Whole-mount in situ hybridization of small invertebrate embryos using laboratory mini-columns

To facilitate the handling of small invertebrate embryos during whole-mount in situ hybridization, a method of solution exchange using laboratory mini-columns was developed. This protocol speeds time-consuming aspiration of buffers, and avoids accidental loss of the embryos, by gently pushing solutions through the column using air pressure from a syringe after each incubation. The next buffer is then added using a pipettor. Embryos are retained on a filter within the column. As many columns as desired may be processed in parallel for different probes or stages.     

High-resolution in situ hybridization to whole-mount zebrafish embryos

The in situ hybridization (ISH) technique allows the sites of expression of particular genes to be detected. This protocol describes ISH of digoxigenin-labeled antisense RNA probes to whole-mount zebrafish embryos. In our method, PCR-amplified sequence of a gene of interest is used as a template for the synthesis of an antisense RNA probe, which is labeled with digoxigenin-linked nucleotides. Embryos are fixed and permeabilized before being soaked in the digoxigenin-labeled probe. We use conditions that favor specific hybridization to complementary mRNA sequences in the tissue(s) expressing the corresponding gene. After washing away excess probe, hybrids are detected by immunohistochemistry using an alkaline phosphatase-conjugated antibody against digoxigenin and a chromogenic substrate. The whole procedure takes only 3 days and, because ISH conditions are the same for each probe tested, allows high throughput analysis of zebrafish gene expression during embryogenesis.     

Multicolour whole-mount in situ hybridization to Drosophila embryos

 We report an extended whole-mount in situ hybridization procedure for Drosophila embryos. By using probes labelled with digoxigenin, fluorescein and biotin, respectively, this protocol allows the detection in three colours of RNAs derived from three different genes. Hybridized probes are detected by consecutive staining with appropriate alkaline phosphatase conjugates using different chromogenic substrate combinations, and serial removal of the antibody conjugates by low pH washes. Received: 7 May 1996/Accepted: 7 July 1996     

Whole-mount three-dimensional imaging of internally localized immunostained cells within mouse embryos

We describe a three-dimensional (3D) confocal imaging technique to characterize and enumerate rare, newly emerging hematopoietic cells located within the vasculature of whole-mount preparations of mouse embryos. However, the methodology is broadly applicable for examining the development and 3D architecture of other tissues. Previously, direct whole-mount imaging has been limited to external tissue layers owing to poor laser penetration of dense, opaque tissue. Our whole-embryo imaging method enables detailed quantitative and qualitative analysis of cells within the dorsal aorta of embryonic day (E) 10.5-11.5 embryos after the removal of only the head and body walls. In this protocol we describe the whole-mount fixation and multimarker staining procedure, the tissue transparency treatment, microscopy and the analysis of resulting images. A typical two-color staining experiment can be performed and analyzed in ～6 d.     

An optimized procedure for whole-mount in situ hybridization on mouse embryos and embryoid bodies

Determining the precise expression pattern of a gene of interest at various stages of development is essential to understanding its biological function in embryology. This protocol describes a sensitive method for whole-mount in situ hybridization (WISH) to mouse embryos, using cRNA probes. Adaptations are provided that allow the protocol to be applied to embryonic stages ranging from blastocysts to postimplantation stage embryos, and to embryoid bodies. We also describe an in situ method for differential detection of two probes. Probe labeling and dissection and preparation of the embryos can be performed in 2 d. The actual WISH procedure can be completed in another 3 d.     

斑马鱼整体原位杂交的技术改良

斑马鱼整体原位杂交技术广泛应用于基因表达谱、基因间相互关系和突变体筛选等方面,是研究斑马鱼发育相关基因功能的重要技术。本文从杂交探针的制备、浓度的选择和洗脱以及胚胎的脱色、蛋白酶K消化、底物显色等方面进行了摸索、改进及简化,获得了背景低、着色清晰、特异性高的实验结果,预示了简单实用、成本低廉的斑马鱼整胚原位杂交技术平台的成功建立。     

Aneuploidy detection in porcine embryos using fluorescence in situ hybridization

In contrast to human embryos, there are very few studies published on the frequency of chromosomal aneuploidy in farm animals. The objectives of this study were to apply a three-color fluorescent in situ hybridization (FISH) method for evaluating aneuploidy in porcine embryos using chromosome-specific DNA probes, establish baseline frequencies of aneuploidy in embryos and compare the results with our previous findings of aneuploidy in spermatozoa and oocytes. The embryos were collected from superovulated gilts, which were slaughtered 48 h after insemination. FISH was performed using probes specific for the centromeric regions of porcine chromosomes 1, 10 and Y. Altogether 403 blastomeres from 114 porcine embryos were successfully investigated. Diploidy was observed in 101 (88.6%) embryos, triploidy in 2 (1.8%) embryos, mosaicism/mixoploidy in 9 (7.9%) embryos, and trisomy for chromosomes 1 or 10 in 2 (1.8%) embryos. No blastomere showed aneuploidy for chromosome Y. These findings correspond with the frequencies of aneuploidy we have found previously in porcine germ cells.     

In situ response to vinka alkaloids by microtubules in cultured post-implanted mouse embryos

The response of microtubules to treatment with vinca alkaloids was investigated in vivo and in situ in the embryonic nervous system of mice. For this purpose we used rotatory cultures of post-implanted embryos in a serum medium containing the alkaloid combined with immunofluorescence using a tubulin-specific polyclonal antibody on high molecular weight polyethylene glycol embedded semithin sections. In mitotic cells, kinetochore microtubules were seen to be more resistant to the action of vinca alkaloids than interpolar microtubules. Increasing drug concentrations induced an increasing rate of mitosis together with an increasing rate of disassembly of the cytoplasmic microtubule complex, suggesting a probable relation between these events. In bipolar neuroepithelial cells at interphase, a small pool of microtubules was resistant to the vinca alkaloids. These microtubules were located near the centriolar apparatus associated with the primary cilium; they were short, curly and bent. Disruption of the cytoplasmic microtubule complex did not alter the shape of the bipolar neuroepithelial cells. In the axonal profiles, a drug-stable pool of microtubules were not disrupted by the alkaloids and were also short. They seem to act as microtubule organizing centres. These observations suggest vinca alkaloids seem to act in vivo much more by inducing, at a given concentration, the disruption of a particular group of microtubules without altering the others. The fact that these drugs affect the number, but not the length, of the microtubules raises the hypothesis that these drugs act on microtubules by a mechanism similar to that described as "dynamic instability".     

Characterization of mouse parvovirus infection by in situ hybridization.

Infection of young adult BALB/cByJ mice with mouse parvovirus-1, a newly recognized, lymphocytotropic, nonpathogenic parvovirus, was examined by in situ hybridization. Virus appeared to enter through the small intestine and was disseminated to the liver and lymphoid tissues. Strand-specific probes detected virion DNA in a consistently larger number of cells than replicative forms of viral DNA and/or viral mRNA. The number of signal-positive cells in the intestinal mucosa, lymph nodes, spleen, and thymus increased through day 10 after oral inoculation but decreased after seroconversion. Positive cells were still detected, however, in peripheral lymphoid tissues of mice examined at 9 weeks postinoculation. The results underscore the need to assess potential effects of persistent mouse parvovirus-1 infection on immune function in mice.     

Localization of specific mRNAs in Xenopus embryos by whole-mount in situ hybridization.

We have adapted a non-radioactive technique to detect localized mRNAs in whole-mount Xenopus embryos. Synthetic antisense RNA transcribed in the presence of digoxygenin-UTP is used as a probe and is detected via an anti-digoxygenin antibody. We show that localized mRNAs can be detected from late gastrula to tadpole stages and that high as well as low abundance RNAs can be detected. The method was tested on muscle actin and alpha-globin RNAs, whose localization has previously been characterized. In addition, we used the method to determine the distribution of XA-1 RNA, an anterior ectoderm-specific RNA, which we show is expressed in the periphery of the cement gland as well as in the region of the hatching gland. The sequence of an XA-1 cDNA predicts a protein rich in proline and histidine.