed to express the information held within the genome but also provide the genome with the capability to replicate, repair, package, and otherwise maintain itself. In addition, the genome is essential for the survival of the human organism; without it no cell or tissue could live beyond a short period of time. For example, red blood cells (erythrocytes (erythrocyte)), which live for only about 120 days, and skin cells, which on average live for only about 17 days, must be renewed to maintain the viability of the human body, and it is within the genome that the fundamental information for the renewal of these cells, and many other types of cells, is found.

      The human genome is not uniform. Excepting identical (monozygous) twins (twin), no two humans on Earth share exactly the same genomic sequence. Further, the human genome is not static. Subtle and sometimes not so subtle changes arise with startling frequency. Some of these changes are neutral or even advantageous; these are passed from parent to child and eventually become commonplace in the population. Other changes may be detrimental, resulting in reduced survival or decreased fertility of those individuals who harbour them; these changes tend to be rare in the population. The genome of modern humans, therefore, is a record of the trials and successes of the generations that have come before. Reflected in the variation of the modern genome is the range of diversity that underlies what are typical traits of the human species. There is also evidence in the human genome of the continuing burden of detrimental variations that sometimes lead to disease.

      Knowledge of the human genome provides an understanding of the origin of the human species, the relationships between subpopulations of humans, and the health tendencies or disease risks of individual humans. Indeed, in the past 20 years knowledge of the sequence and structure of the human genome has revolutionized many fields of study, including medicine, anthropology, and forensics (forensic medicine). With technological advances that enable inexpensive and expanded access to genomic information, the amount of and the potential applications for the information that is extracted from the human genome is extraordinary.

Role of the human genome in research
 Since the 1980s there has been an explosion in genetic and genomic research. The combination of the discovery of the polymerase chain reaction, improvements in DNA sequencing technologies, advances in bioinformatics (mathematical biological analysis), and increased availability of faster, cheaper computing power has given scientists the ability to discern and interpret vast amounts of genetic information from tiny samples of biological material. Further, methodologies such as fluorescence in situ hybridization (FISH) and comparative genomic hybridization (CGH) have enabled the detection of the organization and copy number of specific sequences in a given genome.

      Understanding the origin of the human genome is of particular interest to many researchers since the genome is indicative of the evolution of humans. The public availability of full or almost full genomic sequence databases for humans and a multitude of other species has allowed researchers to compare and contrast genomic information between individuals, populations, and species. From the similarities and differences observed, it is possible to track the origins of the human genome and to see evidence of how the human species has expanded and migrated to occupy the planet.

Origins of the human genome
      Comparisons of specific DNA sequences between humans and their closest living relative, the chimpanzee, reveal 99 percent identity, although the homology drops to 96 percent if insertions and deletions in the organization of those sequences are taken into account. This degree of sequence variation between humans and chimpanzees is only about 10-fold greater than that seen between two unrelated humans. From comparisons of the human genome with the genomes of other species, it is clear that the genome of modern humans shares common ancestry with the genomes of all other animals on the planet and that the modern human genome arose between 150,000 and 300,000 years ago.

      Comparing the DNA sequences of groups of individuals from different continents allows scientists to define the relationships and even the ages of these different populations. By combining these genetic data with archeological and linguistic information, anthropologists have been able to discern the origins of Homo sapiens in Africa and to track the timing and location of the waves of human migration out of Africa that led to the eventual spread of humans to other continents of the globe. For example, genetic evidence indicates that the first humans migrated out of Africa approximately 60,000 years ago, settling in southern Europe, the Middle East, southern Asia, and Australia. From there, subsequent and sequential migrations brought humans to northern Eurasia and across what was then a land bridge to North America and finally to South America.

 As humans migrated across the continents, sequence variations (variation) arose that became differentially fixed in different populations. Some variations likely reflect what are called founder effects, changes in gene frequency that occur in small populations. Founder effects are generally characterized by genes that are expressed with increasing frequency from one generation to the next and can be traced back to the original founders of the population. Other variations reflect differential selective pressures at work. For example, populations living in equatorial climates were under strong selective pressure that favoured dark skin colour to protect against extreme sun exposure, thereby decreasing the deleterious health effects caused by sunburn and skin cancer. In contrast, populations migrating to more polar latitudes, where levels of sun exposure are relatively low, experienced strong selective pressure that favoured light skin colour, thereby facilitating the absorption of sunlight by the skin for the synthesis of vitamin D. In northern Europe and Scandinavia, therefore, individuals with genetic variations leading to lighter skin colour were less likely to become vitamin D deficient and suffer from the bone disease known as rickets.

Social impacts of human genome research
      Databases have been compiled that list and summarize specific DNA variations that are common in certain human populations but not in others. Because the underlying DNA sequences are passed from parent to child in a stable manner, these genetic variations provide a tool for distinguishing the members of one population from those of the other. Public genetic ancestry projects, in which small samples of DNA can be submitted and analyzed, have allowed individuals to trace the continental or even subcontinental origins of their most ancient ancestors.

      The role of genetics in defining traits and health risks for individuals has been recognized for generations. Long before DNA or genomes were understood, it was clear that many traits tended to run in families and that family history was one of the strongest predictors of health or disease (human disease). Knowledge of the human genome has advanced that realization, enabling studies that have identified the genes and even specific sequence variations that contribute to a multitude of traits and disease risks. With this information in hand, health care professionals are able to practice predictive medicine, which translates in the best of scenarios to preventative medicine. Indeed, presymptomatic genetic diagnoses (diagnosis) have enabled countless people to live longer and healthier lives. For example, mutations responsible for familial cancers (cancer) of the breast (breast cancer) and colon (colorectal cancer) have been identified, enabling presymptomatic testing of individuals in at-risk families. Individuals who carry the mutant gene or genes are counseled to seek heightened surveillance. In this way, if and when cancer appears, these individuals can be diagnosed early, when the cancers are most effectively treated.

Judith Fridovich-Keil

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Universalium. 2010.

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