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31.
The intracellular pathogenesis-related proteins have been identified in a broad range of flowering plants. Some display quite different patterns of expression, in many cases unrelated to the pathogenic response. Nevertheless, these proteins are all very similar and in most cases share more than 35% sequence identity. In this report we investigate the significance of a rather weak similarity between the intracellular pathogenesis-related (IPR or PR-10) proteins and a group of proteins identified in the latex of opium poppy and in Arabidopsis, among others. A sequence analysis held together with the recently published three-dimensional structure of Bet v 1, an IPR protein from birch pollen, strongly suggests sequential and structural homology between the two protein families. 相似文献
32.
Virginie Vanhooff Christophe Normand Christine Galloy Anca M. Segall Bernard Hallet 《Nucleic acids research》2010,38(6):2044-2056
In DNA site-specific recombination catalysed by tyrosine recombinases, two pairs of DNA strands are sequentially exchanged between separate duplexes and the mechanisms that confer directionality to this theoretically reversible reaction remain unclear. The tyrosine recombinase TnpI acts at the internal resolution site (IRS) of the transposon Tn4430 to resolve intermolecular transposition products. Recombination is catalysed at the IRS core sites (IR1–IR2) and is regulated by adjacent TnpI-binding motifs (DR1 and DR2). These are dispensable accessory sequences that confer resolution selectivity to the reaction by stimulating synapsis between directly repeated IRSs. Here, we show that formation of the DR1–DR2-containing synapse imposes a specific order of activation of the TnpI catalytic subunits in the complex so that the IR1-bound subunits catalyse the first strand exchange and the IR2-bound subunits the second strand exchange. This ordered pathway was demonstrated for a complete recombination reaction using a TnpI catalytic mutant (TnpI-H234L) partially defective in DNA rejoining. The presence of the DR1- and DR2-bound TnpI subunits was also found to stabilize transient recombination intermediates, further displacing the reaction equilibrium towards product formation. Implication of TnpI/IRS accessory elements in the initial architecture of the synapse and subsequent conformational changes taking place during strand exchange is discussed. 相似文献
33.
Laurent Cappadocia Alexandre Mar��chal Jean-S��bastien Parent ��tienne Lepage Jurgen Sygusch Normand Brisson 《The Plant cell》2010,22(6):1849-1867
DNA double-strand breaks are highly detrimental to all organisms and need to be quickly and accurately repaired. Although several proteins are known to maintain plastid and mitochondrial genome stability in plants, little is known about the mechanisms of DNA repair in these organelles and the roles of specific proteins. Here, using ciprofloxacin as a DNA damaging agent specific to the organelles, we show that plastids and mitochondria can repair DNA double-strand breaks through an error-prone pathway similar to the microhomology-mediated break-induced replication observed in humans, yeast, and bacteria. This pathway is negatively regulated by the single-stranded DNA (ssDNA) binding proteins from the Whirly family, thus indicating that these proteins could contribute to the accurate repair of plant organelle genomes. To understand the role of Whirly proteins in this process, we solved the crystal structures of several Whirly-DNA complexes. These reveal a nonsequence-specific ssDNA binding mechanism in which DNA is stabilized between domains of adjacent subunits and rendered unavailable for duplex formation and/or protein interactions. Our results suggest a model in which the binding of Whirly proteins to ssDNA would favor accurate repair of DNA double-strand breaks over an error-prone microhomology-mediated break-induced replication repair pathway. 相似文献
34.
35.
Yu Z Li Z Jolicoeur N Zhang L Fortin Y Wang E Wu M Shen SH 《Nucleic acids research》2007,35(13):4535-4541
MicroRNAs (miRNAs) are a class of noncoding small RNAs that regulate gene expression by base pairing with target mRNAs at the 3'-terminal untranslated regions (3'-UTRs), leading to mRNA cleavage or translational repression. Single-nucleotide polymorphisms (SNPs) located at miRNA-binding sites (miRNA-binding SNPs) are likely to affect the expression of the miRNA target and may contribute to the susceptibility of humans to common diseases. We herein performed a genome-wide analysis of SNPs located in the miRNA-binding sites of the 3'-UTR of various human genes. We found that miRNA-binding SNPs are negatively selected in respect to SNP distribution between the miRNA-binding 'seed' sequence and the entire 3'-UTR sequence. Furthermore, we comprehensively defined the expression of each miRNA-binding SNP in cancers versus normal tissues through mining EST databases. Interestingly, we found that some miRNA-binding SNPs exhibit significant different allele frequencies between the human cancer EST libraries and the dbSNP database. More importantly, using human cancer specimens against the dbSNP database for case-control association studies, we found that twelve miRNA-binding SNPs indeed display an aberrant allele frequency in human cancers. Hence, SNPs located in miRNA-binding sites affect miRNA target expression and function, and are potentially associated with cancers. 相似文献
36.
Human immunodeficiency virus type 1 (HIV-1) and hepatitis C virus (HCV) are two viral pathogens that establish chronic infections in their hosts and that are at present responsible for serious public health problems on a pandemic scale. HIV-1 and HCV can be transmitted from person to person by contact with bodily fluids. Both can also be transmitted from mother to child during the course of pregnancy and childbirth. There are currently no vaccines available to immunize against HIV-1 and HCV infection or to prevent mother-to-child transmission (MTCT), and accessible treatments have significant yet limited efficacy. However, important progresses have been made since the discovery of HCV and HIV-1 : (a) sensitive screening and detection methods have been perfected ; (b) risk factors for acquisition, replicative cycles, pathogenesis, and mechanisms of transmission have been better characterized ; (c) specific treatments, immunotherapy, and antiretroviral prophylaxis regimen were developed ; (d) immune correlates of protection are better understood ; and (e) vaccine design was undertaken. In addition, co-infection with HCV and HIV-1, which is common among high-risk groups including injection drug users, significantly increases the incidence of MTCT of both viruses. The mechanisms by which this facilitation occurs are still under investigation and may involve direct replicative facilitation, enhancement of placental transfer, and/or interference with host immune responses. Taken together, these developments could lead to the implementation of global scale strategies to prevent MTCT of HCV and HIV-1. 相似文献
37.
Background
The vestibular system of the inner ear provides information about head translation/rotation in space and about the orientation of the head with respect to the gravitoinertial vector. It also largely contributes to the control of posture through vestibulospinal pathways. Testing an individual severely deprived of somatosensory information below the nose, we investigated if equilibrium can be maintained while seated on the sole basis of this information. 相似文献38.
Early signaling in actinorhizal symbioses 总被引:1,自引:0,他引:1
Valérie Hocher Nicole Alloisio Didier Bogusz Philippe Normand 《Plant signaling & behavior》2011,6(9):1377-1379
39.
Lamarque M Besteiro S Papoin J Roques M Vulliez-Le Normand B Morlon-Guyot J Dubremetz JF Fauquenoy S Tomavo S Faber BW Kocken CH Thomas AW Boulanger MJ Bentley GA Lebrun M 《PLoS pathogens》2011,7(2):e1001276
Obligate intracellular Apicomplexa parasites share a unique invasion mechanism involving a tight interaction between the host cell and the parasite surfaces called the moving junction (MJ). The MJ, which is the anchoring structure for the invasion process, is formed by secretion of a macromolecular complex (RON2/4/5/8), derived from secretory organelles called rhoptries, into the host cell membrane. AMA1, a protein secreted from micronemes and associated with the parasite surface during invasion, has been shown in vitro to bind the MJ complex through a direct association with RON2. Here we show that RON2 is inserted as an integral membrane protein in the host cell and, using several interaction assays with native or recombinant proteins, we define the region that binds AMA1. Our studies were performed both in Toxoplasma gondii and Plasmodium falciparum and although AMA1 and RON2 proteins have diverged between Apicomplexa species, we show an intra-species conservation of their interaction. More importantly, invasion inhibition assays using recombinant proteins demonstrate that the RON2-AMA1 interaction is crucial for both T. gondii and P. falciparum entry into their host cells. This work provides the first evidence that AMA1 uses the rhoptry neck protein RON2 as a receptor to promote invasion by Apicomplexa parasites. 相似文献
40.