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1.
植物抗冻蛋白研究进展 总被引:45,自引:1,他引:44
抗冻蛋白(AFPs)最初是从极区海鱼中发现的一种适应低温的特异蛋白质, 它能阻止体液内冰核的形成与生长,维持体液的非冰冻状态.对近年来植物AFPs的发现过程,AFP的生化特性,抗冻作用机制,抗冻蛋白基因工程及其应用前景等作了系统的综述. 相似文献
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昆虫抗冻蛋白的研究进展 总被引:20,自引:2,他引:18
热滞效应(Tberm Hysteresis Action)最早在昆虫研究中发现,后来研究表明,它是抗冻蛋白(Antifreeze Proteins,AFPs)的一种基本性质。和鱼类,植物AFPs相比,昆虫AFPs具有更高 的热滞活性和独特的化学结构特征。昆虫AFPs在昆虫抗冻生理过程中起着相当重要的作用,表现在以下三个方面:①抑制一些冰晶形成;②提高冰冻耐受性;③可能参与水分平衡过程。光周期,气温和湿度是调控AFPs生物合成与降解的三种外部因子,而体内激素的变化可能是直接调节脂肪体合成AFPs的内部因子。 相似文献
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抗冻蛋白(antifreezeproteins,AFPs)可以通过抑制冰晶生长保护生物体免受低温冻害,具有重要的生物学意义和应用价值。现在在鱼类、节肢动物、植物及微生物中均发现有AFPs的存在。基于对已有研究文献和相关网络数据的系统调查统计,详细描述了AFPs数据的类别特征,并对其作用机理的研究历史和最新取得的突破性进展作了较为系统的阐述,并对AFPs预测所取得的成果作了介绍,还对AFPs研究的现状和未来研究方向作了讨论和展望。 相似文献
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《天然产物研究与开发》2017,(1)
抗冻蛋白(AFPs)因其独特的结构和功能特性受到日益广泛的关注。抗冻活性的评价是AFPs研究的关键步骤之一,评价结果的准确性、精确性和可比性直接影响AFPs的后续研究。本文综述了AFPs抗冻活性评价方法的基本原理、分析、比较了不同评价方法之间的优势、不足。未来AFP抗冻活性评价方法发展的重点在于评价方法的标准化,精确性和重现性方面,以期能够推动AFPs研究的发展。 相似文献
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新疆沙冬青抗冻蛋白的提取分离及其热滞活性测定 总被引:3,自引:0,他引:3
抗冻蛋白被发现于低温环境下生存的生物体中,它能够吸附在冰晶表面并改变冰晶的生长形态,对于增加植物的抗低温胁迫能力有重要作用。用纤维素DE-52离子柱层析提取分离出了冬季新疆沙冬青(Ammopiptanthus nanus)叶片中的抗冻蛋白(AFPs)。差示扫描量热法(DSC)测定结果表明,当蛋白浓度为20mg/ml时,抗冻蛋白的热滞活性(THA)为0·46℃。经SDS-PAGE电泳分析,此抗冻蛋白的分子量为119·24kDa。 相似文献
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抗冻蛋白结构与抗冻机制 总被引:13,自引:0,他引:13
抗冻蛋白(amifreeze proteins,AFPs)是20世纪60年代从极地鱼血淋巴中分离的一种大分子抗冻剂,迄今为止科学工作者已从陆地昆虫、植物、细菌和真菌等各类生物中分离到多种抗冻蛋白,并测得了它们的基因序列及一些晶体结构,近些年的工作主要集中在该类蛋白质抗冻机制的研究上。抗冻蛋白具有广泛的应用前景,它不但可以应用于食物的冷鲜贮存及移植器官的低温保存,还可通过转基因提高经济作物的抗冻能力。 相似文献
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昆虫抗冻蛋白的结构与生物学特性研究 总被引:2,自引:0,他引:2
抗冻蛋白(antifreeze proteins AFPs)是一类抑制冰晶生长的蛋白质,它能以非依数性形式降低溶液的冰点而对其熔点影响甚微,因而也被称作热滞蛋白。近几年来对于昆虫抗冻蛋白的研究取得了较快的发展,已有20多种昆虫抗冻蛋白被分离纯化。就昆虫抗冻蛋白的结构特征、生物学特性以及在农业、医学和食品工业等方面的应用进行介绍。 相似文献
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很多越冬的生物会产生抗冻蛋白,这些抗冻蛋白能够吸附到冰晶的表面改变冰晶形态并抑制冰晶的生长.抗冻蛋白在很多生物体内都被发现,不同的抗冻蛋白结构差异非常大.目前的一些研究揭示了几种抗冻蛋白的结构,并提出了抗冻蛋白与冰晶的结合模型,但是还没有一种机制能解释所有抗冻蛋白的作用机理.抗冻蛋白能被广泛的应用到农业、水产业和低温储藏器官、组织和细胞,利用转基因技术提高植物的抗冻性具有重要应用价值.而抗冻蛋白基因的表达调控则有待进一步阐明. 相似文献
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Fei YB Cao PX Gao SQ Wang B Wei LB Zhao J Chen G Wang BH 《Preparative biochemistry & biotechnology》2008,38(2):172-183
We purified many kinds of antifreeze proteins with high activity from the leaves of Ammopiptanthus mongolicus by several biochemical techniques. The antifreeze activities of these AFPs were measured by both osmometry and differential scanning calorimetry, and the inhibition of growth of ice crystals by the AFPs was obvious. Additionally, the antifreeze proteins were analyzed by sequencing, glycosylation reaction, mass spectroscopy, and circular dichroism spectroscopy. Both samples have some other unique structures different from those of fishes and of insects. It was suggested that plant AFPs might have a particular antifreeze mechanism in comparison with that of fish and insects. 相似文献
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Y. B. Fei P. X. Cao S. Q. Gao B. Wang L. B. Wei J. Zhao 《Preparative biochemistry & biotechnology》2013,43(2):172-183
Abstract We purified many kinds of antifreeze proteins with high activity from the leaves of Ammopiptanthus mongolicus by several biochemical techniques. The antifreeze activities of these AFPs were measured by both osmometry and differential scanning calorimetry, and the inhibition of growth of ice crystals by the AFPs was obvious. Additionally, the antifreeze proteins were analyzed by sequencing, glycosylation reaction, mass spectroscopy, and circular dichroism spectroscopy. Both samples have some other unique structures different from those of fishes and of insects. It was suggested that plant AFPs might have a particular antifreeze mechanism in comparison with that of fish and insects. 相似文献
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植物耐寒机理与耐寒植物新品种培育 总被引:1,自引:0,他引:1
低温灾害是普遍存在的对植物造成严重伤害的自然灾害,研究植物耐寒的分子机理并积极培育耐寒植物新品种对农业等生产活动具有重要意义.主要介绍植物抵御低温时的生理生化变化和关键基因,以及抗冻蛋白在耐寒植物新品种培育中的应用,并探讨植物耐寒育种的发展趋势. 相似文献
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Antifreeze proteins in higher plants 总被引:12,自引:0,他引:12
Overwintering plants produce antifreeze proteins (AFPs) having the ability to adsorb onto the surface of ice crystals and modify their growth. Recently, several AFPs have been isolated and characterized and five full-length AFP cDNAs have been cloned and characterized in higher plants. The derived amino acid sequences have shown low homology for identical residues. Theoretical and experimental models for structure of Lolium perenne AFP have been proposed. In addition, it was found that the hormone ethylene is involved in regulating antifreeze activity in response to cold. In this review, it is seen that the physiological and biochemical roles of AFPs may be important to protect the plant tissues from mechanical stress caused by ice formation. 相似文献
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Immunolocalization of Antifreeze Proteins in Winter Rye Leaves,Crowns, and Roots by Tissue Printing 总被引:7,自引:3,他引:4 
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下载免费PDF全文 Antikainen M Griffith M Zhang J Hon WC Yang D Pihakaski-Maunsbach K 《Plant physiology》1996,110(3):845-857
During cold acclimation, antifreeze proteins (AFPs) that are similar to pathogenesis-related proteins accumulate in the apoplast of winter rye (Secale cereale L. cv Musketeer) leaves. AFPs have the ability to modify the growth of ice. To elucidate the role of AFPs in the freezing process, they were assayed and immunolocalized in winter rye leaves, crowns, and roots. Each of the total soluble protein extracts from cold-acclimated rye leaves, crowns, and roots exhibited antifreeze activity, whereas no antifreeze activity was observed in extracts from nonacclimated rye plants. Antibodies raised against three apoplastic rye AFPs, corresponding to a glucanase-like protein (GLP, 32 kD), a chitinase-like protein (CLP, 35 kD), and a thaumatin-like protein (TLP, 25 kD), were used in tissue printing to show that the AFPs are localized in the epidermis and in cells surrounding intercellular spaces in cold-acclimated plants. Although GLPs, CLPs, and TLPs were present in nonacclimated plants, they were found in different locations and did not exhibit antifreeze activity, which suggests that different isoforms of pathogenesis-related proteins are produced at low temperature. The location of rye AFPs may prevent secondary nucleation of cells by epiphytic ice or by ice propagating through the xylem. The distributions of pathogenesis-induced and cold-accumulated GLPs, CLPs, and TLPs are similar and may reflect the common pathways by which both pathogens and ice enter and propagate through plant tissues. 相似文献
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Middleton AJ Marshall CB Faucher F Bar-Dolev M Braslavsky I Campbell RL Walker VK Davies PL 《Journal of molecular biology》2012,416(5):713-724
The grass Lolium perenne produces an ice-binding protein (LpIBP) that helps this perennial tolerate freezing by inhibiting the recrystallization of ice. Ice-binding proteins (IBPs) are also produced by freeze-avoiding organisms to halt the growth of ice and are better known as antifreeze proteins (AFPs). To examine the structural basis for the different roles of these two IBP types, we have solved the first crystal structure of a plant IBP. The 118-residue LpIBP folds as a novel left-handed beta-roll with eight 14- or 15-residue coils and is stabilized by a small hydrophobic core and two internal Asn ladders. The ice-binding site (IBS) is formed by a flat beta-sheet on one surface of the beta-roll. We show that LpIBP binds to both the basal and primary-prism planes of ice, which is the hallmark of hyperactive AFPs. However, the antifreeze activity of LpIBP is less than 10% of that measured for those hyperactive AFPs with convergently evolved beta-solenoid structures. Whereas these hyperactive AFPs have two rows of aligned Thr residues on their IBS, the equivalent arrays in LpIBP are populated by a mixture of Thr, Ser and Val with several side-chain conformations. Substitution of Ser or Val for Thr on the IBS of a hyperactive AFP reduced its antifreeze activity. LpIBP may have evolved an IBS that has low antifreeze activity to avoid damage from rapid ice growth that occurs when temperatures exceed the capacity of AFPs to block ice growth while retaining the ability to inhibit ice recrystallization. 相似文献
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昆虫抗冻蛋白的分离纯化及特性分析 总被引:1,自引:0,他引:1
昆虫抗冻蛋白具有很高的热滞活性,可保护机体免受结冰引起的伤害。昆虫抗冻蛋白的分离纯化多采用凝胶过滤层析、离子交换层析及HPLC等技术,已用于鱼类抗冻蛋白纯化的冰亲和纯化(IAP)技术也可考虑应用于昆虫抗冻蛋白的分离提纯。昆虫抗冻蛋白具有高活性,规则的一级结构及类似的冰晶结合表面等特性。 相似文献