Cold water fish gelatin modification by a natural phenolic crosslinker (Ferulic acid & Caffeic acid)

专家论坛Experts Forum中国果菜China Fruit&Vegetable第42卷,第1期2022年1月不同干燥方式对鱼油微胶囊物理特性的影响张萌1，张恩瑜2，段续1*，任广跃1，庞玉琪1（1.河南科技大学食品与生物工程学院，河南洛阳471023；2.湖南省长沙市长郡湘府中学，湖南长沙410114）摘要:将鱼油微胶囊化是增强其贮藏性的一种有效方式，但不同的干燥方式和加工方法对鱼油微胶囊的品质影响较大。

本研究比较了喷雾干燥（SD）、冷冻干燥（FD）及喷雾冷冻干燥（SFD）三种干燥方式对制得的鱼油微胶囊的包埋率、堆积密度、水分分布、红外表征及热力学等物理特性的影响。

结果表明，SFD鱼油微胶囊的包埋率最高（90.8%），FD制品包埋效果最差（50.6%）；SFD制得鱼油微胶囊的堆积密度最小（6.32g/10mL），SD与FD制品的堆积密度相近；三种方式制得的鱼油微胶囊红外吸收特征峰及振动频率基本一致，但SFD和FD的峰强较大，说明低温对鱼油中营养物质的保留有益；而热稳定性由大到小为SFD（243.81J/g）、SD（98.46J/g）和FD（74.45J/g）。

综合对比可知，SFD制得的鱼油微胶囊物理特性最佳，且具有工业化生产前景。

关键词:鱼油微胶囊；干燥；喷雾冷冻干燥；物理特性中图分类号：TS254.4文献标志码：A文章编号：1008-1038(2022)01-0016-08DOI：10.19590/ki.1008-1038.2022.01.003Effects of Different Drying Methods on Physical Propertiesof Fish Oil MicrocapsulesZHANG Meng1,ZHANG En-yu2,DUAN Xu1*,REN Guang-yue1,PANG Yu-qi1(1.School of Food and Biological Engineering,Henan University of Science and Technology,Luoyang471023,China;2.Changsha Changjun Xiangfu Middle School,Changsha410114,China) Abstract:Microencapsulation of fish oil is an effective way to enhance its storage,but different drying and processing methods have a great impact on the quality characteristics of fish oil microcapsule.In this study,the effects of spray drying(SD),freeze drying(FD)and spray freeze drying(SFD)on the encapsulation efficiency,bulk density,water distribution,infrared characterization,thermodynamic and other physical properties of fish oil microcapsules were compared.The results showed that the encapsulation efficiency of fish oil microcapsules收稿日期:2021-07-31基金项目:国家自然科学基金（32172352、31972207）第一作者简介:张萌（1996—），女，在读硕士，研究方向为农产品干燥技术*通信作者简介:段续（1973—），男，教授，博士，主要从事农产品干燥技术的研究与教学工作鱼油中含有丰富的多不饱和脂肪酸，尤其是-3多不饱和脂肪酸，如EPA（二十碳五烯酸）和DHA（二十二碳六烯酸），能够有效增强人体免疫力，保护视网膜，具有良好的保健功能和医学价值。

GelatinCatalog Numbers G6650, G9382, G1393, G9391,G6144, G2625, G2500, G8150, G1890, G9136, G0411, G7765, and G7041CAS RN 9000-70-8Synonyms: Gelatine, Teleostean gelatin (G7765 and G7741)Product DescriptionGelatin is a heterogeneous mixture of water-soluble proteins of high average molecular masses, present in collagen. The proteins are extracted by boiling skin, tendons, ligaments, bones, etc. in water.1Type A gelatin is derived from acid-cured tissue and Type Bgelatin is derived from lime-cured tissue.2Applications using gelatin include coating cell culture plates to improve cell attachment for a variety of cell types,addition to PCR to help stabilize Taq DNApolymerase,7and use as a blocking reagent inWestern blotting, ELISA, and immunohistochemistry.8 In bacteriology, gelatin can be used as a component ofculture media for species differentiation.9Additionally, as a biocompatible polymer, gelatin has been used as a delivery vehicle for the release of bioactive molecules 11and in the generation of scaffolds fortissue engineering applications.12Industrial applications include the use of gelatin as a stabilizer, thickener, and texturizer in foods and in the manufacture of rubber substitutes, adhesives, cements, lithographic and printing inks, plastic compounds, artificial silk, photographic plates andfilms, matches, and light filters for mercury lamps.1In the pharmaceutical industry, gelatin is used as a suspending agent, encapsulating agent, and tablet binder; and in veterinary applications it is used as aplasma expander and hemostatic sponge.1Physical Properties:Isoelectric point (pI): The charge on a gelatin molecule and its isoelectric point are primarily due to the carboxyl, amino, and guanidino groups on the side chains. Type A gelatin has 78−80 millimoles of free carboxyl groups per 100 g of protein and a pI of 7.0−9.0; type B has 100−115 millimoles of free carboxyl groups per 100g of protein and a pI of 4.7−5.2.2,3 The pH of a 1.5% solution at 25 °C is3.8−5.5 for Type A and 5.0−7.5 for Type B.2Bloom number:The Bloom number, as determined by the Bloom gelometer, is an indication of the strength of a gelformed from a solution of known concentration.3The Bloom unit is a measure of the force (weight) required to depress a given sample area of gel a distance of 4mm; the higher the Bloom number, the stronger the gel. A method of determining Bloom strength has been described.4Bloom number is proportional to the average molecular mass:Bloom Number Average Molecular Mass 50−125 (Low Bloom) 20,000−25,000175−225 (Medium Bloom)40,000−50,000225−325 (High Bloom)50,000−100,000Precautions and DisclaimerThis product is for R&D use only, not for drug,household, or other uses. Please consult the Material Safety Data Sheet for information regarding hazards and safe handling practices.Storage/StabilityDry gelatin stored in airtight containers at room temperature remains unchanged for many years. When heated at 100 °C in the presence of air it swells, becomes soft, and disintegrates to a carbonaceous mass with evolution of pyridine bases and ammonia.2Below 35−40 °C gelatin swells in and absorbs5−10 times its weight of water to form a gel. Gelatin is soluble in glycerol and acetic acid, and more soluble inhot than in cold water.1It is practically insoluble in most organic solvents such as alcohol, chloroform, carbon disulfide, carbon tetrachloride, ether, benzene, acetone, and oils.5Sterile solutions of gelatin, stored cold, remain unchanged indefinitely, but at elevated temperatures hydrolysis or rupture of peptide bonds occurs, increasing the number of free amino groups. Gel strength and viscosity gradually weaken upon prolonged heating in solution above 40 °C; this degradation is accelerated by extremes in pH, proteolytic enzymes, and bacterial action.2Gelatin has been autoclaved at 121 °C for 15−20 minutes with appreciable hydrolysis.2,6ProcedureCell Culture Using 2% Solution (Catalog No. G1393) Optimal conditions for attachment must be determined for each cell line and application.1.Allow gelatin solution to completely liquefy at37°C.2.Coat culture surface with 5−10 µl gelatinsolution/cm2(i.e., 0.1−0.2 mg/cm2gelatin).3.Allow surface to dry at least 2 hours beforeintroducing cells and medium.References1.Merck Index, 12th Ed., S. Budavari, Ed., p. 742,#4388 (1996).2.Supplier data.3.Standard Methods for the Sampling and Testing ofGelatins, Gelatin Manufacturers Institute ofAmerica, Inc., 501 fifth Ave., Room 1015, NewYork, NY.4.United States Pharmacopeia XX, p. 1017 (1990).5.Martindale The Extra Pharmacopeia, 29th Ed., p.818, J.E.F. Reynolds, Ed., The PharmaceuticalPress, London (1989).6.Sigma data.7.PCR Primer: A Laboratory Manual, C. Dieffenbachand G. S. Dveksler, Eds., Cold Spring Harbor,NY (1995).8.Vogt, R. F., Jr., Quantitative differences amongvarious proteins as blocking agents for ELISAmicrotiter plates. J. Immunol. Methods101, 43,(1987).9.Levine, M., and Carpenter, D.C., Gelatinliquefaction by bacteria. J. Bacteriol.8, 297,(1923).10.Sakai, Y.,et al., Non-antigenic and low allergicgelatin produced by specific digestion with anenzyme-coupled matrix. Biol. Pharm. Bull.21, 330, (1998).11.Young, S. et al., Gelatin as a delivery vehicle forthe controlled release of bioactive molecules. J.Control Release 109, 256-274 (2005).12.Huang Y, et al.In vitro characterization ofchitosan-gelatin scaffolds for tissue engineering.Biomaterials26, 7616-7627 (2005)Related Products• Gelatin Blocking Buffer, for molecular biology, powder blend,(Catalog No. G7663) provides 1liter of blocking buffer after reconstitution.• Glycerol Gelatin (Catalog No. GG1), prepared with gelatin, glycerol, and phenol,is an aqueous slidemounting medium for histological use.• Gelatin Veronal Buffer (Catalog No. G6514)• Inositol Gelatin Medium, BioChemika, formicrobiology, (Catalog No. 17155), for thecultivation of Plesiomonas shigelloides from foods • Gelatin Iron Medium, BioChemika, formicrobiology(Catalog No. G0289)• Lactose Gelatin Broth (Base), BioChemika, for microbiology (Catalog No. 61348)• Gelatin Hydrolysate Enzymatic (Catalog No.G0262)• Nutrient Gelatin, BioChemika, for microbiology (Catalog No. 70151)• Nutrient Gelatin Special Grade, BioChemika, for microbiology (Catalog No.70198)CS,MAC,KTA,MAM 11/08-1Gelatin Selection Guide CatalogDescription Bloom Storage NotesApplicationsG2625∼175G1890skin, Type A, powder,∼300Room temperature Derived from acid-cured tissueRecommended for use as a cell culture substratum.*G9136skin, Type A,lyophilized powder, γ-irradiated,∼300Room temperatureDerived from acid-cured tissueRecommended for use as a cell culture substratum.*G6650∼75G1393Type B (from bovine skin),∼2252−8 °Ctissue. Prepared in tissue culture grade water. Recommended for use as a cell culture substratum.*G7765Gelatin from cold water fish skin, ~45% in H 2O 2−8 °C p -hydroxybenzoate and 0.2% methyl p -hydroxy-benzoate as preservatives;U im*Recommended for use as a cell culture substratum at 0.1−0.2mg/cm or 5−10µl/cm . Optimal concentration will depend on cell type as well as the application or research objectives.Prionex is a registered trademark of Pentapharm AG, Basel.Sigma brand products are sold through Sigma-Aldrich, Inc.Sigma-Aldrich, Inc. warrants that its products conform to the information contained in this and other Sigma-Aldrich publications.Purchaser must determine the suitability of the product(s) for their particular use. Additional terms and conditions may apply.Please see reverse side of the invoice or packing slip.。

保鲜湿面的老化及其抑制摘要：保鲜湿面作为非油炸的方便面，老化是其最主要的问题之一。

该文阐述了保鲜湿面的老化机理，和有关抑制LL面老化的研究进展，对LL面的开发有一定的参考意义。

关键词：保鲜湿面LL面淀粉老化The retrogradation and its Inhibition of long life noodle Abstract：One of the most critical problems of long life noodle is the retrogradation of its starch.This paper introduces the mechanism of retrogradation and the advanced retarding methods to inhibit.Key words: long life noodle retrogradation即食保鲜湿面（long life noodle，LL面）是方便面行业中的一颗新星，它的加工沿袭了手工挂面的制作方法，是不经油炸的蒸煮类面制食品，是高水分含量的即食鲜食品，外观晶莹，口感光滑，爽口有筋，食用方便，深受消费者欢迎。

同时，它也符合现代人们所追求的低脂肪、高营养、全天然的绿色食品要求，更快捷、更方便地满足人们的生活需要，是未来方便面的替代产品，有着广阔的发展前景。

但保鲜湿面作为典型的淀粉质食品，含水量高，已发生淀粉老化，老化后的面条韧性变差，口感变脆，易断裂[1]。

因此，延缓或抑制淀粉老化，进行LL面品质的研究从而较好的维持其贮存品质，对LL面的贮存性能有着重要作用。

保鲜湿面老化机理小麦面粉面团是一个多相体系,如果将面团在宏观基础上进行研究的话,我们可以将面团分出三个相:两个液相(一个为半固态,另一个为液态)和一个气相。

气相包括大量细小的空气泡,在揉合过程中被进一步分隔得更细小。

面团的液态液相在揉合过程中形成,连续地分布在整个面团内,它形成薄膜将面团中的空气泡包裹在其中,就象泡沫结构的液膜一样,这个液膜为发醉期间气泡沫的体积扩大提供了介质,其中所含的营养成分可提供给酵母,而且在面包制作过程中的其它反应也可在其中进行。

马哈鱼鱼皮明胶提取温度和甘油质量浓度对其成膜特性的影响刘洋，夏俪宁，贾慧，李琦，潘锦锋*（大连工业大学食品学院，国家海洋食品工程技术研究中心，辽宁大连 116034）摘 要：明胶提取温度和甘油质量浓度是影响明胶膜性质的基本因素。

本研究以马哈鱼（Oncorhynchus keta）鱼皮为原料，采用不同温度（40、50、60、70、80、90 ℃）提取明胶，考察不同甘油质量浓度（1.1、1.2、1.5 g/100 mL）下明胶膜的厚度、机械性能、光学性质、微观结构和红外特性。

研究发现，40、50、60 ℃明胶膜的厚度高于70、80、90 ℃明胶膜的厚度（P＜0.05）。

50、60 ℃膜的拉伸强度（tensile strength，TS）高于70、80、90 ℃膜的（P＜0.05）；添加1.5 g/100 mL甘油，膜的断裂伸长率随提取温度升高而上升（P＜0.05）；50、70、80℃膜的TS随甘油质量浓度升高而下降（P＜0.05）。

色差分析表明，膜的a*值随提取温度升高而上升（P＜0.05）。

水蒸气透过率随提取温度和甘油质量浓度的升高而升高（P＜0.05）。

明胶膜于200、280 nm波长处的透光率为0.00%，350～800 nm范围内的透光率为46.53%～74.57%，60 ℃膜的透光率低于40、50 ℃膜的透光率（P＜0.05）。

衰减全反射傅里叶变换红外光谱分析表明膜的图谱呈现典型酰胺A、B、Ⅰ、Ⅱ、Ⅲ带，酰胺A带随提取温度的升高向低波数移动，且振幅随甘油质量浓度升高而增加。

扫描电子显微镜结果显示，膜的截面和表面未呈现明显断裂或空隙。

以上结果表明，温度对马哈鱼鱼皮明胶膜的机械性能、透水性、颜色、透光率影响显著，甘油质量浓度仅对前二者影响显著，可通过优化提取温度与甘油质量浓度改善马哈鱼鱼皮明胶膜性质。

关键词：鱼皮；明胶膜；甘油；温度；机械性能；微观结构Effects of Extraction Temperature of Chum Salmon (Oncorhynchus keta) Skin Gelatin and Glycerol Content onIts Film-Forming PropertiesLIU Yang, XIA Lining, JIA Hui, LI Qi, PAN Jinfeng*(National Engineering Research Center of Seafood, School of Food Science and Technology,Dalian Polytechnic University, Dalian 116034, China)Abstract: Extraction temperature and glycerol content are the critical factors affecting gelatin film properties. In the present study, chum salmon (Oncorhynchus keta) skin gelatin was extracted at different temperatures (40, 50, 60, 70, 80 and 90 ℃), and the effect of glycerol content (1.1, 1.2 and 1.5 g/100 mL) on gelatin film properties including thickness, mechanical properties, color, optical properties, microstructure and infrared absorption characteristics was explored. Results indicated that films of gelatin extracted at 40, 50 and 60 ℃ showed higher thickness than films of gelatin extracted at 70, 80 and90 ℃ (P < 0.05). Mechanical analysis showed that tensile strength (TS) of films of gelatin extracted at 50 and 60 ℃ washigher than that of films of gelatin extracted at 70, 80 and 90 ℃ (P < 0.05). Elongation at break (EAB) of films with1.5 g/100 mL glycerol increased with the increase of gelatin extraction temperature (P < 0.05). TS of films prepared fromgelatin extracted at 50, 70 and 80 ℃ declined with the increase of glycerol content (P < 0.05). The a* value of films increased with the increase of gelatin extraction temperature (P < 0.05). Water vapor permeability (WVP) showed an increase with the increase of extraction temperature and glycerol content (P < 0.05). The light transmittance of films were0.00% at wavelengths of 200 and 280 nm and 46.53%–74.57% in the range of 350–800 nm. The light transmittance offilms prepared from gelatin extracted at 60 ℃ was lower than that of films prepared from gelatin extracted at 40 and 50 ℃(P < 0.05). Attenuated total reflection-Fourier transform infrared spectroscopy (ATR-FTIR) analysis demonstrated that gelatin films exhibited the characteristic absorption regions of gelatin, including amide I, II and III bands and amide A and收稿日期：2016-11-23基金项目：“十三五”国家重点研发计划重点专项（2016YFD0400703）第一作者简介：刘洋（1989—），女，硕士研究生，研究方向为食品资源与综合利用。

GelatinCatalog Numbers G6650, G9382, G1393, G9391,G6144, G2625, G2500, G8150, G1890, G9136, G0411, G7765, and G7041CAS RN 9000-70-8Synonyms: Gelatine, Teleostean gelatin (G7765 and G7741)Product DescriptionGelatin is a heterogeneous mixture of water-soluble proteins of high average molecular masses, present in collagen. The proteins are extracted by boiling skin, tendons, ligaments, bones, etc. in water.1Type A gelatin is derived from acid-cured tissue and Type Bgelatin is derived from lime-cured tissue.2Applications using gelatin include coating cell culture plates to improve cell attachment for a variety of cell types,addition to PCR to help stabilize Taq DNApolymerase,7and use as a blocking reagent inWestern blotting, ELISA, and immunohistochemistry.8 In bacteriology, gelatin can be used as a component ofculture media for species differentiation.9Additionally, as a biocompatible polymer, gelatin has been used as a delivery vehicle for the release of bioactive molecules 11and in the generation of scaffolds fortissue engineering applications.12Industrial applications include the use of gelatin as a stabilizer, thickener, and texturizer in foods and in the manufacture of rubber substitutes, adhesives, cements, lithographic and printing inks, plastic compounds, artificial silk, photographic plates andfilms, matches, and light filters for mercury lamps.1In the pharmaceutical industry, gelatin is used as a suspending agent, encapsulating agent, and tablet binder; and in veterinary applications it is used as aplasma expander and hemostatic sponge.1Physical Properties:Isoelectric point (pI): The charge on a gelatin molecule and its isoelectric point are primarily due to the carboxyl, amino, and guanidino groups on the side chains. Type A gelatin has 78−80 millimoles of free carboxyl groups per 100 g of protein and a pI of 7.0−9.0; type B has 100−115 millimoles of free carboxyl groups per 100g of protein and a pI of 4.7−5.2.2,3 The pH of a 1.5% solution at 25 °C is3.8−5.5 for Type A and 5.0−7.5 for Type B.2Bloom number:The Bloom number, as determined by the Bloom gelometer, is an indication of the strength of a gelformed from a solution of known concentration.3The Bloom unit is a measure of the force (weight) required to depress a given sample area of gel a distance of 4mm; the higher the Bloom number, the stronger the gel. A method of determining Bloom strength has been described.4Bloom number is proportional to the average molecular mass:Bloom Number Average Molecular Mass 50−125 (Low Bloom) 20,000−25,000175−225 (Medium Bloom)40,000−50,000225−325 (High Bloom)50,000−100,000Precautions and DisclaimerThis product is for R&D use only, not for drug,household, or other uses. Please consult the Material Safety Data Sheet for information regarding hazards and safe handling practices.Storage/StabilityDry gelatin stored in airtight containers at room temperature remains unchanged for many years. When heated at 100 °C in the presence of air it swells, becomes soft, and disintegrates to a carbonaceous mass with evolution of pyridine bases and ammonia.2Below 35−40 °C gelatin swells in and absorbs5−10 times its weight of water to form a gel. Gelatin is soluble in glycerol and acetic acid, and more soluble inhot than in cold water.1It is practically insoluble in most organic solvents such as alcohol, chloroform, carbon disulfide, carbon tetrachloride, ether, benzene, acetone, and oils.5Sterile solutions of gelatin, stored cold, remain unchanged indefinitely, but at elevated temperatures hydrolysis or rupture of peptide bonds occurs, increasing the number of free amino groups. Gel strength and viscosity gradually weaken upon prolonged heating in solution above 40 °C; this degradation is accelerated by extremes in pH, proteolytic enzymes, and bacterial action.2Gelatin has been autoclaved at 121 °C for 15−20 minutes with appreciable hydrolysis.2,6ProcedureCell Culture Using 2% Solution (Catalog No. G1393) Optimal conditions for attachment must be determined for each cell line and application.1.Allow gelatin solution to completely liquefy at37°C.2.Coat culture surface with 5−10 µl gelatinsolution/cm2(i.e., 0.1−0.2 mg/cm2gelatin).3.Allow surface to dry at least 2 hours beforeintroducing cells and medium.References1.Merck Index, 12th Ed., S. Budavari, Ed., p. 742,#4388 (1996).2.Supplier data.3.Standard Methods for the Sampling and Testing ofGelatins, Gelatin Manufacturers Institute ofAmerica, Inc., 501 fifth Ave., Room 1015, NewYork, NY.4.United States Pharmacopeia XX, p. 1017 (1990).5.Martindale The Extra Pharmacopeia, 29th Ed., p.818, J.E.F. Reynolds, Ed., The PharmaceuticalPress, London (1989).6.Sigma data.7.PCR Primer: A Laboratory Manual, C. Dieffenbachand G. S. Dveksler, Eds., Cold Spring Harbor,NY (1995).8.Vogt, R. F., Jr., Quantitative differences amongvarious proteins as blocking agents for ELISAmicrotiter plates. J. Immunol. Methods101, 43,(1987).9.Levine, M., and Carpenter, D.C., Gelatinliquefaction by bacteria. J. Bacteriol.8, 297,(1923).10.Sakai, Y.,et al., Non-antigenic and low allergicgelatin produced by specific digestion with anenzyme-coupled matrix. Biol. Pharm. Bull.21, 330, (1998).11.Young, S. et al., Gelatin as a delivery vehicle forthe controlled release of bioactive molecules. J.Control Release 109, 256-274 (2005).12.Huang Y, et al.In vitro characterization ofchitosan-gelatin scaffolds for tissue engineering.Biomaterials26, 7616-7627 (2005)Related Products• Gelatin Blocking Buffer, for molecular biology, powder blend,(Catalog No. G7663) provides 1liter of blocking buffer after reconstitution.• Glycerol Gelatin (Catalog No. GG1), prepared with gelatin, glycerol, and phenol,is an aqueous slidemounting medium for histological use.• Gelatin Veronal Buffer (Catalog No. G6514)• Inositol Gelatin Medium, BioChemika, formicrobiology, (Catalog No. 17155), for thecultivation of Plesiomonas shigelloides from foods • Gelatin Iron Medium, BioChemika, formicrobiology(Catalog No. G0289)• Lactose Gelatin Broth (Base), BioChemika, for microbiology (Catalog No. 61348)• Gelatin Hydrolysate Enzymatic (Catalog No.G0262)• Nutrient Gelatin, BioChemika, for microbiology (Catalog No. 70151)• Nutrient Gelatin Special Grade, BioChemika, for microbiology (Catalog No.70198)CS,MAC,KTA,MAM 11/08-1Gelatin Selection Guide CatalogDescription Bloom Storage NotesApplicationsG2625∼175G1890skin, Type A, powder,∼300Room temperature Derived from acid-cured tissueRecommended for use as a cell culture substratum.*G9136skin, Type A,lyophilized powder, γ-irradiated,∼300Room temperatureDerived from acid-cured tissueRecommended for use as a cell culture substratum.*G6650∼75G1393Type B (from bovine skin),∼2252−8 °Ctissue. Prepared in tissue culture grade water. Recommended for use as a cell culture substratum.*G7765Gelatin from cold water fish skin, ~45% in H 2O 2−8 °C p -hydroxybenzoate and 0.2% methyl p -hydroxy-benzoate as preservatives;U im*Recommended for use as a cell culture substratum at 0.1−0.2mg/cm or 5−10µl/cm . Optimal concentration will depend on cell type as well as the application or research objectives.Prionex is a registered trademark of Pentapharm AG, Basel.Sigma brand products are sold through Sigma-Aldrich, Inc.Sigma-Aldrich, Inc. warrants that its products conform to the information contained in this and other Sigma-Aldrich publications.Purchaser must determine the suitability of the product(s) for their particular use. Additional terms and conditions may apply.Please see reverse side of the invoice or packing slip.。

鱼类结冰耐受适应的分子机制
鱼类结冰耐受适应的分子机制是指鱼类在寒冷环境中能够适应并忍受结冰的能力。

以下是可能的分子机制：
1. 冷凝素（antifreeze proteins，AFPs）：鱼类体内可能会产生一类叫做冷凝素的蛋白质，它们能够抑制水分子的结冰。

冷凝素通过与结冰发生的晶格形成相互作用，从而抑制冰晶的生长和扩展。

这样，鱼的体液就能够维持在液态状态，避免了冰晶的形成和对细胞的损害。

2. 冷麻醉抗性相关蛋白（anesthesia-related protein，ARP）：一些鱼类体内可能含有冷麻醉抗性相关蛋白，这些蛋白质能够减轻或消除鱼类在寒冷环境中遭受的冷麻醉效应。

冷麻醉抗性相关蛋白可能通过调节或影响神经传导、细胞膜的渗透性以及蛋白质的构象等方式，使得鱼类能够保持正常的神经活动和生理功能。

3. 细胞膜的适应性：鱼类的细胞膜会发生结构和组成的调整，以适应寒冷环境下的冰冻和解冻。

这些调整包括增加脂肪酸链的饱和度，增强细胞膜的流动性以及调节细胞膜内部的离子通道和转运体。

4. 抗氧化机制的增强：寒冷环境下，鱼类的代谢活动可能会增加，导致细胞内产生更多的代谢产物和自由基。

为了应对这种情况，鱼类可能会增强抗氧化机制，包括提高抗氧化酶的表达和活性，以及增加细胞内抗氧化物质的浓度，来减轻自由基对细胞的损伤。

这样可以有助于提高鱼类对结冰环境的耐受性。

需要指出的是，对于鱼类结冰耐受适应的分子机制还存在着很多不确定因素，目前还需要更多的研究来完全理解这个过程。

此外，不同的鱼类可能具有不同的适应机制，因此具体的分子机制可能会因鱼类的种类而异。

抗体稀释液的配制Antibody Dilution BuffersPrimary Antibody Dilution Buffer:1%BSA (stabilizer and blocking)0.1% cold fish skin gelatin (blocking)0.05% sodium azide (preservative)0.01M PBS pH7.2 (TBS pH7.6 used in primary antibody dilution buffer produces weaker staining)Note: 1) Antibodies diluted using this buffer can be stored at 4 ºC for 6 months without reducing binding activity. 2) This buffer can not be used for diluting HRP conjugated antibodies since sodium azide is an inhibitor of HRP.HRP-conjugated Primary Antibody Dilution Buffer:1%BSA (stabilizer)0.1% cold fish skin gelatin (blocking)0.05% Thimerosal (preservative)0.01M PBS pH7.2Note: Antibodies diluted using this buffer can be stored at 4 ºC for 6 months without reducing binding activity.Secondary Antibody Dilution Buffer:0.01M PBS, pH 7.20.05% sodium azide (preservative)Note: 1) Antibodies diluted using this buffer can be stored at 4 ºC for 6 monthswithout reducing binding activity. 2) Do not use BSA or other serum containing reagents to dilute secondary antibodies since they may bind to BSA or serum therefore reducing antibody affinity. 3) Using TBS to dilute secondary antibodies often produces weaker staining. So use TBS only for the antibodies with high background staining or for alkaline phosphatase conjugated antibodies since phosphate is a inhibitor of alkaline phosphatase.HRP-Streptavidin Dilution Buffer:0.01M PBS, pH 7.20.05% thimerosal (preservative)Note: Antibodies diluted using this buffer can be stored at 4 ºC for 6 months without reducing binding activity.AP-Streptavidin Dilution Buffer:0.05M TBS, pH 7.60.05% thimerosal (preservative)Note: 1) Antibodies diluted using this buffer can be stored at 4 ºC for 6 months without reducing binding activity. 2) PBS can not be used to dilute Streptavidin-AP since phosphate inhibit alkaline phosphatase activity.Fluorescent Dye (Avidin-FITC, Avidin-Texas Red, Avidin-AMCA) Dilution Buffer:0.01M PBS, pH 7.20.05% thimerosal (preservative)。

钻井业专业词汇英语翻译A氨基三乙酸(NTA) aminotriacetic acid胺基amino铵基ammonium安全地层safe formation安全试破safe destruction安全钻井safe drilling坳陷down warping region螯合chelation凹陷sag凹陷地层subsidence formation奥陶系Ordovician systemAPI模拟法API recommened methodB多靶点multiple target point白沥青white asphalt白油mineral oil白云母white mica半透膜semipermeable membrane包被絮凝剂flocculant包被envelop包被抑制性encapsulating ability饱和度saturation饱和度剖面图profile map of degree of saturation饱和盐水saturated salt water背斜anticlinal钡barium苯环benzene ring苯酚phenyl hydroxide本质区别essential difference泵压过高overhigh pumping pressure比表面积specific surface area比吸水量specific absorption比重瓶法density bottle method避免avoid蓖麻油ricinus oil边界摩擦boundary friction扁藻（浮游植物）algae变化趋势variation trend标准化standardization标准粘度测量standard visicosity measure表面粗糙度roughness of the surface表面电位surface electric potential表面活性剂surfactant ,surface active agent表面能interface energy表面粘度surface viscosity表面抛光sample surfaceAibbs表面弹性Aibbs surface elasticity表面张力surface tension表明verify /reveal表皮系数(S) skin coefficient憋钻bit bouncing宾汉方程bingham equation丙三醇glycerine丙烯情acrylonitrile丙烯酸acrylic acid丙烯酸盐acrylate丙烯酰胺acrylamide薄而韧的泥饼thin,plastic and compacted mud-cake薄片flake薄弱地层weak formation泊松比poisson’s ratio剥离peel off补救remediation不分散泥浆nondispersed mud不干扰地质录井play no role in geological logging不均质储层heterogeneous reservoir不均匀uneven不可逆irreversible不同程度inordinately部分水解聚丙烯酰胺(PHPA) partially hydrolyzed polyacrylamide C参数优选parametric optimization残酸reacted acid残余饱和度residual staturation残渣gel residue , solid residue测量measure侧链side chain侧钻水平井sidetrack horizontal well层间interlayer层间距the distance between the two crystal layer, layer distance 层理bedding层流layer flow差减法minusing尝试trial柴油diesel oil长连缔合物long chain associated matter操作方法operation method超伸井high deep well超深预探井ultradeep prospecting well超声波ultrasonography超高密度泥浆extremely high density mud超细碳酸钙super-fine calcium carbonate产层production/pay zone产层亏空reservoir voidage产量production ,output沉淀precipitation沉降subside沉降速度settling rate沉砂sand setting衬套sleeve程序program成对水平井paired parallel horizontal wells成分ingredient成胶剂gelatinizing agent成膜树脂film-forming resin成岩性差poor diagenetic grade承压bearing pressure承压低lower pressure resistance承压能力loading capacity尺寸dimension斥力repulsion除硫效果sulfur limitation effect除硫剂sulfur elimination除砂器desander触变性thixotropy触变剂thixotropic agent垂沉sag垂直井vertical well充气钻井液aerated drilling fluid磁化magnetization次生有机阳离子聚合物secondary organic cationic polymer 冲砂sand removal冲蚀flush冲刷washing out冲洗clean冲洗效率cleaning efficiency冲洗液washing fluid从…角度from the standpoint of丛式井cluster well稠化剂gelling agent稠油区viscous oil area稠油藏high oil reservoir初步分析preliminary analysis初始稠度initial consistency初始粘度initial viscosity初探primary investigation处理剂additive ,treating-agent粗分散泥浆coarse dispersed mud粗泡沫堵漏工艺coarse-foam plugging technology促凝剂accelerating agent醋酸acetate醋酸钠sodium acetate窜流fluid channeling脆裂embrittlement crack脆性brittle/crisp ,fragility催化剂accelerant , catalyst萃取剂extracting agentD达西定律Darcy’s equation大段水层thick aqueous formation大分子氢键络合作用polycomplexation of hydrogen bond 大灰量mass slurry大井斜角high deviation angle大块岩样big rock sample大块钻屑massive drilling cuttings大类genera大理石marble大砾石层large gravel bed大量分析quantitative analysis大排量洗井high flow rate washover大排量循环high flow rate circulation大位移定向井extended-reach directional well大斜度钻井big inclination/angle drilling大直径井眼large hole代表性岩心representive core sample单宁酸tannate单体monomer单相关分析法analyzing method of single correlation单相关系数加权coefficient weighted method of single correlation 单轴抗压强度uniaxial compressive strength氮nitrogenN-羟甲剂胺N-hydroxymethyl amine淡水fresh water单向压力暂堵剂unidirectional pressure temporary plugging additive 导向螺杆钻具stearable assemly导向器guider等温曲线isothermal curve低毒油基low toxicity oil based低返速low return-velocity低固相泥浆low solid drilling fluid低级醛low-grade aldehyde低粘土相泥浆low clay content drilling fluid狄塞尔堵漏剂diacel plugging agent滴定titration底水丰富basal water abundance底水油藏井bottom water reservoir well第二界面second contact surface缔合物associated matter地层formation地层出液量formation fluid production地层破碎straturn breaking地层倾角大higher formation clination地层水formation water地层损害formation damage地面岩心压汞surface core mercury injection test地下水groundwater , subsurface water地应力ground stress地质geology地质构造geologic structure淀粉starch电测electronic logging电导率electric conductivity电荷electricity电化学法electrochemistry method电解质electrolyte电镜分析electronic microscope photos电位potential fallξ电位zeta potential电性electric property电泳法electrophoresis method电子探针electron spectrum调查census顶替过程displacing operation定量设计quantitative design定向井direction well定子stator冻胶gel动静弹性模量dynamic and static elasticity modulus动力稳定性settling stability动力学kinetics动态滤失dynamic filtration动切力yield value动塑比ratio of dynamic shear force/yield value to plastic viscosity 堵漏plugging堵塞seal堵塞比(DR) damage ratio堵塞物bulkhead堵水water shutoff毒性大high toxicity毒性污染环境toxicity ruins the environment短过渡short transition time短纤维brief fiber断层发育mature fault断裂带faulted zone对策countermeasure多产层multilayered reservoir多分支侧钻井multi-lateral sidetracking well多功能添加剂multifunction additive多孔介质porons medium多目标定向井multi-target directional well多相稳态胶体悬浮体系polynomial gel suspension system多元醇polyatomic alcohol多元非线性回归multielement non-linesr regression多元统计multivariate statistics惰性材料inert material惰性润滑剂inert lubricantE二次沉淀secondary precipitation二叠系Permian system二甲胺dimethylamine二甲基二烯丙基氯化铵dimethyl diallyl ammonium chloride 二价阳离子bivalent ion二开second section二氧化碳（CO2）carbon dioxide二元共聚物binary polymerF发气剂gas-development发展趋势development tendency反排解堵plug removal by reverse flow范氏力van der waals force范氏粘度计fann viscosimeter返回go back to方便钻井液复合粉convenient mud compound powder方程equation芳香烃aromatic group防窜水泥anti-fluid-channeling cement防腐anti-corrosion防卡pipe-sticking prevention ,anti-sticking防漏失lost circulation prevention防气窜anti-fluid-channeling防塌机理mechanism of anti-caving防塌剂anti-caving/collapse agent , clay stabilizer防止prevent…from纺织textile放空不返loss of bit load with loss return放射性示踪剂radioactive tracer tritium非均质nonhomogeneity非离子nonionic非牛顿流体non-newtonian fluid非渗透性impervious废泥浆mud disposal沸石zeolite分布distribution分段固井技术stage cementing technology分光度法spectrophotometer分类division分散dispersion分散剂dispersant分散介质dispersion medium分析analysis分形理论fractal theory分形几何fractal geometry分子molecules分子间能量交换energy exchange between molecules分子量molecular weight分子链molecular chain分子形态shape of molecular chain粉尘dust粉煤灰fly ash粉末powder粉砂质aleuritic texture酚羟基的邻位或对位氢p-or o-hydrogen atom of phenolic group 封闭剂sealing agent封闭稳定good isolation封堵formation sealing封堵剂formation sealant封固段interval isolation扶正器centralizer氟硼酸borofluorhydric浮力效应effect of buoyancy孵化速度incubation浮游植物floating vegetation复合combine复合离子multifunctional ionic复合离子聚合物amphiprotic/amphoteric polymers ,复合金属两性离子聚合物composite metal zwitterionic polymer 复合聚合物泥浆compound-polymer mud复配方案compositional formulation复杂地层complex formation, troublesome region ,trick formation 复杂度complex rate复杂时效outage time复杂情况down-hole troublesome condition腐蚀corrosion腐蚀电位corrosion potential腐蚀速率corrosion rate腐殖酸humate ,humic acid腐殖酸钾(KHm) potassium humic辅料auxiliary material负negative负压钻井underbalanced drilling符合accord with符合率coincidence rate副产品by-product附加密度addition mud densityG改善泥饼质量improvement of mud cake改性modification改性淀粉modified starch改性沥青modified asphalt改造refomation钙calcium钙矾石ettringite钙膨润土钠化sodium modified calcium betonite干混拌技术mixing technology干扰interfere with甘油glycerol锆zirconium高分子higher molecular weight高分子聚合物macromoleclar polymer高分子絮凝剂polymer flocculant高负荷high load高级脂肪醇树脂higher fatty alcohol高价金属阳离子high valent cationic高角度微裂缝high angle micro-fracture高矿化度地层水highly mineralized formation brines 高岭土kaolinite高炉矿渣(BFS) blast furnace slag高密度钻井液high density drilling fluid高难度high challenge高粘度清扫液viscous sweeping fluid高砂比high sand ratio高温静置quiescence in high temperature高温泥浆high-temperature mud高吸水量树脂absorbent resin高温高压流变仪HTHP rheometer高效润滑剂super lubricant高压盐水层high pressured slatwater layer膏岩层gypsolyte膏质泥岩creaming mudstone膏状磺化沥青paste sulphonated asphalt隔离冲洗液spacer/flushing fluid隔离膜isolating membrane各向异性anisotropy工程engineering共聚copolymerization共聚物copolymer共聚物类降粘剂copolymer thinner狗腿dogleg构造裂缝structural fracture固化solidification固化剂hardener , curing agent固井技术cementing technology固体团块solid cake固相solid phase固相含量solid concentration固相颗粒solid particles固相颗粒侵入solid invasion固相控制技术solid control technology固相损害damage of particles固液分离技术centrifugal separation method 胍胶guargum瓜尔胶guar挂片失重法weight loss method关掉电机turn off the power光谱spectroscopy硅silicone硅粉silica powder硅氟fluosilicic硅铝比ratio of silicate to aluminium硅酸钠sodium silicate硅酸盐silicate滚轮失重法roller weight loss method国内外home and abroad过渡金属transitional metal过平衡压力over-balanced pressure过剩浓度residual concentration过氧化物peroxideH海绿石chlorite海上offshore海水泥浆sea water mud海湾bay海洋生物marine animal含量content含水量moisture content耗氧量（COD）chemical oxygen demand耗氧量(BOD520) biological oxygen demand核桃壳粉walnut shell flour核磁共振（NMR）nuclear magnetic resonance合成synthesis合成基钻井液synthetic base drilling fluid合格eligible合理级配reasonable distribution褐煤lignite赫巴模式Herschel-Buckley model黑色正电胶(BPG) black positive gel恒定滤失速率constant filtration rate葫芦串irregular borehole护胶剂colloid protecting resistance护胶作用colloid stability互层interbeded红外光谱infrared spectrography花岗岩granite划眼作业reaming operation化学螯合剂chelating agent化学冲洗液chemically washing solution化学结垢(沉淀) chemical precipitation环保型environment friendly /acceptable环境保护environment protection环空当量密度annular equivalent density环空返速velocity in annular环空压耗annular pressure lost环氧丙烷epoxypropare环氧氯丙烷(ECH) epoxy chloropropane ,epichlorohydric 缓蚀剂corrosion inhibitor磺化sulfonation磺化酚醛树脂sulfomethal phenolaldehy resin磺化剂sulfonating agent磺化类处理剂sulfonated additives磺化沥青sulfonated gilsonite磺化沥青泥浆sulfonated-asphalt mud磺甲基酚醛树脂sulfonated methypheuo formald-ehyde磺酸基团sulfonic acid group ,sulfo group灰色关联分析法gray relative analysis method灰岩limestone回归分析regressive analysis回收率recovery percent回填还耕refilling for plowland火成岩igneous rock火山喷发岩volcanic混合金属层状氢氧化物(MMLHC) mixed metal layer hydroxide compound 混合金属氢氧化物(MMH) mixed metal hydroxides混合纤维composite fiber混合盐水mixed salt活动套管moving casing活度water activity活性硅灰activated grammite活性粘土矿物active clayey mineral活性污泥法activated sludge process宏观macroscopicJ基液base fluid机械力mechanical机械杂质mechanical impurity机械钻速(ROP) rate of penetrate及时反出timely return极限剪切粘度high shear viscosity极限应变ultimate strain极性基团polar group极压润滑剂pressured/extreme lubricator挤堵squeeze激光多普勒测速仪(LDA) laser Doppler anemometer激光粒度仪laser particle analyzer激活剂activator技术措施technical measure技术讲座workshop for technology技术经济效果technical-economic effect技术套管intermediate casing季铵盐quaternary ammonium, anionic group钾potassium ,kalium钾基石灰泥浆potassium base lime mud甲硅烷基化处理methylsilicane甲基methyl甲基硅油聚磺高密度钻井液methyl silicone oil polysulfonate drilling fluid with high density甲醛formaldehyde , methanal甲酸盐formate加量dosage加重剂heavy weight additive加重泥浆weighted mud加重钻井液“垂沉”sag phenomenon of weighted drilling fluid 架桥粒子bridge particle价数valence监督supervision碱alkali简化泥浆处理simplify mud treatment简介brief description检查井inspection well检测inspection/monitor减轻剂lightening admixture减阻剂anti-friction agent , drag reducer剪切破坏shear failure剪切稀释能力shear thinning property , shearing dilution剪切应力shear stress键bond健康,安全与环境(HSE) health , safety and environment间隙clearance降解产物degradation products降粘机理thinning mechanism降粘剂thinner,visbreaker降失水剂fluid loss agent/additive, filtration reducer胶结强度bonding/consolidation strength胶结疏松weak bonding胶囊破胶剂encapsulated gel breaker胶凝gelatify胶凝性质jellyfication胶乳latex胶体率colloid fraction胶体稳定性colloid stability胶质gum交联cross-linking交联剂cross linker交联冻胶gel cross-linking交换液exchange fluid接近concordant with结垢precipitation, scale deposit , fouling结构可瞬时形成或拆散quick formation and breaking 结构强度structural strength结合refer to结晶crystallization结晶水crystal water接触角contact angle接枝共聚物grafting copolymerization解卡剂pipe free agent介质medium界面interface界面胶结interfacial cementation金属metal金属离子metal ions紧密堆积理论theory of high packing近井壁near-well zone近平衡钻井near-balanced drilling浸出液leaching agent浸酸改造acidizing经验性总结分析empirical analysis晶格lattice bond净化技术solid control井壁稳定borehole井壁稳定hole stability ,stable borehole井底downhole井底静止温度低(BHST) low borehole static temperature 井段interval/section井径well/hole gauge井径规则regular and consistent borehole gauge井径扩大率hole diameter enlargement rate井口wellhead井漏lost circulation井身结构wellbore configuration井下安全downhole safety井下复杂情况down hole problem井斜inclination井眼well bore ,borehole井眼轨迹well track井眼净化hole cleaning井眼缩径hole shrinkage井眼稳定hole stability井涌kick浸泡时间soak time静切力(结构力) gel strength/static shear force静损害static damage静态挂片法static weight loss method静态滤失static filtration静液柱压差hydrostatic column pressure difference静置quiescence静止消泡时间static defoaming time静置沉淀static settlement居中centralization居中度centralizer聚α－烯基polyalphaolifen聚丙烯青铵盐ammonium polyacryhoitril聚丙烯酰胺(PAM) polyacrylamide聚电解质poly-electrolyte聚合醇polyalcohol , polyol聚合物不分散泥浆non dispersed polymer mud聚合物降滤失水剂polymer filtration control agent聚合物三磺盐水泥浆three-sulfonated polymer salt mud 聚合物钻井液polymer drilling fluid聚合物混油钻井液poly-oil mixture drilling fluid聚磺钻井液sulphonated polymer mud聚结稳定性coagulation stability聚乙二醇(PEG) polyethyleneglycol聚乙烯醇(PVA) polyvinyl alcoholK卡森方程Casson equation卡钻pipe-sticking卡钻因子stuck-pipe factor勘探与开发exploration and development开发井development well开钻泥浆spud mud抗冲击韧性toughness抗冲击性impact resistance抗电解质potential resistance to electrolyte contamination 抗钙compatibility of calcium抗裂程度rupture strength抗温抗盐heat and salinity tolerance抗压强度compressive strength抗折强度breaking strength栲胶tannin , quebrocho克gram颗粒particle颗粒级配理论theory of granulartity苛刻rigorous可变形粒子deformation particle可靠inerrable可逆reversible可溶性盐soluble salt可压缩性compressibility可用性feasibility可钻性drillability刻度盘dial scale坑内密封法seal in a pit空气湿度air humidity孔洞cavern孔喉pore throat孔隙pore孔隙度测井porosity log孔隙压力pore pressure孔隙液pore fluid快钻剂quick drilling矿化度mineral salt concentration , mineralization 矿石ore矿物mineral矿物组分mineralogical composation矿物晶体mineral crystal矿物油mineral oil矿渣slag扩散diffusionL老化时间ageing time老区maturing field雷诺数Renault number类别category累计厚度gross thickness累托石rectorite沥青asphalt ,gilsonite,bitumen沥青类产品gilsonite and similar materials离心法敏感性评价centrifugation sensitivity evaluation 离心机centrifugal machine离心机固控技术centrifugal solid control离子ionic离子形态ionic forms粒度grain grade粒度分布particles/size distribution粒度分析particles size analysis粒子particle砾石充填gravel pack连通性formation communication连续提取法continuous extraction两凝水泥浆two-stage cementing cement两性离子zwitter ionic裂缝fissure裂缝壁side of fracture plugging裂隙地层fractured formation裂隙滞后效应fracture lag-effect邻井offset/adjacent well林产forestry淋洗量wash out amount磷phosphorus磷酸phosphate磷酸氢二铵diammonium phosphate磷酸盐phosphate salt磷酸酯organic phosphate临界点critical point临界环空流速critical annular fluid velocity临界流量critical flow velocity临界盐度critical salinity零点zero point零析水zero free water硫sulfur硫化氢hydrogen sulfide硫化物sulfide硫酸sulfate硫酸钠sodium sulphate流变参数reheological parameter流变模式reheology model流变性rheology behavior流变性能改进剂rheology conditioner流变学rheology流动度fluidity流动介质flow media流动孔喉flowing pore throat流动摩阻压力flowage friction drag流动实验flow test流动阻力flow resistance流沙层drift sand formation流态flow pattern流体力学hydromechanics theory流体输送减阻accelerating fluid feeding流型fluid type漏斗粘度funnel viscosity漏失lost circulation漏失层位location of the thief zone漏失通道porous media陆上onshore卤虫(甲壳类动物) crustacean卤水bitter(luo) chromium络合coordination ,chelate络合行为热效应thermal effect of the coordination 录井log裸眼open well裸眼井段barefoot interval滤饼filter cake滤失量filtration滤饼电性质electro kinetic property滤液filtrate滤液侵入filtrate invasion铝aluminum铝酸盐aluminate氯酚chlophenol氯化钙(CaCl2) calcium chloride氯化物chlorideKCl溶液potassium chloride solutionM马来酸酐maleic anhydride埋深burial depth满足…需要meet requirement of曼尼希反应Mannick reaction芒硝层chuco毛细管吸收时间测定仪(CST) capillary suction timer毛细管压力capillary pressure酶enzyme煤层coal bed煤层气储层coalbed methane reservoir镁magnesium门限流动压差threshold differential pressure of flow 蒙脱石smectite咪错基imidazoline醚基ether密胺树脂melamine resin密闭液sealing fluid密度density密实dense幂律模式power law method敏感性sensitivity敏感性流动实验flowrate test膜film , membrane磨铣mill摩擦friction摩擦付friction couples摩擦系数friction coefficient摩阻损失friction loss末端毛细管阻力terminal capillary pressure木质素磺酸盐lignosulfonate模拟analog, simulate模式(型) model目meshN纳米材料nano-composite material纳米技术nano-tech钠sodium钠化sodium treatment钠膨润土泥浆sodium bentonite mud囊衣capsule dressing囊芯capsule-core内聚力cohesion内摩擦角internal frictional angle内泥饼internal filter cake内切圆半径inscribed circle radius内烯烃isomerised olefins内源和外源颗粒endogenous and exogenous granula 内在因素intermediate factor能量交换energy exchange泥包bit balling泥饼mud-cake泥饼强度冲刷仪mud filter cake tester泥浆处理mud treatment泥浆跟踪剂mud tracer泥浆配方mud formula泥浆转化为水泥浆(MTC) mud to cement泥岩mudstone , conglomerate泥页岩shale , argillutite泥质膏岩argillaceous粘度viscosity粘度极大值maximum viscosity粘度计viscosimeter粘附adhere粘附张力adhesive tension粘弹性viscoelastic粘土clay粘土分级评价法method of grading mud-making clay 粘土矿物层间距(d001) crystal indices粘土矿物含量clay mineral content粘土片clay latice粘土膨胀clay swelling粘土膨胀倍数swelling ratio of clays粘土稳定性clay stability粘性流体viscous fluid柠檬酸citric acid凝固点freezing point凝析油condensate oil牛顿流体Newtonian fluid扭距torque浓度concentration浓硫酸strong sulfuric浓缩concentrationP排列line along排驱压力displacement pressure排水water draining剖面图profile map泡沫流体实验装置aerated fluid test simulator泡沫剂foaming agent泡沫衰变机理foam decay mechanism泡沫质量foam quality泡沫钻井液foam drilling fluid配方formula ,recipe ,composition配浆时间drilling fluid preparing time配位体ligand配伍性compatibility配制madeup盆地basin喷blowout喷射钻井jet drilling喷嘴粘度nozzle viscosity膨润土bentonite ,montmorillonite膨润土含量bentonite content膨胀swell膨胀剂sweller膨胀率expansion ratio膨胀性堵漏材料expandable plugging additives硼冻胶boracium gel硼砂borax硼酸盐borate偏心度excentricity偏移shift片麻岩gneiss漂珠hollow microsphere品种variety平衡线膨胀率equalibrium linear expansion value平衡压力钻井balanced drilling评价evaluation评价标准evaluation criterion评价井appraisal well平板型层流plate laminar flow平均井深average well depth平均线膨胀率average expansion rate平均直径mean diameter屏蔽环shielding zone屏蔽暂堵技术temporary shielding method ,barrier-building temporary seal incores 破胶剂gel breaker破胶性breaking property破裂压力fracture pressure破裂压力梯度fracture pressure gradient破乳break the emulsion破乳剂demulsifying agent葡萄糖glucoseQ起到重要作用play an important role起泡剂frothing agent起下钻阻卡blockage during tripping气液表面能gas-liquid interface energy迁移migration前置液prepad fluid铅（Pb）lead潜在因素implicit factor潜山buried hill浅高压气层shallow high pressure gas formation浅海shallow-water , neritic area浅井shallow well嵌段聚合物block polymer欠饱和盐水钻井液unsaturated salt water drilling fluid 欠平衡钻井underbanlanced drilling欠压实uncompaction羟基hydroxy羟基水hydroxy water羟丙基淀粉hydroxypropul starch羟乙基纤维素hydroxyethyl cellulose强造浆软泥岩high mud making soft shale桥堵剂bridge additive切力shearing force侵入深度invasion depth侵蚀erosion亲核化学吸附nucleophyllic chemical adsorption亲水环境hydrophilic environment亲水性hydrophilcity亲油性lipophilic氢hydrogen氢氟酸hydrofluoric acid氢键hydrogen bond氢氧化钠alkali氢氧化钙calcium hydroxide清扫液sweeping fluid清水clear water清洗剂cleaning agent蜻纶acrylon fiber蜻纶费丝nitrilon倾角dip angle丘陵hill type球形胶束roundness glues区块block屈服强度shear strength屈服值yielding point曲边三角形curved line trangle取代度substituted ratio取芯core,coring operation取芯进尺coring footage取芯收获率coring recovery rate曲线curve去除wipe off醛aldehydeR热采井thermal production wells热分析thermoanalysis热滚hot aging热滚分散实验roller oven test , hot rolling test热力学thermodynamics热凝橡胶coagulative rubber热效应thermal effect热稳定性temperature resistance ,heat stability ,stability at high temperature热重法(TG) thermogravimetry人工神经网络artificial neural network韧性tenacity韧性粒子tenacity particle日产气daily gas融合amalgamation溶洞cave溶胶sol溶解氧dissolved oxygen溶蚀corrode溶蚀性孔洞solution cave溶液solution柔性棒状胶束flexibility claviform glues蠕虫状胶束vermiculate glues乳滴聚结实验emulsion drop aggregation test乳化emulsify ,emulsion乳化剂emulsifier乳化钻井液emulsion drilling fluid乳化作用emulsification入井液working fluid软化点沥青softening point asphalt软泥岩soft mudstone软件包software package润滑剂lubricant润滑仪lubricity tester润湿反转wetting transition , wettability reversed润湿性wettability弱面weak planeS塞流顶替plug-flow displacement3r/min读值3r/m reading三高一适当(3H1S) three high and one proper三磺饱和盐水泥浆three-sulfonated-polymer-saturated-brine mud 三钾胺dimethyl amine三甲基单烯丙基氯化铵trimethyl allyl ammonium chloride三维网状结构three-dimensional network structure三乙醇胺triethavolamine散射scatter铯cesium射孔perforation射孔液perforation fluidX-射线计算机层析技术(CT) computerized tomography沙砾岩glutenite砂泥岩sand shale砂岩sand ,sandstone杀菌剂bacteriostat筛管screen pipe上泵容易easy pumpability上部地层upper formation /segment上古生界upper palaeozoic上升趋势escalating trend上下密度差difference of densities上下限top and bottom limitation上游领域upstream扫描电镜(SEM) scanning electronic microscope 设计design设计原理design principle神经网络nerve network深穿透射孔枪弹deep penetrating bullet深度depth深井钻井deep drilling深探井exploration well渗流phase flow s渗漏leakage渗透peculation `渗透率fluid permeability渗透率各向异性permeability anisotropy渗透率恢复值return permeability渗透水化osmotic hydration渗透性地层permeable formation渗析纯化purified by dialysis method声波测井sonic logging声幅值acoustic amplitude生产能力production capacity生态环境ecology environment生物处理biological treatment生物毒性biotoxicity生物降解biological degradation生物聚合物biological polymer ,xanthan生物流化床法biological fluid bed method生物滤池法bio-filter process生物转盘法biological rotary method实验trail十八醇octadecanol失水water loss失重weightlessness, weight loss时间推移技术time delaying method石膏gypsolyte, gypsum石灰lime石蜡alpha , paraffin wax石炭系carboniferous system石英quartz石油加工oil refinery石油裂化petroleum cracking process施工作业field operation事故率failure rate湿挤压wet-extrusion室内模拟实验simulating lab test室内实验和现场lab and field室内研究laboratory study室温ambient temperature适量defined amount适应温度reaction temperature示踪分析法mud filtrate tracer analysis释放release收缩shrink疏水性hydrophobicity叔胺盐tertiary ammonium salt数据库data base数学模型mathematical model数字模拟digital analog塑料小球plastic beads树脂resin, colophony s束缚irreducible束缚水bond water衰变decay瞬时滤失instantaneous filtration , spurt loss瞬时速度instantaneous velocity双层组合套管固井技术pipe-in-pipe casing string双电层斥力double electrode layer repulsion双分支侧钻水平井bi-lateral sidetracking horizontal well 水包油型乳化液oil-in-water fluid水不溶物water insoluble matter水层water layer水化hydration水化膨胀分散hydrous disintegration水化抑制剂hydrate control水泥环cement sheath水泥浆cement slurry水泥石set cement水泥熟料cement clinker水泥早强剂cement hardener水解hydration水解度hydrolyzing degree水力学hydraulics水基泥浆water-base drilling fluid水敏性water sensitivity水平井段net horizontal section水平井段长extended horizontal depth水平井偏心环空horizontal eccentric annulus水平位移horizontal displacement水溶性water-soluble水溶液aqueous solution水锁water lock水眼粘度bit nozzle viscosity ,Casson high shear viscosity锶strontium四苯硼酸钠sodium tetraphenyl borate四级固控系统four stage solid control system四球机four-ball instrument松弛测量法relaxation measurement松散地层unconsolidated formation松散吸附水adsorbed water塑性粘度plastic viscosity塑性水泥plastic cement速度场velocity field速敏speed-sensitivity速凝fast setting速凝剂accelerator酸度计滴定法acidometer titration酸酐anhydride酸碱滴定法acid-base titration酸敏acid sensitivity酸溶性acid soluble酸性条件acidic condition酸性粘土acid clay酸渣acid-slug随钻堵漏plugging while drilling顺利go smoothly缩合condensation缩合共聚condensation-copolymerization缩径hole shrinkage羧基carboxylic ,carboxyl羧甲基纤维素钠(Na-CMC) sodium salt of carboxy methyl-cellulose T塔里木盆地tarim basin太古界archaeozoic滩海tidal坍塌slough /cave坍塌压力collapse pressure坍塌页岩sloughing shale弹塑性plastoelasticity弹性力学elastic mechanic弹性模量elastic modulus探井prospecting well碳化carbonization碳酸钙calcium carbonate碳酸氢根离子(HCO3-) bicarbonate ion碳酸盐carbonate碳质carbon羰基carboxide陶粒ceramsite套管casing套管壁casing wall套管居中casing centralization套管开窗井段window killing section套管外封隔器external casing packer特低密度ultralow density特性粘度intrinsic viscosity梯度gradient梯度多凝水泥浆gradient multi-setting cement slurry 提出propose提取extraction体积分布volume distribution体积分散volume ratio体积恢复当量equivalent volume体系system天然或人造natural and synthetic填充粒子filler particle田青粉sesbania调凝剂thickening time control agent调整井adjustment well铁垢iron dirty铁矿粉hematite铁离子(Fe) ferrous ion铁离子稳定剂ferrous stability铁落木质素磺酸盐fer-rochrome lignosulfonte烃类hydro carbons通井drafting process同时simultaneously同心环空concentric annulus统计statistics统计分析statistics analysis投料比rate of charge土酸clay/mud acid钍thorium。

专利名称：来源于鳜鱼的半乳糖凝集素-8在制备抑菌剂中的应用
专利类型：发明专利
发明人：聂品,梁志刚
申请号：CN202010000956.7
申请日：20200102
公开号：CN111053890A
公开日：
20200424
专利内容由知识产权出版社提供
摘要：本发明属于生物技术领域，具体公开了来源于鳜鱼的半乳糖凝集素‑8在制备抑菌剂中的应用，所述的半乳糖凝集素‑8的氨基酸序列如SEQ ID NO.1所示，申请人发现鳜鱼半乳糖凝集
素‑8（ScGal8）本身对典型的水产动物病原菌具有重要的抑菌活性，通过抑菌实验发现半乳糖凝集素‑8对杀鲑气单胞菌（）、迟缓爱德华氏菌()没有抑菌活性，但是对无乳链球菌（）和柱状黄杆菌()具有较明显的抑制效果，因此鱼类的半乳糖凝集素‑8（rScGal8）在治疗水产动物由柱状黄杆菌引起的烂鳃病治疗中具有良好的应用前景。

申请人：中国科学院水生生物研究所
地址：430000 湖北省武汉市武昌东湖南路7号
国籍：CN
代理机构：武汉宇晨专利事务所
代理人：龚莹莹
更多信息请下载全文后查看。

专利名称：鳄鱼血在制备抗肿瘤抗病毒提高免疫力的药物及保健食品中的应用
专利类型：发明专利
发明人：许东晖,许实波,梅雪婷,林峰亮
申请号：CN200410051860.4
申请日：20041019
公开号：CN1634147A
公开日：
20050706
专利内容由知识产权出版社提供
摘要：本发明涉及利用鳄鱼血在制备用于抗肿瘤抗病毒提高免疫力的药物及保健食品中的应用。

本发明经实验证明，鳄鱼血对抗病毒抗肿瘤提高免疫力具有良好的疗效，同时具有毒性低的优点。

因此，可用于制备治疗抗肿瘤抗病毒提高免疫力的药物及保健食品。

申请人：中山大学
地址：510275 广东省广州市新港西路135号中山大学药学院
国籍：CN
代理机构：广州粤高专利代理有限公司
代理人：陈卫
更多信息请下载全文后查看。

黄丽金，闻怡凡，罗美玲，等. 提取温度对乌鱼鱼鳞明胶功能性质和结构特性的影响[J]. 食品工业科技，2024，45（9）：83−90. doi:10.13386/j.issn1002-0306.2023060092HUANG Lijin, WEN Yifan, LUO Meiling, et al. Effect of Extraction Temperature on the Functional and Structural Properties of Mullet Scale Gelatin[J]. Science and Technology of Food Industry, 2024, 45(9): 83−90. (in Chinese with English abstract). doi:10.13386/j.issn1002-0306.2023060092· 研究与探讨 ·提取温度对乌鱼鱼鳞明胶功能性质和结构特性的影响黄丽金1，闻怡凡1，罗美玲1，乔娟娟2，蒋文丽1，谢　欢1，舒　圣1，方　婷1，涂宗财1,3，沙小梅1,4,*（1.江西师范大学生命科学学院国家淡水鱼加工技术研发专业中心，江西南昌 330022；2.希而思（长沙）科技研究院有限公司，湖南长沙 410000；3.南昌大学食品科学与资源挖掘全国重点实验室，江西南昌 330047；4.江西德上医药研究院有限公司，江西樟树 331208）摘　要：功能性质是衡量鱼明胶品质的重要因素，直接关系着鱼明胶的实际应用范围和价值。

为探究提取温度对乌鱼鱼鳞明胶功能性质的影响，本研究以乌鱼鱼鳞为原料，采用热水法提取明胶，考察了不同温度（60、70、80、90、100 ℃）提取对鱼鳞表面形态、鱼鳞明胶得率、功能性质（起泡性、乳化性、凝胶强度、凝胶温度、胶融温度）的影响，并进一步通过SDS-PAGE 、傅里叶变换红外光谱、扫描电镜探究鱼鳞明胶的结构特性。

《鱼抗冷冻多肽的分子结构和抗冻机理》篇一鱼抗冷冻多肽的分子结构与抗冻机理研究一、引言随着环境恶化，冷温极端天气越来越频繁，动植物的生存与延续对其抵抗冷冻能力有着高度的要求。

这其中，鱼类以其独特的抗冷冻机制在冷水中生存，其抗冷冻多肽的发现与研究成为了生物学领域的重要课题。

本文将详细探讨鱼抗冷冻多肽的分子结构及其抗冻机理。

二、鱼抗冷冻多肽的分子结构鱼抗冷冻多肽（Fish antifreeze peptides，简称FAPs）是一类由鱼类分泌的具有抗冻活性的多肽物质。

它们主要由亲水性的氨基酸组成，并且拥有特殊的空间结构。

其基本特征为具有大量赖氨酸（Lys）和精氨酸（Arg）残基，并包含独特的六肽重复序列，形成两亲性的螺旋结构。

鱼抗冷冻多肽的分子结构复杂且精细，在低温下可以有效地阻止水分的结冰，对鱼类生存起到至关重要的作用。

通过精细的氨基酸序列以及特殊的三维空间结构，这些多肽可以在细胞表面与水分子进行紧密结合，从而达到抗冻效果。

三、鱼抗冷冻多肽的抗冻机理鱼抗冷冻多肽的抗冻机理主要体现在以下三个方面：1. 竞争吸附机理：在低温水环境中，鱼抗冷冻多肽能够通过其特有的结构快速与水分子形成氢键结合，在细胞表面形成一层保护膜，从而阻止了冰晶的形成和扩展。

这种竞争吸附机制使得水分子无法形成冰晶，从而保护了细胞免受低温伤害。

2. 抑制冰晶生长机理：鱼抗冷冻多肽的特殊结构可以干扰冰晶的正常生长过程。

当冰晶接触到这些多肽时，其生长会受到阻碍，从而防止了冰晶的进一步扩大。

3. 降低冰点机理：鱼抗冷冻多肽通过与水分子结合，降低了水的冰点。

这意味着在较低的温度下，水分子仍能保持液态而非固态，从而保护了细胞免受低温损害。

四、结论鱼抗冷冻多肽是一种特殊的生物活性物质，具有极强的抗冻活性。

其复杂的分子结构和独特的抗冻机理使得它成为了生物学领域的研究热点。

未来，通过对鱼抗冷冻多肽的深入研究，有望揭示更多的生物奥秘，并为人类提供新的抗冻策略和材料设计思路。

明胶说明sigmaGelatinCatalog Numbers G6650, G9382, G1393, G9391,G6144, G2625, G2500, G8150, G1890, G9136, G0411, G7765, and G7041CAS RN 9000-70-8Synonyms: Gelatine, Teleostean gelatin (G7765 and G7741)Product DescriptionGelatin is a heterogeneous mixture of water-soluble proteins of high average molecular masses, present in collagen. The proteins are extracted by boiling skin, tendons, ligaments, bones, etc. in water.1Type A gelatin is derived from acid-cured tissue and Type Bgelatin is derived from lime-cured tissue.2Applications using gelatin include coating cell culture plates to improve cell attachment for a variety of cell types,addition to PCR to help stabilize Taq DNApolymerase,7and use as a blocking reagent inWestern blotting, ELISA, and immunohistochemistry.8 In bacteriology, gelatin can be used as a component ofculture media for species differentiation.9Additionally, as a biocompatible polymer, gelatin has been used as a delivery vehicle for the release of bioactive molecules 11and in the generation of scaffolds fortissue engineering applications.12Industrial applications include the use of gelatin as a stabilizer, thickener, and texturizer in foods and in the manufacture of rubber substitutes, adhesives, cements, lithographic and printing inks, plastic compounds, artificial silk, photographic plates andfilms, matches, and light filters for mercury lamps.1In the pharmaceutical industry, gelatin is used as a suspending agent, encapsulating agent, and tablet binder; and in veterinary applications it is used as aplasma expander and hemostatic sponge.1Physical Properties:Isoelectric point (pI): The charge on a gelatin molecule and its isoelectric point are primarily due to the carboxyl, amino, and guanidino groups on the side chains. Type A gelatin has 78?80 millimoles of free carboxyl groups per 100 g of protein and a pI of 7.0?9.0; type B has 100?115 millimoles of free carboxyl groups per 100g of protein and a pI of 4.7?5.2.2,3 The pH of a 1.5% solution at 25 °C is3.8?5.5 for Type A and 5.0?7.5 for Type B.2Bloom number:The Bloom number, as determined by the Bloom gelometer, is an indication of the strength of a gelformed from a solution of known concentration.3The Bloom unit is a measure of the force (weight) required to depress a given sample area of gel a distance of 4mm; the higher the Bloom number, the stronger the gel. A method of determining Bloom strength has been described.4Bloom number is proportional to the average molecular mass:Bloom Number Average Molecular Mass 50?125 (Low Bloom) 20,000?25,000175?225 (Medium Bloom)40,000?50,000225?325 (High Bloom)50,000?100,000Precautions and DisclaimerThis product is for R&D use only, not for drug,household, or other uses. Please consult the Material Safety Data Sheet for information regarding hazards and safe handling practices.Storage/StabilityDry gelatin stored in airtight containers at room temperature remains unchanged for many years. When heated at 100 °C in the presence of air it swells, becomes soft, and disintegrates to a carbonaceous mass with evolution of pyridine bases and ammonia.2Below 35?40 °C gelatin swells in and absorbs5?10 times its weight of water to form a gel. Gelatin is soluble in glycerol and acetic acid, and more soluble inhot than in cold water.1It is practically insoluble in most organic solvents such as alcohol, chloroform, carbon disulfide, carbon tetrachloride, ether, benzene, acetone, and oils.5Sterile solutions of gelatin, stored cold, remain unchanged indefinitely, but at elevated temperatures hydrolysis or rupture of peptide bonds occurs, increasing the number of free amino groups. Gel strength and viscosity gradually weaken upon prolonged heating in solution above 40 °C; this degradation is accelerated by extremes in pH, proteolytic enzymes, and bacterial action.2Gelatin has been autoclaved at 121 °C for 15?20 minutes with appreciable hydrolysis.2,6ProcedureCell Culture Using 2% Solution (Catalog No. G1393) Optimal conditions for attachment must be determined for each cell line and application.1.Allow gelatin solution to completely liquefy at37°C.2.Coat culture surface with 5?10 µl gelatinsolution/cm2(i.e., 0.1?0.2 mg/cm2gelatin).3.Allow surface to dry at least 2 hours beforeintroducing cells and medium.References1.Merck Index, 12th Ed., S. Budavari, Ed., p. 742,#4388 (1996).2.Supplier data.3.Standard Methods for the Sampling and Testing ofGelatins, Gelatin Manufacturers Institute ofAmerica, Inc., 501 fifth Ave., Room 1015, NewYork, NY.4.United States Pharmacopeia XX, p. 1017 (1990).5.Martindale The Extra Pharmacopeia, 29th Ed., p.818, J.E.F. Reynolds, Ed., The PharmaceuticalPress, London (1989).6.Sigma data.7.PCR Primer: A Laboratory Manual, C. Dieffenbachand G. S. Dveksler, Eds., Cold Spring Harbor,NY (1995).8.Vogt, R. F., Jr., Quantitative differences amongvarious proteins as blocking agents for ELISAmicrotiter plates. J. Immunol. Methods101, 43,(1987).9.Levine, M., and Carpenter, D.C., Gelatinliquefaction by bacteria. J. Bacteriol.8, 297,(1923).10.Sakai, Y.,et al., Non-antigenic and low allergicgelatin produced by specific digestion with anenzyme-coupled matrix. Biol. Pharm. Bull.21, 330, (1998).11.Young, S. et al., Gelatin as a delivery vehicle forthe controlled release of bioactive molecules. J.Control Release 109, 256-274 (2005).12.Huang Y, et al.In vitro characterization ofchitosan-gelatin scaffolds for tissue engineering.Biomaterials26, 7616-7627 (2005)Related ProductsGelatin Blocking Buffer, for molecular biology, powder blend,(Catalog No. G7663) provides 1liter of blocking buffer after reconstitution.Glycerol Gelatin (Catalog No. GG1), prepared with gelatin, glycerol, and phenol,is an aqueous slidemounting medium for histological use.Gelatin Veronal Buffer (Catalog No. G6514)Inositol Gelatin Medium, BioChemika, formicrobiology, (Catalog No. 17155), for thecultivation of Plesiomonas shigelloides from foods ? Gelatin Iron Medium, BioChemika, formicrobiology(Catalog No. G0289)Lactose Gelatin Broth (Base), BioChemika, for microbiology (Catalog No. 61348)Gelatin Hydrolysate Enzymatic (Catalog No.G0262)Nutrient Gelatin, BioChemika, for microbiology (Catalog No. 70151)Nutrient Gelatin Special Grade, BioChemika, for microbiology (Catalog No.70198)CS,MAC,KTA,MAM 11/08-1Gelatin Selection Guide CatalogDescription Bloom Storage NotesApplicationsG2625～175G1890skin, Type A, powder,～300Room temperature Derived from acid-cured tissueRecommended for use as a cell culture substratum.*G9136skin, Type A,lyophilized powder, γ-irradiated,～300Room temperatureDerived from acid-cured tissueRecommended for use as a cell culture substratum.*G6650～75G1393Type B (from bovine skin),～2252?8 °Ctissue. Prepared in tissue culture grade water. Recommended for use as a cell culture substratum.*G7765Gelatin from cold water fish skin, ~45% in H 2O 2?8 °C p -hydroxybenzoate and 0.2% methyl p -hydroxy-benzoate as preservatives;U im*Recommended for use as a cell culture substratum at 0.1?0.2mg/cm or 5?10µl/cm . Optimal concentration will depend on cell type as well as the application or research objectives.Prionex is a registered trademark of Pentapharm AG, Basel.Sigma brand products are sold through Sigma-Aldrich, Inc.Sigma-Aldrich, Inc. warrants that its products conform to the information contained in this and other Sigma-Aldrich publications.Purchaser must determine the suitability of the product(s) for their particular use. Additional terms and conditions may apply.Please see reverse side of the invoice or packing slip.。

凡纳滨对虾含酪氨酸酶结构域血蓝蛋白的免疫功能张锐;王子昂;汤俊宇;杨林蔚【期刊名称】《广东海洋大学学报》【年(卷),期】2022(42)5【摘要】【目的】克隆凡纳滨对虾(Litopenaeus vannamei)一种新的含酪氨酸酶结构域血蓝蛋白(Tyrosinase-domain containing hemocyanin,TDCH),研究其免疫功能。

【方法】根据NCBI上公布的tdch基因序列设计克隆引物,通过RT-PCR 方法获得tdch的编码区;采用生物信息学方法分析tdch的结构特征;使用荧光定量PCR技术分析tdch在凡纳滨对虾12个组织中的表达,以及在副溶血弧菌(Vibrio parahaemolyticus)、金黄色葡萄球菌(Staphhylococcu saureus)、黑曲霉菌(Aspergillus niger)、白斑综合征病毒、脂多糖及聚肌苷酸-聚胞苷酸[Poly(I:C)]刺激后在鳃和血细胞中的表达变化;利用RNAi技术敲降tdch在对虾中的表达,研究其在对虾抗副溶血弧菌免疫中的作用。

【结果与结论】克隆获得tdch的编码区全长,编码551氨基酸的蛋白,理论分子质量为63.37 ku,等电点为7.74;tdch除含有血蓝蛋白结构域以外,还含有酪氨酸酶Tyrosinase结构域;tdch在对虾肌肉、肝胰腺、鳃、胃、表皮、触角、心脏、肠、幽门盲囊、眼柄和神经索中均有表达,眼柄中表达最高,在幽门盲囊中表达最低。

Poly(I:C)刺激后,tdch在血细胞中的表达显著升高,在鳃组织中表达变化不明显;其余5种免疫原刺激后,tdch在鳃和血细胞中的表达均显著升高,沉默tdch的表达可导致副溶血弧菌感染对虾存活率显著下降,表明tdch参与了抗副溶血弧菌免疫应答。

【总页数】8页(P1-8)【作者】张锐;王子昂;汤俊宇;杨林蔚【作者单位】广东海洋大学食品科技学院/现代生化中心;中山大学生命科学学院有害生物控制与资源利用国家重点实验室;南方海洋科学与工程广东省实验室(珠海);广东海洋大学深圳研究院【正文语种】中文【中图分类】S945.49【相关文献】1.溶解氧对凡纳滨对虾血淋巴血蓝蛋白、渗透压和鳃丝离子转运酶活力的影响2.凡纳滨对虾卵黄蛋白原和血蓝蛋白mRNA在卵巢不同发育时期的半定量和实时荧光定量PCR分析3.凡纳滨对虾含溴结构域蛋白基因cDNA序列的克隆和表达特征4.慢性氨氮胁迫对凡纳滨对虾生理生化指标及血蓝蛋白基因表达的影响5.慢性氨氮胁迫对凡纳滨对虾生理生化指标及血蓝蛋白基因表达的影响因版权原因，仅展示原文概要，查看原文内容请购买。