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排序方式: 共有77条查询结果,搜索用时 15 毫秒
71.
Brugnera E Haney L Grimsley C Lu M Walk SF Tosello-Trampont AC Macara IG Madhani H Fink GR Ravichandran KS 《Nature cell biology》2002,4(8):574-582
Mammalian Dock180 and ELMO proteins, and their homologues in Caenorhabditis elegans and Drosophila melanogaster, function as critical upstream regulators of Rac during development and cell migration. The mechanism by which Dock180 or ELMO mediates Rac activation is not understood. Here, we identify a domain within Dock180 (denoted Docker) that specifically recognizes nucleotide-free Rac and can mediate GTP loading of Rac in vitro. The Docker domain is conserved among known Dock180 family members in metazoans and in a yeast protein. In cells, binding of Dock180 to Rac alone is insufficient for GTP loading, and a Dock180 ELMO1 interaction is required. We can also detect a trimeric ELMO1 Dock180 Rac1 complex and ELMO augments the interaction between Dock180 and Rac. We propose that the Dock180 ELMO complex functions as an unconventional two-part exchange factor for Rac. 相似文献
72.
Efficient elimination of cells undergoing programmed cell death is crucial for normal tissue homeostasis and for the regulation of immune responses. This review examines unique signals presented by apoptotic cells and the mechanisms by which phagocytes recognize and respond to these signals to orchestrate the selective and rapid removal of apoptotic cells. Such unique signals include direct and indirect ‘eat-me’ markers on the apoptotic cell surface, the absence of ‘don't eat-me’ markers normally found on living cells and soluble ‘come-get-me’ signals secreted by apoptotic cells to attract phagocytes to sites of apoptotic cell death. Once apoptotic cells are identified, their uptake by phagocytes further depends on the molecular machinery highly conserved from Caenorhabditis elegans to mammals. 相似文献
73.
Wang JF Olivier J Thoquet P Mangin B Sauviac L Grimsley NH 《Molecular plant-microbe interactions : MPMI》2000,13(1):6-13
Bacterial wilt caused by the soilborne bacterium Ralstonia solanacearum attacks hundreds of plant species, including many agriculturally important crops. Natural resistance to this disease has been found in some species and is usually inherited as a polygenic trait. In tomato, a model crop plant, genetic analysis previously revealed the involvement of several QTL (quantitative trait loci) controlling resistance and, in all of these studies with different strains of the pathogen, loci on chromosome 6 played the predominant role in controlling this trait. Using quantitative data collected from a greenhouse test F3 population, we identified a new locus on chromosome 12 that appears to be active specifically against a race 1 biovar 3 Pss4 bacterial strain endemic to Taiwan. Chromosome 6 still contributes significantly to the control of the resistance, and weaker associations of the trait to other regions of the genome are observed. These results are discussed in the context of current molecular knowledge about the strain specificity of disease resistance genes. 相似文献
74.
Romain Blanc-Mathieu Bram Verhelst Evelyne Derelle Stephane Rombauts Fran?ois-Yves Bouget Isabelle Carré Annie Chateau Adam Eyre-Walker Nigel Grimsley Hervé Moreau Benoit Piégu Eric Rivals Wendy Schackwitz Yves Van de Peer Gwena?l Piganeau 《BMC genomics》2014,15(1)
Background
Cost effective next generation sequencing technologies now enable the production of genomic datasets for many novel planktonic eukaryotes, representing an understudied reservoir of genetic diversity. O. tauri is the smallest free-living photosynthetic eukaryote known to date, a coccoid green alga that was first isolated in 1995 in a lagoon by the Mediterranean sea. Its simple features, ease of culture and the sequencing of its 13 Mb haploid nuclear genome have promoted this microalga as a new model organism for cell biology. Here, we investigated the quality of genome assemblies of Illumina GAIIx 75 bp paired-end reads from Ostreococcus tauri, thereby also improving the existing assembly and showing the genome to be stably maintained in culture.Results
The 3 assemblers used, ABySS, CLCBio and Velvet, produced 95% complete genomes in 1402 to 2080 scaffolds with a very low rate of misassembly. Reciprocally, these assemblies improved the original genome assembly by filling in 930 gaps. Combined with additional analysis of raw reads and PCR sequencing effort, 1194 gaps have been solved in total adding up to 460 kb of sequence. Mapping of RNAseq Illumina data on this updated genome led to a twofold reduction in the proportion of multi-exon protein coding genes, representing 19% of the total 7699 protein coding genes. The comparison of the DNA extracted in 2001 and 2009 revealed the fixation of 8 single nucleotide substitutions and 2 deletions during the approximately 6000 generations in the lab. The deletions either knocked out or truncated two predicted transmembrane proteins, including a glutamate-receptor like gene.Conclusion
High coverage (>80 fold) paired-end Illumina sequencing enables a high quality 95% complete genome assembly of a compact ~13 Mb haploid eukaryote. This genome sequence has remained stable for 6000 generations of lab culture.Electronic supplementary material
The online version of this article (doi:10.1186/1471-2164-15-1103) contains supplementary material, which is available to authorized users. 相似文献75.
Boyd Philip J. Grimsley Nigel H. Cove David J. 《Molecular genetics and genomics : MGG》1988,211(3):545-546
Molecular Genetics and Genomics - Spores have been preferred for mutagenic treatment of Physcomitrella patens. Many mutant strains are, however, sexually sterile and so do not produce spores. We... 相似文献
76.
Camille Clerissi Nigel Grimsley Yves Desdevises 《Evolution; international journal of organic evolution》2013,67(1):18-33
Phylogenetic diversity in the Phycodnaviridae (double‐stranded DNA viruses infecting photosynthetic eukaryotes) is most often studied using their DNA polymerase gene (PolB). This gene and its translated protein product can harbor a selfish genetic element called an “intein” that disrupts the sequence of the host gene without affecting its activity. After translation, the intein peptide sequence self‐excises precisely, producing a functional ligated host protein. In addition, inteins can encode homing endonuclease (HEN) domains that permit the possibility of lateral transfers to intein‐free alleles. However, no clear evidence for their transfer between viruses has previously been shown. The objective of this paper was to determine whether recent transfers of inteins have occurred between prasinoviruses (Phycodnaviridae) that infect the Mamiellophyceae, an abundant and widespread class of unicellular green algae, by using DNA sequence analyses and cophylogenetic methods. Our results suggest that transfer among prasinoviruses is a dynamic ongoing process and, for the first time in the Phycodnaviridae family, we showed a recombination event within an intein. 相似文献
77.