虾夷扇贝的多态性微卫星座位

Japanese scallop is one of the most important cultured seashells in the world. Following about 20 years’ artificial culture, we need DNA markers for genetic research. Microsatellites recently have become popular markers in a variety of genetic investigations. In this research, we isolated microsatellite DNAs from the Japanese scallop Patinopecten yessoensis genome with magnetic beads. As a result, 136 positive clones were identified from 192 clones,and 179 microsatellites were found. Among the 179 microsatellites, 50.8% were perfect, 43.0% were imperfect and the rest were compound type (6.1%). Finally, 85 microsatellite primers were designed by software Primer Premier 5.0, and 40 pairs were screened; 15 loci showed polymorphism. In these microsatellite loci, genetic diversity was analysed in 2 cultured populations. The average number of allele (A) ranged from 3.27 to 3.40; the average heterozygosity (H_o) in 2 populations was 0.447 to 0.540; average excepted heterozygosity (H_e) was 0.468 to 0.493; and average polymorphism information content (PIC) was 0.443 to 0.463. The genetic distance was 0.1155 and genetic identity was 0.8909. Thirteen microsatellite loci except HLJX-028 and HJLX-031 could be used for genetic

6种苯系物对虾夷扇贝的生殖毒性作用

采用半静水式毒性试验,研究了6种苯系物(苯、甲苯、乙基苯、邻–二甲苯、间–二甲苯、对–二甲苯)对虾夷扇贝的生殖毒性作用。在水温(16±0.5)℃、盐度30.0、p H 8.0条件下,用0.5、2.5、12.5 mg·L-1的苯、甲苯、乙基苯、邻–二甲苯、间–二甲苯、对–二甲苯处理虾夷扇贝的精子、胚胎和幼体,观察6种苯系物对虾夷扇贝的精子活力、卵子受精率、胚胎延滞率、胚胎畸形率、孵化率、幼体畸形率的影响。同时通过透射电镜观察6种苯系物(2.5 mg·L-1)对虾夷扇贝精子超微结构的损伤作用。结果发现:不同浓度苯系物处理组与对照组(0.0 mg·L-1)相比,虾夷扇贝精子的运动时间、卵子受精率及胚胎孵化率显著降低;胚胎发育延滞率、胚胎畸形率和幼体畸形率显著增加为并与处理浓度之间存在显著的剂量—效应关系。以上结果表明实验浓度下,6种苯系物对虾夷扇贝具有较强的胚胎毒性和生殖毒性作用。通过电镜切片发现,2.5 mg·L-1的苯、甲苯、乙基苯、邻–二甲苯、间–二甲苯、对–二甲苯导致虾夷扇贝精子超微结构损伤,表现为:精子质膜断裂、部分溶解,线粒体质膜和内嵴断裂、部分溶解。苯系物对虾夷扇贝精子超微结构的损伤可能是影响其精子活力和降低卵子受精率的主要原因之一。上述结果为苯系物对海洋贝类的生殖毒性评价提供基础数据。

二甲苯、蒽、苯并[α]芘对虾夷扇贝幼贝血清SOD、CAT活性的影响

以虾夷扇贝(Mizuhopecten yessoensis)为受试生物,设置3种不同浓度的二甲苯、蒽、苯并[α]芘处理健康的虾夷扇贝,检测血清中超氧化物歧化酶(SOD)、过氧化氢酶(CAT)活性变化情况,结果发现:0.01~1.0 mg·L^(-1)的二甲苯、0.002~0.2 mg·L^(-1)的蒽、0.001~0.1 mg·L^(-1)的苯并[α]芘处理6、12 h后,虾夷扇贝血清SOD活性升高,处理12 h后对血清SOD活性诱导率均高于处理6 h的;处理6 h后,血清CAT活性降低,而处理12 h后,血清CAT活性升高;具有显著的剂量-效应关系和时效关系,表明二甲苯、蒽、苯并[α]芘对虾夷扇贝具有氧化胁迫作用,可能导致其氧化损伤。相关性分析发现,3种污染物处理6 h后,血清SOD活性与CAT活性变化呈显著负相关;而处理12 h后,血清SOD活性与CAT活性变化呈显著正相关。上述结果为开展二甲苯、蒽、苯并[α]芘对海洋贝类毒性评价提供基础数据。

獐子岛养殖水域叶绿素含量时空分布特征及初级生产力季节变化

2005年3、5、7和10月对獐子岛养殖海域(共设18个站位)进行叶绿素浓度的调查。结果表明,调查海区叶绿素浓度为1.23～2.85 mg/m^3,均值为1.78±0.57 mg/m^3。叶绿素浓度的季节性变化显著,最高值出现在冬季,夏季的值最低;平面分布的特性为春、夏、冬季分布比较均匀。秋季叶绿素浓度的区域性差异较大,主要表现为近岸区的叶绿素浓度低于中间深水区域,可能与养殖虾夷扇贝摄食压力有关,但尚需进一步研究。垂直分布较为均匀,夏季表层叶绿素浓度高于底层,其他季节的分布趋势与夏季相反。初级生产力的季节性变化明显,与叶绿素的变化趋势不同,从3～10月,初级生产力逐渐增大,变化范围为30.4～117.0 mgC/m^2·d,平均值为76.6±41.9 mg C/m^2·d。结合同步调查的水温、营养盐数据得知,水温和溶解性无机氮是影响初级生产力的主要因素。

虾夷扇贝家系的建立及不同家系的早期生长研究

采用♂:♀=1:3的交配方法建立了33个虾夷扇贝Patinopecten yessoensis全同胞家系,对其壳长、壳高、壳宽和活体重进行了周年观测,对家系间和家系内的生长变异进行了比较分析。结果表明,不同家系间在不同性状上差异极显著。在同批家系中,06S-1、06S-24和06S-25号等家系壳高的生长较快,优势明显;06S-1、06S-25、06S-18和06S-30号等家系活体重的生长速度较快,差异显著;33个家系壳高月增长量大小顺序与活体重月增长量变化规律相近;06S-24、06S-25、06S-30、06S-1和06S-18号家系在各时期各性状上均表现出了明显的生长优势,是生长性状优良的家系,而06S-2和06S-5号家系生长一直最慢,各性状的表现也最差。全同胞家系间生长的差异性,表明家系间差异较显著,遗传变异资源丰富,可为后期的选育提供大量选种材料。

细胞松弛素B诱导虾夷扇贝多倍体初探

Triploid shellfish are useful for aquaculture because of their sterility,superior growth and improved meat quality.Tetraploid are also valuable for 100% producing triploids through mating with diploid.We tested polyploid induction in Japanese scallop,Patinopecten yessoensis,by inhibiting polar body Ⅰ (PB group) and both polar bodyⅠandⅡ (PPB group) in newly fertilized eggs.Cytochalasin B (0.6 mg/L) was applied at 11～22 min post fertilization (PF),and terminated in PB group when polar body Ⅰ was released about 70% in untreated eggs,in PPB group when polar lobe was observed in control group.The treatment and its control were repeated 5～7 times using different pairs of parents.The ploidy was determined by counting chromosome number at embryo stage,and then was detected by flow cytometry (FCM) at larvae stage and juvenile stage.\;In PB group,aneuploid (31.13%),triploid (3.96%),tetraploid (17.46%) and pentaploid (46.65%) embryos were produced,and in PPB groups,pentaploid embryos became higher (56.2%),triploid and tetraploid were 2.42% and 9.11%.At day 3 PF,the larvae showed tetraploid,pentaploid and aneuploid peaks through checking with FCM in PB group,and showed mainly higher pentaploidy peak in PPB groups.However,at day 14 PF diploids were mainly left,sometimes with small triploid peak.It suggested that most tetraploid,aneuploid and pentaploid larvae were died within the first two weeks PF.At three months PF,a few diploid juveniles were harvested in three control groups.Only 12 juvenile scallops were harvested in one of treated group (PB-7),and 11 of them died accidentally,the alive one in treated group was triploid through checking with FCM.

不同苗种来源的中国虾夷扇贝群体的遗传多样性分析

虾夷扇贝(Mizuhopecten yessoensis)于1982年从日本引入中国并展开规模化养殖。由于引入的亲贝数目有限,使虾夷扇贝在人工育苗养殖过程中群体遗传多样性水平下降。本研究使用7对微卫星引物对日本原种贝(♀、♂)自交后的子代群体(RZ)、国内种贝(♀、♂)自交后的子代群体(DZ)、日本原种贝(♂)与国内种贝(♀)的杂交群体(ZH)和国内自然海区(中国旅顺月亮湾)天然繁殖群体(HC)4个不同的虾夷扇贝群体的遗传多样性进行了研究。实验结果表明,4个群体的平均有效等位基因数为3.2～3.8,平均期望杂合度为0.6718～0.7017,日本野生群体做为种贝繁殖的苗种(RZ)与中国养殖群体相比,遗传多样性水平较高,除了DZ群体外其他群体的遗传多样性并无显著的变化。

SSR不对称PCR法分析虾夷扇贝遗传多样性

采用微卫星引物的不对称扩增法(即不对称PCR-SSR方法),得到了较为准确的微卫星,运用8对微卫星标记对取自日本青森县的自然群体(QSX)、俄罗斯海参崴自然生群体(HSW)和大连旅顺口的自然群体(LSK)及大连的广鹿岛(GLD)、獐子岛(ZZD)、小长山(XCS)和凌水桥(LSQ)养殖群体进行遗传多样性分析。平均观察杂合度(Ho)和期望杂合度(He)分别为0.51563～0.64583和0.67575～0.74535,其中QSX群体的平均杂合度最高,HSW群体的最低,各群体间的差异不显著,说明中国的扇贝的群体遗传多样性仍然处于一个很高的水平,种质资源较丰富。并对常规PCR和不对称PCR方法扩增微卫星的优缺点进行了探讨。

虾夷扇贝脂多糖诱导的肿瘤坏死因子LITAF基因的克隆及表达分析

脂多糖诱导的肿瘤坏死因子(Lipopolysaccharide-induced TNF-alpha factor,LITAF)是一类重要的炎症细胞因子,在先天性免疫系统中发挥重要的介质作用。文章根据虾夷扇贝LITAF基因EST序列,应用RACE技术克隆了虾夷扇贝LITAF全长cDNA,对序列及编码的氨基酸进行生物信息学分析。结果显示,该基因cDNA全长1 551 bp,其5′非编码区包含76 bp,3′非编码区包含1 001 bp;开放阅读框(ORF)为474 bp,编码157个氨基酸,氨基酸序列中存在一个保守的LITAF结构域;理论分子量16.99 kDa,等电点为6.24。LITAF基因序列为3 698 bp,由3个外显子和两个内含子组成。利用实时荧光定量PCR技术分析LITAF在虾夷扇贝不同组织、不同胚胎发育阶段以及鳗弧菌(Vibrio anguillarum)刺激后各时间段的表达情况。结果表明:LITAF基因在所检测的6个成体组织中均有表达,其中肾脏的表达量最高;胚胎发育的7个时期中,担轮幼体时期表达量最高;菌刺激36 h实验组与对照组的表达量差异大。LITAF基因是LITAF家族的一员,推测LITAF基因参与虾夷扇贝的先天性免疫反应。

虾夷扇贝对牙鲆的粪便、残饵及网箱养殖区沉积物的摄食

采用室内静水法,研究了虾夷扇贝Patinopecten yessoensis对牙鲆Paralichthys olivaceus残饵、鱼类粪便、鱼类养殖网箱沉积物及微藻的摄食行为,分析了基于虾夷扇贝的鱼+贝多营养层次的综合养殖(IMTA)模式的可能性。研究结果显示,虾夷扇贝对鱼粪、残饵及鱼类养殖网箱沉积物都可摄食,但对微藻的滤水率和摄食率最高,显著高于其他实验组(ANOVA,P<0.01);微藻组、残饵组和鱼粪组之间的吸收效率没有显著性差异,但都显著高于沉积物组。吸收效率(AE)与有机物比率(f)呈正相关关系:AE(%)=38.84lnf+72.7(R2=0.378);对有机物的吸收率(AR)与有机物浓度(POM)呈线性正相关关系:AR=0.118×POM-0.555(R2=0.329)。假粪产生时颗粒物TPM浓度的阈值为24.09mg/L。

虾夷扇贝线粒体非编码区2(NcR2)序列多态性研究

利用PCR产物直接测序法对大连獐子岛(ZZD)、大连旅顺口(LSK)、日本青森县(QSX)及俄罗斯海森崴(HSW)4个群体40个虾夷扇贝的线粒体DNA序列变异进行分析。共测定了40个序列,得到14个单元型。除NcR2序列外,其他序列无变异存在。在NcR2序列中,有15个变异位点,包括9个转换位点、2个颠换位点、4个插入/缺失位点。ZZD群体含有的单元型最多,为6种,HSW群体含有5种,LSK群体和QSX群体各含有3种,大连的2个群体中均具有与日本群体相同的单元型H2,表明它们之间关系较近。ZZD群体的单元型多态性比例最高(60%),HSW次之,LSK与QSX群体最低,均为30%,说明獐子岛群体的遗传多样性较高。

微酸性电解水对活品虾夷扇贝存活率的影响及杀菌效果

以活品虾夷扇贝(Patinopecten yessoensis)为实验对象,用不同理化性质的微酸性电解水(slightly acidic electrolyzed water,SAEW)处理受试扇贝,并用副溶血性弧菌人工浸染经微酸性电解水处理过的扇贝,检测其存活率、微酸性电解水杀菌效果、副溶血性弧菌的变化规律,以及虾夷扇贝在不同电解水处理阶段的菌相。结果显示,微酸性电解水处理1 min、2 min、4 min,扇贝存活率均为80%,处理8 min存活率为82%,均高于染菌组和对照组;电解水处理时间与细菌总数和大肠菌群呈显著负相关(P<0.05),与处理时采用的电解水有效氯浓度没有显著性关系(P>0.05)。采用电解水处理8 min后,活品虾夷扇贝体内染上的副溶血性弧菌数量从>1 100 MPN/g降至28 MPN/g。扇贝初期主要菌群为假单胞菌和弧菌,在经过微酸性电解水处理后,其体内的菌群趋于复杂化,优势菌群有所改变,细菌总数有所下降。24 h后经电解水处理或者未处理的虾夷扇贝体内优势腐败菌均为假单胞菌。研究表明,SAEW在虾夷扇贝净化中具有一定的应用潜力。

剁椒扇贝酱工艺研究及贮藏品质分析

以渤海湾虾夷扇贝为原料,开发一种新型酸辣型海鲜酱调味品。通过响应面试验设计,优化剁椒扇贝酱生产工艺。建立剁椒扇贝酱的货架期模型,并利用质构、流变、电子鼻等仪器分析其贮藏品质。结果表明,剁椒扇贝酱最优工艺为:虾夷扇贝添加量20%、剁辣椒添加量45%、菜籽油含量5%。在25℃条件下测得剁椒扇贝酱黏度随剪切速率的增加呈下降趋势。全质构分析结果显示:随贮藏时间的延长,样品回复性基本无变化,硬度、弹性和咀嚼性均呈明显下降趋势。电子鼻分析表明剁椒扇贝酱中的风味物质主要由氮氧化合物及甲基类化合物组成。用货架期模型预测,当剁椒扇贝酱的贮藏温度为4℃和25℃时,货架期分别为126 d和40 d。本研究为剁椒扇贝酱的研发提供了新思路。

Glutathione S-transferase genes in scallops and their diverse expression patterns after exposure to PST-producing dinoflagellates

The glutathione S-transferases(GSTs)are a superfamily of enzymes that function in cellular protection against toxic substances and oxidative stress.Bivalves could accumulate high concentration of paralytic shellfish toxins(PSTs)from harmful algae.To understand the possible involvement of GSTs in protecting bivalves during PST accumulation and metabolism,the GST genes were systemically analyzed in two cultured scallops,Azumapecten farreri and Mizuhopecten yessoensis,which were reported for PST deposition during harmful algae bloom.A total of 35 and 37 GSTs were identified in A.farreri(AfGSTs)and M.yessoensis(MyGSTs)genome,respectively,and the expansion of the sigma class from the cytosolic subfamily was observed.In both scallop species,sigma class GSTs showed higher expression than other members.The high GSTs expression was detected mainly during/after larvae stages and in the two most toxic organs,hepatopancreas and kidney.After ingesting PST-producing dinoflagellates,all the regulated AfGSTs in the hepatopancrcas were from the sigma class,but with opposite regulation pattern between Alexandrium catenella and A.minutum exposure.In scallop kidneys,where PSTs transformed into higher toxicity,more AfGSTs were regulated than in the hepatopancreas,and most of them were from the sigma class,with similar regulation pattern between A.catenella and A.minutum exposure.In M.yessoensis exposed to A.catenella,MyGST-σ2 was the only up-regulated MyGST in both hepatopancreas and kidney.Our results suggested the possible diverse function of scallop GSTs and the importance of sigma class in the defense against PSTs,which would contribute to the adaptive evolution of scallops in marine environments.