荧光转基因斑马鱼Tg(ttn.2:EGFP)的构建

为了建立一种用于研究肌肉和心脏发育及其相关疾病的绿色荧光蛋白(enhanced green fluorescent protein,EGFP)转基因斑马鱼品系,本研究使用斑马鱼ttn.2基因编码区上游启动子序列和绿色荧光蛋白基因编码序列构建了重组表达载体,并将该载体和Tol2转座酶的加帽mRNA显微共注射入斑马鱼1-细胞期胚胎,通过荧光检测、遗传杂交筛选和分子鉴定等方法,成功建立了能稳定遗传的Tg(ttn.2:EGFP)转基因斑马鱼品系。荧光表达分析及原位杂交分析结果表明,绿色荧光信号在斑马鱼肌肉和心脏组织中特异表达模式与ttn.2基因的mRNA表达一致。通过反向PCR鉴定转基因表达载体在F1代斑马鱼品系中的随机整合位点,结果表明:No.33转基因品系的EGFP基因整合在斑马鱼的4号和11号染色体上,No.34转基因品系则整合在1号染色体上。该荧光转基因斑马鱼品系Tg(ttn.2:EGFP)的成功构建为肌肉和心脏发育以及相关疾病研究提供了一个新的理想实验模型。此外,绿色荧光强烈表达的斑马鱼品系还可以作为一种新的观赏鱼。     

Isolation and characterization of hypoxia inducible heme oxygenase 1 (HMOX1) gene in Labeo rohita

The HMOX1 gene plays role in several biological processes and is also responsive to hypoxia stress. Freshwater carp fish, Labeo rohita, is reported as hypoxia sensitive, but the information of annotated hypoxia genes in public domain is very scanty for this species. Here, an attempt was made to isolate and characterize HMOX1 gene in L. rohita using information from zebrafish. HMOX1 gene was obtained by mapping HMOX1 protein of zebrafish over assembled genome of L. rohita. Aligned region was used for designing primers for HMOX1 amplification. Eight overlapping sets of primers were designed for amplifying ~540 bp long successive overlapping fragments. Splicing of overlapping amplicons generated 3715 bp fragment that was confirmed as HMOX1 gene having full coding region with 6 exons between 184 and 2156 bp positions. HMOX1 characterization is an initiative for L. rohita genes annotation to support the characterization of new genes in the important species.     

拟南芥AtCIPK23基因对烟草抗旱能力的影响

为了探索拟南芥AtCIPK23基因对烟草耐旱能力的影响,对3个转AtCIPK23基因阳性纯合株系KA13、KA14和KA44与野生型烟草K326（对照）进行了自然干旱处理,测定离体叶片的失水速率、叶绿素含量、相对电导率、脯氨酸和可溶性糖含量,并分析了转基因及野生型材料对活性氧的清除能力,对活性氧清除基因NtSOD、NtCAT和NtAPX及干旱胁迫相关基因NtDREB、NtLEA5和NtCDPK2的表达量进行检测。结果表明：（1）转基因烟草离体叶片的失水速率明显低于K326;自然干旱7 d后,野生型K326出现了明显的干旱胁迫症状;干旱7 d进行复水后,转基因株系的复水存活率明显高于K326。（2）转基因株系中的叶绿素、脯氨酸及可溶性糖含量比K326显著提高,电导率则明显降低。（3）野生型烟草K326中H₂O₂的积累量明显高于3个转基因株系,转基因株系中ROS清除机制的3个关键基因NtSOD、NtCAT和NtAPX被诱导上调表达。（4）抗旱相关基因NtDREB、NtLEA5和NtCDPK2仅在转基因烟草中受干旱诱导。研究认为,AtCIPK23基因可能具有提高植物抗旱能力的功能。     

GH overexpression causes muscle hypertrophy independent from local IGF-I in a zebrafish transgenic model

The aim of the present study was to analyse the morphology of white skeletal muscle in males and females from the GH-transgenic zebrafish (Danio rerio) lineage F0104, comparing the expression of genes related to the somatotrophic axis and myogenesis. Histological analysis demonstrated that transgenic fish presented enhanced muscle hypertrophy when compared to non-transgenic fish, with transgenic females being more hypertrophic than transgenic males. The expression of genes related to muscle growth revealed that transgenic hypertrophy is independent from local induction of insulin-like growth factor 1 gene (igf1). In addition, transgenic males exhibited significant induction of myogenin gene (myog) expression, indicating that myog may mediate hypertrophic growth in zebrafish males overexpressing GH. Induction of the α-actin gene (acta1) in males, independently from transgenesis, also was observed. There were no significant differences in total protein content from the muscle. Our results show that muscle hypertrophy is independent from muscle igf1, and is likely to be a direct effect of excess circulating GH and/or IGF1 in this transgenic zebrafish lineage.     

利用Tol2转座子介导的增强子诱捕技术获得血管相关转基因斑马鱼系

心血管系统形成于胚胎发育极早期并为其他器官的发育、维持、修复所必需,血管生长异常可造成多种疾病.然而,由于研究对象所限,胚胎血管的发育机制尚未完全阐明,调控血管发育的基因也所知有限.通过Tol2转座子介导的大规模增强子诱捕筛选到26个血管特异表达绿色荧光蛋白(EGFP)报告基因的转基因斑马鱼系,其中有一些品系在胚胎的某些特异血管结构中表达绿色荧光.通过linker-mediated PCR克隆到22个鱼系中Tol2插入位点附近的斑马鱼基因组序列,其中有17个鱼系的Tol2插入可定位到现有的斑马鱼基因组中的单一位点.通过整体胚胎原位杂交对插入位点附近的基因进行表达谱分析,得到8个表达谱与转基因鱼系一致的基因,涵盖了9个鱼系,其中dusp5基因对应于2个不同的鱼系.这8个基因中包括hhex、ets1a和dusp5等3个功能已知的基因,但是大部分(5个)基因在斑马鱼中尚无功能研究,分别为zvsg1、micall2a、arl8b(1of2)、zgc:73355以及hecw2(1of2).hhex和ets1a基因对血管与血细胞前体的发育具有重要作用,所获得的EGFP报告基因受hhex或ets1a基因增强子控制的转基因斑马鱼(mp378b和mp430c-2)为国际首例,为深入研究这两个基因在血管与血液发育中的作用机制提供了新的机遇.筛选到的功能未知基因可以用来进一步研究其在血管发育中的功能;同时,利用所获得的转基因鱼系,可以实现实时、动态观察成血管细胞的起源、分化与基因表达调控,并可用于高通量小分子药物筛选等重要研究.     

Salt stress alleviation in transgenic Vigna mungo L. Hepper (blackgram) by overexpression of the glyoxalase I gene using a novel Cestrum yellow leaf curling virus (CmYLCV) promoter

A reproducible and efficient transformation system utilizing the nodal regions of embryonal axis of blackgram (Vigna mungo L. Hepper) has been established via Agrobacterium tumefaciens. This is a report of genetic transformation of Vigna mungo for value addition of an agronomic trait, wherein the gene of interest, the glyoxalase I driven by a novel constitutive Cestrum yellow leaf curling viral promoter has been transferred for alleviating salt stress. The overexpression of this gene under the constitutive CaMV 35S promoter had earlier been shown to impart salt, heavy metal and drought stress tolerance in the model plant, tobacco. Molecular analyses of four independent transgenic lines performed by PCR, Southern and western blot revealed the stable integration of the transgene in the progeny. The transformation frequency was ca. 2.25% and the time required for the generation of transgenic plants was 10–11 weeks. Exposure of T1 transgenic plants as well as untransformed control plants to salt stress (100 mM NaCl) revealed that the transgenic plants survived under salt stress and set seed whereas the untransformed control plants failed to survive. The higher level of Glyoxalase I activity in transgenic lines was directly correlated with their ability to withstand salt stress. To the best of our knowledge this is the only report of engineering abiotic stress tolerance in blackgram. Prasanna Bhomkar, Chandrama P. Upadhyay are contributed equally. An erratum to this article can be found at     

Gene expression in the liver of rainbow trout, Oncorhynchus mykiss, during the stress response

To better appreciate the mechanisms underlying the physiology of the stress response, an oligonucleotide microarray and real-time RT-PCR (QRT-PCR) were used to study gene expression in the livers of rainbow trout (Oncorhynchus mykiss). For increased confidence in the discovery of candidate genes responding to stress, we conducted two separate experiments using fish from different year classes. In both experiments, fish exposed to a 3 h stressor were compared to control (unstressed) fish. In the second experiment some additional fish were exposed to only 0.5 h of stress and others were sampled 21 h after experiencing a 3 h stressor. This 21 h post-stress treatment was a means to study gene expression during recovery from stress. The genes we report as differentially expressed are those that responded similarly in both experiments, suggesting that they are robust indicators of stress. Those genes are a major histocompatibility complex class 1 molecule (MHC1), JunB, glucose 6-phosphatase (G6Pase), and nuclear protein 1 (Nupr1). Interestingly, Nupr1 gene expression was still elevated 21 h after stress, which indicates that recovery was incomplete at that time.     

Gene Expression of CRAL_TRIO Family Proteins modulated by Vitamin E Deficiency in Zebrafish (Danio Rerio)

An evaluation of the impact of vitamin E deficiency on expression of the alpha-tocopherol transfer protein (α-TTP) and related CRAL_TRIO genes was undertaken using livers from adult zebrafish based on the hypothesis that increased lipid peroxidation would modulate gene expression. Zebrafish were fed either a vitamin E sufficient (E+) or deficient (E–) diet for 9 months, then fish were euthanized, and livers were harvested. Livers from the E+ relative to E– fish contained 40-times more α-tocopherol (P <0.0001) and one fourth the malondialdehyde (P = 0.0153). RNA was extracted from E+ and E– livers, then subject to evaluation of gene expression of ttpa and other genes of the CRAL_TRIO family, genes of antioxidant markers, and genes related to lipid metabolism. Ttpa expression was not altered by vitamin E status. However, one member of the CRAL_TRIO family, tyrosine-protein phosphatase non-receptor type 9 gene (ptpn9a), showed a 2.4-fold increase (P = 0.029) in E– relative to E+ livers. Further, we identified that the gene for choline kinase alpha (chka) showed a 3.0-fold increase (P = 0.010) in E– livers. These outcomes are consistent with our previous findings that show vitamin E deficiency increased lipid peroxidation causing increases in phospholipid turnover.     

Development of a transgenic zebrafish model expressing GFP in the notochord,somite and liver directed by the <Emphasis Type="Italic">hfe2</Emphasis> gene promoter

Hemojuvelin, also known as RGMc, is encoded by hfe2 gene that plays an important role in iron homeostasis. hfe2 is specifically expressed in the notochord, developing somite and skeletal muscles during development. The molecular regulation of hfe2 expression is, however, not clear. We reported here the characterization of hfe2 gene expression and the regulation of its tissue-specific expression in zebrafish embryos. We demonstrated that the 6 kb 5′-flanking sequence upstream of the ATG start codon in the zebrafish hfe2 gene could direct GFP specific expression in the notochord, somites, and skeletal muscle of zebrafish embryos, recapitulating the expression pattern of the endogenous gene. However, the Tg(hfe2:gfp) transgene is also expressed in the liver of fish embryos, which did not mimic the expression of the endogenous hfe2 at the early stage. Nevertheless, the Tg(hfe2:gfp) transgenic zebrafish provides a useful model to study liver development. Treating Tg(hfe2:gfp) transgenic zebrafish embryos with valproic acid, a liver development inhibitor, significantly inhibited GFP expression in zebrafish. Together, these data indicate that the tissue specific expression of hfe2 in the notochord, somites and muscles is regulated by regulatory elements within the 6 kb 5′-flanking sequence of the hfe2 gene. Moreover, the Tg(hfe2:gfp) transgenic zebrafish line provides a useful model system for analyzing liver development in zebrafish.     

Expression and regulation by thyroid hormone (TH) of zebrafish IGF-I gene and amphioxus IGFl gene with implication of the origin of TH/IGF signaling pathway

Thyroid hormone (TH)/insulin-like growth factor (IGF) signaling pathway has been identified in all the vertebrates, but its evolutionary origin remains elusive. In this study we examined the expression profiles in vitro as well as in vivo of the IGF-I gene of fish Danio rerio (vertebrate) and the IGF-like gene (IGFl) of amphioxus Branchiostoma japonicum (protochordate) following T₃ treatment. Our results showed that T₃ was able to enhance hepatic IGF-I/IGFl gene expression in vitro in both zebrafish and amphioxus in a dose-dependent manner. This T₃-induced hepatic expression of IGF-I/IGFl genes in both species was significantly inhibited by the T₃-specific inhibitor DEA, indicating the specificity of IGF-I/IGFl gene regulation by T₃. At 100 nM T₃, in both the long (42 h) and short (8 h) time course experiments, the IGF-I/IGFl gene expression profiles following T₃ treatment in the tissue cultures of both species exhibited closely similar pattern and trend. Moreover, exposure of zebrafish and amphioxus to T₃in vivo for 72 h induced a significant increase in the expression of IGF-I/IGFl genes in both the liver and the hepatic caecum. These data together suggest that amphioxus and zebrafish both share a similar regulatory mechanism of IGF gene expression in response to T₃, providing an evidence for the presence of a vertebrate-like TH/IGF signaling pathway in the protochordate amphioxus.     

Interactive effects of development and hypoxia on catecholamine synthesis and cardiac function in zebrafish (<Emphasis Type="Italic">Danio rerio</Emphasis>)

The rate-limiting enzyme in the biosynthetic pathway of catecholamines is tyrosine hydroxylase (TH), the activity of which is dependent on molecular oxygen. Zebrafish (Danio rerio) possess two non-allelic TH coding genes, TH1 and TH2. A principal goal of the present study was to determine if the expression of these genes is sensitive to environmental hypoxia. Additionally, we sought to determine if catecholamine content of larvae was changed by environmental hypoxia, and whether the hearts of hypoxic larvae were equally responsive to exogenous catecholamine (norepinephrine) exposure. After 2 days of exposure to hypoxia [5–7 days post-fertilization (dpf); PO₂ = 30 Torr] TH2 mRNA expression was significantly lower and dopamine β hydroxylase (DβH) mRNA was significantly higher in whole larvae. Whole body catecholamine levels were unchanged until after 4 days of hypoxic exposure (5–9 dpf), at which time there was a significant increase in epinephrine and norepinephrine contents. Norepinephrine content was significantly elevated in the hearts of adult fish after 2 and 4 days of hypoxic exposure, and TH1 mRNA expression was increased in the kidney of both groups. After 2 or 4 days of exposure to hypoxia, larvae displayed significantly lower heart rates than normoxic fish. However, application of exogenous norepinephrine caused similar increases in heart rate in both groups. Overall, it is concluded that the mRNA expression of TH1 and TH2 is differentially affected by hypoxia exposure in larvae and adults. Also, catecholamine biosynthesis appears to be activated by 2 dpf and although whole body catecholamine levels increase during hypoxia (possibly promoting downregulation of cardiac β-adrenergic receptors), there is no accompanying decrease in the response of the heart to adrenergic stimulation.