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81.
Addmore Shonhai 《FEMS immunology and medical microbiology》2010,58(1):61-74
Heat shock proteins act as molecular chaperones, facilitating protein folding in cells of living organisms. Their role is particularly important in parasites because environmental changes associated with their life cycles place a strain on protein homoeostasis. Not surprisingly, some heat shock proteins are essential for the survival of the most virulent malaria parasite, Plasmodium falciparum . This justifies the need for a greater understanding of the specific roles and regulation of malarial heat shock proteins. Furthermore, heat shock proteins play a major role during invasion of the host by the parasite and mediate in malaria pathogenesis. The identification and development of inhibitor compounds of heat shock proteins has recently attracted attention. This is important, given the fact that traditional antimalarial drugs are increasingly failing, as a consequence of parasite increasing drug resistance. Heat shock protein 90 (Hsp90), Hsp70/Hsp40 partnerships and small heat shock proteins are major malaria drug targets. This review examines the structural and functional features of these proteins that render them ideal drug targets and the challenges of targeting these proteins towards malaria drug design. The major antimalarial compounds that have been used to inhibit heat shock proteins include the antibiotic, geldanamycin, deoxyspergualin and pyrimidinones. The proposed mechanisms of action of these molecules and the pathways they inhibit are discussed. 相似文献
82.
Lipid droplets (LDs) were once viewed as simple, inert lipid micelles. However, they are now known to be organelles with a rich proteome involved in a myriad of cellular processes. LDs are heterogeneous in nature with different sizes and compositions of phospholipids, neutral lipids and proteins. This review takes a focused look at the roles of proteins involved in the regulation of LD formation, expansion, and morphology. The related proteins are summarized such as the fat-specific protein (Fsp27), fat storage-inducing trans- membrane (FIT) proteins, seipin and ADP-ribosylation factor 1-coat protein complex I (Arf-COPI). Finally, we present important challenges in LD biology for a deeper understanding of this dynamic organelle to be achieved. 相似文献
83.
Iwona Wojda 《Insect Science》2017,24(3):342-357
Investigation of insect immune mechanisms provides important information concerning innate immunity, which in many aspects is conserved in animals. This is one of the reasons why insects serve as model organisms to study virulence mechanisms of human pathogens. From the evolutionary point of view, we also learn a lot about host–pathogen interaction and adaptation of organisms to conditions of life. Additionally, insect‐derived antibacterial and antifungal peptides and proteins are considered for their potential to be applied as alternatives to antibiotics. While Drosophila melanogaster is used to study the genetic aspect of insect immunity, Galleria mellonella serves as a good model for biochemical research. Given the size of the insect, it is possible to obtain easily hemolymph and other tissues as a source of many immune‐relevant polypeptides. This review article summarizes our knowledge concerning G. mellonella immunity. The best‐characterized immune‐related proteins and peptides are recalled and their short characteristic is given. Some other proteins identified at the mRNA level are also mentioned. The infectious routes used by Galleria natural pathogens such as Bacillus thuringiensis and Beauveria bassiana are also described in the context of host–pathogen interaction. Finally, the plasticity of G. mellonella immune response influenced by abiotic and biotic factors is described. 相似文献
84.
A novel variation in electrophoretic phenotype is described for a mouse salivary androgen binding protein (Abp). Crosses show that the variation is inherited in an autosomal codominant manner and protein characterization studies show that the variant Abp differs in isoelectric point from the common form of the protein. Those observations suggest that the variation involves the structural gene for the mouse salivary Abp. The genetic studies also show that the electrophoretic mobility of the variant Abp can be influenced by the sex-limited saliva pattern (Ssp) gene. The Ssp
S
allele alters the electrophoretic mobility of Abp in males at puberty or in females which have received exogenous testosterone [Karn, R. C., Dlouhy, S. R., Springer, K. R., Hjorth, J. P., and Nielsen, J. T. (1982). Biochem Genet. 20:493]. This study shows that Abp and Ssp are distinct genes which are not closely linked and that Ssp
S
is trans active in F1 (Abp
a
/Abp
b
, Ssp
S
/Ssp
F
) males.SRD was supported in part by PHS General Medical Training Grant T32 GMO7468 and the Indiana University School of Medicine Research Program in Academic Medicine. RCK was supported in part by PHS Career Development Award 1 KO4 AMOO284. 相似文献
85.
S.J. Baldwin K.G. Dodds B. Auvray R.A. Genet R.C. Macknight J.M.E. Jacobs 《The Annals of applied biology》2011,158(3):248-256
In this study, historical phenotypic data from a potato breeding programme were used with an association mapping approach to identify alleles of candidate genes associated with cold‐induced sweetening of potato. Molecular marker analysis was used to determine allelic variation of candidate genes potentially involved in cold‐induced sweetening. Variations in the UDP‐glucose pyrophosphorylase (UGPase, EC 2.7.7.9) and apoplastic invertase genes (EC 3.2.1.26) were significantly associated with cold‐induced sweetening, and a possible interaction of apoplastic invertase and apoplastic invertase inhibitor was identified. This demonstrates that breeding programme phenotypic data collected over multiple years and environments can be used successfully with pedigree information for association mapping. It also confirms that the UGPase and apoplastic invertase markers are transferable across breeding programmes with distinct germplasm. 相似文献
86.
87.
Visualization of RNA-protein interactions in living cells: FMRP and IMP1 interact on mRNAs 总被引:10,自引:0,他引:10
Protein expression depends significantly on the stability, translation efficiency and localization of mRNA. These qualities are largely dictated by the RNA-binding proteins associated with an mRNA. Here, we report a method to visualize and localize RNA-protein interactions in living mammalian cells. Using this method, we found that the fragile X mental retardation protein (FMRP) isoform 18 and the human zipcode-binding protein 1 ortholog IMP1, an RNA transport factor, were present on common mRNAs. These interactions occurred predominantly in the cytoplasm, in granular structures. In addition, FMRP and IMP1 interacted independently of RNA. Tethering of FMRP to an mRNA caused IMP1 to be recruited to the same mRNA and resulted in granule formation. The intimate association of FMRP and IMP1 suggests a link between mRNA transport and translational repression in mammalian cells. 相似文献
88.
Sankarasubramanian S. Kaushik B.D. 《World journal of microbiology & biotechnology》2001,17(5):535-544
Reporter marker GUS (-glucuronidase gene from Escherichia coli) and luc operon from the American firefly were introduced into cyanobacteria and the stability of these markers in soil was examined. To transfer the integrational vector into cyanobacteria, the genomic DNA library of Synechocystis sp. or Anabaena cylindrica maintained in pBR 322, pCY 100 and pCY 101 were transformed with HB 101 containing pRL 528 and selected for Cmr and Ampr. These clones of HB 101 containing pRL 528 and the vectors carrying different cyanobacterial chromosomal DNA fragments were used for triparental mating with HB 101 [pRK 2013/pRK 2073] and cyanobacteria. The frequency of transconjugants for integrational vectors was between 2.1 × 10–5 and 4.0 × 10–4. The transfer frequency of RSF 1010 based vectors (pDSK 519 and pCY 106) was 1.0–4.5 × 10–4 in Synechocystis sp. whereas A. cylindrica failed to maintain these vectors. Low frequency transfer (2.0–2.3 × 10–6) of RK 2 based vectors pVK 100 and pCY 104 was observed in A. cylindrica but these were unable to replicate in Synechocystis sp. The vectors in general were stable at least by 74.9% for 60 days of incubation in BG-11 medium. The markers were less stable in A. cylindrica (74.9–84.2%) compared to Synechocystis sp. (80.1–88.8%) at 60 days of incubation. Integrational vectors were almost 85% stable in both the strains. The RK 2 derivative of pCY 104 was less stable in A. cylindrica (74.9–77.3%) than the RSF 1010-based vector pCY 106 in Synechocystis sp. (80.1–81.0%). A maximum of 64.7% of the markers were lost in soil. The chromosomal markers through integrational vectors were found to be highly stable and 68.2–72.7% of these markers were retained in cyanobacteria at 60 days of incubation. Plasmid markers were less stable, with a loss of 64.7–48.7% at the end of the experiment. In A. cylindrica 58–65% of the RK 2 vector was lost whereas in Synechocystis sp. 49–61% of RSF 1010 was lost at 60 days of incubation. 相似文献
89.
The effect of temperature on mechanical unfolding of proteins is studied using a Go-like model with a realistic contact map and Lennard-Jones contact interactions. The behavior of the I27 domain of titin and its serial repeats is contrasted to that of simple secondary structures. In all cases, thermal fluctuations accelerate the unraveling process, decreasing the unfolding force nearly linearly at low temperatures. However, differences in bonding geometry lead to different sensitivity to temperature and different changes in the unfolding pattern. Due to its special native-state geometry, titin is much more thermally and elastically stable than the secondary structures. At low temperatures, serial repeats of titin show a parallel unfolding of all domains to an intermediate state, followed by serial unfolding of the domains. At high temperatures, all domains unfold simultaneously, and the unfolding distance decreases monotonically with the contact order, that is, the sequence distance between the amino acids that form the native contact. 相似文献
90.
Erik D. Pendleton Challise J. Sullivan Henri H. Sasmor Kristy D. Bruse Tifanie B. Mayfield David L. Valente Rachel E. Abrams Richard H. Griffey John Dresios 《Biochemistry and Biophysics Reports》2016
BackgroundIdentification of wound-specific markers would represent an important step toward damaged tissue detection and targeted delivery of biologically important materials to injured sites. Such delivery could minimize the amount of therapeutic materials that must be administered and limit potential collateral damage on nearby normal tissues. Yet, biological markers that are specific for injured tissue sites remain elusive.MethodsIn this study, we have developed an immunohistological approach for identification of protein epitopes specifically exposed in wounded tissue sites.ResultsUsing ex-vivo tissue samples in combination with fluorescently-labeled antibodies we show that actin, an intracellular cytoskeletal protein, is specifically exposed upon injury. The targetability of actin in injured sites has been demonstrated in vivo through the specific delivery of anti-actin conjugated particles to the wounded tissue in a lethal rat model of grade IV liver injury.ConclusionsThese results illustrate that identification of injury-specific protein markers and their targetability for specific delivery is feasible.General significanceIdentification of wound-specific targets has important medical applications as it could enable specific delivery of various products, such as expression vectors, therapeutic drugs, hemostatic materials, tissue healing, or scar prevention agents, to internal sites of penetrating or surgical wounds regardless of origin, geometry or location. 相似文献