耳鲍精子的超微结构

本文利用透射电子显微镜对耳鲍(Haliotis asinina Linnaeus)精子的形态及超微结构进行了研究.研究结果表明:耳鲍的精子由头部、中段和尾部三部分组成,全长 41.6 μm.精子头部长 1.8 μm,头部由顶体、顶体下腔和细胞核组成,顶体电子密度比较均匀,呈圆锥形,长 0.6 μm,基部宽度为 0.65 μm,占头部长的 1/3;顶体下腔长 0.03 μm,宽为 0.65 μm,腔中含有中等电子密度物质;细胞核圆棒状,长 1.17 μm,核中部的宽度为 1.0 μm.精子中段较短,长 0.51 μm,宽 1.2 μm,主要由 5 个线粒体包围一对中心粒构成.尾部是一根鞭毛,从前到后逐渐变细,鞭毛是由细胞质膜包被的轴丝组成,轴丝为典型的"9 2"微管结构,即轴丝是由两个中心微管及均匀分布在中心微管周围的 9 对双联体微管组成.因此,耳鲍与其它鲍类精子的基本结构相似,形态结构的主要差异表现在三个方面:一是耳鲍精子的头部似圆锥形,长 1.8 μm,是目前已研究的鲍类中头部最短的种类;二是耳鲍精子顶体长比其基部宽要小,顶体电子密度比较均匀,顶体与核的电子密度差异不明显;三是耳鲍精子中段线粒体的数量为 5 个,没有发现 6 个线粒体现象的存在[动物学报 53(3):552-556,2007].     

Isolation and characterization of microsatellite markers in the South African abalone (Haliotis midae)

We report the isolation and characterization of 11 polymorphic microsatellite loci in the South African abalone Haliotis midae. These loci showed a range of five to 21 alleles per locus and observed heterozygosities ranging from 0.14 to 0.93 in a wild population of 32 individuals. All loci except four conformed to Hardy–Weinberg expectations and did not show linkage disequilibrium. The polymorphism exhibited at these loci indicate that they would be useful in determining levels of genetic variability in natural and commercial Haliotis midae populations as well as in parentage and Quantitative Trait Loci (QTL) analysis in hatchery reared abalone.     

Development of microsatellite loci in pinto abalone (Haliotis kamtschatkana)

Twelve novel di‐, tri‐ and tetranucleotide microsatellite loci to the pinto abalone (Haliotis kamtschatkana) are described. Over 400 individuals were analysed at each microsatellite locus. Observed heterozygosities ranged from 0.44 to 0.93, and numbers of alleles from 20 to 63. Six of the loci contained excesses in homozygosity indicative of inbreeding, nonrandom mating, population admixture, or null alleles.     

Isolation of microsatellite loci in green abalone (Haliotis fulgens) and cross‐species amplification in two other North American red (Haliotis rufescens) and pink (Haliotis corrugata) abalones

Microsatellite loci were isolated in Haliotis fulgens using a (CT)_n enriched‐genomic library. From 33 sequenced clones, 21 microsatellites regions were identified, 15 with the expected (CT)_n. Eight microsatellite loci were amplified, six of which were polymorphic with a range of three to 20 alleles, and five cross‐amplified in two other species (Haliotis rufescens and Haliotis corrugata). These microsatellites will be useful as population genetic markers in the three species.     

Development of 11 polymorphic microsatellite loci in the small abalone (Haliotis diversicolor Reeve)

Eleven polymorphic microsatellite loci for Haliotis diversicolor were isolated and characterized from (CT)(n) - and (AC)(n) -enriched library. They were tested in 24 individuals from a natural population. All of them were polymorphic, with the number of alleles varying between three and 10. The observed heterozygosities and expected heterozygosities ranged from 0.083 to 0.913 and from 0.159 to 0.856, respectively. The 11 isolated microsatellite loci, except SA-JMU6 and SA-JMU12, followed Hardy-Weinberg expectations. Seven sets of primers also amplify in closely related species, H. ovina and H. asinine. These 11 polymorphic microsatellites will be useful for analysing the population structure and genetic diversity in H. diversicolor.     

Isolation and cross-amplification of microsatellites in pink abalone (Haliotis corrugata)

Ten novel microsatellite loci were isolated in pink abalone, Haliotis corrugata, using (GT)₁₅ and (CT)₁₅ enriched genomic libraries. Two previously reported Haliotis kamtschatkana microsatellites cross‐amplified in H. corrugata. A set of 12 polymorphic microsatellites were evaluated in a wild population sample (N = 49). The number of alleles ranged from two to 55, and the observed and expected heterozygosities ranged from 0.104 to 0.939 and from 0.213 to 0.982, respectively. Significant deviations from Hardy–Weinberg equilibrium at three loci and no linkage disequilibrium were observed. Haliotis corrugata microsatellites cross‐amplified in other abalone species, two in H. fulgens, and seven in H. rufescens.     

Babylonia spirata (Linnaeus, 1758) on biochemical and nutritional composition levels are altered by Aeromonas hydrophila infection

The present study comprises the biochemical and nutritional composition level of control and infected host of B. spirata with A. hydrophila. The healthy species were collected from the Therespuram coast, Southeast coast of India. After the acclimatization period, 15 snails were selected and infected with seven different bacterial pathogens by intramuscular injection. The snails which shows the maximum mortality rate after the bacterial infection was selected for the biochemical composition nutritional level. It was then analyzed and compared to the control group. Based on this result, the FTIR spectrum, DNA fragmentation, SDS PAGE Profile, amino acids (phenylalanine), fatty acids (linolenic acids), minerals (aluminum and copper) was recorded maximum in control and minimum in infected tissue of B. spirata. The result of the present study showed, presences of rich nutrition composition good protein profile in this species add more value of economic importance.     

Effect of eight benthic diatoms as feed on the growth of red abalone (Haliotis rufescens) postlarvae

The growth rate of abalone post larvae of Haliotis rufescens fed ad libitum with a benthic monoalgal diatom culture maintained as monocultures on a semi-commercial scale, was evaluated and correlated with the biochemical composition of the diatoms. The cell size (7.0 × 4.0 μm to 21.0 × 7.5 μm), protein percentage (7.42% to 13.66%), and ash content (49.03% to 59.61%) were different among diatom strains; lipid percentage, nitrogen free extract, and energy content (Kcal g⁻¹) were similar among diatom strains. The values of essential and non-essential amino and fatty acids composition differed among diatom strains. Differences in the abalone shell length and orthogonal analyses revealed postlarval growth was dependent on the quality of the food source. Postlarvae abalone displaying the longest shell lengths were fed Nitzschia thermalis var. minor and Amphiprora paludosa var. hyalina (1,712.0 ± 61 μm and 1,709 ± 67 μm, respectively), followed by Navicula incerta (1,413.3 ± 43 μm). The fatty acid content of benthic diatoms and abalone growth rate were not correlated.     

Characterization of 12 single nucleotide polymorphisms (SNPs) in Pacific abalone, Haliotis discus hannai

We report here for the first time 12 polymorphic single nucleotide polymorphisms (SNPs) in a commercially important gastropod, Pacific abalone (Haliotis discus hannai) that were identified by searching expressed sequence tag database. These SNP loci (seven nuclear and five mitochondrial SNPs) were polymorphic among 37 wild abalone individuals, based on a four-primer allele-specific polymerase chain reaction analysis. All loci had two alleles and the minor allele frequency ranged from 0.027 to 0.473. For the seven nuclear SNPs, the expected and observed heterozygosities ranged from 0.053 to 0.499 and from 0.054 to 0.811, respectively.     

Francisella halioticida sp. nov., a pathogen of farmed giant abalone (Haliotis gigantea) in Japan

Aims: In 2005, a Francisella sp. was isolated from diseased cultured giant abalone (Haliotis gigantea) in Japan. The aim of this study was to clarify the taxonomic status of this Francisella sp. Shimane‐1 isolate in relation to the four described Francisella species. Methods and Results: The 16S rRNA gene and several housekeeping genes of the Shimane‐1 were compared to isolates of the four recognized species within the Francisella genus. DNA–DNA hybridization (DDH) and biochemical profile comparison were performed with the two phylogenetically closely related species, Francisella philomiragia and Francisella noatunensis. Results show that the Shimane‐1 is genetically different from all described Francisella species and differs phenotypically from F. philomiragia and F. noatunensis. The average DDH similarity of Francisella sp. Shimane‐1 to F. noatunensis ssp. noatunensis (NCIMB14265^T) and to F. philomiragia (DSM7535^T) was 49·2 and 61%, respectably, clearly supporting the establishment of Shimane‐1 as a new species within the Francisella genus. Conclusions: The phenotypic and genetic results presented in this study suggest the establishment of Shimane‐1 as a novel species, for which the name Francisella halioticida sp. nov. (=LMG26062^T, =DSM23729^T) is proposed. Significance and Impact of the Study: This study clarifies the taxonomic position and characteristics of a novel mollusc pathogenic Francisella species.     

Detection of QTL for growth rate in the blacklip abalone (Haliotis rubra Leach) using selective DNA pooling

The objective of this study was to identify QTL for growth rate in the blacklip abalone Haliotis rubra using selective DNA pooling. Three full-sibling families of H. rubra derived from crosses of wild broodstock were used. DNA was extracted from the largest and smallest 10% of progeny and combined into two pools for each phenotypic tail. The DNA pools were typed with 139 microsatellites, and markers showing significant differences between the peak height ratios of alleles inherited from the parents were individually genotyped and analysed by interval mapping. A strong correlation (r = 0.94, P < 0.001) was found between the t-values from the analysis of pools and the t-values from the analysis of individual genotypes. Based on the interval mapping analysis, QTL were detected on nine linkage groups at a chromosome-wide P < 0.01 and one linkage group at a chromosome-wide P < 0.05. The study demonstrated that selective DNA pooling is efficient and effective as a first-pass screen for the discovery of QTL in an aquaculture species.     

Species identification of the tropical abalone (Haliotis asinina, Haliotis ovina, and Haliotis varia) in Thailand using RAPD and SCAR markers

A randomly amplified polymorphic DNA (RAPD) analysis was used to identify the species- and population-specific markers of abalone; Haliotis asinina, H. ovina, and H. varia in Thai waters. Fifteen species-specific and six population-specific RAPD markers were identified. In addition, an 1650 bp band (UBC195) that was restricted to H. ovina from the Gulf of Thailand (east) was also found. All of the specific RAPD markers were cloned and sequenced. Twenty pairs of primers were designed and specificity-tested (N = 12 and 4 for target and non-target species, respectively). Seven primer pairs (CUHA1, 2, 4, 11, 12, 13, and 14) were specifically amplified by H. asinina DNA, whereas a single pair of primers showed specificity with H. ovina (CUHO3) and H. varia (CUHV1), respectively. Four primer pairs, including CUHA2, CUHA12, CUHO3, and CUHV1, were further examined against 216 individuals of abalone (N = 111, 73, and 32, respectively). Results indicated the species-specific nature of all of them, except CUHO3, with the sensitivity of detection of 100 pg and 20 pg of the target DNA template for CUHA2 and CUHA12 and CUHV1, respectively. The species-origin of the frozen, ethanol-preserved, dried, and boiled H. asinina specimens could also be successfully identified by CUHA2.     

Development of an experimental laboratory fertilization protocol for the South African abalone,Haliotis midae (Linnaeus 1758)

In this study, effective gamete concentrations, egg viability, and fertilization volumes were evaluated for Haliotis midae (L.). Sperm concentrations between 5?×?10³ and 5?×?10⁴?mL^?1 (p?>?0.05) consistently resulted in high hatch-out rates (96?±?1%). At concentrations higher than 5?×?10⁵?mL^?1, hatch-out rates decreased to 69?±?7% (p??1 resulted in high fertilization rates, with 50?eggs?mL^?1 being the ideal concentration for fertilization in H. midae. Egg viability was consistently high up to 100?min post-spawning, with a decrease in hatch-out success, when eggs were fertilized 120?min post-spawning. Fertilization volumes did not affect successful hatch-out. The results from this study can be implemented by South African abalone farms to increase hatch-out rates and subsequent culture. It can also be used as basis for the development of fertilization protocols in other marine invertebrate species.     

中华绒螯蟹第二次卵巢发育期间卵巢和肝胰腺中主要生化成分的变化

2005年3—5月,在室内养殖条件下对第一次产卵后的中华绒螯蟹进行连续采样,系统研究了其第二次卵巢发育期间的卵巢指数(GSI)、肝胰腺指数(HSI)、卵巢外部特征的变化,并测定了卵巢和肝胰腺中的主要生化成分(水分、蛋白、脂肪和碳水化合物)的变化。结果表明:1.中华绒螯蟹第二次卵巢发育过程中,卵巢指数(GSI)显著增加(p<0.05),肝胰腺指数(HSI)先增加后减少,GSI与发育天数呈显著正相关性(p<0.01),HSI和GSI的变化呈显著负相关性(p<0.05)。2.第二次卵巢发育过程中,卵巢中的水分含量显著下降,脂肪、蛋白质和碳水化合物的含量显著上升(p<0.05);肝胰腺中的水分含量显著增加(p<0.05),脂肪和碳水化合物的含量显著下降(p<0.01),蛋白质含量基本不变。3.第二次发育过程中,卵巢中的脂肪、蛋白质和碳水化合物的含量与GSI呈正相关(p<0.01),卵巢中的水分含量与GSI呈显著负相关(p<0.01);肝胰腺中的脂肪和碳水化合物的含量随着HSI的下降而显著下降,肝胰腺中的水分含量与HSI呈显著负相关(p<0.01);肝胰腺中的脂肪含量与GSI及卵巢中脂肪含量均呈显著负相关(p<0.01),这说明中华绒螯蟹第二次卵巢发育过程中肝胰腺中的部分脂肪转运到二次卵巢中去。     

Comparative studies on the nutrition of two species of abalone,Haliotis tuberculata Linnaeus and Haliotis discus hannai Ino I. Effects of algal diets on growth and biochemical composition

Summary

This study was conducted to examine the nutritional value of eight algal diets for two species of abalone, Haliotis tuberculata and Haliotis discus hannai, by measuring biochemical composition of the algae and relating this to feeding rate, growth and biochemical composition of the animals. Nutritional value of algal diets can be divided into three categories for each species of abalone. For H. tuberculata the best performance was on the mixed diet and Palmaria palmata intermediate was Alaria esculenta, Ulva lactuca and Laminaria digitata, and lowest growth was on Laminaria saccharina and Chondrus crispus. For H. discus hannai, best performance was on A. esculenta, P. palmata and the mixed diet; intermediate was on L. saccharina and L. digitata and lowest was on U. lactuca. It is generally accepted that high “balanced” levels of protein (>15%), lipid (3–5%) and carbohydrate (20–30%), with no detrimental substances in natural algae are essential for optimal growth performance of these abalone. The fact that A. esculenta, L. saccharina and U. lactuca had different dietary values for the two abalone species indicates specific nutritive requirements and/or digestive physiology. Overall, H. tuberculata grew faster, had higher food conversion efficiencies and muscle yield than H. discus hannai. Generally abalone fed on the highest category diets, had higher muscle yields and levels of protein, visceral lipids and muscle carbohydrate. Viscera and foot muscle are reservoirs for lipid and carbohydrate, respectively. The effect of algal diet on sexual maturation is similar to that on somatic growth.     

Elemental and biochemical composition of<Emphasis Type="Italic"> Nephrops norvegicus</Emphasis> (Linnaeus 1758) larvae from the Mediterranean and Irish Seas

The Norway lobster, Nephrops norvegicus, is a commercially exploited decapod which is widely distributed throughout the north-eastern Atlantic and the Mediterranean Sea. Ovigerous females originating from the Mediterranean and the Irish Seas were held in the laboratory until larvae hatched. Biomass and biochemical composition, as well as digestive gland structure, were examined in newly hatched larvae from these two regions. In addition, previously published data from a North Sea population were included in our comparison. Elemental analyses showed that the absolute quantities of dry mass (DM), carbon (C), nitrogen (N) and hydrogen (H) (collectively referred to as CHN) per individual, and the C:N mass ratios, were significantly lower, while the relative CHN, protein and lipid values (in % of DM) were higher in samples from the Irish Sea compared to larvae originating from either the Mediterranean or the North Sea. As in CHN, the absolute level of protein per individual was higher in larvae from the Mediterranean, while no significant differences were observed in the individual lipid contents. Likewise, the digestive gland structure at hatching did not show any differences between study areas. Intraspecific variability in biomass and chemical composition of newly hatched larvae from different regions may be related to differential patterns of reproduction in regions with different climatic conditions. Lobster larvae hatch in the Mediterranean Sea predominantly in winter when both water temperature and planktonic food availability are at a minimum, while hatching in the Irish Sea occurs under more favourable conditions in spring. Hence, significantly higher wet mass, dry mass and protein values in Mediterranean larvae may represent adaptive traits allowing for early posthatching survival and development under food-limited conditions in an oligotrophic environment.Communicated by H.-D. Franke     

Genetic diversity and species identification in the endangered white abalone (<Emphasis Type="Italic">Haliotis sorenseni</Emphasis>)

In 2001, the white abalone Haliotis sorenseni became the first marine invertebrate in United States waters to receive federal protection as an endangered species. Prior to the endangered species listing, 20 abalone were collected as potential broodstock for a captive rearing program. Using DNA from these animals, we have developed genetic markers, including five nuclear microsatellite loci and partial sequences of one nuclear (VERL) and two mitochondrial (COI and CytB) genes, to assess genetic variability in the species, aid in species identification, and potentially track the success of future outplanting of captive-reared animals. All five microsatellite loci were polymorphic and followed expectations of simple Mendelian inheritance in laboratory crosses. Each of the wild-caught adult abalone exhibited a unique composite microsatellite genotype, suggesting that significant genetic variation remains in natural populations. A combination of nuclear and mitochondrial gene sequencing demonstrated that one of the original wild-caught animals was, in fact, not a white abalone, but H. kamtschatkana (possibly subspecies assimilis). Similarly, another animal of uncertain identity accidentally collected by dredging was also shown to be H. kamtschatkana. Inclusion of these two animals as broodstock could have resulted in unintentional hybridizations detrimental to the white abalone recovery program. Molecular genetic identifications will be useful both in preventing broodstock contamination and as markers for future restocking operations.