Trypanosoma brucei brucei and T. b. gambiense: Stumpy Bloodstream Forms Express More CB1 Epitope in Endosomes and Lysosomes than Slender Forms

CB1-glycoprotein is a component of flagellar pocket, endosome, and lysosome membranes of long, slender bloodstream forms of the Trypanosoma brucei subgroup of African trypanosomes. We have used immunoblotting, immunofluorescence, and cryoimmunoelectron microscopy to study CB1-glycoprotein expression as long, slender bloodstream forms of pleomorphic T. b. brucei and T. b. gambiense transform through intermediate stages into short, stumpy forms. Intermediate and stumpy forms express more CB1-glycoprotein than long, slender forms. These results, coupled with previous work showing that procyclic forms do not express CB1-glycoprotein, show that the expression of lysosomal membrane glycoproteins is regulated coordinately with other aspects of lysosome and endosome function as these trypanosomes go through their life cycle.     

Molecular cloning and expression of the catalytic subunit of protein kinase A from Trypanosoma cruzi

The activation of protein kinase A (cyclic adenosine monophosphate-dependent protein kinase) by cyclic adenosine monophosphate is believed to play an important role in regulating the growth and differentiation of Trypanosoma cruzi. A PCR using degenerate oligonucleotide primers against conserved motifs in the VIb and VIII subdomains of the ACG family of serine/threonine protein kinases was utilised to amplify regions corresponding to the parasite homologue of the protein kinase A catalytic subunit. This putative protein kinase A fragment was used to isolate the entire gene from T. cruzi genomic libraries. The deduced 329 amino acid sequence of this gene contained all of the signature motifs of known protein kinase A catalytic subunit proteins. The recombinant protein expressed in Escherichia coli was shown to phosphorylate Kemptide, a synthetic peptide substrate of protein kinase A, in a protein kinase inhibitor (PKI)-inhibitory manner. Immunoprecipitation with polyclonal antisera raised against recombinant protein of this gene was able to pull-down PKI-inhibitory phosphotransferase activity from epimastigote lysates. Immunoblot and Northern blot analyses, in combination with enzyme activity assays, revealed that this gene was a stage-regulated enzyme in T. cruzi with higher levels and activity being present in epimastigotes compared with amastigotes or trypomastigotes. Overall these studies indicate that the cloned gene encodes an authentic protein kinase A catalytic subunit from T. cruzi and are the first demonstration of PKI-inhibitory phosphotransferase activity in an expressed protozoan protein kinase A catalytic subunit.     

火炬松DREB1基因的电子克隆与生物信息学分析

利用来自Forest TreeDB数据库中热胁迫cDNA文库ESTs聚类、拼接组装的Unigene以及基因GO注释,得到了假定的火炬松DREB1基因,全长1 293bp,具有完整的蛋白编码框的cDNA序列。采用DNAMAN软件分析碱基组成、限制酶切位点和重复序列等,结果发现,该序列与其他物种中克隆得到的DREB1具有较高的同源性,初步断定所电子克隆得到的cDNA序列为火炬松DREB1基因(PteaDREB1)。在此基础上,利用网上的公共数据库和相关软件(Antheprot等)对PteaDREB1编码的理化性质和一级结构进行分析,并模拟了其二级结构和三级结构。结果表明,该蛋白为疏水性非球形可溶蛋白,含有295个氨基酸,分子量为32.4kD,等电点为8.22;其二级结构以螺旋和卷曲为主,三级结构具有DREB蛋白家族中典型的结合DNA的AP2结构域。这进一步说明所克隆到的cDNA片断为火炬松DREB1基因。上述研究结果可为PteaDREB1基因下一步的分子克隆、功能鉴定和应用奠定基础,具有一定的现实意义和应用前景。     

Polymorphic and differential expression of the Trypanosoma cruzi alleles containing universal minicircle binding protein

DNA replication mechanisms are poorly understood in most of trypanosomatids, in particular the replication of the peculiar mitochondrial DNA, the kinetoplast DNA (kDNA). To contribute to the knowledge on the mechanism of kDNA replication in Trypanosoma cruzi, we have previously characterized the Universal Minicircle Sequence Binding Protein of this parasite (TcUMSBP), which was first called PDZ5 [E.R. Coelho, T.P. Urmenyi, J. Franco da Silveira, E. Rondinelli, R. Silva, Identification of PDZ5, a candidate universal minicircle sequence binding protein of Trypanosoma cruzi, Int. J. Parasitol. 33 (2003) 853-858]. In this work, we describe two highly polymorphic alleles of the TcUMSBP locus in the T. cruzi reference clone CL Brener and the differential expression pattern of these alleles. A 62 bp sequence in the TcUMSBP upstream intergenic region in one of its alleles affects the efficiency of polycistronic RNA processing and the polyadenylation sites, and therefore regulates the differential expression of TcUMSBP alleles of this locus.     

Structure‐based in silico identification of ubiquitin‐binding domains provides insights into the ALIX‐V:ubiquitin complex and retrovirus budding

The ubiquitylation signal promotes trafficking of endogenous and retroviral transmembrane proteins. The signal is decoded by a large set of ubiquitin (Ub) receptors that tether Ub‐binding domains (UBDs) to the trafficking machinery. We developed a structure‐based procedure to scan the protein data bank for hidden UBDs. The screen retrieved many of the known UBDs. Intriguingly, new potential UBDs were identified, including the ALIX‐V domain. Pull‐down, cross‐linking and E3‐independent ubiquitylation assays biochemically corroborated the in silico findings. Guided by the output model, we designed mutations at the postulated ALIX‐V:Ub interface. Biophysical affinity measurements using microscale‐thermophoresis of wild‐type and mutant proteins revealed some of the interacting residues of the complex. ALIX‐V binds mono‐Ub with a K_d of 119 μM. We show that ALIX‐V oligomerizes with a Hill coefficient of 5.4 and IC₅₀ of 27.6 μM and that mono‐Ub induces ALIX‐V oligomerization. Moreover, we show that ALIX‐V preferentially binds K63 di‐Ub compared with mono‐Ub and K48 di‐Ub. Finally, an in vivo functionality assay demonstrates the significance of ALIX‐V:Ub interaction in equine infectious anaemia virus budding. These results not only validate the new procedure, but also demonstrate that ALIX‐V directly interacts with Ub in vivo and that this interaction can influence retroviral budding.     

Regulation of protein trafficking by glycosylphosphatidylinositol valence in African trypanosomes

The structure, biosynthesis, and attachment of glycosylphosphatidylinositol (GPI) anchors were all first determined for the variant surface glycoprotein (VSG) of African trypanosomes, and all of the basic aspects of this work have been shown to be universal in eukaryotic organisms. However, the role of GPI anchors in protein trafficking within trypanosomes has lagged behind the more standard eukaryotic model systems such as yeast and polarized epithelial cells. Trypanosomes are also highly polarized cells in which all endocytosis and exocytosis intersect at a discrete domain of the plasma membrane, the flagellar pocket. Within these convergent pathways trafficking of GPI anchored proteins correlates strongly with valence: homodimeric VSG with two GPIs is stably incorporated into the cell surface coat, heterodimeric transferrin receptor with a single GPI is found in the flagellar pocket and is slowly delivered to the lysosome for degradation, and recombinant GPI minus VSG reporters are rapidly degraded in the lysosome. Here we summarize recent data confirming this correlation using a tool kit of recombinant GPI anchored reporters, including a reporter designed to be conditionally modulated between a GPI valence of one and two.     

Solubilization, identification, and localization of vitellogenin-binding sites in follicles of the cockroach, Nauphoeta cinerea

Binding sites for vitellogenin were solubilized and analyzed either with a filter assay or with ligand blotting. We tested sodium dodecylsulfate (SDS), Chaps, octyl-beta-D-glucoside, and sodium deoxycholate and found SDS and sodium deoxycholate to be most effective in solubilizing both high and low molecular weight binding sites. In the filter assay the sodium deoxycholate extracts, but not the SDS extracts, maintained binding activity after dilution of the solubilizer below its critical micellar concentration. In ligand blotting we consistently observed, in vitellogenic follicles, binding sites with an apparent Mr of approximately 200,000, 35,000, and three closely spaced bands between 14,000 and 20,000. Binding of vitellogenin to all binding sites was suppressed in the presence of the drug suramin. Analysis of corpora lutea and oothecae as well as of ovariole sheath, follicle cell/basal lamina, and oocyte plasma membrane preparations showed that the 35 and 14-20 kDa binding sites are located in the outer follicle compartments, and the 200 kDa binding site in the oocyte plasma membrane. In the latter we occasionally also observed binding sites with an apparent Mr of approximately 150,000, 95,000, 67,000 and 30,000, particularly at stages after ovulation. The 35 and 14-20 kDa binding sites, as visualized in stained gels and in ligand blotting, are rather abundant and were also seen in several other male and female tissues of Nauphoeta and even in other species. They also bound other 14C-labeled hemolymph proteins and thus appear to be rather unspecific. As binding analysis with nonsolubilized and sodium deoxycholate-solubilized membranes revealed that the quantity of vitellogenin bound by binding sites of the outer follicle compartments was low, it is conceivable that the abundance of the 14-20 kDa and 35 kDa binding sites in ligand blotting is merely an effect of SDS and does not reflect the in vivo situation. We suppose that the 200 kDa binding site of the oocyte plasma membrane represents the vitellogenin receptor involved in endocytosis.     

In silico identification and characterization of the MAPK family members of unicellular model eukaryote Tetrahymena thermophila

The biological function and evolutionary diversity of the mitogen-activated protein kinase (MAPK) family have mostly been studied in fungi, animals and plants, with very limited information from lower eukaryotes. This study aimed to describe the MAPKs of unicellular Tetrahymena thermophila. Eight members of the T. thermophila MAPK (TtMPK) gene family, in addition to previously reported TtMPK1, TtMPK2 and TtMPK3, were identified bioinformatically using a T. thermophila genome database. Phylogenetic analysis assigned the TtMPKs into two major groups, ERK1/2-like (TtMPK1, 2, 3, 5, 6, 7, 8, and 9) as stress-responsive MAPKs for biotic and abiotic stresses, and ERK7/8-like (TtMPK4, 10, and 11) as cell-cycle-associated protein kinases for biotic factors. Semi-quantitative RT-PCR analysis of the TtMPKs showed high mRNA expression at 30 °C; however, only TtMPK5 and TtMPK6 showed high expression at 37 °C. Osmotic shock by 100 mM NaCl only increased the expression of TtMPK2, whereas 20 mM NaCl reduced the expression of all MPKs to almost zero. The results suggested that T. thermophila MAPKs are among the closest representatives of the ancestors of the eukaryotic MAPK family. Although no functional characterization of MPKs was performed, this study is the first report of the genome-wide MAPK family in T. thermophila.     

Identification and in silico characterization of a novel gene: TPA induced trans-membrane protein

12-O-Tetradecanoylphorbol-13-acetate (TPA) is a potent tumor promoter with wide ranging, diverse, and sometimes opposite cellular effects. Using oligonucleotide microarray analysis, we have identified a novel gene that is upregulated following treatment with TPA in the pancreatic cancer cell line CD18. Real-time PCR validated the microarray results in CD18 and HeLa cells, and showed that upregulation of the gene is time- and concentration-dependent. In silico analysis showed the gene product to be a single-pass transmembrane protein of 217 residues that is localized to the endoplasmic reticulum, thus the name TPA induced trans-membrane protein (TTMP). A luciferase reporter assay demonstrated that upregulation of TTMP by TPA is triggered at the promoter level.     

Enzymatic activity, protein expression, and gene sequence of cruzipain in virulent and attenuated Trypanosoma cruzi strains.

Protein expression, characterized in Western blots and gelatinolytic activity, of cruzipain (Cr), the major Trypanosoma cruzi cysteine proteinase, was compared among 3 attenuated T. cruzi strains (TUL 0, TCC, and Y null) and their virulent counterparts (TUL 2, Tulahuen, and Y). All attenuated strains displayed a weaker gelatinolytic activity as compared with their virulent counterparts. The electrophoretic mobility and immunological reactivity revealed quantitative and qualitative differences, with the attenuated parasites showing bands of less density in all strains and lower mobility in 2 of them, as compared with the virulent strains. Sequence analysis of 1 Cr gene in the Tulahuen and TCC strains indicated 37/1404 base pair substitutions, corresponding to 20 amino acid changes in the attenuated strain. A similar comparative analysis of 1 Cr gene between Y and Y null strains showed 13/1404 base pair substitutions, corresponding to 8 amino acid changes in the attenuated strain. Although enough variability exists in the Cr gene to allow for less- or nonfunctional isoforms of the protein, further clones should be analyzed to establish whether attenuation is regularly associated with specific sequence changes of this enzyme.     

Cloning, localization and differential expression of the Trypanosoma cruzi TcOGNT-2 glycosyl transferase

It is well established that G-quadruplex DNA structures form at ciliate telomeres and their formation throughout the cell-cycle by telomere-end-binding proteins (TEBPs) has been analyzed. During replication telomeric G-quadruplex structure has to be resolved to allow telomere replication by telomerase. It was shown that both phosphorylation of TEBPβ and binding of telomerase are prerequisites for this process, but probably not sufficient to unfold G-quadruplex structure in timely manner to allow replication to proceed. Here we describe a RecQ-like helicase required for unfolding of G-quadruplex structures in vivo. This helicase is highly reminiscent of human RecQ protein-like 4 helicase as well as other RecQ-like helicase found in various eukaryotes and E. coli. In situ analyses combined with specific silencing of either the telomerase or the helicase by RNAi and co-immunoprecipitation experiments demonstrate that this helicase is associated with telomerase during replication and becomes recruited to telomeres by this enzyme. In vitro assays showed that a nuclear extract prepared from cells in S-phase containing both the telomerase as well as the helicase resolves telomeric G-quadruplex structure. This finding can be incorporated into a mechanistic model about the replication of telomeric G-quadruplex structures during the cell cycle.     

TransientAgrobacterium-mediated gene expression in theArabidopsis hydroponics root system for subcellular localization studies

To a great extent, the cellular compartmentalization and molecular interactions are indicative of the function of a protein. The development of simple and efficient tools for testing the subcellular location of proteins is indispensable to elucidate the function of genes in plants. In this report, we assessed the feasibility ofAgrobacterium-mediated transformation of hydroponically grown roots to follow intracellular targeting of proteins fused to green fluorescent protein (GFP). We developed a simple in planta assay for subcellular localization of proteins inArabidopsis roots via transient transformation and tested this method by expressing a GFP fusion of a known nuclear protein, IQD1. Visualization of transiently expressed GFP fusion proteins in roots by means of confocal microscopy is superior to the analysis of green tissues because the roots are virtually transparent and free of chlorophyll autofluorescence.     

High throughput in silico identification and characterization of Plasmodium falciparum PRL phosphatase inhibitors

Kinases and phosphatases are involved in many essential processes in Plasmodium lifecycle. Among the identified 67 Plasmodium falciparum phosphatases, Phosphatase of Regenerating Liver (PRL) family protein homolog, PfPRL, is an essential parasite tyrosine phosphatase. PfPRL is shown to be prenylated, secreted, and involved in the host invasion process. In the present study, a structure-based high throughput in silico screening of PfPRL binders, using ChEMBL-NTD compounds lead to the identification of nine compounds based on binding energy, Lipinski rule of five, and QED score. The most of the shortlisted compounds are known to inhibit parasite growth at a concentration (EC50) ≤2 μm in in vitro P. falciparum culture assays. MD simulations were carried out on the shortlisted nine potential enzyme–inhibitor complexes to analyze specificity, stability, and to calculate the free binding energies of the complexes. The study identifies PfPRL as one of the potential drug targets for selected ChEMBL-NTD compounds that may be exploited as a scaffold to develop novel antimalarials.     

Development of an in silico coding gene SNP map in pigs

A total of 5450 sequences obtained from the NCBI pig SNP database were consolidated into 465 unique sequences (189 singleton sequences and 276 contigs). These 465 sequences contained 1787 putative SNPs and had strong sequence homology to 433 human protein-coding genes based on blast analyses. These genes were assigned to the pig QTL maps ( http://www.animalgenome.org/QTLdb/pig.html ) via the human and pig comparative maps established by a pig radiation hybrid (RH) map. The SNP information characterized from this study provides a useful functional gene variation resource to facilitate QTL data mining in the pig genome.     

Vicinity analysis: a methodology for the identification of similar protein active sites

Vicinity analysis (VA) is a new methodology developed to identify similarities between protein binding sites based on their three-dimensional structure and the chemical similarity of matching residues. The major objective is to enable searching of the Protein Data Bank (PDB) for similar sub-pockets, especially in proteins from different structural and biochemical series. Inspection of the ligands bound in these pockets should allow ligand functionality to be identified, thus suggesting novel monomers for use in library synthesis. VA has been developed initially using the ATP binding site in kinases, an important class of protein targets involved in cell signalling and growth regulation. This paper defines the VA procedure and describes matches to the phosphate binding sub-pocket of cyclin-dependent protein kinase 2 that were found by searching a small test database that has also been used to parameterise the methodology.     

Combinatory use of cell-free protein expression,limited proteolysis and mass spectrometry for the high-throughput protein domain identification

The structural domains of proteins have often been identified through the use of limited proteolysis. In structural genomics studies, it is necessary to carry this out in a high-throughput manner. Here, we constructed a novel high-throughput system, which consists of cell-free protein expression and one-step affinity purification, followed by limited proteolysis using a unique new method, referred to “on beads method”. All these steps were carried out on 96-well plate formats and completed in two days, even by manual handling. The merits of the new method versus the conventional one are as follows: (1) experimental times are reduced, (2) the sample preparation for limited proteolysis experiments is simplified, and (3) both protein purification and limited digestion can be performed “in situ” on the same sample plate. This preparation method is therefore suitable for highly automated, proteolytic analyses coupled to mass spectrometry techniques at a micro-scale protein expression level. The resulting protease-resistant fragments were analyzed by MALDI-TOF-MS and protein domains of 34 mouse cDNA products were identified with this system.