Nucleotide sequence analysis of an Entamoeba histolytica ferredoxin gene

A cDNA clone (subclone B) previously isolated from the human parasite Entamoeba histolytica was characterized. DNA sequence analysis of subclone B identified the DNA as that encoding apoferredoxin. E. histolytica ferredoxin cDNA contains unusually short 5' and 3' noncoding regions of 9 and 25 nucleotides, respectively. A genomic ferredoxin clone was isolated from E. histolytica DNA, and comparison of genomic and cDNA sequences revealed that the ferredoxin gene is unspliced. The deduced amino acid sequence of E. histolytica ferredoxin resembles clostridial type of ferredoxins, and shows an arrangement of cysteines characteristic for the coordination of 2[4Fe-4S] centres. Of interest is the absence of an aromatic amino acid in the N-terminal region of the protein, a feature which is conserved in clostridial ferredoxins. Southern blot analysis of three different E. histolytica strains (200:NIH, Rahman and HM-1:IMSS) demonstrated the presence of a family of at least two ferredoxin genes. One of these genes is marked by restriction length polymorphisms in different strains of E. histolytica.     

Histidine-rich protein genes and their transcripts in Plasmodium falciparum and P. lophurae

The presence of histidine-rich protein (HRP) related genes and gene products in Plasmodium falciparum was demonstrated using a synthetic pentahistidine-encoding oligonucleotide and a cloned HRP cDNA probe prepared from the avian parasite P. lophurae. In Northern blotting experiments, two knobby clones of P. falciparum were found to contain a 3500 nucleotide RNA species that hybridized with the oligonucleotide and HRP cDNA probes. As this component had the expected size for an mRNA encoding an 80-90 kDa protein and was absent from two knobless clones of P. falciparum, we concluded that it represented a 'knob protein' mRNA. Using the restriction enzyme EcoRI, three identical cross-hydribizing HRP gene fragments were found in the DNA of both knobby and knobless clones of P. falciparum. These fragments differed in size from those present in P. lophurae. These results suggest that the absence of knob protein mRNA in knobless clones is not due to loss of the corresponding gene(s).     

Cloning and characterization of an unusual elongation factor-1 alpha cDNA from Entamoeba histolytica

The coding sequence deduced from two overlapping cDNA inserts obtained from a pathogenic strain of Entamoeba histolytica revealed a striking homology (greater than 85%) with elongation factor EF-1 alpha from Saccharomyces cerevisiae and Artemia salina. The deduced amino acid sequence predicted a size of 49 kDa, and antibodies raised against the S. cerevisiae EF-1 alpha cross-reacted with an amoebic protein of similar size (45-47 kDa). Sequence analysis of the cDNA revealed that the 5' untranslated region contained a stretch of 190 nucleotides which was perfectly complementary to a segment of the 3' terminal coding region situated 1015 bases downstream of the methionine initiation codon. Electron microscopy of self-renatured cDNA confirmed the potential of such molecules to form a stem-loop secondary structure. The presence of the complementary sequences was confirmed at the genomic level by sequence analysis of polymerase chain reaction-amplified segments which span both the 3' and 5' terminal complementary regions. Comparison of the deduced amino acid sequence of E. histolytica EF-1 alpha with Ef-Tu from Escherichia coli and EF-1 alpha from different sources, suggested that the major functional domains of the protein are located within the loop structure.     

Isolation, sequence and molecular karyotype analysis of the actin gene of Cryptosporidium parvum.

Actin is an ubiquitous and highly conserved microfilament protein which is hypothesized to play a mechanical, force-generating role in the unusual gliding motility of sporozoan zoites and in their active penetration of host cells. We have identified and isolated an actin gene from a Cryptosporidium parvum genomic DNA library using a chicken beta-actin cDNA as an hybridization probe. The nucleotide sequences of two overlapping recombinant clones were identical and the amino acid sequence deduced from the single open reading frame was 85 % identical to the P. falciparum actin I and human gamma-actin proteins. The predicted 42 106-Da Cryptosporidium actin contains 376 amino acids and is encoded by a single-copy gene which contains no introns. The nucleic acid coding sequence is 72% biased to the use of A or T in the third position of codons. Chromosome-sized DNA released from intact C. parvum oocysts was resolved by OFAGE into 5 discrete ethidium bromide-staining DNAs ranging in size from 900 to 1400 kb; the cloned C. parvum actin gene hybridized to a single chromosomal DNA of approximately 1200 kb.     

Differentiation of transmissible gastroenteritis virus from porcine respiratory coronavirus and other antigenically related coronaviruses by using cDNA probes specific for the 5'' region of the S glycoprotein gene.

Two cDNA clones prepared from the virulent Miller strain of transmissible gastroenteritis virus (TGEV) were identified, and their nucleotide sequences were determined. The clones were nonoverlapping and located in the 5' region of the S glycoprotein gene. Their nucleotide and predicted amino acid sequences were compared with published sequences of the attenuated Purdue strain of TGEV and feline infectious peritonitis virus (FIPV). TGEV clone pE21 contained 381 bp of the S glycoprotein gene and had greater than 98% nucleotide and amino acid sequence homology with Purdue TGEV and over 87% nucleotide and amino acid sequence homology with FIPV. TGEV clone pD24 contained 267 bp of the S glycoprotein gene. It had greater than 98% nucleotide and amino acid sequence homology with Purdue TGEV but only 54% nucleotide sequence homology and 24% amino acid sequence homology with FIPV. A probe prepared from pD24 could differentiate TGEV from porcine respiratory coronavirus and other antigenically related coronaviruses, FIPV, feline enteric coronavirus, and canine coronavirus in a dot blot hybridization assay.     

Molecular characterization of the genomic S RNA segment from lymphocytic choriomeningitis virus

We have used cDNA clones derived from the genomic S RNA segment of lymphocytic choriomeningitis virus (LCMV), Armstrong strain, as hybridization probes to monitor virus gene expression during acute infections. Our results with strand-specific probes confirm the ambisense character of the LCMV S RNA segment and document the presence of both genomic sense and genomic complementary sense RNA species over the time course of infection. We have used nucleotide sequence information to predict primary amino acid sequences for the major viral structural proteins, nucleoprotein (NP) and glycoprotein (GP-C). Antibodies raised against synthetic peptides derived from these predicted protein sequences have indicated that the gene order for the S segment is 3' NP----5' GP-C and provided direct demonstration that the GP-1 portion of the GP-C precursor is encoded nearest the 5' end of the S segment. Comparison of the predicted amino acid sequences for NP and GP-C between the Armstrong CA-1371 strain and the WE strain shows over 90% amino acid identity. This suggests that significant differences described for the pathogenic potential of the Arm and WE strains in C3H mice reside in one or a very few critical amino acid changes.     

Structure of the glycoprotein gene of sonchus yellow net virus, a plant rhabdovirus

The nucleotide sequence of the glycoprotein (G) gene of sonchus yellow net virus (SYNV), a plant rhabdovirus, was determined from viral genomic and mRNA cDNA clones. The G cistron is 2045 nucleotides (nt) long and the G protein mRNA open reading frame (ORF), as determined from the cDNA sequence, contains 1896 nt and encodes a protein of 632 amino acids. Immunoblots with antibodies elecited against the purified glycoprotein from virus particles reacted with a fusion protein produced in Escherichia coli, indicating that the cloned ORF encodes the G protein. The 5' end of the G protein mRNA corresponds to nt 5111, relative to the 3' end of the viral (minus sense) genome, as determined by primer extension from mRNA isolated from infected plants, and extends to nt position 7155 on the genomic RNA. A 34-nt untranslated 5' leader sequence and a 115-nt untranslated 3' end flank the ORF on the mRNA. The gene junctions on either side of the G gene on the genomic RNA are identical to those previously described for other SYNV genes and are similar to sequences separating genes of animal rhabdoviruses. The predicted molecular weight of the G protein is 70,215 Da, a value less than the 77,000 Da estimated for the glycosylated G protein from virus particles. The deduced amino acid sequence of the SYNV G protein shares little direct relatedness with the G proteins of other rhabdoviruses, but appears to contain a similar signal sequence, a transmembrane anchor domain, and glycosylation signals. In addition, the SYNV G protein contains a putative nuclear targeting site near the carboxy terminus, which may be involved in transit to the nuclear membrane prior to morphogenesis.     

Molecular cloning and characterization of actin genes from Echinococcus granulosus

An Echinococcus granulosus genomic library has been screened with a mouse β-actin cDNA probe. Two clones carrying DNA fragments of about 15 kb, possibly derived from the same genome region, have been isolated. This 15-kb genomic region includes 2 actin-related sequences (EgactI and EgactII) separated by about 4 kb. The nucleotide sequences of both genes were determined. The EgactI sequence presents no introns, but an intron of 591 bp was observed in the EgactII sequence. The genes potentially encode 375 and 376 amino-acid-long actins, respectively, with a homology of 85.3%. The deduced amino acid sequences from both genes were compared to the actin sequences from other organisms, showing similarities ranging from 63.5% to 90.6%. The nucleotide sequence of a partial actin cDNA clone has been determined. The deduced amino acids sequence showed a homology of 90.3% and 88.0% in relation to the EgactI and EgactII sequences respectively, suggesting the existence of at least one more actin gene in E. granulosus. This hypothesis is reinforced by the number of bands detected in the Southern blot analysis. Experiments based on the amplification of DNA segments using 3′-specific actin primers indicate that the EgactI gene is transcribed in protoscoleces.     

The genome structure of turnip crinkle virus

The nucleotide sequence of turnip crinkle virus (TCV) genomic RNA has been determined from cDNA clones representing most of the genome. Segments were confirmed using dideoxynucleotide sequencing directly from viral RNA, and the 3' terminal sequence was confirmed by chemical sequencing of end-labeled genomic RNA. Three open reading frames (ORFs) have been identified by examination of the deduced amino acid sequences and by comparison with the ORFs found in the genome of carnation mottle virus. ORF 1 initiates near the 5' terminus of the genome and is punctuated by an amber termination codon. Translation of ORF 1 would yield a 28-kDa protein and an 88-kDa read-through product. The read-through domain possesses amino acid sequence similarities with putative viral RNA polymerases. ORFs 2 and 3 encode products of 38 (coat protein) and 8 kDa, respectively, which are expressed from subgenomic mRNAs. The organization of the TCV genome suggests that TCV is closely related to carnation mottle virus and distinct from members classified in other small RNA virus groups, such as the tombus- and sobemoviruses.     

Rabbit hemorrhagic disease virus--molecular cloning and nucleotide sequencing of a calicivirus genome.

The RNA genome of rabbit hemorrhagic disease virus (RHDV) was molecularly cloned. The 5' terminal sequence of the genomic RNA was determined after PCR amplification of a G-tailed first strand cDNA template. The cloned cDNA allowed determination of the first complete caliciviral sequence encompassing 7437 nucleotides without poly(A) tail. The RHDV genome contains one long open reading frame of 2344 codons which in the 5' region encodes the nonstructural proteins. Sequence comparison studies revealed significant homology between nonstructural proteins of the feline calicivirus (FCV) and RHDV. In analogy to FCV the deduced RHDV amino acid sequence contains a picornavirus 2C-like sequence, a hypothesized cysteine protease motif, and the conserved polymerase residues GDD. For the protein region containing the GDD motif, alignments of sequences from different viruses including the putative caliciviruses hepatitis E virus and Norwalk virus were performed; concerning the classification of the latter two viruses, a final judgement was not possible. Bacterial expression of sequences derived from the 3' part of the genomic RHDV RNA showed that this region codes for the viral capsid protein.     

弓形虫缓殖子期特异抗原SAG2C基因的克隆、鉴定与生物信息学分析

目的克隆并鉴定弓形虫PRU株表面抗原SAG2C基因序列和cDNA序列，对比不同毒力弓形虫株（PRU、RH、ME49）中SAG2C基因序列。进行生物信息学分析。方法根据SAG2C基因已知序列设计合成一对引物，应用PCR技术从Prugniaud（PRU）株弓形虫基因组DNA和总RNA中扩增SAG2C基因，克隆入pMD19-T载体并进行序列测定。应用DNAMAN软件、NCBI网站（http：／／www。ncbi．nlm．nih.gov／）分析3种虫株之间SAG2C基因的同源性；利用生物信息学网站ExPASy（http：／／us.expasy．org／）对获得的基因及推导出的氨基酸序列进行生物信息学分析。结果PCR扩增得到弓形虫PRU株SAG2C基因及其全长cDNA序列．酶切及PCR鉴定获得了正确的重组质粒。测序结果表明，获得SAG2C基因序列1225bp，全长cDNA序列1095bp，编码364个氨基酸。同源性分析显示。弓形虫Prugniaud株和RH株SAG2C基因同源性为97．14％；Prugniaud株与ME49株cDNA序列同源性为96．89％；编码氨基酸序列同源性为92％。N端为信号肽，C端疏水序列预测它为糖基磷脂酰肌醇固着蛋白．存在13个潜在抗原表位及多个保守功能区域。结论成功克隆了弓形虫缓殖子期特异抗原SAG2C基因序列及其全长cDNA序列。序列分析显示其为糖基磷脂酰肌醇固着蛋白。     

Structure and expression of the knob-associated histidine-rich protein of Plasmodium falciparum

cDNA clones encoding 473 amino acids of the knob-associated histidine-rich protein (PfHRPI) of Plasmodium falciparum clone FCR-3/A2 (Gambia) have been isolated and sequenced. Although a short region close to the amino terminus of the predicted sequence contains three blocks of six, seven or nine consecutive histidine residues, the most abundant amino acid is lysine. The predicted sequence contains a putative amino-terminal signal sequence and two potential asparagine glycosylation sites. A 1284 bp Sau3A cDNA fragment was expressed in Escherichia coli as a fusion protein that was recognized by an anti-PfHRPI monoclonal antibody. Pulsed field gradient electrophoresis indicated that the PfHRPI gene is located on chromosome 2. The PfHRPI gene was present, apparently intact, in knobless parasites derived from one uncloned P. falciparum isolate (St. Lucia). In a knobless derivative of another uncloned isolate (Malayan Camp) and in a cloned knobless line (FCR-3/D4) of a third isolate (Gambian), that part of the gene covered by the cDNA clone has been deleted. Loss of PfHRPI expression may therefore arise via several different mechanisms of gene alteration.     

Molecular cloning of hepatitis C virus genome from a single Japanese carrier: sequence variation within the same individual and among infected individuals.

A hepatitis C virus (HCV) genome was isolated and sequenced from a single Japanese patient with chronic non-A, non-B hepatitis. The genome (HCV-JT), which was constructed with 23 cDNA clones, consisted of 9436 nucleotides with a long open reading frame which could encode a sequence of 3010 amino acid residues. To study the sequence variation of the HCV genome in an individual, we analyzed another sequence of the HCV genome (HCV-JT') constructed with different cDNA clones derived from the same patient. The nucleotide variation between HCV-JT and -JT' was less than 1%, and was distributed throughout the genome except in the 5' non-coding region, where no variation was observed. The diversity was higher (1.6%) in the putative envelope protein region than in other regions. The nucleotide and deduced amino acid sequences of HCV-JT showed homologies of about 91 and 95%, respectively, with those of other Japanese HCV isolates. The nucleotide diversity was high in the gp 70 region (corresponding to the NS 1 region of flaviviruses) and low in the 5' non-coding and p22 (putative core protein) regions. A similar pattern of distribution of nucleotide changes was observed on comparison of HCV-JT with an American isolate HCV-US, where the homologies in nucleotide and amino acid sequences were about 79 and 85%, respectively. Base transversions contributed about 50% of the total base exchanges between the Japanese and American HCV sequences, but only 20% or less of those among Japanese HCV or among American HCV sequences. Thus, the Japanese and American HCVs are genetically distinguishable, supporting our earlier prediction that these two HCVs could be classified as different subtypes.     

Sequence diversity and antigenic polymorphism in the Plasmodium yoelii p235 high molecular mass rhoptry proteins and their genes

A gene family in Plasmodium yoelii YM encodes p235, a group of high molecular mass erythrocyte-binding rhoptry proteins. Sequence analysis of 6 cDNA clones from the 3' end of expressed p235 genes divided them into two groups corresponding to genes on chromosomes 1, and 5 and 6, respectively. Twelve partial p235 protein sequences, derived from cDNA sequences from the region with greatest protein sequence similarity to Plasmodium vivax RBP2, fell into three groups, together with one chimeric sequence. A comparison of these cDNA sequences with genomic DNA sequences from the same region suggested that only a subset of the gene repertoire is expressed. Three genomic DNA clones, derived from the 5' end of p235 genes designated E1, E2, and E5 and located on chromosome 5/6, were also obtained and aligned with sequences from the known E8 and E3 genes. In the region of overlap there was only approximately 27% protein sequence identity, indicating that the sequences in this p235 N-terminal region are more diverse than at the C-terminal end. This sequence variation in the expressed genes did not result in antigenically different rhoptry proteins as detected with a panel of p235-specific mAbs. Only one schizont out of 500 examined with mAb 25.86 appeared to be an antigenic variant, with all of the developing merozoites in this schizont being mAb 25.86 negative. No other antigenic variants were detected with the other antibodies, and therefore it is likely that these antibodies recognise conserved epitopes.