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101.
The genome sequence of the filamentous fungus Neurospora crassa 总被引:1,自引:0,他引:1
Galagan JE Calvo SE Borkovich KA Selker EU Read ND Jaffe D FitzHugh W Ma LJ Smirnov S Purcell S Rehman B Elkins T Engels R Wang S Nielsen CB Butler J Endrizzi M Qui D Ianakiev P Bell-Pedersen D Nelson MA Werner-Washburne M Selitrennikoff CP Kinsey JA Braun EL Zelter A Schulte U Kothe GO Jedd G Mewes W Staben C Marcotte E Greenberg D Roy A Foley K Naylor J Stange-Thomann N Barrett R Gnerre S Kamal M Kamvysselis M Mauceli E Bielke C Rudd S Frishman D Krystofova S Rasmussen C Metzenberg RL 《Nature》2003,422(6934):859-868
Neurospora crassa is a central organism in the history of twentieth-century genetics, biochemistry and molecular biology. Here, we report a high-quality draft sequence of the N. crassa genome. The approximately 40-megabase genome encodes about 10,000 protein-coding genes--more than twice as many as in the fission yeast Schizosaccharomyces pombe and only about 25% fewer than in the fruitfly Drosophila melanogaster. Analysis of the gene set yields insights into unexpected aspects of Neurospora biology including the identification of genes potentially associated with red light photobiology, genes implicated in secondary metabolism, and important differences in Ca2+ signalling as compared with plants and animals. Neurospora possesses the widest array of genome defence mechanisms known for any eukaryotic organism, including a process unique to fungi called repeat-induced point mutation (RIP). Genome analysis suggests that RIP has had a profound impact on genome evolution, greatly slowing the creation of new genes through genomic duplication and resulting in a genome with an unusually low proportion of closely related genes. 相似文献
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Rawat UB Zavialov AV Sengupta J Valle M Grassucci RA Linde J Vestergaard B Ehrenberg M Frank J 《Nature》2003,421(6918):87-90
Protein synthesis takes place on the ribosome, where genetic information carried by messenger RNA is translated into a sequence of amino acids. This process is terminated when a stop codon moves into the ribosomal decoding centre (DC) and is recognized by a class-1 release factor (RF). RFs have a conserved GGQ amino-acid motif, which is crucial for peptide release and is believed to interact directly with the peptidyl-transferase centre (PTC) of the 50S ribosomal subunit. Another conserved motif of RFs (SPF in RF2) has been proposed to interact directly with stop codons in the DC of the 30S subunit. The distance between the DC and PTC is approximately 73 A. However, in the X-ray structure of RF2, SPF and GGQ are only 23 A apart, indicating that they cannot be at DC and PTC simultaneously. Here we show that RF2 is in an open conformation when bound to the ribosome, allowing GGQ to reach the PTC while still allowing SPF-stop-codon interaction. The results indicate new interpretations of accuracy in termination, and have implications for how the presence of a stop codon in the DC is signalled to PTC. 相似文献
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Melanoma mouse model implicates metabotropic glutamate signaling in melanocytic neoplasia 总被引:3,自引:0,他引:3
Pollock PM Cohen-Solal K Sood R Namkoong J Martino JJ Koganti A Zhu H Robbins C Makalowska I Shin SS Marin Y Roberts KG Yudt LM Chen A Cheng J Incao A Pinkett HW Graham CL Dunn K Crespo-Carbone SM Mackason KR Ryan KB Sinsimer D Goydos J Reuhl KR Eckhaus M Meltzer PS Pavan WJ Trent JM Chen S 《Nature genetics》2003,34(1):108-112
109.
Water or ice?--the challenge for invertebrate cold survival 总被引:7,自引:0,他引:7
Block W 《Science progress》2003,86(PT 1-2):77-101
The ecophysiology of cold tolerance in many terrestrial invertebrate animals is based on water and its activity at low temperatures, affecting cell, tissue and whole organism functions. The normal body water content of invertebrates varies from 40 to 90% of their live weight, which is influenced by water in their immediate environment, especially in species with a water vapour permeable cuticle. Water gain from, or loss to, the surrounding atmosphere may affect animal survival, but under sub-zero conditions body water status becomes more critical for overwinter survival in many species. Water content influences the supercooling capacity of many insects and other arthropods. Trehalose is known to maintain membrane integrity during desiccation stress in several taxa. Dehydration affects potential ice nucleators by reducing or masking their activity and a desiccation protection strategy has been detected in some species. When water crystallises to ice in an animal it greatly influences the physiology of nearby cells, even if the cells remain unfrozen. A proportion of body water remains unfrozen in many cold hardened invertebrates when they are frozen, which allows basal metabolism to continue at a low level and aids recovery to normal function when thawing occurs. About 22% of total body water remains unfrozen from calculations using differential scanning calorimetry (compared with ca 19% in food materials). The ratio of unfrozen to frozen water components in insects is 1:4 (1:6 for foods). Such unfrozen water may aid recovery of freezing tolerant species after a freezing exposure. Rapid changes in cold hardiness of some arthropods may be brought about by subtle shifts in body water management. It is recognised that cold tolerance strategies of many invertebrates are related to desiccation resistance, and possibly to mechanisms inherent in insect diapause, but the role of water is fundamental to them all. Detailed experimental studies are needed to provide information which will allow a more complete and coherent understanding of the behaviour of water in biological systems and aid the cryopreservation of a wide range of biological material. 相似文献
110.
Noise in eukaryotic gene expression 总被引:56,自引:0,他引:56