Evolutionary and functional diversity of green fluorescent proteins in cephalochordates

Green fluorescent protein (GFP) has been widely used as a molecular marker in modern biological research. Before the recent report of one GFP gene in Branchiostoma floridae, GFP family members were cloned only from other two groups of species: Cnidaria and Copepoda. Here we describe the complete GFP gene repertoire of B. floridae which includes 13 functional genes and 2 pseudogenes, representing the largest GFP family found so far. Coupling with nine other GFP sequences from another two species of genus Branchiostoma and the sequences from Cnidaria and Copepoda, we made a deep-level phylogenetic analysis for GFP genes in cephalochordates and found: 1) GFP genes have experienced a divergent evolution in cephalochordates; 2) all amphioxus GFP genes form four main clades on the tree which had diverged before the radiation of the last common ancestor of all extant cephalochordates; 3) GFP genes in amphioxus shared a common ancestor with that in Copepoda rather than being derived from horizontal gene transfer, which indicates that our ancestor was derived from a fluorescent organism and lost this ability after its separation from Cephalochordata, and also makes GFP a rare gene which has a rather unusual evolutionary path. In addition, we also provided evidence indicating that GFP genes have evolved divergent functions by specializing their expression profile, and different fluorescent spectra by changing their emission peaks. These findings spark two interesting issues: what are GFP in vivo functions in cephalochordates and why they are lost in other examined deuterostomes?     

Relaxed chromatin induced by histone deacetylase inhibitors improves the oligonucleotide-directed gene editing in plant cells

Improving efficiency of oligonucleotide-directed mutagenesis (ODM) is a prerequisite for wide application of this gene-editing approach in plant science and breeding. Here we have tested histone deacetylase inhibitor treatments for induction of relaxed chromatin and for increasing the efficiency of ODM in cultured maize cells. For phenotypic assay we produced transgenic maize cell lines expressing the non-functional Green Fluorescent Protein (mGFP) gene carrying a TAG stop codon. These transgenic cells were bombarded with corrective oligonucleotide as editing reagent to recover GFP expression. Repair of green fluorescent protein function was monitored by confocal fluorescence microscopy and flow cytometry was used for quantification of correction events. Sequencing PCR fragments of the GFP gene from corrected cells indicated a nucleotide exchange in the stop codon (TAG) from T to G nucleotide that resulted in the restoration of GFP function. We show that pretreatment of maize cells with sodium butyrate (5–10 mM) and nicotinamide (1–5 mM) as known inhibitors of histone deacetylases can cause elevated chromatin sensitivity to DNase I that was visualized in agarose gels and confirmed by the reduced presence of intact PCR template for the inserted exogenous mGFP gene. Maize cells with more relaxed chromatin could serve as an improved recipient for targeted nucleotide exchange as indicated by an average of 2.67- to 3.62-fold increase in GFP-positive cells. Our results stimulate further studies on the role of the condition of the recipient cells in ODM and testing the application of chromatin modifying agents in other, programmable nuclease-based genome-editing techniques in higher plants.     

An insulator element 3′ to the CFTR gene binds CTCF and reveals an active chromatin hub in primary cells

Regulation of expression of the CFTR gene is poorly understood. Elements within the basal promoter of the gene do not fully explain CFTR expression patterns, suggesting that cis-regulatory elements are located elsewhere, either within the locus or in adjacent chromatin. We previously mapped DNase I hypersensitive sites (DHS) in 400 kb spanning the CFTR locus including a cluster of sites close to the 3′-end of the gene. Here we focus on a DHS at +6.8 kb from the CFTR translation end-point to evaluate its potential role in regulating expression of the gene. This DHS, which encompasses a consensus CTCF-binding site, was evident in primary human epididymis cells that express abundant CFTR mRNA. We show by DNase I footprinting and electophoretic mobility shift assays that the cis-regulatory element within this DHS binds CTCF in vitro. We further demonstrate that the element functions as an enhancer blocker in a well-established in vivo assay, and by using chromatin immunoprecipitation that it recruits CTCF in vivo. Moreover, we reveal that in primary epididymis cells, the +6.8 kb DHS interacts closely with the CFTR promoter, suggesting that the CFTR locus exists in a looped conformation, characteristic of an active chromatin hub.     

The Annotation of Zebrafish Enhancer Trap Lines Generated with PB Transposon

An enhancer trap (ET) mediated by a transposon is an effective method for functional gene research. Here, an ET system based on a PB transposon that carries a mini Krt4 promoter (the keratin4 minimal promoter from zebrafish) and the green fluorescent protein gene (GFP) has been used to produce zebrafish ET lines. One enhancer trap line with eye-specific expression GFP named EYE was used to identify the trapped enhancers and genes. Firstly, GFP showed a temporal and spatial expression pattern with whole-embryo expression at 6, 12, and 24 hpf stages and eye-specific expression from 2 to 7 dpf. Then, the genome insertion sites were detected by splinkerette PCR (spPCR). The Krt4-GFP was inserted into the fourth intron of the gene itgav (integrin, alpha V) in chromosome 9 of the zebrafish genome, with the GFP direction the same as that of the itgav gene. By the alignment of homologous gene sequences in different species, three predicted endogenous enhancers were obtained. The trapped endogenous gene itgav, whose overexpression is related to hepatocellular carcinoma, showed a similar expression pattern as GFP detected by in situ hybridization, which suggested that GFP and itgav were possibly regulated by the same enhancers. In short, the zebrafish enhancer trap lines generated by the PB transposon-mediated enhancer trap technology in this study were valuable resources as visual markers to study the regulators and genes. This work provides an efficient method to identify and isolate tissue-specific enhancer sequences.     

A quick and efficient approach for gene silencing by using triple putative microRNA-based short hairpin RNAs

The RNA interference (RNAi) technique has been widely used in gene function studies. It is typical to screen for effective siRNAs by knocking down targeted genes since a single gene can be suppressed by several siRNAs to varying degrees. The miRNA-based short hairpin RNA (shRNA) is a natural inducer of RNAi and has been used in siRNA expression strategies. We investigated the potential application of multiple putative microRNA-based shRNAs for gene silencing and studied the inhibition efficiency of exogenous GFP and firefly luciferase (luc) by triple human mir155-based shRNA expression vectors. A total of three candidate siRNA sequences targeted against GFP or luc were selected based on an online prediction program. Single and triple miRNA-155-based shRNAs targeted against GFP or luc were transfected into HEK293 cells mediated by the pcDNA₃ vector with an RNA polymerase II-type CMV (cytomegalovirus) promoter. Comparisons with negative control shRNAs revealed that GFP levels were markedly reduced by the triple miRNA-155-based GFP shRNA by fluorescent microscopy. Consistent results from the dual luciferase assay and real-time quantitative RT-PCR revealed that the triple miRNA-155-based GFP shRNA significantly suppressed GFP expression (P < 0.01), without significant differences from the most effective single miRNA-155-based GFP shRNA (P > 0.05). Results from the dual luciferase assay and real-time quantitative RT-PCR revealed that the triple miRNA-155-based luc shRNA significantly suppressed luc expression as the most effective single miRNA-155-based luc shRNA (P < 0.05). These studies demonstrated the gene silencing efficiency mediated by the triple putative miRNA-155-based shRNAs. This suggested that multiple miRNA-based shRNAs are quick and valuable strategies for gene silencing.     

A ubiquitous family of repeated DNA sequences in the human genome

Renatured DNA from human and many other eukaryotes is known to contain 300-nucleotide duplex regions formed from renatured repeated sequences. These short repeated DNA sequences are widely believed to be interspersed with single copy DNA sequences. In this work we show that at least half of these 300-nucleotide duplexes share a cleavage site for the restriction enzyme AluI. This site is located 170 nucleotides from one end. This Alu family of repeated sequences makes up at least 3% of the genome and is present in several hundred thousand copies.Inverted repeated sequences are also known to contain a short 300-nucleotide duplex region. We find that at least half of the 300-nucleotide duplex regions in inverted repeated sequences also have an AluI restriction site located 170 nucleotides from one end.By driven renaturation techniques, the Alu family is shown to be distributed over a minimum range of 30% to 60% of the genome. (The breadth of this range reflects the presence of inverted repeated sequences which, in part, include the Alu family.) These findings imply that the interspersion pattern of repeated and single copy sequences in human DNA is largely dominated by one family of repeated sequences.     

Expression of a chromosomally integrated, single-copy GFP gene in Candida albicans, and its use as a reporter of gene regulation

Genetically engineered versions of the GFP gene, which encodes the green fluorescent protein of Aequorea victoria, were placed under the control of the constitutively active Candida albicansACT1 promoter and integrated in single copy into the genome of this pathogenic yeast. Integrative transformants in which one of the two ACT1 alleles had been replaced by a GFP gene exhibited a homogeneous, constitutive fluorescent phenotype. Cells expressing GFP with the wild-type chromophore exhibited very weak fluorescence compared to those GFP proteins with the S65T or S65A, V68L, S72A (GFPmut2) chromophore mutations. Substitution of the CTG codon, which specifies serine instead of leucine in C. albicans, by TTG was absolutely necessary for GFP expression. Although GFP mRNA levels in cells containing a GFP gene with the CTG codon were comparable to those of transformants containing GFP with the TTG substitution, only the latter produced GFP protein, as detected by Western blotting, suggesting that the frequent failure to express heterologous genes in C. albicans is principally due to the non-canonical codon usage. Transformants expressing the modified GFP gene from the promoter of the SAP2 gene, which encodes one of the secreted acid proteinases of C. albicans, showed fluorescence only under conditions which promote proteinase expression, thereby demonstrating the utility of stable, chromosomally integrated GFP reporter genes for the study of gene activation in C. albicans.     

<Emphasis Type="Italic">In Silico</Emphasis> Identification and Characterization of Meiotic DNA: <Emphasis Type="Italic">AluJb</Emphasis> Possibly Participates in the Attachment of Chromatin Loops to Synaptonemal Complex

Earlier, using bioinformatic methods, we reported the identification of repeated DNA sequences (RSs), presumably responsible for the attachment of chromatin loops to the lateral elements of synaptonemal complex in meiotic chromosomes. In the present study, consensus sequences for this class of RS were identified. It was demonstrated that at least part of these sequences belonged to the AluJb subfamily of Alu sequences. The Alu copies distribution along the major human histocompatibility complex (MHC) and their spatial separation from the sites of meiotic recombination was examined. It was demonstrated that simple sequences, like (GT/CA) _n , were flanking meiotic recombination sites. A model of the RS organization in meiotic chromosome, most efficiently linking experimental data on the meiotic recombination in MHC and the in silico data on the RS localization (the coefficient of multiple correlation, r = 0.92) is suggested.     

Visualization of monoaminergic neurons and neurotoxicity of MPTP in live transgenic zebrafish

We describe an enhancer trap transgenic zebrafish line, ETvmat2:GFP, in which most monoaminergic neurons are labeled by green fluorescent protein (GFP) during embryonic development. The reporter gene of ETvmat2:GFP was inserted into the second intron of vesicular monoamine transporter 2 (vmat2) gene, and the GFP expression pattern recapitulates that of the vmat2 gene. The GFP positive neurons include the large and pear-shaped tyrosine hydroxylase positive neurons (TH populations 2 and 4) in the posterior tuberculum of ventral diencephalon (PT neurons), which are thought to be equivalent to the midbrain dopamine neurons in mammals. We found that these PT neurons and two other GFP labeled non-TH type neuronal groups, one in the paraventricular organ of the posterior tuberculum and the other in the hypothalamus, were significantly reduced after exposure to MPTP, while the rest of GFP-positive neuronal clusters, including those in telencephalon, pretectum, raphe nuclei and locus coeruleus, remain largely unchanged. Furthermore, we showed that the effects of hedgehog signaling pathway inhibition on the development of monoaminergic neurons can be easily visualized in individual living ETvmat2:GFP embryos. This enhancer trap line should be useful for genetic and pharmacological analyses of monoaminergic neuron development and processes underlying Parkinson's disease.     

Satellite DNA from the brine shrimp Artemia affects the expression of a flanking gene in yeast

We have previously revealed that in the brine shrimp Artemia franciscana an AluI DNA family of repeats, 113 bp in length, is the major component of the constitutive heterochromatin and that this repetitive DNA shows a stable curvature that confers a solenoidal geometry on the double helix in vitro. It was suggested that this particular structure may play a relevant role in determining the condensation of the heterochromatin. In this report we have cloned hexamers of highly-repetitive sequence (AluI-satellite DNA) in proximity to a yeast lacZ reporter gene on a plasmid. We find that the expression of the reporter gene is affected by the presence of this DNA in a dose- and orientation-dependent manner in the yeast, S. cerevisiae. We show that this effect is not dependent on under-replication or re-arrangements of the repetitive DNA in the cell but is due to decreased expression of the reporter gene. Our results indicate that the AluI-satellite DNA of Artemia per se is able to influence gene expression. © 1997 Elsevier Science B.V. All rights reserved.