Ostrincola humesi sp. nov., a myicolid copepod (Poecilostomatoida) parasitic in rock oysters cultured in the Gulf of Thailand

A new species of poecilostomatoid copepod, Ostrincola humesi (Myicolidae), is described, based on specimens collected from the mantle cavity of the rock oyster, Saccostrea cucullata (Born), cultured in the Gulf of Thailand. A close comparison was made between the new species and Ostrincola koe Tanaka with which the new species was previously confused. A key to the nine species of Ostrincola is provided.     

Genetic Diversity and Molecular Markers of Cupped Oysters (Genera Crassostrea, Saccostrea, and Striostrea) in Thailand Revealed by Randomly Amplified Polymorphic DNA Analysis

Genetic diversity and species-diagnostic markers of 5 oysters in Thailand, Crassostrea belcheri (Sowerby, 1871), Crassostrea iredalei (Faustino, 1932), Saccostrea cucullata (Born, 1778), Saccostrea forskali (Gmelin, 1791), and Striostrea (Parastriostrea) mytiloides (Lamarck, 1819), were investigated by randomly amplified polymorphic DNA (RAPD) analysis. In a total, 135, 127, and 108 genotypes were observed from primers OPA09, OPB01, and OPB08 (Operon Technologies Inc., kits A and B), and 131 and 122 genotypes from primers UBC210 and UBC220 (University of British Columbia), respectively. Two hundred fifty-four reproducible and polymorphic fragments (200–2500 bp in length) were generated across the 5 investigated species. The average number of bands per primer varied between 12.4 and 32.2. The percentage of polymorphic bands within Crassostrea (53.23%–77.67%) was lower than that within Saccostrea and Striostrea oysters (86.21%–99.36%). Nine, species-specific markers were found in C. belcheri, 4 in C. iredalei, and 2 in S. cucullata. The mean of a ratio between the number of genotypes generated by each primer and the number of investigated specimens of C. belcheri (0.58) was lower than that of the remaining species (0.90–1.00). Genetic distances between pairs of oyster samples were between 0.105 and 0.811. A neighbor-joining tree indicated distant relationships between Crassostrea and Saccostrea oysters, but closer relationships were observed between the latter and Striostrea mytiloides. Received June 6, 2000; accepted September 12, 2000     

Molecular Genetic Identification Tools for Three Commercially Cultured Oysters (<Emphasis Type="Italic">Crassostrea belcheri</Emphasis>, <Emphasis Type="Italic">Crassostrea iredalei</Emphasis>, and <Emphasis Type="Italic">Saccostrea cucullata</Emphasis>) in Thailand

Abstract Molecular genetic keys for identification of 3 commercially cultured oysters (Crassostrea belcheri, Crassostrea iredalei, and Saccostrea cucullata) in Thailand were developed based on restriction analysis of 18S ribosomal DNA and cytochrome oxidase subunit I (COI). Digestion of the amplified 18S rDNA with Hinf I unambiguously differentiated Crassostrea oysters from Saccostrea oysters and Striostrea (Parastriostrea) mytiloides. In addition, species-specific restriction fragment length polymorphism patterns of C. belcheri, C. iredalei, and S. cucullata were consistently observed when the gel-eluted COI was digested with Mbo I and Dde I. Thirty composite haplotypes were observed across all individuals. Species-specific composite haplotypes were found in C. belcheri (AAAA and AAAB), C. iredalei (AABC and AABU), and S. cucullata (BBCD and BBCE), respectively. The most common composite haplotype of COI in C. belcheri (AAAA), C. iredalei (AABC), and S. cucullata (BBCD) was amplified, cloned, and sequenced. Detection of C. belcheri and C. iredalei based on polymerase chain reaction was further developed using more specific primers (HCO2198 and R372) followed by digestion of a 372-bp product with Mbo I.     

Evaluation of the toxicity of <Emphasis Type="Italic">Arthrospira</Emphasis> (<Emphasis Type="Italic">Spirulina</Emphasis>) <Emphasis Type="Italic">platensis</Emphasis> extract

In this study, the methanol extract of Arthrospira (Spirulina) platensis was examined for acute and subchronic toxicities. The extract did not produce any sign of toxicity within 7 days after feeding it at a single high dose of 6 g kg⁻¹ body weight to female and male Swiss mice. For the subchronic toxicity test, the extract at doses of 6, 12, and 24 mg kg⁻¹ body weight was orally administered to six male and six female Wistar rats daily for 12 weeks. Throughout the study period, we did not observe any abnormalities on behavior, food and water intakes, and health status among the treated animals. The hematology and clinical chemistry parameters of treated groups did not significantly differ from those of the controls in both sexes. Postmortem examination of the test groups also showed no abnormalities in both gross and histological findings. These results thus suggest that the methanol extract of A. platensis did not cause acute or subchronic toxicity in our experimental animals.     

Ethiprole resistance in Nilaparvata lugens (Hemiptera: Delphacidae): possible mechanisms and cross-resistance

This article reports the current status of ethiprole resistance in Nilaparvata lugens Stål in the central region of Thailand, together with the associated resistance mechanisms. A resistance survey found that a field population had developed 308.5-fold resistance to ethiprole. Further selection with ethiprole for nine generations in the laboratory led to 453.1-fold ethiprole resistance. However, following this selection procedure, the resistance of N. lugens to other insecticides decreased to about one-third of its original resistance. This result implies that there is no cross-resistance between ethiprole and other kinds of insecticides in this pest. In an in vivo study of synergisms, triphenyl phosphate (TPP) exhibited a strong synergism (SR 4.2) with ethiprole in the resistant hoppers, piperonyl butoxide (PBO) also showed significant synergistic effects with ethiprole (1.6), but diethyl maleate (DEM) did not show any obvious synergism with ethiprole (1.2). An in vitro biochemical study indicated that esterase activity increased with ethiprole resistance in N. lugens, that P450 monooxygenase activity also increased significantly with high resistance, but that glutathione S-transferase activity did not. These results reveal that increases in esterase activity and P450 monooxygenase activity cause the ethiprole resistance observed in the field populations of N. lugens. Whether the mechanisms for ethiprole resistance involve target-site sensitivity is not yet known; further molecular analysis is required. However, an analysis of insecticide cross-resistance and the insecticide application history of the resistant populations indicated that target resistance was present and that rotation between insecticides with different modes of action will provide a key countermeasure to maintain the efficacy of ethiprole.     

Development of Species-Specific Markers of the Tropical Oyster (Crassostrea belcheri) in Thailand

Randomly amplified polymorphic DNA (RAPD) analysis was used to identify species-specific markers of 5 oyster species in Thailand: Crassostrea belcheri, Crassostrea iredalei, Saccostrea cucullata, Saccostrea forskali, and Striostrea (Parastriostrea) mytiloides. Species-specific markers were found in C. belcheri, C. iredalei, and S. cucullata but not in S. forskali and S. mytiloides. Three C. belcheri–specific RAPD fragments were cloned and sequenced. A primer set was designed from each of the recombinant clones (pPACB1, pPACB2, and pPACB3). The polymerase chain reaction products showed expected sizes of 536, 600, and 500 bp, respectively, with the sensitivity of detection approximately 30 pg of C. belcheri total DNA template. The specificity of pPACB1 was examined against 135 individuals of indigenous oyster species in Thailand and against outgroup references S. commercialis (N= 12) and Perna viridis (N= 12). Results indicated the species-specific nature of primers developed from pPACB1. This primer set can be used for broodstock selection and determination of C. belcheri larvae to assist the selective breeding program for this commercially important species. Received December 8, 1999; accepted March 16, 2000.     

Molecular Taxonomy of Cupped Oysters (Crassostrea, Saccostrea, and Striostrea) in Thailand Based on COI, 16S, and 18S rDNA Polymorphism

Genetic diversity of oysters Crassostrea belcheri (Sowerby, 1871), C. iredalei (Faustino, 1932), Saccostrea cucullata (Born, 1778), S. forskali (Gmelin, 1791), and Striostrea (Parastriostrea) mytiloides (Lamarck, 1819) (Ostreoida, Mollusca) was analyzed by polymerase chain reaction – restriction fragment length polymorphism (PCR-RFLP) of 16S ribosomal DNA with AcsI, AluI, DdeI, DraI, RsaI, and TaqI, 18S ribosomal DNA with HinfI, and cytochrome oxidase subunit I with AcsI, DdeI and MboI. A total of 54 composite haplotypes were observed. Species-diagnostic markers were specifically found in C. belcheri, C. iredalei, and S. cucullata, but not in S. forskali and Striostrea mytiloides, which shared common composite haplotypes. Neighbor-joining trees constructed from genetic distances between pairs of composite haplotypes and species indicated large genetic differences between Crassostrea and Saccostrea (including Striostrea mytiloides), but closer relationships were observed within each genus. Four groups of unidentified oysters (Crassostrea sp. and Saccostrea sp. groups 1, 2, and 3) were also genetically analyzed. Fixed RFLP markers were found in Crassostrea sp. and Saccostrea sp. group 2, but not in Saccostrea sp. groups 1 and 3. Phylogenetic and genetic heterogeneity analyses indicated that Crassostrea sp. and Saccostrea sp. group 2 should be considered as newly unidentified oyster species in Thailand.     

Influence of arbuscular mycorrhizal fungi (AMF) on zinc biogeochemistry in the rhizosphere of Lindenbergia philippensis growing in zinc-contaminated sediment

The association of arbuscular mycorrhizal fungi (AMF) with the roots of Lindenbergia philippensis (Cham.) Benth., sampled from a Zn-contaminated settling pond at a zinc smelter, significantly enhanced Zn accumulation (72,540 ± 5,092 mg kg^?1 dry weight) in rhizosphere sediment amended with 1,000 mg L^?1 of Zn sulfate solution compared to fungicide-treatments that suppressed AMF colonization. This can be explained by a significant proportion of Zn being found in rectangular crystals that were associated with the root mucilaginous sheath. Despite this, all treatments maintained the same Zn coordination geometry in both Zn oxidation state and the coordinated neighbouring atoms. X-ray absorption spectroscopy (XAS) showed a Zn(II) oxidation state as a core atom and associated with six oxygen atoms symmetrically arranged in an octahedral coordination and coordinated with sulfur. The results may indicate a role for AMF in enhancing Zn immobilization in the rhizosphere of indigenous plants that successfully colonize Zn mining and smelting disposal sites.     

臭灵丹水提取物的急性毒性及镇痛作用的实验研究

采用上下移动法,醋酸扭体法、热板法、福尔马林致痛试验对臭灵丹水提取物的急性毒性及镇痛作用进行了研究。结果显示：臭灵丹水提取物LD50（腹腔注射）为1．19g／kg;臭灵丹水提取物明显抑制醋酸所致的小鼠扭体数,显著减少福尔马林致痛试验后期小鼠舔足行为;而对热板法所致疼痛无明显作用。表明臭灵丹水提取物具有一定的外周镇痛作用。     

BAMP-28 Antimicrobial Peptide Against Different MALDI Biotype of Carbapenam Resistant Enterobacteriaceae

Worldwide emergence of Carbapenam resistance in Enterobacteriaceae (CRE) are increasing globally and becoming a severe public health issue. Infections caused by CRE have limited treatment options and have been associated with high mortality rates. Due to their unique mode of action, antimicrobial peptides are novel alternatives to traditional antibiotics for tackling the issue of bacterial multidrug resistance. An easy, rapid and accurate detection of 72 clinically CRE isolates using a MALDI–TOF MS was additionally developed. The CRE isolates belonging to 33 Carbapenam-resistant Klebsiella pneumoniae, 17 Carbapenam-resistant Escherichia coli, 16 Carbapenam-resistant Enterobacter cloacae and 6 Carbapenam-resistant Citrobacter freundii carrying blaNDM-1 were definitely discriminated from reference genotype strain by MALDI–TOF MS. This rapid, accurate, and reproducible peptide signature profiling technology could have new implications in laboratory-based high-throughput differentiation of extensive libraries of Carbapenam resistant Enterobacteriaceae. Antibacterial activity of 9 short novel peptides against these CRE isolates were investigated. Although neither synthetic peptides induced significant hemolysis, or showed cytotoxic on Vero cell, only BAMP-28 peptide inhibited growth of K. pneumoniae, E. coli, C. freundii and E. cloacae with MIC₅₀ of 18–40, 20–40, 16–25 and 18–36 µM, respectively. In conclusion, MALDI–TOF MS can be used to screen for Carbapenam resistance in K. pneumoniae, E. coli, E. cloacae and C. freundii. Interestingly, BMAP-28 peptide had acceptable effect on Carbapenam resistant Enterobacteriaceae including K. pneumoniae, E. coli, C. freundii and E. Cloacae isolates with less toxicity.