Padermsak Jarayabhand

Expression of immune-related genes in the digestive organ of shrimp, Penaeus monodon, after an oral infection by Vibrio harveyi.

In all previous studies, to study shrimp immune response, bacteria were directly injected into the shrimp body and as a consequence the initial step of a natural interaction was omitted. In this study we have instead used an immersion technique, which is a more natural way of establishing an infection, to study immune responses in black tiger shrimp (Penaeus monodon). Normally, Vibrio harveyi (Vh) is highly pathogenic to post-larval shrimp, but not to juveniles which usually resist an infection. In post-larvae, Vh causes a massive destruction of the digestive system, especially in the hepatopancreas and in the anterior gut. We have therefore investigated changes in transcription levels of fifteen immune-related genes and morphological changes in juvenile shrimp following an immersion of shrimp in Vh suspension. We found that a pathogenic bacterium, Vh, has the capacity to induce a local expression of some immune-related genes in shrimp after such a bacterial immersion. Our results show that in the juvenile gut small changes in expression of the antimicrobial peptide (AMP) genes such as antilipopolysaccharide factor isoform 3, crustin and penaeidin were observed. However some other genes were more strongly induced in their expression compared to the AMP genes. C-type lectin, Tachylectin 5a1 and mucin-like peritrophic membrane were increased in their expression and the C-type lectin was affected most in its expression. Several other examined genes did not change their expression levels. By performing histology studies it was found that Vh infection induced a strong perturbation of the midgut epithelium in some regions. As a consequence, the epithelial cells and basement membrane of the infected site were completely damaged and necrotic and massive hemocyte infiltration occurred underneath the affected tissue to combat the infection.

Genetic Heterogeneity of the Giant Tiger Shrimp (Penaeus monodon) in Thailand Revealed by RAPD and Mitochondrial DNA RFLP Analyses

Abstract: Genetic diversity of the giant tiger shrimp (Penaeus monodon) collected from 5 areas, Chumphon and Trat (Gulf of Thailand), and Phangnga, Satun, and Trang (Andaman Sea), was examined by randomly amplified polymorphic DNA (RAPD) and mitochondrial DNA (16S ribosomal DNA and an intergenic COI-COII) polymorphism. A total of 53 polymorphic fragments from UBC299, UBC273, and UBC268 was consistently scored across all samples. From the respective primers 26, 32, and 30 genotypes were generated. A 260-bp RAPD fragment generated by the primer UBC268 was specifically observed in 95.8% of Trat P. monodon, suggesting that this RAPD could be used as a marker for comparing phenotypic performance of P. monodon from Trat and other geographic samples. In addition, 37 mtDNA composite haplotypes were observed from restriction analysis of the same P. monodon samples. High haplotype diversity (0.855) and nucleotide diversity (3.328%) of Thai P. monodon were observed. Population differentiation of P. monodon between the Andaman Sea and Gulf of Thailand was clearly illustrated by both techniques (P < .0001). Nevertheless, contradictory results on patterns of differentiation were observed between P. monodon within the Gulf of Thailand. Analysis of nuclear DNA polymorphism (RAPD) indicated a genetically significant difference between Chumphon and Trat (P < .0001), whereas mtDNA polymorphism did not show differentiation between these samples (P= .0497). Under the presumption of selective neutrality of these markers, biased female gene flow between Trat and Chumphon P. monodon may exist and be responsible for an anomalous differentiation pattern between these geographic samples.

A review of the culture of tropical abalone with special reference to Thailand

Abstract Most species of abalone cultured throughout the world are either temperate or sub-tropical, and are relatively large compared with tropical species. However, markets for small or ‘cocktail size’ abalone are growing rapidly. Three species of tropical abalone are found in Thai waters: Haliotis asinina H. ovina and H. varia . At present, there is no commercial abalone culture in Thailand. This paper reviews the current research into the culture of tropical Thai abalone and both the advantages and disadvantages for cultivation. Although more research is needed, preliminary investigations indicate that the high growth rates and ease of spawning of Thai abalone offer excellent potential for cultivation.

Microsatellite polymorphism and the population structure of the black tiger shrimp (Penaeus monodon) in Thailand.

Abstract: Genetic variation and differentiation of Thai Penaeus monodon from five geographic locations (Chumphon, Trad, Phangnga, Satun, and Trang) were investigated using five microsatellite loci (CUPmo18, Di25, Di27, CSCUPmo1, and CSCUPmo2). The number of alleles across the five loci ranged from 19 to 30, and heterozygosities ranged from 0.49 to 0.95. The mean number of alleles and effective number of alleles per locus were 21.0 to 26.6 and 13.1 to 20.4, respectively. The average heterozygosity across all investigated samples was 0.78, indicating high genetic diversity in this species. Geographic heterogeneity analysis of the results from two of the loci, CUPmo18 and Di25, showed significant differences among the Gulf of Thailand (Trad and Chumphon) but not the Andaman samples. Comparison between regions revealed significant heterogeneity of the Andaman and Trad P. monodon (P < .001), whereas those from Chumphon and the Andaman were genetically similar (P > .05). Significant genetic differentiation was consistently observed between the Andaman-Trad samples (FST= 0.0101, P < .0001) and the Chumphon-Trad samples (FST= 0.0101, P < .0001). On the basis of our analyses, the investigated samples from five geographic locations were allocated to three distinct populations composed of the Andaman Sea (A), Chumphon (B), and Trad (C).

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

Abstract: 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.

Molecular genetic identification tools for three commercially cultured oysters (Crassostrea belcheri, Crassostrea iredalei, and Saccostrea cucullata) in Thailand.

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.

Genetic Diversity and Molecular Markers of the Tropical Abalone (Haliotis asinina) in Thailand

Genetic diversity of abalone in Thailand, Haliotis asinina, H. ovina, and H. varia, was analyzed by polymerase chain reaction (PCR) of 18S and 16S rDNAs, with randomly amplified polymorphic DNA (RAPD) and restriction fragment length polymorphism (RFLP). Species-specific RAPD markers were found in each abalone species. Restriction analysis of 18S (nuclear) ribosomal DNA with Alu I, Taq I, and Hae III and 16S (mitochondrial) rDNA with Bam HI, Eco RI, Hae III, and Alu I gave 12 and 13 digestion patterns, respectively. A total of 49 composite haplotypes were found. A dendogram obtained by the unweighted pair-group method with arithmetic mean, constructed from divergence between pairs of composite haplotypes, revealed reproductively isolated gene pools of these abalone and indicated that H. asinina and H. ovina are genetically closer than H. varia. When H. varia was discovered owing to small sample sizes, geographic heterogeneity analysis and FST estimate indicated clear genetic differentiation between H. ovina originating from the Andaman Sea (west) and the Gulf of Thailand (east, P < 0.0001), whereas partial differentiation was observed between the Philippines and the remaining H. asinina samples (P < 0.0021). The amplified 16S rDNAs of individuals representing composite haplotypes found in this study were cloned and sequenced. A neighbor-joining tree constructed from sequence divergence of 16S rDNA accurately allocated those sequences according to species origins of abalone. Species-specific PCR based on 16S rDNA polymorphism was successfully developed in H. asinina and H. varia but not in H. ovina.

Realized heritability estimation on growth rate of oyster, Saccostrea cucullata Born, 1778

Abstract A selective breeding programme for commercially important oyster species i.e. S. cucullata, Crassostrea belcheri , and C. lugubris , was initiated in October 1990 in Thailand. A base population of S. cucullata was produced in an oyster hatchery at Chulalongkorn University. They were reared at an oyster demonstration farm, Klong Prong, Angsila for almost 2 years. At 15 months the base population was separated into three groups (i.e. fast, medium and slow) based on their whole weights. They were used as broodstock to produce F 2 . In November 1993, most of the F 2 reached market size. Means (± S.D.) of the whole weight of offspring produced from each group are significantly different with the values of 28.4 ± 7.84 (n = 112), 23.8 ± 8.46 (n = 83), and 20.3 ± 7.94 (n = 91) g, for fast, medium, and slow groups, respectively. This suggests that growth rate in this oyster species is heritable. In addition, survival rate of the fast group was relatively higher than but not significantly different from the other two groups. The realized heritability estimate for growth rate from this experiment was 0.277 ± 0.006, which means that mass selection, to increase S. cucullata production is very promising.

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.

Population Structure of Tropical Abalone (Haliotis asinina) in Coastal Waters of Thailand Determined Using Microsatellite Markers

Three partial genomic libraries were constructed from genomic DNA of the tropical abalone (Haliotis asinina) that was digested with AluI, vortexed/sonicated, and digested with mixed enzyme (AluI, HincII, and RsaI). The libraries yielded 0.02%, 0.42%, and 1.46% positive microsatellite-containing clones, respectively. Eleven clones each of perfect, imperfect, and compound microsatellites were isolated. Ten primer pairs (CUHas1–CUHas10) were analyzed to evaluate their polymorphic level. The numbers of alleles per locus, observed heterozygosity (H0), and expected heterozygosity (He) ranged from 3 to 26 alleles, and varied between 0.27 and 0.85 and between 0.24 and 0.93, respectively. Three microsatellite loci (CUHas2, CUHas3, and CUHas8) were further used for examination of genetic diversity and differentiation of natural H. asinina in coastal waters of Thailand. Genetic variabilities in terms of the effective number of alleles (ne), H0, and He were higher in 2 samples from the Gulf of Thailand (ne = 9.37, 7.66; H0 = 0.62, 0.78; and He = 0.87, 0.86) than those of one sample (ne = 6.04; H0 = 0.58; and He = 0.62) derived from the Andaman Sea. Assessment of genetic heterogeneity, including allele frequency comparison and pairwise FST analysis, indicated interpopulational differentiation, between natural H. asinina from the Gulf of Thailand and that from the Andaman Sea (P < 0.0001).