1.DNA Extraction from Protozoan Oocysts/Cysts in Feces for Diagnostic PCR.
The Korean Journal of Parasitology 2014;52(3):263-271
PCR detection of intestinal protozoa is often restrained by a poor DNA recovery or by inhibitors present in feces. The need for an extraction protocol that can overcome these obstacles is therefore clear. QIAamp(R) DNA Stool Mini Kit (Qiagen) was evaluated for its ability to recover DNA from oocysts/cysts directly from feces. Twenty-five Giardia-positive, 15 Cryptosporidium-positive, 15 Entamoeba histolytica-positive, and 45 protozoa-free samples were processed as control by microscopy and immunoassay tests. DNA extracts were amplified using 3 sets of published primers. Following the manufacturer's protocol, the kit showed sensitivity and specificity of 100% towards Giardia and Entamoeba. However, for Cryptosporidium, the sensitivity and specificity were 60% (9/15) and 100%, respectively. A series of optimization experiments involving various steps of the kit's protocol were conducted using Cryptosporidium-positive samples. The best DNA recoveries were gained by raising the lysis temperature to the boiling point for 10 min and the incubation time of the InhibitEX tablet to 5 min. Also, using a pre-cooled ethanol for nucleic acid precipitation and small elution volume (50-100 microl) were valuable. The sensitivity of the amended protocol to Cryptosporidium was raised to 100%. Cryptosporidium DNA was successfully amplified by either the first or the second primer set. When applied on parasite-free feces spiked with variable oocysts/cysts counts, approximately 2 oocysts/cysts were theoretically enough for detection by PCR. To conclude, the Qiagen kit with the amended protocol was proved to be suitable for protozoan DNA extraction directly from feces and support PCR diagnosis.
DNA, Protozoan/*isolation & purification
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Feces/*parasitology
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Humans
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Molecular Diagnostic Techniques/*methods
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Polymerase Chain Reaction/*methods
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Protozoan Infections/*diagnosis
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Sensitivity and Specificity
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Specimen Handling/*methods
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Spores, Protozoan/*genetics
2.Study on the polymorphism in circumsporozoite protein of Plasmodium vivax before the completion on elimination program of malaria, in Hainan province.
Yuchun LI ; Shanqing WANG ; Ximin HU ; Guangze WANG ; Feng MENG ; Wen ZENG ; Chunxiang CHEN ; Chongjin TONG
Chinese Journal of Epidemiology 2014;35(3):303-306
OBJECTIVETo explore the polymorphism in circumsporozoite protein of Plasmodium vivax before malaria was eliminated in Hainan island.
METHODSPCR amplification, sequencing, and alignment methodologies were conducted and phylogenetic tree constructed.
RESULTSFrom all the cases, 19 of them belonged to two types, with 18 as VK210 type and 1 as VK247 type. VK210 type could be divided into seven kinds of subtypes but VK247 had only one type. Ratio of tropical strain with temperate stain in VK210 type was explored between the two stages:control or elimination. Phylogenetic tree was constructed by amino acid sequencing which clearly manifested that VK210 type and VK247 type belonged to different clusters.
CONCLUSIONCompared the proportion of two types in the control stage, there was no significant difference seen in the stage of elimination.
China ; epidemiology ; Genotype ; Humans ; Malaria, Vivax ; epidemiology ; prevention & control ; Plasmodium vivax ; classification ; genetics ; isolation & purification ; Polymorphism, Genetic ; Spores, Protozoan ; genetics
3.Construction of subtractive cDNA libraries of the sporogony stage of Eimeria tenella by suppression subtractive hybridization.
Hong-Yu HAN ; Jiao-Jiao LIN ; Qi-Ping ZHAO ; Hui DONG ; Lian-Lian JIANG ; Xin WANG ; Jing-Fang HAN ; Bing HUANG
Chinese Journal of Biotechnology 2007;23(6):1005-1010
In order to clone and identify differentially expressed genes in the sporogony stage of Eimeria tenella, the cDNAs from unsporulated oocysts and sporulated oocysts of E. tenella were used as driver, respectively, the cDNAs from sporozoites of E. tenella was used tester, Two subtractive cDNA libraries of sporozoites were constructed by using the technique of suppression subtractive hybridization (SSH). the cDNAs from unsporulated oocysts was used driver, the cDNAs from sporulated ooceysts was used tester, one subtractive cDNA library of sporulated oocysts was constructed. PCR amplification revealed that the two subtractive cDNA libraries of sporozoites and one subtractive cDNA library of sporulated oocysts contained approximated 96%, 96% and 98% recombinant clones, respectively. Fifty positive clones were sequenced and analyzed in GenBank with Blast search from three subtractive cDNA libraries, respectively, thirteen unique sequences were found from the subtractive cDNA library of sporulated oocysts, eight ESTs shared significant identity with previously described. A total of forty unique sequences were obtained from the two subtractive cDNA libraries, nine ESTs shared significant identity with previously described, the other sequences represent novel genes of E. tenella with no significant homology to the proteins in Genbank. These results have provided the foundation for cloning new genes of E. tenella and further studying new approaches to control coccidiosis.
Animals
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Chickens
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parasitology
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Coccidiosis
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parasitology
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veterinary
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DNA, Protozoan
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genetics
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Eimeria tenella
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genetics
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physiology
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Gene Expression Regulation
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Gene Library
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Nucleic Acid Hybridization
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methods
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Oocytes
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metabolism
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Poultry Diseases
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parasitology
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Spores
4.Suppression of Eimeria tenella Sporulation by Disinfectants.
The Korean Journal of Parasitology 2014;52(4):435-438
The disinfectant effects (DEs) of 10 types of chemicals, defined by their ability to destroy or inhibit oocysts and consequently prevent sporulation of Eimeria tenella field isolate, were evaluated in vitro. Correct species assignments and sample purities were confirmed by the singular internal transcribed spacer (ITS)-PCR analysis. A total of 18 treatments were performed, and the disinfection suppression levels were 75.9% for 39% benzene + 22% xylene (1:10 dilution), 85.5% for 30% cresol soup (1:1 dilution), and 91.7% for 99.9% acetic acid (1:2 dilution) group. The results indicate that acetic acid, cresol soup, and benzene+xylene are good candidates for suppression of E. tenella oocyst sporulation.
Animals
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Antiprotozoal Agents/*pharmacology
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Cluster Analysis
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DNA, Protozoan/chemistry/genetics
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DNA, Ribosomal Spacer/chemistry/genetics
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Disinfectants/*pharmacology
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Eimeria tenella/*drug effects/*growth & development
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Microscopy
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Molecular Sequence Data
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Parasitic Sensitivity Tests
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Phylogeny
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Sequence Analysis, DNA
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Spores, Protozoan/*drug effects/*growth & development
5.Atg3-Mediated Lipidation of Atg8 Is Involved in Encystation of Acanthamoeba.
Eun Kyung MOON ; Dong Il CHUNG ; Yeonchul HONG ; Hyun Hee KONG
The Korean Journal of Parasitology 2011;49(2):103-108
Autophagy is a catabolic process involved in the degradation of a cell's own components for cell growth, development, homeostasis, and the recycling of cellular products. Autophagosome is an essential component in the protozoan parasite during differentiation and encystation. The present study identified and characterized autophagy-related protein (Atg) 3, a member of Atg8 conjugation system, in Acanthamoeba castellanii (AcAtg3). AcAtg3 encoding a 304 amino acid protein showed high similarity with the catalytic cysteine site of other E2 like enzymes of ubiquitin system. Predicted 3D structure of AcAtg3 revealed a hammer-like shape, which is the characteristic structure of E2-like enzymes. The expression level of AcAtg3 did not increase during encystation. However, the formation of mature cysts was significantly reduced in Atg3-siRNA transfected cells in which the production of Atg8-phosphatidylethanolamine conjugate was inhibited. Fluorescent microscopic analysis revealed that dispersed AcAtg3-EGFP fusion protein gathered around autophagosomal membranes during encystation. These results provide important information for understanding autophagic machinery through the lipidation reaction mediated by Atg3 in Acanthamoeba.
Acanthamoeba castellanii/*growth & development/*metabolism
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Animals
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Gene Knockdown Techniques
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Lipid Metabolism
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Models, Molecular
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Molecular Sequence Data
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Protein Structure, Tertiary
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Protozoan Proteins/genetics
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RNA, Small Interfering/metabolism
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Rats
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Sequence Analysis, DNA
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Spores, Protozoan/*growth & development/*metabolism
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Ubiquitin-Conjugating Enzymes/genetics/*metabolism