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The structural basis for an essential subunit interaction in influenza virus RNA polymerase 总被引:1,自引:0,他引:1
Obayashi E Yoshida H Kawai F Shibayama N Kawaguchi A Nagata K Tame JR Park SY 《Nature》2008,454(7208):1127-1131
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DNA double strand breaks (DSBs) in repetitive sequences are a potent source of genomic instability, owing to the possibility of non-allelic homologous recombination (NAHR). Repetitive sequences are especially at risk during meiosis, when numerous programmed DSBs are introduced into the genome to initiate meiotic recombination. In the repetitive ribosomal DNA (rDNA) array of the budding yeast Saccharomyces cerevisiae, meiotic DSB formation is prevented in part through Sir2-dependent heterochromatin formation. Here we show that the edges of the rDNA array are exceptionally susceptible to meiotic DSBs, revealing an inherent heterogeneity in the rDNA array. We find that this localized DSB susceptibility necessitates a border-specific protection system consisting of the meiotic ATPase Pch2 and the origin recognition complex subunit Orc1. Upon disruption of these factors, DSB formation and recombination increased specifically in the outermost rDNA repeats, leading to NAHR and rDNA instability. Notably, the Sir2-dependent heterochromatin of the rDNA itself was responsible for the induction of DSBs at the rDNA borders in pch2Δ cells. Thus, although the activity of Sir2 globally prevents meiotic DSBs in the rDNA, it creates a highly permissive environment for DSB formation at the junctions between heterochromatin and euchromatin. Heterochromatinized repetitive DNA arrays are abundant in most eukaryotic genomes. Our data define the borders of such chromatin domains as distinct high-risk regions for meiotic NAHR, the protection of which may be a universal requirement to prevent meiotic genome rearrangements that are associated with genomic diseases and birth defects. 相似文献
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Conclusion It has been shown that alteration in the pattern of fatty acids synthesized is not confined to extracts of mammary gland, but can be achieved with extracts of guinea-pig intestinal mucosa. With all these tissues, the proportion of long chain fatty acids synthesized increased with increasing rate of synthesis. The results presented support the suggestion that the chain length of the synthesized fatty acids is, at least in part, controlled by the concentration of malonyl-CoA available to the fatty acid synthetase. The mechanism of this control is now being investigated.
Résumé Nous avons montré que la longueur de la chaÎne des acides gras synthétisés par les extraits solubles de la muqueuse intestinale du cobaye peut Être modifiée. Cette longueur dépend, au moins en partie, de la concentration du malonyl-CoA.相似文献
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Proteins in the globin family are found in a variety of species from bacteria to man. From the many globin sequences known, evolutionary trees have been constructed showing that alpha and beta globins diverged from a common ancestor between 425 and 500 million years ago, after vertebrate species had appeared and roughly when sharks and bony vertebrates diverged. The alpha and beta globins assemble to form tetrameric haemoglobin, alpha 2 beta 2, which can switch between quaternary states having high and low oxygen affinity. This allows the protein to bind oxygen cooperatively and therefore efficiently transport oxygen from the lungs to respiring tissues. The alpha and beta globins have closely related tertiary structures, being alpha-helical proteins with similar haem-binding sites. Most globins consist of eight helices, designated A to H from the N terminus, connected by short nonhelical segments, but all known vertebrate alpha globins lack a D helix. Because the loss of this helix by alpha globin occurred shortly before tetrameric haemoglobin appeared, it might be a functionally important mutation required for a tetramer assembly or allostery. We have now tested this idea by engineering human haemoglobins containing beta subunits without a D helix and alpha subunits with a D helix. Both of these mutations have little effect on the oxygen-binding properties of the molecule. Thus it is possible that deletion of the D helix in the alpha subunit was caused by a neutral mutation. 相似文献
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The role of the distal histidine in myoglobin and haemoglobin 总被引:11,自引:0,他引:11
J S Olson A J Mathews R J Rohlfs B A Springer K D Egeberg S G Sligar J Tame J P Renaud K Nagai 《Nature》1988,336(6196):265-266
The distal E7 histidine in vertebrate myoglobins and haemoglobins has been strongly conserved during evolution and is thought to be important in fine-tuning the ligand affinities of these proteins. A hydrogen bond between the N epsilon proton of the distal histidine and the second oxygen atom may stabilize O2 bound to the haem iron. The proximity of the imidazole side chain to the sixth coordination position, which is required for efficient hydrogen bonding, has been postulated to inhibit sterically the binding of CO and alkyl isocyanides. To test these ideas, engineered mutants of sperm whale myoglobin and the alpha- and beta-subunits of human haemoglobin were prepared in which E7 histidine was replaced by glycine. Removal of the distal imidazole in myoglobin and the alpha-subunits of intact, R-state haemoglobin caused significant changes in the affinity for oxygen, carbon monoxide and methyl isocyanide; in contrast, the His-E7 to Gly substitution produced little or no effect on the rates and extents of O2, CO and methyl isocyanide binding to beta-chains within R-state haemoglobin. In the beta-subunit the distal histidine seems to be less significant in regulating the binding of ligands to the haem iron in the high affinity quaternary conformation. Structural differences in the oxygen binding pockets shown by X-ray crystallographic studies account for the functional differences of these proteins. 相似文献
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