排序方式: 共有88条查询结果,搜索用时 15 毫秒
31.
采用RT-PCR、RACE等方法,获得了拟穴青蟹PP2A调节亚基B(PP2A-B)的cDNA全序列,全长2040bp,开放阅读框(ORF)为1332bp,可编码443个氨基酸残基。同源分析显示,该基因编码的蛋白与其它一些物种具有很高相似性,推测PP2A-B基因具有很高的保守性。经荧光定量PCR检测,PP2A-B基因在拟穴青蟹多个组织中有表达,且在脑、卵巢、鳃中表达量较高。在拟穴青蟹卵巢发育过程中,PP2A-B基因在卵巢未发育期(I期)表达量最高,此后各期逐渐下降,推测PP2A-B在卵巢中可能以PP2A全酶的形式存在,抑制卵巢发育。 相似文献
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三角褐指藻和亚心形扁藻对太平洋纺锤水蚤繁殖与生化指标的影响 总被引:1,自引:0,他引:1
采用实验生态的方法,探讨三角褐指藻(Phaeodactylum tricornutum)、亚心形扁藻(Platymonassubcordiformis)对太平洋纺锤水蚤(Acartia pacifica)繁殖及其生化指标的影响.实验结果表明,三角褐指藻对太平洋纺锤水蚤产卵量和卵的孵化率均具有抑制作用,随着投喂时间的增加,太平洋纺锤水蚤的产卵量由15.02±3.15 ind/d下降到3.25±3.15 ind/d(p<0.05),其卵的孵化率由22.88%±2.49%下降到14.84%±1.20%(p<0.05).而投喂亚心形扁藻的太平洋纺锤水蚤其产卵量和卵的孵化率与对照组无显著差异(p>0.05).投喂三角褐指藻后,太平洋纺锤水蚤的超氧化物歧化酶(SOD)活力相对于投喂亚心形扁藻的增加了20.94±0.04μg/mg,其谷胱甘肽过氧化物酶(GPX)活力增加了15.812±1.240 U/mg.这表明相对于亚心形扁藻,三角褐指藻对太平洋纺锤水蚤的抗氧化性酶具有诱导作用. 相似文献
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乐清湾海域浮游动物群落分布的季节变化特征及其环境影响因子 总被引:3,自引:0,他引:3
2006年10月、2007年1月、4月及7月对乐清湾海域浮游动物群落的种类组成、优势种、生态类群、水平分布的季节性变化特征进行了调查,分析了浮游动物群落分布与环境因子的关系。结果表明,在调查海域共鉴定出浮游动物82种(包括浮游幼体11种),隶属于15大类,其中秋季为46种、夏季为42种、春季为25种和冬季为16种。乐清湾浮游动物可分为近岸低盐类群、暖水性近海类群、暖温带近海类群和暖水性广布类群4个生态类群,其中近岸低盐类群在全年均占优势,其它类群则呈现明显的季节变化。中华哲水蚤Calanus sinicus、真刺唇角水蚤Labidocera euchaeta、针刺拟哲水蚤Paracalanus aculeatus和背针胸刺水蚤Centropages dorsispinatus为调查海域主要优势种。浮游动物生物量年平均值为82.7mg/m3,其大小依序为:夏季(121.1mg/m3)>秋季(119.2mg/m3)>春季(48.5mg/m3)>冬季(42.2mg/m3);丰度年平均值为82.1个/m3,其大小依序为:夏季(193.4个/m3)>秋季(73.7个/m3)>春季(53.4个/m3)>冬季(9.8个/m3)。相同季节浮游动物生物量和丰度的平面分布趋势类似,季节间则存在明显差异。相关性分析结果表明,浮游动物物种数与水温、盐度、叶绿素a质量浓度和浮游植物细胞密度均呈极显著相关;丰度与水温、叶绿素a质量浓度和浮游植物细胞密度呈极显著相关;生物量与水温、叶绿素a质量浓度呈极显著相关。与历史资料相比,近30a来浮游动物数量呈下降趋势,但群落结构和组成没有发生明显改变。 相似文献
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东方扁虾卵巢和滤泡结构的研究 总被引:6,自引:0,他引:6
卵巢包括4种形态的组分:(1)卵巢壁,(2)生殖上皮,(3)卵母细胞(早期卵巢还包括卵原细胞)一滤泡细胞层,(4)卵巢壁内突.卵巢壁及壁内突均含有血管、血窦、肌细胞等成分,卵巢壁内突延伸至每个滤泡的外层基膜处.滤泡由内至外由卵母细胞、卵周隙、滤泡细胞及基膜等4部分组成.卵母细胞膜表面向卵周隙内伸出许多微绒毛,并具有许多微吞饮凹.随着滤泡的发育,卵周隙内含物电子密度越来越大,成熟滤泡的卵周隙内含物演变为卵壳.卵壳由两部分构成:外层较薄,而内层较厚且含电子致密的颗粒物质.滤泡细胞一般为单层,具较强的合成活性,其合成产物系卵周隙内含物的一部分.东方扁虾卵巢和滤泡的结构特征表明外源性(卵母细胞外及卵巢外)的卵黄合成在卵黄发生上起重要的作用. 相似文献
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饵料对锯缘青蟹大眼幼体生长发育的影响 总被引:3,自引:0,他引:3
以不同比例的轮虫和卤虫无节幼体搭配成各种饵料组合,分别喂养不同发育期的锯缘青蟹幼体,重点研究大眼幼体的存活、生长发育、变态和干重及化学元素(C、H、N)含量的情况.结果表明饵料搭配得当,适时适量的投喂,其幼体的生长发育和变态都正常,并可获得较高的存活率,若饵料搭配不当不仅会导致幼体出现高死亡率,而且还能诱发发育期变化的现象;不同饵料搭配对大眼幼体干重及化学元素(C、H、N)含量的影响很显著,相差60%~70%,约一个发育期,而这差异可以通过该期幼体投喂足量卤虫无节幼体来加以弥补,大眼幼体的C、H、N占干重的百分比仅次于溞V,这表明青蟹幼体在这两次变态前需在体内积累高比例的有机营养物质来保证变态的顺利进行. 相似文献
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锯缘青蟹视神经节免疫细胞化学研究 总被引:2,自引:0,他引:2
采用兔抗哺乳类血清,应用链霉菌抗生物素蛋白-过氧化物酶免疫细胞化学技术,观察了锯缘青蟹视神经节中5羟色胺、胰高血糖素、神经肽Y和生长抑素免疫阳性细胞和神经纤维的形态和分布,结果发现,视神经节的4个神经髓均有5羟色胺免疫阳性细胞,除X器检出1个较大型阳性细胞外,其余均为小型细胞.视外髓、视内髓和视端髓都具有胰高血糖素免疫阳性细胞,视端髓的神经髓质阳性染色深,X器中阳性细胞成群分布,窦腺免疫阳性反应强.神经肽Y免疫阳性细胞在视神经层和视外髓为小型阳性细胞,在视内髓和视端髓检出较大型阳性细胞,另有小型阳性细胞散布于X器中.生长抑素免疫阳性细胞分布于4个神经髓,数量少.4种免疫阳性物的特异性分布模式,可为其不同的神经生理作用提供形态学证据. 相似文献
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The sea ice community plays an important role in the Arctic marine ecosystem. Because of the predicted environmental changes in the Arctic environment and specifically related to sea ice, the Arctic pack ice biota has received more attention in recent years using modem ice-breaking research vessels. Studies show that the Arctic pack ice contains a diverse biota and besides ice algae, the bacterial and protozoan biomasses can be high. Surprisingly high primary production values were observed in the pack ice of the central Arctic Ocean. Occasionally biomass maximum were discovered in the interior of the ice floes, a habitat that had been ignored in most Arctic studies. Many scientific questions, which deserve special attention, remained unsolved due to logistic limitations and the sea ice characteristics. Little is know about the pack ice community in the central Arctic Ocean. Almost no data exists from the pack ice zone for the winter season. Concerning the abundance of bacteria and protozoa, more studies are needed to understand the microbial network within the ice and its role in material and energy flows. The response of the sea ice biota to global change will impact the entire Arctic marine ecosystem and a long-term monitoring program is needed. The techniques, that are applied to study the sea ice biota and the sea ice ecology, should be improved. 相似文献
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Abundance,biomass and composition of the ice algal and phytoplank-ton communities were investigated in the southeastern Laptev Sea in spring 1999.Diatoms dominated the algal communities and pennate diatoms dominated the dia-tom population.12 dominant algal species occurred within sea ice and underlyingwater column,including Fragilariopsis oceanica,F.cylindrus,Nitzschiafrigida,N.promare,Achnanthes taeniata,Nitzschia neofrigida,Naviculapelagica,N.vanhoef fenii,N.septentrionalis,Melosira arctica,Clindrothecaclosterium and Pyrarnimonas sp.The algal abundance of bottom 10 cm sea icevaried between 14.6 and 1562.2×10~4 ceils l~(-1)with an average of 639.0×10~4cells l~(-1),and the algal biomass ranged from 7.89 to 2093.5μg C l~(-1)with an av-erage of 886.9μg C l~(-1),which were generally one order of magnitude higherthan those of sub-bottom ice and two orders of magnitude higher than those ofunderlying surface water.The integrated algal abundance and biomass of lower-most 20 cm ice column were averagely 7.7 and 12.2 times as those of upper 20 mwater column,respectively,suggesting that the ice algae might play an importantrole in maintaining the coastal marine ecosystem before the thawing of sea ice.Icealgae influenced the phytoplankton community of the underlying water column.However,the“seeding”of ice algae for phytoplankton bloom was negligible be-cause of the iow phytoplankton biomass within the underlying water column. 相似文献