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131.
132.
The modulation of plasma membrane proteins involved in the communication with the immune system is a general mechanism developed by viruses to escape the immune response. Most of the studied examples have focused on viral proteins that missort cellular proteins during their biosynthesis. However, an increasing number of examples show that the down-modulation can also be achieved after membrane delivery by targeting into the endocytic pathway. For both human immunodeficiency virus (HIV) and Kaposi sarcoma-associated herpesvirus (KSHV), the proteins required for this process are identified, Nef and K3/K5 respectively. The extensive studies in this field have shown that the mechanisms by which these proteins "parasite" the endocytic pathway are completely different. Nef directly interacts with components of the cellular machinery involved in the vesicular transport between the endocytic compartments, mainly the clathrin adaptor complexes (AP), inducing the misrouting of numerous cellular proteins, including CD4, MHC-I, LIGHT, DC-SIGN, CD28 and MHC-II to the endosomal degradation compartment or the trans Golgi-network. The K3 and K5 proteins from KSHV act by inducing the ubiquitylation of the target proteins, such as CMH-I and B7.2, triggering their internalization and subsequent degradation by the highly conserved Tsg101/vps23 ubiquitin-dependent endosomal pathway. While these findings show that the strategies used by viruses to target cellular proteins to the endocytic pathway are extremely diverse, additional investigations are needed for the complete understanding of the specific roles of Nef and K3/K5 in the physiopathology of HIV and KSHV infections, respectively. In addition, these viral factors represent valuable tools to study the pathway they are perturbing. 相似文献
133.
Molecular cloning and biological activity of alpha-, beta-, and gamma-megaspermin,three elicitins secreted by Phytophthora megasperma H20 下载免费PDF全文
We report on the molecular cloning of the Phytophthora megasperma H20 (PmH20) glycoprotein shown previously as an inducer of the hypersensitive response, of localized acquired resistance and of systemic acquired resistance in tobacco (Nicotiana tabacum), and of the PmH20 alpha- and beta-megaspermin, two elicitins of class I-A and I-B, respectively. The structure of the glycoprotein shows a signal peptide of 20 amino acids followed by the typical elicitin 98-amino acid-long domain and a 77-amino acid-long C-terminal domain carrying an O-glycosylated moiety. The molecular mass deduced from the translated cDNA sequence is 14,920 and 18,676 D as determined by mass spectrometry. This structure together with multiple sequence alignments and phylogenetic analyses indicate that the glycoprotein belongs to class III elicitins. It is the first class III elicitin protein characterized, which we named gamma-megaspermin. We compared the biological activity of the three PmH20 elicitins when applied to tobacco cv Samsun NN plants. Although alpha- and gamma-megaspermin were similarly active, beta-megaspermin was the most active in inducing the hypersensitive response and localized acquired resistance, which was assessed by measuring the levels of acidic and basic pathogenesis-related proteins and of the antioxidant phytoalexin scopoletin. The three elicitins induced similar levels of systemic acquired resistance measured as the expression of acidic PR proteins and is increased resistance to challenge tobacco mosaic virus infection. 相似文献
134.
Malham SK Lacoste A Gélébart F Cueff A Poulet SA 《Journal of experimental zoology. Part A, Comparative experimental biology》2003,295(2):136-144
Stress is thought to cause increased disease outbreaks and mortality in a number of invertebrates but currently very little information is available on mechanisms linking physiological states of stress and reduced disease resistance in these organisms. In the present study, we examined the possibility that stress alters immune functions, the principal line of defense against pathogens, in a molluscan model, the abalone Haliotis turbeculata. Immune parameters were investigated in abalones subjected to a 15 min mechanical disturbance which, as indicated by noradrenaline and dopamine hemolymphatic levels, resulted in a transient state of physiological stress. During the application of the stressor, immune parameters such as the number of circulating hemocytes, the migratory activity, the phagocytic capacity and the respiratory burst responses of hemocytes, decreased significantly. All parameters returned to initial values within 15-30 min after the end of the disturbance and a transient period of immunostimulation occurred between 100 and 480 min after the stress for all immune parameters except intracellular superoxide anion production. These results indicate that in the abalone H. tuberculata, as in vertebrates, a link exists between stress and the immune system. This may begin to answer why stress and disease outbreaks are linked in shellfish. 相似文献
135.
Plaza S De Jong DM Gehring WJ Miller DJ 《Journal of experimental zoology. Part B. Molecular and developmental evolution》2003,299(1):26-35
Cnidarians are the simplest animals in which distinct eyes are present. We have previously suggested that cnidarian Pax-Cam might represent a precursor of the Pax-6 class. Here we show that when expressed in Drosophila imaginal discs, Pax-Cam chimeric proteins containing the C-terminal region of EY were capable of eye induction and driving expression of a reporter gene under the control of a known EY target (the sine oculis gene). Whilst these results are consistent with a Pax-6-like function for Pax-Cam, in band shift experiments we were unable to distinguish the DNA-binding behaviour of the Pax-Cam Paired domain from that of a second Acropora Pax protein, Pax-Bam. The ability of a Pax-Bam/EY chimera to also induce eye formation in leg imaginal discs, together with the in vitro data, cast doubt on previously assumed direct relationships between cnidarian Pax genes and the Pax-6 and Pax-2/5/8 classes of bilateral animals. 相似文献
136.
Human mitochondrial disease manifests with a wide range of clinical phenotypes of varying severity. To create a model for these disorders, we have manipulated the Drosophila gene technical knockout, encoding mitoribosomal protein S12. Various permutations of endogenous and transgenic alleles create a range of phenotypes, varying from larval developmental arrest through to mild neurological defects in the adult, and also mimic threshold effects associated with human mtDNA disease. Nuclear genetic background influences mutant phenotype by a compensatory mechanism affecting mitochondrial RNA levels. Selective expression of the wild-type allele indicates critical times and cell-types in development, in which mitochondrial protein synthesis deficiency leads to specific phenotypic outcomes. 相似文献
137.
Abasic (AP) sites are among the most frequent endogenous lesions in DNA and present a strong block to replication. In Saccharomyces cerevisiae, an apn1 apn2 rad1 triple mutant is inviable because of its incapacity to repair AP sites and related 3'-blocked single-strand breaks (M. Guillet and S. Boiteux, EMBO J. 21:2833, 2002). Here, we investigated the origin of endogenous AP sites in yeast. Our results show that the deletion of the UNG1 gene encoding the uracil DNA glycosylase suppresses the lethality of the apn1 apn2 rad1 mutant. In contrast, inactivation of the MAG1, OGG1, or NTG1 and NTG2 genes encoding DNA glycosylases involved in the repair of alkylation or oxidation damages does not suppress lethality. Although viable, the apn1 apn2 rad1 ung1 mutant presents growth delay due to a G(2)/M checkpoint. These results point to uracil as a critical source of the formation of endogenous AP sites in DNA. Uracil can arise in DNA by cytosine deamination or by the incorporation of dUMP during replication. Here, we show that the overexpression of the DUT1 gene encoding the dUTP pyrophosphatase (Dut1) suppresses the lethality of the apn1 apn2 rad1 mutant. Therefore, this result points to the dUTP pool as an important source of the formation of endogenous AP sites in eukaryotes. 相似文献
138.
The tubulin-colchicine complex instead of tubulin was used in an imidazole buffer throughout experiments. The interaction with calcium was examined, especially in the GDP state. The high affinity sites of calcium took part in the polymerization of the complex in the GTP state, while the low ones participated in the depolymerization. The complex had 2 high affinity sites with the dissociation constant of 11.5 x 10(-6) M, and 16 low affinity sites with the dissociation constant of 2.27 x 10(-4) M in the GTP state. In the case of GDP state, the dissociation constant of the high affinity site was 7.2 x 10(-6) M, and the low affinity site was not observed. The ultracentrifugal experiment indicated a little compact structure in the GTP state compared with the GDP state. This agreed with the results of calcium binding. 相似文献
139.
A key feature of signal processing in the mammalian retina is parallel processing, where the segregation of visual information, e.g., brightness, darkness, and color, starts at the first synapse in the retina, the photoreceptor synapse. These various aspects are transmitted in parallel from the input neurons of the retina, the photoreceptor cells, through the interconnecting bipolar cells, to the output neurons, the ganglion cells. The photoreceptors and bipolar cells release a single excitatory neurotransmitter, glutamate, at their synapses. This parsimony is contrasted by the expression of a plethora of glutamate receptors, receptor subunits, and isoforms. The detailed knowledge of the synaptic distribution of glutamate receptors thus is of major importance in understanding the mechanisms of retinal signal processing. This review intends to highlight recent studies on the distribution of glutamate receptors at the photoreceptor synapses of the mammalian retina. 相似文献
140.