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Fitting in: Newly evolved genes adopt a variety of strategies to remain in the gene pool
October 03, 2005The largest-ever experimental analysis of duplicated genes provides insight into mechanisms of evolution
Zürich, Switzerland - When Mother Nature creates an identical copy of a gene in an organism's genome, the duplicated copy is usually deleted, inactivated, or otherwise rendered nonfunctional in order to prevent genetic redundancy and to preserve biological homeostasis. In some cases, however, gene duplicates are maintained in a functional state. Until now, the biological and evolutionary forces behind the maintenance of these duplicates as functional components of the genome have remained unclear.
To determine the basis for the persistence of functional gene duplicates in the genome, three scientists at the Institute of Molecular Systems Biology at the Swiss Federal Institute of Technology in Zürich have collaborated on the largest systematic analysis of duplicated gene function to date. Using an integrative combination of computational and experimental approaches, they classified duplicate pairs of genes involved in yeast metabolism into four functional categories: (1) back-up, where a duplicate gene copy has acquired the ability to compensate in the absence of the other copy, (2) subfunctionalization, where a duplicate copy has evolved a completely new, non-overlapping function, (3) regulation, where the differential regulation of duplicates fine-tunes pathway usage, and (4) gene dosage, where the increased expression provided by the duplicate gene copy augments production of the corresponding protein.
Their results, which appear in the October issue of the journal Genome Research, indicate that no single role prevails but that all four of the mechanisms play a substantial role in maintaining duplicate genes in the genome.
"Our results contradict other recent publications that have focused on a single selective pressure as the basis for the retention of gene duplicates," explains Dr. Uwe Sauer, principal investigator on the project and Professor at the Institute of Molecular Systems Biology at the Swiss Federal Institute of Technology in Zürich. "We show that, at least for yeast metabolism, the persistence of the duplicated fraction of the genome can be better explained with an array of different, often overlapping functional roles."
Yeast metabolism provides an ideal model for investigating the functional basis for gene duplication because a large proportion of genes involved in this biological process have been duplicated. Of the 672 genes involved in yeast metabolism, 295 genes can be classified into 105 families of duplicates. To put this into perspective, the yeast genome has an estimated total of 6,000 genes, 1,500 of which are considered to be duplicates. An ancient whole-genome duplication event is thought to be responsible for the formation of many of these duplicate copies.
Sauer's group demonstrated that of the 105 families of duplicated gene families involved in yeast metabolism, 34 demonstrated back-up function, 19 were involved in increased gene dosage, 18 exhibited regulatory functions, and 18 had evolved new, more specialized functions. Therefore, each of these mechanisms plays a substantial and important role in the maintenance of functional duplicates in the gene pool.
Cold Spring Harbor Laboratory
Their results, which appear in the October issue of the journal Genome Research, indicate that no single role prevails but that all four of the mechanisms play a substantial role in maintaining duplicate genes in the genome.
"Our results contradict other recent publications that have focused on a single selective pressure as the basis for the retention of gene duplicates," explains Dr. Uwe Sauer, principal investigator on the project and Professor at the Institute of Molecular Systems Biology at the Swiss Federal Institute of Technology in Zürich. "We show that, at least for yeast metabolism, the persistence of the duplicated fraction of the genome can be better explained with an array of different, often overlapping functional roles."
Yeast metabolism provides an ideal model for investigating the functional basis for gene duplication because a large proportion of genes involved in this biological process have been duplicated. Of the 672 genes involved in yeast metabolism, 295 genes can be classified into 105 families of duplicates. To put this into perspective, the yeast genome has an estimated total of 6,000 genes, 1,500 of which are considered to be duplicates. An ancient whole-genome duplication event is thought to be responsible for the formation of many of these duplicate copies.
Sauer's group demonstrated that of the 105 families of duplicated gene families involved in yeast metabolism, 34 demonstrated back-up function, 19 were involved in increased gene dosage, 18 exhibited regulatory functions, and 18 had evolved new, more specialized functions. Therefore, each of these mechanisms plays a substantial and important role in the maintenance of functional duplicates in the gene pool.
Cold Spring Harbor Laboratory
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The time of day matters to forest trees dealing with drought, according to a new paper produced by a research team led by Professor Malcolm Campbell, University of Toronto Scarborough's vice-principal for research and colleagues in the department of cell and systems biology at the St. George campus.
Delft breakthrough in bioethanol production from agricultural waste
With the introduction of a single bacterial gene into yeast, researchers from Delft University of Technology in the Netherlands achieved three improvements in bioethanol production from agricultural waste material: 'More ethanol, less acetate and elimination of the major by-product glycerol' This week the invention was published in the scientific journal Applied and Environmental Microbiology.
Researchers Identify Role of Gene in Tumor Development, Growth and Progression
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Genetic analysis helps dissect molecular basis of cardiovascular disease
Using highly precise measurements of plasma lipoprotein concentrations determined by nuclear magnetic resonance spectroscopy (NMR), researchers led by Daniel Chasman at Brigham and Women's Hospital and Harvard Medical School in Boston, MA, the Framingham Heart Study in Framingham, and the PROCARDIS consortium in Stockholm, Sweden and Oxford, England performed genetic association analysis across the whole genome among 17,296 women of European ancestry from the Women's Genome Health Study.
It's a gas: New discovery may lead to heartier, high-yielding plants
In a research report published in the November 2009 issue of the journal GENETICS, scientists show how a family of genes (1-aminocyclopropane-1-carboxylate synthase, or ACS genes) are responsible for production of ethylene.
Gene mismatch influences success of bone marrow transplants
A commonly inherited gene deletion can increase the likelihood of immune complications following bone marrow transplantation, an international team of researchers reports in the November 22 advance online issue of Nature Genetics.
Cancer metabolism discovery uncovers new role of IDH1 gene mutation in brain cancer
Agios Pharmaceuticals today announced that its scientists have established, for the first time, that the mutated IDH1 gene has a novel enzyme activity consistent with a cancer-causing gene, or oncogene.
Scientists at UA, collaborating institutions decode maize genome
Scientists from the University of Arizona led by Arizona Genomics Institute director Rod A. Wing and from collaborating institutions have deciphered the complete genetic code of the maize plant for the first time.
Schizophrenia gene's role may be broader, more potent, than thought
UCSF scientists studying nerve cells in fruit flies have uncovered a new function for a gene whose human equivalent may play a critical role in schizophrenia.
Ancestry attracts, but love is blind
People preferentially marry those with similar ancestry, but their decisions are not necessarily based on hair, eye or skin colour.
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