共查询到20条相似文献,搜索用时 31 毫秒
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南极红藻具有重要的生态学功能和开发利用价值。南极极端环境赋予了其独特的生理耐受机制,也是发现新基因和代谢途径的理想材料。我们测序分析了南极产胶红藻Iridaea cordata (Turner) Bory和Curdiea racovitzae Hariot的转录组序列,并与其常温近缘种进行了比较,同时挖掘了其与光限制和强紫外线辐射等光环境适应相关的基因。I. cordata和C. racovitzae的转录组序列分别拼接成了14055条和12006条非冗余基因,平均长度分别为1473 bp和1448 bp。在I. cordata转录组中发现多条与绿藻基因同源的捕光复合物LHC基因Lhca2、Lhca6和Lhcb,并且在两种南极红藻中都各发现了1条编码结合岩藻黄质和Chl a/c蛋白的Lhcf基因,目前尚未在其他红藻中发现这类基因。光裂解酶修复紫外线诱导DNA损伤,在I. cordata的转录组序列中发现了6?4光裂解酶,光裂解酶CPD I和CPD II基因,而C. racovitzae转录组序列中仅找到了光裂解酶CPD II基因。尽管南极红藻中这些特有基因的功能有待进一步的验证,但是本文为后续研究红藻的南极极端光环境适应机制提供了方向。 相似文献
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Due to morphological plasticity and paucity of diagnostic morphological characters, the taxonomy of Kappaphycus gets more and more confused with the expanding of commercial cultivation. In this study, the phylogenetic relationship of 13 strains of introduced Kappaphycus species in China was defined using DNA molecular markers, such as 18S rDNA, rbcL and cox2-cox3 spacer region. The resolutions obtained by three different molecular markers were compared: both cox2-cox3 spacer region and rbcL sequences are eligible in interspecies identification of Kappaphycus, whereas cox2-cox3 spacer region is more variable than rbcL sequence. There is several basepairs’ discrepancy among 18S rDNA sequences, while it is 100% identical among both cox2-cox3 spacer region and rbcL sequences of the ten strains of K. alvarezii. We suppose that 18S rDNA sequence can provide more information in biogeography study of Kappaphycus than other two DNA sequences. 相似文献
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Phylogenomic analysis of transcriptomic sequences of mitochondria and chloroplasts of essential brown algae (Phaeophyceae) in China 总被引:1,自引:1,他引:0
JIA Shangang WANG Xumin LI Tianyong QIAN Hao SUN Jing WANG Liang YU Jun REN Lufeng YIN Jinlong LIU Tao WU Shuangxiu 《海洋学报(英文版)》2014,33(2):94-101
The chloroplast and mitochondrion of brown algae (Class Phaeophyceae of Phylum Ochrophyta) may have originated from different endosymbiosis. In this study, we carried out phylogenomic analysis to distinguish their evolutionary lineages by using algal RNA-seq datasets of the 1 000 Plants (1KP) Project and publicly available complete genomes of mitochondria and chloroplasts of Kingdom Chromista. We have found that there is a split between Class Phaeophyceae of Phylum Ochrophyta and the others (Phylum Cryptophyta and Haptophyta) in Kingdom Chromista, and identified more diversity in chloroplast genes than mitochondrial ones in their phylogenetic trees. Taxonomy resolution for Class Phaeophyceae showed that it was divided into Laminariales-Ectocarpales clade and Fucales clade, and phylogenetic positions of Kjellmaniella crassi-folia, Hizikia fusifrome and Ishige okamurai were confirmed. Our analysis provided the basic phylogenetic relationships of Chromista algae, and demonstrated their potential ability to study endosymbiotic events. 相似文献
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Phylogenomic analysis of transcriptomic sequences of mitochondria and chloroplasts for marine red algae (Rhodophyta) in China 总被引:1,自引:1,他引:0
JIA Shangang WANG Xumin QIAN Hao LI Tianyong SUN Jing WANG Liang YU Jun LI Xingang YIN Jinlong LIU Tao WU Shuangxiu 《海洋学报(英文版)》2014,33(2):86-93
The chloroplast and mitochondrion of red algae (Phylum Rhodophyta) may have originated from different endosymbiosis. In this study, we carried out phylogenomic analysis to distinguish their evolutionary lin-eages by using red algal RNA-seq datasets of the 1 000 Plants (1KP) Project and publicly available complete genomes of mitochondria and chloroplasts of Rhodophyta. We have found that red algae were divided into three clades of orders, Florideophyceae, Bangiophyceae and Cyanidiophyceae. Taxonomy resolution for Class Florideophyceae showed that Order Gigartinales was close to Order Halymeniales, while Order Graci-lariales was in a clade of Order Ceramials. We confirmed Prionitis divaricata (Family Halymeniaceae) was closely related to the clade of Order Gracilariales, rather than to genus Grateloupia of Order Halymeniales as reported before. Furthermore, we found both mitochondrial and chloroplastic genes in Rhodophyta under negative selection (Ka/Ks〈1), suggesting that red algae, as one primitive group of eukaryotic algae, might share joint evolutionary history with these two organelles for a long time, although we identified some dif-ferences in their phylogenetic trees. Our analysis provided the basic phylogenetic relationships of red algae, and demonstrated their potential ability to study endosymbiotic events. 相似文献
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本研究利用18种蛾螺总科(Buccinoidea)动物的CO Ⅰ基因序列对中国海蛾螺科进行了科上和科内水平的分子系统学分析。在建立的系统发育树中,蛾螺科种类聚成了4个明显的分枝:第一枝包括侧平肩螺(Japelion latus)、朝鲜蛾螺(Buccinum koreana)、黄海蛾螺(Buccinum yokomaruae)、皮氏蛾螺(Voluthapa perryi)、香螺(Neptunea cumingi)、小鼠脊蛾螺(Lirabuccinum musculus)以及褐线蛾螺(Japeuthria cingulata);第二枝包括莫氏角亮螺(Antillophos monsecourorum)和尖鱼篮螺(Nassaria acuminata);第三枝包括黑口甲虫螺(Cantharus melanostoma)和矛唇齿螺属(Engina lanceolata);第四枝包括褐管蛾螺(Siphonalia spadicea)和长吻真螺(Euthria lubrica)。该结果与先前基于形态分析进行的亚科划分基本一致。蛾螺科的单系性没有得到支持,织纹螺科种类(Nassarius thachi、N.sinarus、N.euglyptus)插到蛾螺科系统树中并与角亮螺属(Antillophos)及鱼篮螺属(Nassaria)聚成一枝;东风螺科种类(Babylonia areolata、B.spirata)和榧螺科种类(Oliva mustelina)与褐线蛾螺(Japeuthria cingulata)聚成一枝。东风螺属起初隶属于蛾螺科,现已被移出并作为单独的一科——东风螺科Babyloniidae,本研究确认了这一结论。鱼篮螺属(Nassaria)和角亮螺属(Antillophos)与织纹螺属(Nassarius)种类聚在一起,这与最近的分子研究得到的结果一致。 相似文献
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Technetium (Tc) biokinetics were investigated in marine macroalgae using 92mTc as tracer. Green and red algae accumulated Tc (VII) to a very low degree (CF ? 1–20); however, a much higher affinity for pertechnetate was found in some brown algal species (CF > 103). Comparative tests with different species of brown algae revealed that technetium does not accumulate similarly in all species of this group. Moreover, no significant differences in radionuclide uptake were noted between brown algae exposed to Tc in either the IV or VII oxidation states. Bioaccumulation of technetium appears to be a metabolically controlled process since uptake did not occur in heat-killed individuals and both light and temperature significantly enhanced the accumulation of technetium in brown algae. Dissection of Sargassum vulgare following the uptake phase showed that the rapidly growing air bladder, leaf-like laterals and small branches contained higher Tc concentrations and retained a greater fraction of the radioactivity than the older, cylindrical main axis. Pertechnetate retention in two brown algae was found to be significantly different; their biological half-lives for Tc differed by an order of magnitude (). During depuration, loss took place more rapidly from the younger portions of the seaweed, as evidenced by the highest concentration and greatest fraction of Tc retained in the older, cylindrical main axis. Provided certain precautions are taken, brown algae such as Cystoseira compressa and S. vulgare would serve as good bioindicator organisms for the presence of Tc contamination in marine waters. 相似文献
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本研究自山东青岛、浙江象山和江苏南通采集共9种红藻样品, 隶属于2纲、5目、6科、8属(据NCBI), 克隆各红藻hsp70 基因, 并对所获序列进行分析。利用特异性引物P1/P3扩增, 得到的目的条带约630 bp, 分析所推导的氨基酸序列发现:所获得片段均位于HSP70的ATPase结构域附近。9种红藻hsp70 序列之间的遗传距离在0.078~0.319之间, 序列相似度在73%~92%之间, 其保守性略低于HSP70蛋白;基因对A或T结尾的密码子表现出很高的偏好性, CGC与TGG这两种密码子在这9种红藻HSP70氨基酸密码子中未出现。上述表明hsp70 及HSP70密码子偏好性可应用于红藻分子系统学研究。基于多物种HSP70构建的进化树可见, Cyanidium caldarium与Cyanidioschyzon merolae strain 10D两种原始红藻的起源早于其他红藻, 紫菜次之, 本研究中9种红藻系统发生符合NCBI的描述。在真菌、藻类和植物中, 营养方式的差异可能是造成HSP70进化树分化的基本原因, 而相同形态类型的物种中, 环境适应是抗逆能力强、遗传结构稳定的物种生物分子进化的重要因素。 相似文献
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劳盆拟刺铠虾(Munidopsis lauensis)是一种十足目铠甲虾, 能够适应深海化能合成生态系统的极端环境, 但是其已知基因序列信息却很少。为此, 采用PacBio平台的SMRT测序技术对来自南海台西南冷泉劳盆拟刺铠虾的肝胰腺、鳃、肌肉和肠混合组织进行了三代全长转录组测序。通过聚类、校正、去冗余之后共获得28 811条高质量isoform, 平均长度为2 086 bp, N50长度为2 275 bp。使用Nr、SwissPort、KEGG、KOG数据库对转录本序列进行功能注释, 共有20 616 (71.56%)条isoform得到注释。进一步高级注释共获得21 848个蛋白编码序列, 共预测到537个转录因子、6 430个长链非编码RNA和10 060个SSRs位点。KEGG通路分析发现两条可能与劳盆拟刺铠虾适应深海化能极端生境相关的通路, 分别为过氧化物酶体通路和谷胱甘肽代谢通路。其中, 共有180条isoform被发现参与编码过氧化物酶体通路中的31个关键酶, 213条isoform参与谷胱甘肽代谢通路中19个关键酶的编码。基于全长转录组数据, 利用同源比对、功能结构域预测及系统发育树构建等方法对劳盆拟刺铠虾谷胱甘肽S-转移酶(GST)基因家族进行挖掘与鉴定, 共发现属于theta、delta、mu、kappa四种亚家族的20条GST候选序列。通过对劳盆拟刺铠虾全长转录组测序、功能注释和环境适应相关的重要基因及通路的分析, 不仅丰富了深海组学数据资源, 也为进一步揭示甲壳动物适应深海化能极端环境的分子机制奠定了基础。 相似文献
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分析了我国沿海几种常见的江蓠属(Gracilaria)海藻的18S rRNA 基因、cox2-3间隔区以及RUBISCO间隔区的分子序列,并结合GenBank现有的相关数据进行了分子系统学关系分析,为江蓠属的系统进化和分类地位提供了新的佐证。结果表明,基于cox2-3间隔区、以及 RUBISCO间隔区序列构建的MP (Maximum parsimony)进化树较为相似,而与基于18S rRNA构建的进化树略有不同。这主要是由于18S rRNA更为保守的原因;扁江蓠与脆江蓠在3个系统树中均聚合成支,显示了它们之间具有较近的亲缘关系;龙须菜与江蓠属海藻具有较远的遗传距离,在3个进化树中,龙须菜也均位于进化树的基部,单独成支,证实龙须菜并不隶属于江蓠属,且分化相对较早。 相似文献
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Green macroalgae Chaetomorpha aerea and C. linum are taxonomically confused. In this paper, we tried morphological and molecular analyses to separate these two species. C. aerea and C. linum can be distinguished from morphological characteritics, such as frond dimension, cells size and shape, their mean length/width ratios(LWR), and cell walls constriction. Thalli of C. aerea attenuate basipetally, with diameter 270–500 μm at upper portion, 160–360 μm at middle portion, 100–160 μm at basal portion. For the upper part, the length of cells is less than their diameter. Cell walls usually constrict at the dissepiments, which are pellucid or colorless and give the filament beaded appearance. In contrast, thalli of C. linum often have a constant diameter of 90–300 μm within the same individual, cell walls usually do not constrict and cells are cylindrical or barrel shaped. The LWR is larger than that of C. aerea. Results show that the pairwise distance between two species is 3.6%–3.7% for 18 S r RNA gene and 53.5%–54.3% for ITS region. In phylogeny, they distribute at distant clades, which confirms a genetic divergence at molecular level. In addition, morphological data indicates that filament diameter of C. linum samples is highly variable, ranging from 90 μm to 300 μm. Then these two species can be considered as separate species. 相似文献
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Frank Laturnus 《Marine Chemistry》1996,55(3-4)
Twenty-two different species of Arctic brown, red and green macroalgae, collected in the Kongsfjord at Ny-Ålesund (Spitsbergen), were incubated under polar conditions and investigated for their release of volatile halogenated organic compounds (VHOC). Bromoform, dibromomethane, dibromochloromethane, bromodichloromethane, 1,2-dibromoethane, diiodomethane and chloroiodomethane have been identified and their net releases during incubations were determined. Generally, brown and green macroalgae showed higher VHOC release, while red macroalage had only low release. Bromoform was released in relatively large quantities from all species studied, with the highest release observed from the brown algae Dictyosyphon foeniculaceus (0.3 μg g−1 wet algal weight day−1) and Laminaria saccharina (0.15 μg g−1 wet algal weight day−1), and from the green algae Monostroma arcticum (0.3 μg g−1 wet algal weight day−1) and Blidingia minima (0.27 μg g−1 wet algal weight day−1). Dibromomethane, diiodomethane, dibromochloromethane and 1,2-dibromoethane showed lower net release during the incubations. The net release of chloroiodomethane and bromodichloromethane was very low for the most algae species investigated. Based on the distribution of these algae in the Arctic environment, Dictyosiphon foeniculaceus and Laminaria saccharina may be important sources for VHOC because of high release and high biomass. Release of VHOC could be detected from all parts of the thallus of the macroalga. This may provide some evidence for a possible role of VHOC production as a chemical protection mechanism in algae. 相似文献
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CHI Shan QIAN Hao LI Tianyong WANG Xumin LIU Cui REN Lei TANG Xuexi LIU Tao 《海洋学报(英文版)》2014,33(9):139-151
In the past two decades, many studies have focused on the classification within genus Laminaria, ultimately trying to divide it into two subgroups or genera: Laminaria and Saccharina. A significant debate still surrounds the question of its division, as the conflicting phylogenetic hypotheses that have resulted from the classification studies are based on different taxon sampling, molecular markers, or analysis methods. It is aimed at elucidate the molecular phylogeny within Laminaria and Saccharina. The nine species of Laminariales are sampled from northern Asia and Europe, and 23 new sequences in the nuclear, plastid, and mitochondrial genomes are determined to identify their taxonomic status. The phylogenetic analyses of 71 species are performed, including representatives from six of the seven families of the order Laminariales, based on three separate data sets. An evidence is provided to strongly support a clear split that maintains the two recognized genera, Laminaria and Saccharina, with Laminaria appearing to be the ancestor group. Further, analyses indicate that all taxa in Saccharina and Laminaria did not form a monophyletic lineage, instead Laminariaceae and Lessoniaceae grouped together interlacedly, and Costariaceae appeared as the sister taxon of the Lessoniaceae–Laminariaceae clade. In the phylogenetic analysis, mitochondrial c oxidase I(COI) sequences appeared to be the most credible molecular marker which was more befitting than nuclear encoded internal transcribed spacer(ITS) and plastid encoded rbcL for establishment of Laminariales systematics. It is the most comprehensive phylogeny of the order Laminariales, and contributes to an enhanced understanding and estimation of the phylogenetic relationships for the economically important seaweeds, Laminaria and Saccharina. 相似文献
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Toxic effects of decomposing red algae on littoral organisms 总被引:2,自引:0,他引:2
Britta Eklund Andreas P. Svensson Conny Jonsson Torleif Malm 《Estuarine, Coastal and Shelf Science》2005,62(4):621-626
Large masses of filamentous red algae of the genera Polysiphonia, Rhodomela, and Ceramium are regularly washed up on beaches of the central Baltic Sea. As the algal masses start to decay, red coloured effluents leak into the water, and this tinge may be traced several hundred meters off shore. In this study, possible toxic effects of these effluents were tested on littoral organisms from different trophic levels. Effects on fertilisation, germination and juvenile survival of the brown seaweed Fucus vesiculosus were investigated, and mortality tests were performed on the crustaceans Artemia salina and Idotea baltica, as well as on larvae and adults of the fish Pomatoschistus microps. Fucus vesiculosus was the most sensitive species of the tested organisms to the red algal extract. The survival of F. vesiculosus recruits was reduced with 50% (LC50) when exposed to a concentration corresponding to 1.7 g l−1 dw red algae. The lethal concentration for I. baltica, A. salina and P. microps were approximately ten times higher. The toxicity to A. salina was reduced if the algal extract was left to decompose during two weeks but the decline in toxicity was not affected by different light or temperature conditions. This study indicates that the filamentous red algae in the central Baltic Sea may produce and release compounds with negative effects on the littoral ecosystem. The effects may be particularly serious for the key species F. vesiculosus, which reproduce in autumn when filamentous red algal blooms are most severe. 相似文献
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