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1.
斑马鱼在生命科学研究中的应用   总被引:11,自引:2,他引:11  
刘昌盛  穆宇  杜久林 《生命科学》2007,19(4):382-386
利用模式生物进行研究是推动生命科学发展的主要手段之一.斑马鱼已成为继小鼠之后的又一个重要的模式脊椎动物.本文将重点介绍斑马鱼在学习记忆和疾病研究领域中的应用,以及我国推动斑马鱼相关研究的策略.  相似文献   

2.
This protocol describes regular care and maintenance of a zebrafish laboratory. Zebrafish are now gaining popularity in genetics, pharmacological and behavioural research. As a vertebrate, zebrafish share considerable genetic sequence similarity with humans and are being used as an animal model for various human disease conditions. The advantages of zebrafish in comparison to other common vertebrate models include high fecundity, low maintenance cost, transparent embryos, and rapid development. Due to the spur of interest in zebrafish research, the need to establish and maintain a productive zebrafish housing facility is also increasing. Although literature is available for the maintenance of a zebrafish laboratory, a concise video protocol is lacking. This video illustrates the protocol for regular housing, feeding, breeding and raising of zebrafish larvae. This process will help researchers to understand the natural behaviour and optimal conditions of zebrafish husbandry and hence troubleshoot experimental issues that originate from the fish husbandry conditions. This protocol will be of immense help to researchers planning to establish a zebrafish laboratory, and also to graduate students who are intending to use zebrafish as an animal model.  相似文献   

3.
Alzheimer's disease is the most prevalent form of neurodegenerative disease. Despite many years of intensive research our understanding of the molecular events leading to this pathology is far from complete. No effective treatments have been defined and questions surround the validity and utility of existing animal models. The zebrafish (and, in particular, its embryos) is a malleable and accessible model possessing a vertebrate neural structure and genome. Zebrafish genes orthologous to those mutated in human familial Alzheimer's disease have been defined. Work in zebrafish has permitted discovery of unique characteristics of these genes that would have been difficult to observe with other models. In this brief review we give an overview of Alzheimer's disease and transgenic animal models before examining the current contribution of zebrafish to this research area. This article is part of a Special Issue entitled Zebrafish Models of Neurological Diseases.  相似文献   

4.
李辉辉  黄萍  董巍  朱作言  刘东 《遗传》2013,35(4):410-420
1972年美国俄勒冈大学George Streisinger教授开始研究斑马鱼(Danio rerio)至今, 斑马鱼以其独特的优点, 已经成为现代遗传学、发育生物学研究的重要模式动物。世界范围内斑马鱼研究群体的工作已奠定了较为完善的胚胎学、分子遗传学研究基础, 并且斑马鱼已被应用于开发人类重大疾病模型和药物筛选平台, 取得了许多有价值的研究成果。文章简述了斑马鱼成为模式动物的历史, 侧重介绍了业已建立的白血病、黑色素瘤、感染免疫疾病、神经疾病等斑马鱼模型, 以及利用斑马鱼进行小分子化合物/药物筛选和研发的现状。斑马鱼研究向生物医学方向的拓展, 必将为人类理解重大疾病发生机制、寻找疾病治疗方法, 为维护人类卫生、健康做出贡献。  相似文献   

5.
Zebrafish (Danio rerio) have been extensively utilized for understanding mechanisms of development. These studies have led to a wealth of resources including genetic tools, informational databases, and husbandry methods. In spite of all these resources, zebrafish have been underutilized for exploring pathophysiology of disease and the aging process. Zebrafish offer several advantages over mammalian models for these studies, including the ability to perform saturation mutagenesis and the capability to contain thousands of animals in a small space. In this review, we will discuss the use of mature zebrafish as an animal model and provide specific examples to support this novel use of zebrafish. Examples include demonstrating that clinical pathology can be performed in mature zebrafish and that age-associated changes in heat shock response can be observed in zebrafish. These highlights demonstrate the utility of zebrafish as a model for disease and aging.  相似文献   

6.
辛胜昌  赵艳秋  李松  林硕  仲寒冰 《遗传》2012,34(9):1144-1152
斑马鱼具有子代数量多、体外受精、胚胎透明、可以做大规模遗传突变筛选等生物学特性, 因此成为一种良好的脊椎动物模式生物。随着研究的深入, 斑马鱼不仅应用于遗传学和发育生物学研究, 而且拓展和延伸到疾病模型和药物筛选领域。作为一种整体动物模型, 斑马鱼能够全面地检测评估化合物的活性和副作用, 实现高内涵筛选。近年来, 科学家们不断地发展出新的斑马鱼疾病模型和新的筛选技术, 并找到了一批活性化合物。这些化合物大多数在哺乳动物模型中也有相似的效果, 其中前列腺素E2(dmPGE2)和来氟米特(Leflunomide)已经进入临床实验, 分别用来促进脐带血细胞移植后的增殖和治疗黑素瘤。这些成果显示了斑马鱼模型很适合用于药物筛选。文章概括介绍了斑马鱼模型的特点和近年来在疾病模型和药物筛选方面的进展, 希望能够帮助人们了解斑马鱼在新药研发中的应用, 并开展基于斑马鱼模型的药物筛选。  相似文献   

7.
8.
The zebrafish has become an ideal vertebrate animal system for investigating cardiac development due to its genetic tractability, external fertilization, early optical clarity and ability to survive without a functional cardiovascular system during development. In particular, recent advances in imaging techniques and the creation of zebrafish transgenics now permit the in vivo analysis of the dynamic cellular events that transpire during cardiac morphogenesis. As a result, the combination of these salient features provides detailed insight as to how specific genes may influence cardiac development at the cellular level. In this review, we will highlight how the zebrafish has been utilized to elucidate not only the underlying mechanisms of cardiac development and human congenital heart diseases (CHDs), but also potential pathways that may modulate cardiac regeneration. Thus, we have organized this review based on the major categories of CHDs-structural heart, functional heart, and vascular/great vessel defects, and will conclude with how the zebrafish may be further used to contribute to our understanding of specific human CHDs in the future.  相似文献   

9.
模式动物斑马鱼在神经系统疾病研究中的应用   总被引:3,自引:0,他引:3  
近年来,斑马鱼作为一种新型模式动物被广泛地应用于发育学、遗传学、行为学和分子生物学等研究领域。其具有繁殖能力强、发育迅速且同步、体外受精和幼体透明等生物学和形态学特点,经广泛培养和筛选突变品种,目前斑马鱼品系资源丰富。与其他非脊椎模式动物相比,它与人类有更高的同源性。本文主要介绍斑马鱼作为一种理想的模式动物,结合其特殊的行为学检测手段和分子生物学特点,在研究神经系统疾病的发病机制、构建疾病模型和相应药物筛选等方面的应用。  相似文献   

10.
Zebrafish (Danio rerio) represents a powerful model system in cancer research. Recent observations have shown the possibility to exploit zebrafish to investigate tumor angiogenesis, a pivotal step in cancer progression and target for anti-tumor therapies. Experimental models have been established in zebrafish adults, juveniles, and embryos, each one with its own advantages and disadvantages. Novel genetic tools and high resolution in vivo imaging techniques are also becoming available in zebrafish. It is anticipated that zebrafish will represent an important tool for chemical discovery and gene targeting in tumor angiogenesis. This review focuses on the recently developed tumor angiogenesis models in zebrafish, with particular emphasis to tumor engrafting in zebrafish embryos.  相似文献   

11.
Alzheimer's disease is the most prevalent form of neurodegenerative disease. Despite many years of intensive research our understanding of the molecular events leading to this pathology is far from complete. No effective treatments have been defined and questions surround the validity and utility of existing animal models. The zebrafish (and, in particular, its embryos) is a malleable and accessible model possessing a vertebrate neural structure and genome. Zebrafish genes orthologous to those mutated in human familial Alzheimer's disease have been defined. Work in zebrafish has permitted discovery of unique characteristics of these genes that would have been difficult to observe with other models. In this brief review we give an overview of Alzheimer's disease and transgenic animal models before examining the current contribution of zebrafish to this research area. This article is part of a Special Issue entitled Zebrafish Models of Neurological Diseases.  相似文献   

12.
斑马鱼是一种相对新颖的模式脊椎动物,具有脊椎动物保守的神经系统构造和丰富的行为模式.近年来随着在体电生理、光学成像、遗传工程等方法的建立和完善,幼龄斑马鱼因其脑部透明、结构简单的特点,日益成为从突触、神经元、环路到行为等多层次,在全脑尺度上探究神经系统功能机制的理想动物模型.本文综述了近年来利用斑马鱼在感觉信息处理、运动控制、学习与神经可塑性等方向上所取得的重要研究进展,并对新技术的开发提出了展望.随着研究思路的深化和实验手段的推陈出新,斑马鱼模式动物必将成为探索脑工作原理之利器,为神经科学研究带来更多的突破.  相似文献   

13.
The rise of zebrafish as a neuroscience research model organism, in conjunction with recent progress in single-cell resolution whole-brain imaging of larval zebrafish, opens a new window of opportunity for research on interval timing. In this article, we review zebrafish neuroanatomy and neuromodulatory systems, with particular focus on identifying homologies between the zebrafish forebrain and the mammalian forebrain. The neuroanatomical and neurochemical basis of interval timing is summarized with emphasis on the potential of using zebrafish to reveal the neural circuits for interval timing. The behavioural repertoire of larval zebrafish is reviewed and we demonstrate that larval zebrafish are capable of expecting a stimulus at a precise time point with minimal training. In conclusion, we propose that interval timing research using zebrafish and whole-brain calcium imaging at single-cell resolution will contribute to our understanding of how timing and time perception originate in the vertebrate brain from the level of single cells to circuits.  相似文献   

14.
Animal models have received particular attention as key examples of material models. In this paper, we argue that the specificities of establishing animal models—acknowledging their status as living beings and as epistemological tools—necessitate a more complex account of animal models as materialised models. This becomes particularly evident in animal-based models of diseases that only occur in humans: in these cases, the representational relation between animal model and human patient needs to be generated and validated. The first part of this paper presents an account of how disease-specific animal models are established by drawing on the example of transgenic mice models for Alzheimer’s disease. We will introduce an account of validation that involves a three-fold process including (1) from human being to experimental organism; (2) from experimental organism to animal model; and (3) from animal model to human patient. This process draws upon clinical relevance as much as scientific practices and results in disease-specific, yet incomplete, animal models. The second part of this paper argues that the incompleteness of models can be described in terms of multi-level abstractions. We qualify this notion by pointing to different experimental techniques and targets of modelling, which give rise to a plurality of models for a specific disease.  相似文献   

15.
Lrrc10 is required for early heart development and function in zebrafish   总被引:1,自引:0,他引:1  
Leucine-rich Repeat Containing protein 10 (LRRC10) has recently been identified as a cardiac-specific factor in mice. However, the function of this factor remains to be elucidated. In this study, we investigated the developmental roles of Lrrc10 using zebrafish as an animal model. Knockdown of Lrrc10 in zebrafish embryos (morphants) using morpholinos caused severe cardiac morphogenic defects including a cardiac looping failure accompanied by a large pericardial edema, and embryonic lethality between day 6 and 7 post fertilization. The Lrrc10 morphants exhibited cardiac functional defects as evidenced by a decrease in ejection fraction and cardiac output. Further investigations into the underlying mechanisms of the cardiac defects revealed that the number of cardiomyocyte was reduced in the morphants. Expression of two cardiac genes was deregulated in the morphants including an increase in atrial natriuretic factor, a hallmark for cardiac hypertrophy and failure, and a decrease in cardiac myosin light chain 2, an essential protein for cardiac contractility in zebrafish. Moreover, a reduced fluorescence intensity from NADH in the morphant heart was observed in live zebrafish embryos as compared to control. Taken together, the present study demonstrates that Lrrc10 is necessary for normal cardiac development and cardiac function in zebrafish embryos, which will enhance our understanding of congenital heart defects and heart disease.  相似文献   

16.
The zebrafish has proven to be an invaluable vertebrate animal model for developmental biology. Recent technological advances have added an arsenal of tools to expand its use into the realm of drug discovery. This includes methodology to generate transgenic reporter lines that allow for the direct visualization of fluorescent markers in live embryos. With the addition of automated imaging and analysis of embryos treated with small molecules, these innovations have expanded its utility into high throughput chemical screens. This review will highlight some of these advances that have propelled zebrafish as a tool for drug discovery. Birth Defects Research (Part C) 90:185–192, 2010. © 2010 Wiley‐Liss, Inc.  相似文献   

17.
Glucocorticoids serve important regulatory functions for many physiological processes and are critical mediators of the stress response. The stress response is a set of bodily processes aimed at counteracting a state of threatened homeostasis. Proper stress response is critical for the survival of an animal, however prolonged or abnormal stress response can be detrimental and is implicated in a number of human diseases such as depression and metabolic diseases. To dissect the underlying mechanism of this complex and important response, the zebrafish, Danio rerio offer important advantages such as ease of genetic manipulations and high-throughput behavioral analyses. However, there is a paucity of suitable methods to measure stress level in larval zebrafish. Therefore, an efficient low-cost method to monitor stress hormone levels will greatly facilitate stress research in zebrafish larvae. In this study, we optimized sample collection as well as cortisol extraction methods and developed a home-made ELISA protocol for measuring whole-body cortisol level in zebrafish larvae. Further, using our customized protocols, we characterized the response of larval zebrafish to a variety of stressors. This assay, developed for efficient cortisol quantification, will be useful for systematic and large-scale stress analyses in larval zebrafish.  相似文献   

18.
李小泉  杜久林 《遗传》2013,35(4):468-476
神经环路的研究是揭示动物行为神经机制的关键。斑马鱼作为一种低等脊椎动物, 在神经环路的研究中有着独特优势。文章描述了斑马鱼视觉系统及其下游的神经环路, 重点讨论了它们在捕食行为中的可能作用。斑马鱼捕食行为主要依赖于视觉功能, 该过程涉及到视觉-运动通路各个层次的神经环路, 包括下游的网状脊髓命令神经元、脊髓内部的运动控制环路以及一些亟待研究的功能单元。随着在体记录和操纵神经元活动技术的成熟, 以及行为学范式的完善, 对斑马鱼捕食行为相关神经环路的研究将在未来数年内迅速发展, 同时也将推动神经科学相关研究的进步。  相似文献   

19.
Peter J. Schoonheim 《Steroids》2010,75(12):918-1451
Glucocorticoids regulate a wide range of systems in vertebrate organisms, and their effects are mediated by the glucocorticoid receptor (GR). The responsiveness to glucocorticoids differs largely between individuals. Resistance to glucocorticoids is an important medical problem, since it limits the efficacy of glucocorticoids when they are used to treat immune-related diseases like asthma and rheumatoid arthritis. Glucocorticoid resistance also contributes to the pathogenesis of other diseases, like major depression because of the decreased negative feedback on the hypothalamic pituitary adrenal axis. In this review, we present the zebrafish as an excellent in vivo model system to study glucocorticoid resistance. First, the zebrafish is the only non-primate animal model in which a β-isoform of GR occurs, which is a splice variant with dominant-negative activity. Zebrafish are easily genetically modified, so the expression of GRβ can be varied, creating an in vivo model for GRβ-induced glucocorticoid resistance. Second, by performing a forward-genetic screen using the glucocorticoid-induced decrease in POMC expression in the pituitary gland as a readout, several zebrafish mutants have been obtained which appear to be resistant to glucocorticoid treatment. We present here two types of in vivo models for studying glucocorticoid resistance, that will be used to study the molecular mechanism of glucocorticoid signaling and resistance. Finally these models will be used to screen for small molecules that can alleviate glucocorticoid resistance.  相似文献   

20.
目的 当动物重复某种行为以逃避危险或获取奖励而无法成功时,会产生放弃。放弃是一种常见且基本的行为,在小鼠等模式动物中已经被广泛研究,但是其部分神经机制仍未被阐明。幼年斑马鱼适合进行全脑光学成像,是神经科学领域的重要模式生物。已经有研究者通过持续电击等消极刺激诱发斑马鱼放弃行为,然而奖励刺激能否引起斑马鱼放弃尚无报道。本文对奖励刺激引起的斑马鱼放弃行为进行了探究。方法 通过给予斑马鱼虚拟的食物视觉刺激,检验斑马鱼对虚拟食物的捕食情况,比较斑马鱼捕食频率和单次捕食时长随时间的变化。结果 虚拟的食物视觉刺激可以引起斑马鱼的捕食行为,接受25 min虚拟刺激后,8日龄以上斑马鱼的捕食频率和单次捕食时长均出现显著下降。结论 此研究丰富了斑马鱼放弃行为的研究范式,实验结果表明,缺失真实奖励的虚拟食物刺激可以诱导斑马鱼放弃捕食行为,这将进一步加深对动物放弃行为的理解,推动对其神经机制的研究。  相似文献   

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