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Host cell invasion by the Apicomplexa critically relies on regulated secretion of transmembrane micronemal proteins (TM‐MICs). Toxoplasma gondii possesses functionally non‐redundant MIC complexes that participate in gliding motility, host cell attachment, moving junction formation, rhoptry secretion and invasion. The TM‐MICs are released onto the parasite's surface as complexes capable of interacting with host cell receptors. Additionally, TgMIC2 simultaneously connects to the actomyosin system via binding to aldolase. During invasion these adhesive complexes are shed from the surface notably via intramembrane cleavage of the TM‐MICs by a rhomboid protease. Some TM‐MICs act as escorters and assure trafficking of the complexes to the micronemes. We have investigated the properties of TgMIC6, TgMIC8, TgMIC8.2, TgAMA1 and the new micronemal protein TgMIC16 with respect to interaction with aldolase, susceptibility to rhomboid cleavage and presence of trafficking signals. We conclude that several TM‐MICs lack targeting information within their C‐terminal domains, indicating that trafficking depends on yet unidentified proteins interacting with their ectodomains. Most TM‐MICs serve as substrates for a rhomboid protease and some of them are able to bind to aldolase. We also show that the residues responsible for binding to aldolase are essential for TgAMA1 but dispensable for TgMIC6 function during invasion.  相似文献   
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Numerous intracellular pathogens exploit cell surface glycoconjugates for host cell recognition and entry. Unlike bacteria and viruses, Toxoplasma gondii and other parasites of the phylum Apicomplexa actively invade host cells, and this process critically depends on adhesins (microneme proteins) released onto the parasite surface from intracellular organelles called micronemes (MIC). The microneme adhesive repeat (MAR) domain of T. gondii MIC1 (TgMIC1) recognizes sialic acid (Sia), a key determinant on the host cell surface for invasion by this pathogen. By complementation and invasion assays, we demonstrate that TgMIC1 is one important player in Sia-dependent invasion and that another novel Sia-binding lectin, designated TgMIC13, is also involved. Using BLAST searches, we identify a family of MAR-containing proteins in enteroparasitic coccidians, a subclass of apicomplexans, including T. gondii, suggesting that all these parasites exploit sialylated glycoconjugates on host cells as determinants for enteric invasion. Furthermore, this protein family might provide a basis for the broad host cell range observed for coccidians that form tissue cysts during chronic infection. Carbohydrate microarray analyses, corroborated by structural considerations, show that TgMIC13, TgMIC1, and its homologue Neospora caninum MIC1 (NcMIC1) share a preference for α2–3- over α2–6-linked sialyl-N-acetyllactosamine sequences. However, the three lectins also display differences in binding preferences. Intense binding of TgMIC13 to α2–9-linked disialyl sequence reported on embryonal cells and relatively strong binding to 4-O-acetylated-Sia found on gut epithelium and binding of NcMIC1 to 6′sulfo-sialyl Lewisx might have implications for tissue tropism.  相似文献   
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Targeted intervention of the B-Raf V600E gene product that is prominent in melanoma has been met with modest success. Here, we characterize the pharmacological properties of PLX4032, a next-generation inhibitor with exquisite specificity against the V600E oncogene and striking anti-melanoma activity. PLX4032 induces potent cell cycle arrest, inhibits proliferation, and initiates apoptosis exclusively in V600E-positive cells in a variety of in vitro experimental systems; follow-up xenograft studies demonstrate extreme selectivity and efficacy against melanoma tumors bearing the V600E oncoproduct. The collective data support further exploration of PLX4032 as a candidate drug for patients with metastatic melanoma; accordingly, validation of PLX4032 as a therapeutic tool for patients with melanoma is now underway in advanced human (Phase III) clinical trials.  相似文献   
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The grapevine (Vitis vinifera L.) partial fragment of cDNA clone pGOGAT1 [Loulakakis and Roubelakis-Angelakis (1997) Physiol Plant 101:220-228], encoding the ferredoxin-dependent glutamate synthase (Fd-GOGAT; EC 1.4.7.1), was overexpressed in Escherichia coli cells. A hybrid between the Fd-GOGAT fragment and maltose-binding protein was purified and used to raise a polyclonal antibody in a rabbit. The prepared antibody appeared to be specific towards Fd-GOGAT; it recognized a protein band of approximately 160 kDa on nitrocellulose blots after SDS-PAGE of total proteins from leaves, internodes, roots and calluses, and precipitated most of the enzyme activity present in grapevine protein extracts. The quantity of Fd-GOGAT protein was substantially higher in leaves than in other grapevine tissues tested, coincident with a similar distribution of the enzyme specific activity. Intracellular localization studies revealed that both the enzyme activity and the 160-kDa immunoreactive protein were associated with the chloroplastic fraction. Furthermore, the accumulation of Fd-GOGAT, glutamine synthetase (GS) and glutamate dehydrogenase (GDH), at the activity and protein levels, was monitored during leaf development of field-grown plants, from the stage of the newly expanding leaf to the senescing old leaf. Both the specific activity and quantity of the 160-kDa polypeptide of Fd-GOGAT were higher in the mature, full sized leaves and substantially lower in young and senescing leaves. GS specific activity and immunoreactive protein followed the same trend as Fd-GOGAT, while GDH showed opposite developmental patterns of accumulation. The biological significance of the presence of Fd-GOGAT in the various grapevine tissues and its physiological role during early development and natural senescence of the leaves are discussed.  相似文献   
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The Escherichia coli DNA repair enzyme MutY plays an important role in the recognition and repair of 7,8-dihydro-8-oxo-2'-deoxyguanosine-2'-deoxyadenosine (OG*A) mismatches in DNA. MutY prevents DNA mutations caused by the misincorporation of A opposite OG by catalyzing the deglycosylation of the aberrant adenine. MutY is representative of a unique subfamily of DNA repair enzymes that also contain a [4Fe-4S]2+ cluster, which has been implicated in substrate recognition. Previously, we have used site-directed mutagenesis to individually replace the cysteine ligands to the [4Fe-4S]2+ cluster of E. coli MutY with serine, histidine, or alanine. These experiments suggested that histidine coordination to the iron-sulfur cluster may be accommodated in MutY at position 199. Purification and enzymatic analysis of C199H and C199S forms indicated that these forms behave nearly identical to the WT enzyme. Furthermore, introduction of the C199H mutation in a truncated form of MutY (C199HT) allowed for crystallization and structural characterization of the modified [4Fe-4S] cluster coordination. The C199HT structure showed that histidine coordinated to the iron cluster although comparison to the structure of the WT truncated enzyme indicated that the occupancy of iron at the modified position had been reduced to 60%. Electron paramagnetic resonance (EPR) spectroscopy on samples of C199HT indicates that a significant percentage (15-30%) of iron clusters were of the [3Fe-4S]1+ form. Oxidation of the C199HT enzyme with ferricyanide increases the amount of the 3Fe cluster by approximately 2-fold. Detailed kinetic analysis on samples containing a mixture of [3Fe-4S]1+ and [4Fe-4S]2+ forms indicated that the reactivity of the [3Fe-4S]1+ C199HT enzyme does not differ significantly from that of the WT truncated enzyme. The relative resistance of the [4Fe-4S]2+ cluster toward oxidation, as well as the retention of activity of the [3Fe-4S]1+ form, may be an important aspect of the role of MutY in repair of DNA damage resulting from oxidative stress.  相似文献   
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The patterns of protein synthesis are examined in the hypoblast and in the areas that comprise the epiblast, that is, the area opaca, the marginal zone, and the central area, during the blastula stage which marks the beginning of the interaction between the epiblast and hypoblast for induction of the primitive streak. The results demonstrate that there are distinct qualitative and quantitative differences in protein patterns in individual areas of blastoderm, the differences being most distinct between the hypoblast and any of the component areas of the epiblast. These differences in patterns of proteins suggest that the component areas of the chick blastula have already diverged to different developmental fates before any apparent morphogenetic differentiation, that is, the appearance of the primitive streak.  相似文献   
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