Embryonic and genetic manipulation in fish

Fishes, the biggest and most diverse community in vertebrates are good experimental models for studies of cell and developmental biology by many favorable characteristics. Nuclear transplantation in fish has been thoroughly studied in China since 1960s. Fish nuclei of embryonic cells from different genera were transplanted into enucleated eggs generating nucleo-cytoplasmic hybrids of adults. Most importantly, nuclei of cultured goldfish kidney cells had been reprogrammed in enucleated eggs to support embryogenesis and ontogenesis of a fertile fish. This was the first case of cloned fish with somatic cells. Based on the technique of microinjection, recombinant MThGH gene has been transferred into fish eggs and the first batch of transgenic fish were produced in 1984. The behavior of foreign gene was characterized and the onset of the foreign gene replication occurred between the blastula to gastrula stages and random integration mainly occurred at later stages of embryogenesis. This eventually led to the transgenic mosaicism. The MThGH-transferred common carp enhanced growth rate by 2-4 times in the founder juveniles and doubled the body weight in the adults. The transgenic common carp were more efficient in utilizing dietary protein than the controls. An "all-fish" gene construct CAgcGH has been made by splicing the common carp beta-actin gene (CA) promoter onto the grass carp growth hormone gene (gcGH) coding sequence. The CAgcGH-transferred Yellow River Carp have also shown significantly fast-growth trait. Combination of techniques of fish cell culture, gene transformation with cultured cells and nuclear transplantation should be able to generate homogeneous strain of valuable transgenic fish to fulfil human requirement in 21(st) century.

Early Embryonic Exposure to Polychlorinated Biphenyls Disrupts Heat-Shock Protein 70 Cognate Expression in Zebrafish

Polychlorinated biphenyls (PCBs) are persistent environmental contaminants that have documented neurological effects in children exposed in utero. To better define neuronally linked molecular targets during early development, zebrafish embryos were exposed to Aroclor 1254, a mixture of PCB congeners that are common environmental contaminants. Microarray analysis of the zebrafish genome revealed consistent significant changes in 38 genes. Of these genes, 55% (21) are neuronally related. One gene that showed a consistent 50% reduction in expression in PCB-treated embryos was heat-shock protein 70 cognate (Hsc70). The reduction in Hsc70 expression was confirmed by real-time polymerase chain reaction (PCR), revealing a consistent 30% reduction in expression in PCB-treated embryos. Early embryonic exposure to PCBs also induced structural changes in the ventro-rostral cluster as detected by immunocytochemistry. In addition, there was a significant reduction in dorso-rostral neurite outgrowth emanating from the RoL1 cell cluster following PCB exposure. The serotonergic neurons in the developing diencephalon showed a 34% reduction in fluorescence when labeled with a serotonin antibody following PCB exposure, corresponding to a reduction in serotonin concentration in the neurons. The total size of the labeled neurons was not significantly different between treated and control embryos, indicating that the development of the neurons was not affected, only the production of serotonin within the neurons. The structural and biochemical changes in the developing central nervous system following early embryonic exposure to Aroclor 1254 may lead to alterations in the function of the affected regions.

Conformational transition of DNA induced by cationic lipid vesicle in acidic solution: spectroscopy investigation

The conformational transition of DNA induced by the interaction between DNA and a cationic lipid vesicle, didodecyidimethylammonium bromide (DDAB), had been investigated by circular dichroism (CD) and UV spectroscopy methods. We used singular value decomposition least squares method (SVDLS) to analyze the experimental CD spectra. Although pH value influenced the conformation of DNA in solution, the results showed that upon binding to double helical DNA, positively charged liposomes induced a conformational transition of DNA molecules from the native B-form to more compact conformations. At the same time, no obvious conformational changes occurred at single-strand DNA (ssDNA). While the cationic lipid vesicles and double-strand DNA (dsDNA) were mixed at a high molar ratio of DDAB vesicles to dsDNA, the conformation of dsDNA transformed from the B-form to the C-form resulting in an increase in duplex stability (DeltaT(m) = 8 +/- 0.4 degreesC). An increasing in T-m was also observed while the cationic lipid vesicles interacted with ssDNA.

Cadmium toxicity to embryonic-larval development and survival in red sea bream Pagrus major

At 18 degrees C and 33 psu, 24 and 48 h LC50 values of cadmium (Cd) for red sea bream Pagrus major embryos were 9.8 and 6.6 mg l(-1), respectively, while 24,48, 72, and 96 h LC50 values for larvae were 18.9,16.2, 8.0, and 5.6 mg l(-1), respectively, indicating that embryos were more sensitive to Cd toxicity than larvae. Cd concentrations at >= 0.8 mg l(-1) led to low hatchability (0-90% in >= 0.8 mg l(-1) solutions vs. 97-100% in lower ones), delay in time to hatch, high mortality (38-100% vs. 1-10%), morphological abnormality (42-100% vs. 1-10%), reduced length (3.55-3.60 vs. 3.71-3.72 mm) in the embryos and larvae. They were Cd concentration dependent and potential biological significant endpoints for assessing the risk of Cd to aquatic organisms. Heart beat and yolk absorption of the larvae were significantly inhibited at some high concentrations but they were not as sensitive as other endpoints to Cd exposure. (C) 2008 Elsevier Inc. All rights reserved.

beta-catenin in early development of the lancelet embryo indicates specific determination of embryonic polarity

The lancelet (amphioxus) embryo develops from a miolecithal egg and starts gastrulation when it is approximately 400 cells in size, in a fashion similar to that of some non-chordate deuterostomes. Throughout this type of gastrulation, the embryo develops characteristics such as the notochord and hollow nerve cord that commonly appear in chordates. beta-Catenin is an important factor in initiating body patterning. The behavior and developmental pattern of this protein in early lancelet development was examined in this study. Cytoplasmic beta-catenin was localized to the animal pole after fertilization and then was incorporated asymmetrically into the blastomeres during the first cleavage. Asymmetric distribution was observed at least until the 32-cell stage. The first nuclear localization was at the 64-cell stage, and involved all of the cells. At the initial gastrula stage, however, concentrated beta-catenin was found on the dorsal side. LiCl treatment affected the asymmetric pattern of beta-catenin during the first cleavage. LiCl also changed distribution of nuclear beta-catenin at the initial gastrula stage: distribution extended to cells on the animal side. Apparently associated with this change, expression domains of goosecoid, lhx3 and otx also changed to a radially symmetric pattern centered at the animal pole. However, LiCl-treated embryos were able to establish embryonic polarity. The present study suggests that in the lancelet embryo, polarity determination is independent of dorsal morphogenesis.

Phenoloxidase, a marker enzyme for differentiation of the neural ectoderm and the epidermal ectoderm during embryonic development of amphioxus Branchiostoma belcheri tsingtaunese

The development of phenoloxidase during amphioxus embryogenesis was spectrophotometrically and histochemically studied for the first time in the present study. It was found that (1) PO activity initially appeared in the general ectoderm including the neural ectoderm and the epidermal ectoderm at the early neurala stage but not in the mesoderm or the endoderm, and (2) PO activity disappeared in the neural plate cells but remained unchanged in the epidermal cells when the neural plate was morphologically quite distinct from the rest of the ectoderm. It is apparent that PO could serve as a marker enzyme for differentiation of the neural ectoderm from the epidermal ectoderm during embryonic development of amphioxus. (C) 2000 Elsevier Science ireland Ltd. All rights reserved.

三种海水经济鱼类早期发育生物学的研究

海水经济鱼类的养殖在我国已经形成第四次海水养殖浪潮，经济效益显著，有力地推动了我国海水养殖的产业结构调整和可持续发展。然而在海水养殖发展过程中也存在着诸多问题，尤其是早期发育阶段的高死亡率，严重制约了我国海水养殖产业的稳定和健康发展。 海水鱼类养殖的关键为高质量，高存活率苗种的生产和培育，由于鱼类种类繁多，生物多样性丰富，对应实际的繁育技术，尤其是新品种的开发，必须要做出相应的调整。这就要求我们必须对每一种鱼类早期发育有所了解，并将形态和组织上的数据用于指导生产。 本文通过显微观察和组织学研究，主要描述和研究了我国北方三种重要的海水经济鱼类(条斑星鲽、杂交鲆、条石鲷)的早期发育生物学，并结合实际生产进一步阐明关键期的产生原因，机理以及采用相应的对策。具体结果如下： 1.条斑星鲽：作为冷温性鲆鲽鱼类，条斑星鲽早期发育过程的特征主要有： ① 条斑星鲽受精卵无油球，卵子呈半浮性；不同步卵裂现象提前，发生在第三次卵裂；卵裂期裂球大小差异大。孵化过程较长，在水温8 ± 0.3℃，盐度33的条件下，经9 d孵化。条斑星鲽胚胎发育的不同时期对温度的敏感性不同，其中原肠期对温度比较敏感。 ②在8-10℃，盐度33的条件下，8-9 dph开口摄食。且开口时，其吻前端出现有一点状黑褐色素，构成了条斑星鲽仔鱼“开口期”的重要标志。卵黄囊于消失。在后期仔鱼末期，背鳍和臀鳍上形成特有的黑褐色条斑带。 ③杯状细胞首先出现在咽腔后部和食道前段，胃腺和幽门盲囊出现于29 dph，变态期始于30dph。在条斑星鲽早期发育过程中，观察到其直肠粘膜层细胞质出现大量嗜伊红颗粒，为仔鱼肠道上皮吸收的蛋白质。 ④首先淋巴化的免疫器官是头肾，然后是胸腺和脾脏，这与大部分硬骨鱼类不同。条斑星鲽除头肾和脾脏外，胸腺实质也形成MMCs。其中以脾脏形成MMCs最为丰富，形态多样。 2. 杂交鲆：为同属的牙鲆和夏鲆间的远缘杂交种，其发育过程的特点为： ① 在温度为15.4～16.0℃，杂交鲆胚胎从受精到孵化所需的时间为76 h左右，胚孔关闭前期，胚胎先出现视囊及克氏囊，而后形成体节。孵出前胚体在卵膜内环绕不到1周。 ② 孵化后消失。杂交鲆群体变态间隔长(34-60 dph)，且变态高峰期出现的冠状幼鳍不明显(与母本牙鲆相比)，数量为7-8根。 ③组织学观察发现，其消化系统中胃腺出现较晚，且胃腺发育过程缓慢(与母本牙鲆相比)。甲状腺滤泡增生不明显，颜色较浅，数量较少。杂交鲆在早期发育过程中，并没有出现鳔原基。 3. 条石鲷作为岩礁性的暖水性鱼类，早期发育过程也较为特殊，包括外形以及内部的器官结构。主要特点有： ① 受精卵：受精卵卵黄上具有龟裂结构，为鱼卵的分类特征之一。 ② 初孵仔鱼：初孵仔鱼背鳍膜上的黑色素，从体背面向背鳍膜边缘移动，到3dph仔鱼基本消失，此为本种仔鱼发育所特有的特点。 ③ 后期仔鱼和稚鱼：肠道肌肉层加厚明显，仔稚鱼胃肠排空率急剧上升，死亡率增加，通过改善常规的投饵方式部分解决了这个死亡高峰的问题。在幼鱼初期，牙齿融合为骨喙，为石鲷科鱼类的特征。 ④胸腺上皮分泌细胞：类似的现象同样在虹鳟鱼中发现，但是虹鳟鱼胸腺上皮分泌细胞不如条石鲷的丰富，同样也不如条石鲷的排列整齐，而是零星分布在胸腺上皮与咽腔接触的表面。除了正常的造血器官—脾脏和头肾外，肝脏、胰腺和鳔等多种组织等也出现MMCs，此现象在硬骨鱼类不多见，一般发生在软骨鱼类。

Membrane Deformability and Membrane Tension of Single Isolated Mitochondria

Mitochondria dynamics is crucial to many biological processes such as mitochondria fusion and fission, which is highly correlated to the mechanics of single mitochondria. However, the mechanobiological coupling of mitochondria has been poorly understood. Here membrane deformability and membrane tension of individual mitochondria isolated from MtDsRed labeled human embryonic T-Rex-293 kidney cells were measured using a micropipette aspiration assay. The results demonstrated that membrane deformation of isolated mitochondria exhibited an elastic transition phase followed by an equilibrium phase, and mitochondrial membrane tension was proportional to the area compressibility. It was also indicated that mitochondrial membrane deformability was significantly affected by physical chemical factors such as osmotic pressure or pH value, and was further correlated to mitochondrial functionality in different respiratory states and Ca2+ regulation. These findings provide a new insight into understanding the mechanical regulation of mitochondrial physiology.

Detection of constitutive heterodimerization of the integrin Mac-1 subunits by fluorescence resonance energy transfer in living cells

Macrophage differentiation antigen associated with complement three receptor function (Mac-1) belongs to beta(2) subfamily of integrins that mediate important cell-cell and cell-extracellular matrix interactions. Biochemical studies have indicated that Mac-1 is a constitutive heterodimer in vitro. Here, we detected the heterodimerization of Mac-1 subunits in living cells by means of two fluorescence resonance energy transfer (FRET) techniques (fluorescence microscopy and fluorescence spectroscopy) and our results demonstrated that there is constitutive heterodimerization of the Mac-1 subunits and this constitutive heterodimerization of the Mac-1 subunits is cell-type independent. Through FRET imaging, we found that heterodimers of Mac-1 mainly localized in plasma membrane, perinuclear, and Golgi area in living cells. Furthermore, through analysis of the estimated physical distances between cyan fluorescent protein (CFP) and yellow fluorescent protein (YFP) fused to Mac-1 subunits, we suggested that the conformation of Mac-1 subunits is not affected by the fusion of CFP or YFP and inferred that Mac-1 subunits take different conformation when expressed in Chinese hamster ovary (CHO) and human embryonic kidney (HEK) 293T cells, respectively. (c) 2006 Elsevier Inc. All rights reserved.

水稻小G蛋白Arf GTPase激活蛋白OsAGAP功能研究

　　锌指蛋白在植物生长发育中具有重要功能，它们可以识别并结合特定的DNA序列进行转录调控，还能够参与蛋白之间相互作用的调节。我们根据锌指蛋白等转录因子特征结构域的序列特点，从来自10 K水稻芯片的EST数据库中筛选出编码58个EST序列。通过对器官表达特异性的比较分析，从中选出七个只在单一器官表达的基因，并对这七个基因的功能进行研究。对其转基因水稻的表型分析发现，C1基因调节水稻的株高和穗的发育;LIM 家族的F9影响小花的形态，主要体现在雌蕊与雄蕊的发育;锌指蛋白S34调控叶倾角的变化;F14基因编码一个核定位的TFIIIA类锌指蛋白，具体功能尚不清楚;锌指蛋白F35转基因水稻主根缩短，侧根数目显著减少。它编码一个推测的ArfGAP (Arf GTPase activating protein)，据此我们将其命名为OsAGAP，并对其进行深入研究。 　　OsAGAP的cDNA全长为1328bp，编码的蛋白由320个氨基酸组成，含有两个保守结构域：锌指结构域和C2 结构域。其中锌指结构域属于CX2CX16CX2C类，即ArfGAP domain的特征结构。GTP酶活性测定试验表明，OsAGAP蛋白能够激活水稻Arf的GTP酶活性，另外，OsAGAP还能够恢复酵母ArfGAP缺失突变体的表型。说明OsAGAP编码的蛋白是水稻中的一个ArfGAP。 　　OsAGAP在水稻各器官中均有表达，但强弱有所不同。RNA原位杂交结果显示，它在茎尖分生组织与侧生原基及侧根部位表达强烈;它在根尖主要分布于中央维管组织、分生区、皮层细胞，最有趣的是恰好与生长素在根尖极性运输路径相吻合。在亚细胞水平，OsAGAP广泛分布于细胞膜、细胞质、细胞核。 　　OsAGAP超表达水稻主根、不定根长度缩短，侧根数目显著减少表现出类似于生长素极性运输突变体的表型。其主根伸长对TIBA的抑制作用不敏感，这暗示OsAGAP超表达水稻的生长素极性运输被破坏;另外，其对各种生长素的作用敏感性也发生变化，对IAA、2,4-D的不敏感，而对NAA的反应与野生型一致，根据各类生长素进出细胞机制不同，可以推测超表达水稻的输入能力存在缺陷。极性运输实验结果表明，超表达水稻极性运输能力被破坏;对生长素输入能力的测定进一步表明，超表达水稻根载体的介导的生长素输入能力显著下降。另外，NAA处理能够恢复超表达水稻中侧根发育受抑的表型缺陷。由此可见，OsAGAP在水稻中超表达破坏了生长素极性运输的输入能力。 　　FM1-43是一类特异标记囊泡运输的荧光染料。经其染色标记后，OsAGAP超表达水稻细胞内囊泡成片聚集，形成“BFA区间”，表现出囊泡运输被破坏的典型特征。透射电镜观察发现，超表达水稻细胞内有大量的小液泡，其中积累了电子密度很高的颗粒物质。由此推测，可能由于细胞的囊泡运输被破坏，导致胞内的代谢物质不能被正常运送或分泌，而在液泡中暂时贮存以维持细胞环境的稳定。 　　在酵母和动物细胞中的研究表明， ArfGAP是调控囊泡运输的一个重要因子，然而目前还没有关于ArfGAP在植物细胞中生理作用的报道。我们的结果说明，OsAGAP作为的一个ArfGAP，它通过调控水稻中的囊泡运输，而影响了生长素的极性运输，具体表现在对生长素输入能力的调控。由此，我们推测ArfGAP可能在生长素的极性运输中也起着重要的调控作用。 　　但OsAGAP在拟南芥中却通过调控植株生长素的水平，而影响了转基因拟南芥根的发育。每种生物都有多个ArfGAP，它们之间的分工存在联系，但各不相同。OsAGAP是拟南芥的外源基因，它在拟南芥中可能以不同于水稻的机制起作用。

水稻G蛋白偶联受体OSGPCR1功能的研究

水稻是世界上最重要的粮食作物，也是单子叶植物的模式植物，它为全球近一半的人口提供食物，但是低温、高盐、干旱等非生物胁迫，每年都会在全世界范围内造成水稻大面积减产。G蛋白介导的信号途径是传递胞外信号比较保守的作用机制之一。动物细胞对于G蛋白及其受体(GPCRs)的研究已经取得了很大的进展。而植物细胞中对它们的研究刚刚起步。本文从越冬稻低温响应芯片上筛选到一个膜蛋白，它编码一个推测的G蛋白偶联受体(G protein-coupledreceptor, GPCR)，据此我们将其命名为OsGPCR1，并对其进行深入研究。 OsGPCR1的cDNA全长为1407bp，编码468个氨基酸，在蛋白水平上的同源性比较结果显示，该基因与动物中研究的比较多的异源三聚体G蛋白偶联受体(G Protein- Coupled Receptor)同源性达到44%。经过跨膜结构域预测表明OsGPCR1具有9TMs结构，以GFP为标签的亚细胞定位表明OsGPCR1定位在膜上。GTP酶活性测定试验表明，OsGPCR1蛋白能够激活水稻RGA的GTP酶活性，此外，以泛素裂解体系为基础的酵母双杂交实验表明，OsGPCR1能够与RGA相互作用。说明OsGPCR1编码的蛋白是水稻中的一个G蛋白偶联受体。 OsGPCR1的表达受低温、干旱、高盐的诱导，但不受ABA，GA，ACC，IAA的诱导。在『F常生长条件下，OsGPCR1在水稻各器官中均有表达，但强弱有所不同。 在拟南芥和水稻中超表达OsGPCR1都能显著增强转基因植物对干旱、高盐、低温的耐受性。而在水稻中抑制OsGPCR1的表达，转基因水稻呈现出干旱、高盐、低温的敏感性。对转基因拟南芥下游基因的分析表明，超表达OsGPCR1能够在非胁迫条件下激活CBF途径中相关基因的表达。结合OsGPCR1不受ABA诱导的表达模式，我们推测OsGPCR1可能是通过不依赖于ABA这条途径而传递信号的。借助超表达和转反义水稻材料，利用水稻全基因组芯片研究OsGPCR1靶基因的结果表明，不论OsGPCR1基因表达量的降低或上升，都导致大约30%的与转运相关的基因的表达量发生改变。这暗示OsGPCR1可能通过囊泡运输传递胞外信号。此外FM4-64对超表达和转反义水稻幼根细胞染色标记后，OsGPCR1反义抑制水稻细胞内囊泡在细胞两端呈聚集状，即形成“BFA区间”，而超表达OsGPCRI水稻细胞内囊泡呈密集状。这些结果都表明OsGPCR1可能通过调控囊泡运输而将胞外胁迫信号传递进胞内。

Proteomic Analysis of Proteins Involved in Spermiogenesis in Mouse

Spermiogenesis is a unique process in mammals during which haploid round spermatids mature into spermatozoa in the testis. Its successful completion is necessary for fertilization and its malfunction is an important cause of male infertility. Here, we report the high-confidence identification of 2116 proteins in mouse haploid germ cells undergoing spermiogenesis: 299 of these were testis-specific and 155 were novel. Analysis of these proteins showed many proteins possibly functioning in unique processes of spermiogenesis. Of the 84 proteins annotated to be involved in vesicle-related events, VAMP4 was shown to be important for acrosome biogenesis by in vivo knockdown experiments. Knockdown of VAMP4 caused defects of acrosomal vesicle fusion and significantly increased head abnormalities in spermatids from testis and sperm from the cauda epididymis. Analysis of chromosomal distribution of the haploid genes showed underrepresentation on the X chromosome and overrepresentation on chromosome 11, which were due to meiotic sex chromosome inactivation and expansion of testis-expressed gene families, respectively. Comparison with transcriptional data showed translational regulation during spermiogenesis. This characterization of proteins involved in spermiogenesis provides an inventory of proteins useful for understanding the mechanisms of male infertility and may provide candidates for drug targets for male contraception and male infertility.

猕猴胚胎干细胞的分离培养和鉴定

目的　从体外培养成熟囊胚中分离并鉴定猕猴胚胎干细胞(embryonic stem cell , ES cell) 。方法　猕猴卵母细 胞经体外成熟培养、体外受精和早期胚胎体外成熟培养后,获得猕猴囊胚。当囊胚由透明带自然孵出后,用细玻璃针剥离 囊胚中的内细胞团(inner cell mass , ICM) 并与饲养细胞进行共培养。由ICM分离,培养并鉴定胚胎干细胞集落。结果　由 4 只FSH 超排猕猴中共取得92 个处于GV 期的猕猴卵母细胞,选取其中的22 个用HECM210 培养基培养后,获得6 个高质 量的囊胚,由此6 个囊胚中分离得到3 个内细胞团,并由此最终获得1 株猕猴ES 细胞,即RS5 细胞。RS5 细胞具高比例核P 质比,核仁多,其细胞集落边缘平整,其内各单个细胞清晰。经约5 个月的连续传代后,仍保持了正常二倍体的核型,其染 色体数目为42 条。碱性磷酸酶细胞组织化学染色为阳性,说明RS5 细胞为未分化态的胚胎干细胞。经高密度和长时间 培养后,RS5 细胞可进一步分化为多种类型细胞。结论　RS5 细胞株具有自我更新能力和多分化潜能,属于胚胎干细胞。