叶轮出口边对双蜗壳泵压力脉动的影响     

操瑞嘉  孔祥序  周以松  孙静如 《排灌机械工程学报》2020,38(1):32-38

泵的叶轮扫掠蜗壳隔舌时产生的压力脉动是引起船用泵振动噪声的原因之一.为尽可能弱化这一影响,分别设计了叶片出口边与前后盖板基本面垂直和倾斜的2种不同形式叶轮,将其配置在相同的双蜗壳中,通过数值计算与样机试验相结合的手段,对蜗壳内9个不同位置的压力脉动情况进行对比分析.结果表明:出口边倾斜的叶轮相比于出口边垂直的叶轮可明显改善蜗壳内次脉动的“驼峰”现象,且可以进一步降低隔舌处主波动的压力峰值;对蜗壳内2个隔舌稍前的位置,出口边倾斜的叶轮反而会使得该点的压力系数幅值明显增大,且该点主波动的周期数发生改变;2种叶轮出口边的不同形式对蜗壳出口位置的压力脉动的影响基本相同;采用出口边倾斜叶轮对改善因叶轮与隔舌间的液流压力脉动是可行的.  相似文献   

Distribution of stable carbon isotope ratio in Sargassum plants     

Yuka Ishihi  Yoshihiro Yamada  Tetsuro Ajisaka  Hisashi Yokoyama 《Fisheries Science》2001,67(2):367-369

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Inducing substance for abalone larval metamorphosis from the crustose coralline alga Hydrolithon samoense     

Kiyotake  SUENAGA  Hidenari  HORI  Hitoshi  ISHIDA  Haruo  NUKAYA  Rodney D.  ROBERTS  Kuniro  TSUJI 《Fisheries Science》2004,70(2):342-344

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Manoalide derivatives from a marine sponge Luffariella sp. collected in Palau     

Michio  NAMIKOSHI  Shigeo  SUZUKI  Shiori  MEGURO  Hiroshi  NAGAI  Yoshio  KOIKE  Akira  KITAZAWA  Hisayoshi  KOBAYASHI  Taiko  ODA  Junko  YAMADA 《Fisheries Science》2004,70(1):152-158

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新疆淡水藻类研究：乌鲁木齐南山八一林场绿藻初报     

王克勤 《干旱区研究》1997,14(4):26-29

本文首镒报道乌鲁木齐南山八一林场山区的绿藻１１属，１２种，其中１０属，１０种为新疆新记录。这些结果是对１９９１年７月采集的２０号标本经鉴定后获得的。  相似文献   

Investigation of Interspecies Interactions within Marine Micromonosporaceae Using an Improved Co-Culture Approach     

Navid Adnani  Emmanuel Vazquez-Rivera  Srikar N. Adibhatla  Gregory A. Ellis  Doug R. Braun  Tim S. Bugni 《Marine drugs》2015,13(10):6082-6098

With respect to bacterial natural products, a significant outcome of the genomic era was that the biosynthetic potential in many microorganisms surpassed the number of compounds isolated under standard laboratory growth conditions, particularly among certain members in the phylum Actinobacteria. Our group, as well as others, investigated interspecies interactions, via co-culture, as a technique to coax bacteria to produce novel natural products. While co-culture provides new opportunities, challenges exist and questions surrounding these methods remain unanswered. In marine bacteria, for example, how prevalent are interspecies interactions and how commonly do interactions result in novel natural products? In an attempt to begin to answer basic questions surrounding co-culture of marine microorganisms, we have tested both antibiotic activity-based and LC/MS-based methods to evaluate Micromonosporaceae secondary metabolite production in co-culture. Overall, our investigation of 65 Micromonosporaceae led to the identification of 12 Micromonosporaceae across three genera that produced unique metabolites in co-culture. Our results suggest that interspecies interactions were prevalent between marine Micromonosporaceae and marine mycolic acid-containing bacteria. Furthermore, our approach highlights a sensitive and rapid method for investigating interspecies interactions in search of novel antibiotics, secondary metabolites, and genes.  相似文献   

Marine-Derived Secondary Metabolites as Promising Epigenetic Bio-Compounds for Anticancer Therapy     

Mariarosaria Conte  Elisabetta Fontana  Angela Nebbioso  Lucia Altucci 《Marine drugs》2021,19(1)

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Bioactive Properties of Peptides and Polysaccharides Derived from Peanut Worms: A Review     

Yi Qi  Jingyi Zhou  Xiaoqin Shen  Meram Chalamaiah  Simin Lv  Hui Luo  Liang Chen 《Marine drugs》2022,20(1)

Peanut worms (Sipunculids) are unsegmented marine worms that usually inhabit shallow waters. Peanut worms are good source of bioactive compounds including peptides and polysaccharides. Many recent studies have investigated the bioactive properties of peptides and polysaccharides derived from peanut worms in order to enhance their applications in food and pharmaceutical industries. The peptides and polysaccharides isolated from peanut worms have been reported to possess anti-hypertensive, anti-oxidant, immunomodulatory, anti-inflammatory, anti-cancer, anti-hypoxia and wound healing activities through the modulation of various molecular mechanisms. Most researchers used in vitro, cell culture and animal models for the determination of bioactivities of peanut worm derived compounds. However, studies in humans have not been performed considerably. Therefore, it is important to conduct more human studies for better utilization of marine bioactive compounds (peptides and polysaccharides) derived from peanut worms. This review mainly focuses on the bioactive properties of peptides and polysaccharides of peanut worms and their molecular mechanisms.  相似文献   

Antiplatelet and Antithrombotic Effects of Isaridin E Isolated from the Marine-Derived Fungus via Downregulating the PI3K/Akt Signaling Pathway     

Ni Pan  Zi-Cheng Li  Zhi-Hong Li  Sen-Hua Chen  Ming-Hua Jiang  Han-Yan Yang  Yao-Sheng Liu  Rui Hu  Yu-Wei Zeng  Le-Hui Dai  Lan Liu  Guan-Lei Wang 《Marine drugs》2022,20(1)

Isaridin E, a cyclodepsipeptide isolated from the marine-derived fungus Amphichorda felina (syn. Beauveria felina) SYSU-MS7908, has been demonstrated to possess anti-inflammatory and insecticidal activities. Here, we first found that isaridin E concentration-dependently inhibited ADP-induced platelet aggregation, activation, and secretion in vitro, but did not affect collagen- or thrombin-induced platelet aggregation. Furthermore, isaridin E dose-dependently reduced thrombosis formation in an FeCl₃-induced mouse carotid model without increasing the bleeding time. Mechanistically, isaridin E significantly decreased the ADP-mediated phosphorylation of PI3K and Akt. In conclusion, these results suggest that isaridin E exerts potent antithrombotic effects in vivo without increasing the risk of bleeding, which may be due to its important role in inhibiting ADP-induced platelet activation, secretion and aggregation via the PI3K/Akt pathways.  相似文献   

Marine Collagen: A Promising Biomaterial for Wound Healing,Skin Anti-Aging,and Bone Regeneration     

Sarah Geahchan  Parnian Baharlouei  Azizur Rahman 《Marine drugs》2022,20(1)

Marine organisms harbor numerous bioactive substances that can be utilized in the pharmaceutical and cosmetic industries. Scientific research on various applications of collagen extracted from these organisms has become increasingly prevalent. Marine collagen can be used as a biomaterial because it is water soluble, metabolically compatible, and highly accessible. Upon review of the literature, it is evident that marine collagen is a versatile compound capable of healing skin injuries of varying severity, as well as delaying the natural human aging process. From in vitro to in vivo experiments, collagen has demonstrated its ability to invoke keratinocyte and fibroblast migration as well as vascularization of the skin. Additionally, marine collagen and derivatives have proven beneficial and useful for both osteoporosis and osteoarthritis prevention and treatment. Other bone-related diseases may also be targeted by collagen, as it is capable of increasing bone mineral density, mineral deposition, and importantly, osteoblast maturation and proliferation. In this review, we demonstrate the advantages of marine collagen over land animal sources and the biomedical applications of marine collagen related to bone and skin damage. Finally, some limitations of marine collagen are briefly discussed.  相似文献