Direct activation of a mouse Hoxd11 axial expression enhancer by Gdf11/Smad signalling

A Hoxd11/lacZ reporter, expressed with a Hoxd11-like axial expression pattern in transgenic mouse embryos, is stimulated in tailbud fragments when cultured in presence of Gdf11, a TGF-β growth/differentiation factor. The same construct is also stimulated by Gdf11 when transiently transfected into cultures of HepG2 cells. Stimulation of the reporter in HepG2 cells is enhanced where it contains only the 332 bp Hoxd11 enhancer region VIII upstream or downstream of a luciferase or lacZ reporter. This enhancer contains three elements conserved from fish to mice, one of which has the sequence of a Smad3/4 binding element. Mutation of this motif inhibits the ability of Gdf11 to enhance reporter activity in the HepG2 cell assay. Chromatin immunoprecipitation experiments show direct evidence of Smad2/3 protein binding to the Hoxd11 region VIII enhancer. The action of Gdf11 upon Hoxd11 in HepG2 cells is inhibited, at least in part, by SIS3, a specific inhibitor of Smad3. SIS3 also produces partial inhibition of Hoxd11/lacZ expression in cultured transgenic tailbuds, indicating that Smad3 may play a similar role in the embryonic expression of Hoxd11. Transgenic mouse experiments show that the Smad binding motif is essential for the axial expression of Hoxd11/lacZ reporter in the embryo tailbud, posterior mesoderm and neurectoderm.     

A survey of ancient conserved non-coding elements in the PAX6 locus reveals a landscape of interdigitated cis-regulatory archipelagos

Biological differences between cell types and developmental processes are characterised by differences in gene expression profiles. Gene-distal enhancers are key components of the regulatory networks that specify the tissue-specific expression patterns driving embryonic development and cell fate decisions, and variations in their sequences are a major contributor to genetic disease and disease susceptibility. Despite advances in the methods for discovery of putative cis-regulatory sequences, characterisation of their spatio-temporal enhancer activities in a mammalian model system remains a major bottle-neck. We employed a strategy that combines gnathostome sequence conservation with transgenic mouse and zebrafish reporter assays to survey the genomic locus of the developmental control gene PAX6 for the presence of novel cis-regulatory elements. Sequence comparison between human and the cartilaginous elephant shark (Callorhinchus milii) revealed several ancient gnathostome conserved non-coding elements (agCNEs) dispersed widely throughout the PAX6 locus, extending the range of the known PAX6 cis-regulatory landscape to contain the full upstream PAX6-RCN1 intergenic region. Our data indicates that ancient conserved regulatory sequences can be tested effectively in transgenic zebrafish even when not conserved in zebrafish themselves. The strategy also allows efficient dissection of compound regulatory regions previously assessed in transgenic mice. Remarkable overlap in expression patterns driven by sets of agCNEs indicates that PAX6 resides in a landscape of multiple tissue-specific regulatory archipelagos.     

Identification of a cis-acting element of human dihydrofolate reductase mRNA

Human dihydrofolate reductase (DHFR) is a critical target in cancer chemotherapy. Previous studies showed that an 82-nt RNA fragment within the DHFR mRNA protein-coding region functions as a DHFR cis-acting response element. In this study, we further investigated the key elements contained within this sequence that are required for the DHFR mRNA-DHFR protein interaction. Using enzymatic foot-printing assays and RNA-binding experiments, we isolated a 27-nt sequence (DHFR27, corresponding to nts 407-433), which bound with high affinity and specificity to human DHFR to form a ribonucleoprotein complex. In vivo transient transfection experiments using a luciferase reporter system revealed that DHFR27 RNA could repress the luciferase expression in a DHFR-dependent manner when placed upstream of luciferase mRNA. This work provides new insights into the essential molecular elements that mediate RNA-protein interactions.     

Mini-Tn7 vectors as genetic tools for single copy gene cloning in Acinetobacter baumannii

Acinetobacter baumannii is an emerging pathogen that causes serious infections with high mortality rates in immunocompromised individuals. Genetic manipulations in this medically-relevant pathogen are limited by the paucity of molecular tools. In this study, we show the application of the mini-Tn7-based single copy insertion system in A. baumannii. Mini-Tn7 elements are known to integrate at a naturally evolved, therefore presumably neutral location (intergenic region) downstream of the glmS gene (glucosamine-fructose-6-phosphate aminotransferase) in Gram-negative bacteria. We identified the site of insertion of mini-Tn7 in A. baumannii and demonstrated application of this useful cloning tool by inserting the gfp gene into the chromosome. Our work shows that mini-Tn7 elements are useful tools for genetic studies in this important pathogen.     

Isolation and Characterization of OsGSTL1 Promoter from Rice

OsGSTL1 gene was isolated from the rice genomic library. Semi-quantitative RT-PCR analysis demonstrated that the expression of the OsGSTL1 in rice was not induced by chlorsulfuron, ethylene, abscisic acid, salicylic acid, and methyl jasmonate. In order to investigate the cis-elements of OsGSTL1 promoter, the promoter regions with different lengths were fused to the β-glucuronidase (GUS) reporter gene. All constructs were transformed into onion epidermal cells or A. thaliana plants to detect the expression patterns. In onion epidermal cells, the 160 bp fragment and longer ones were functional for directing GUS expression. In transgenic A. thaliana, the 2?155 bp upstream region of OsGSTL1 gene directed the GUS expression only in cotyledon after germination, but not in the root of young seedlings. In the later seedling, the 2?155 bp upstream region of OsGSTL1 gene directed GUS expression in roots, stems, and leaves. However, the GUS gene directed by a 1?224 bp upstream fragment is expressed in all the checked tissues. These results suggest that the spatiotemporal expression response elements of OsGSTL1 existed in the 5′-upstream region between −2?155 and −1?224 bp.     

<Emphasis Type="Italic">pgd1</Emphasis>, an <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> deletion mutant,is defective in pollen germination

An Arabidopsis deletion mutant was fortuitously identified from the alpha population of T-DNA insertional mutants generated at the University of Wisconsin Arabidopsis Knockout Facility. Segregation and reciprocal crosses indicated that the mutant was a gametophytic pollen sterile mutant. Pollen carrying the mutation has the unusual phenotype that it is viable, but cannot germinate. Thus, the mutant was named pollen germination defective mutant 1 (pgd1), based on the pollen phenotype. Flanking sequences of the T-DNA insertion in the pgd1 mutant were identified by thermal asymmetric interlaced (TAIL) PCR. Sequencing of bands from TAIL PCR revealed that the T-DNA was linked to the gene XLG1, At2g23460, at its downstream end, while directly upstream of the T-DNA was a region between At2g22830 and At2g22840, which was 65 genes upstream of XLG1. Southern blotting and genomic PCR confirmed that the 65 genes plus part of XLG1 were deleted in the pgd1 mutant. A 9,177 bp genomic sequence containing the XLG1 gene and upstream and downstream intergenic regions could not rescue the pgd1 pollen phenotype. One or more genes from the deleted region were presumably responsible for the pollen germination defect observed in the pgd1 mutant. Because relatively few mutations have been identified that affect pollen germination independent of any effect on pollen viability, this mutant line provides a new tool for identification of genes specifically involved in this phase of the reproductive cycle.     

Interactions between enhancer of rudimentary and Notch and deltex reveal a regulatory function of enhancer of rudimentary in the Notch signaling pathway in Drosophila melanogaster

Enhancer of rudimentary, e(r), encodes a small nuclear protein, ER, that has been implicated in the regulation of pyrimidine metabolism, DNA replication and cell proliferation. In Drosophila melanogaster, a new recessive Notch allele, N^nd-p, was isolated as a lethal in combination with an e(r) allele, e(r)^p2. Both mutants are viable as single mutants. N^nd-p is caused by a P-element insertion in the 5′ UTR, 378-bp upstream of the start of translation. Together the molecular and genetic data argue that N^nd-p is a hypomorphic allele of N. The three viable notchoid alleles, N^nd-p, N^nd-1 and N^nd-3, are lethal in combination with e(r)⁻ alleles. Our present hypothesis is that e(r) is a positive regulator of the Notch signaling pathway and that the lethality of the N e(r) double mutants is caused by a reduction in the expression of the pathway. This is supported by the rescue of the lethality by a mutation in Hairless, a negative regulator of N, and by the synthetic lethality of dx e(r) double mutants. Further support for the hypothesis is a reduction in E(spl) expression in an e(r)⁻ mutant. Immunostaining localizes ER to the nucleus, suggesting a nuclear function for ER. A role in the Notch signaling pathway, suggests that e(r) may be expressed in the nervous system. This turns out to be the case, as immunostaining of ER shows that ER is localized to the developing CNS.     

Polarity effects in the lactose operon of Escherichia coli

An intergenic RNA segment between lacY and lacA of the lactose operon in Escherichia coli is cleaved by RNase P, an endoribonuclease. The cleavage of the intergenic RNA was ten times less efficient than cleavage of a tRNA precursor in vitro. Fragments of the RNase P cleavage product are detectable in vivo in the wild-type strain but not in a mutant strain at the restrictive temperature. The cleavage product that contains lacA in the wild-type strain was quickly degraded. When this intergenic segment was cloned upstream of a reporter gene, the expression of the reporter gene was also inhibited substantially in wild-type E.coli, but not in a temperature sensitive mutant strain in RNase P at the restrictive temperature. These results support data regarding the natural polarity between lacZ versus lacA, the downstream gene.     

Construction of a novel sacB-based system for marker-free gene deletion in Corynebacterium glutamicum

Bacillus subtilis sacB gene with its 463 bp upstream region including its native promoter has been used for marker-free gene deletion in Corynebacterium glutamicum, but the role of this upstream region is not clear. In this study, it was demonstrated that the upstream region of sacB failed to efficiently promote its expression in C. glutamicum, and the native promoter of sacB is weak in C. glutamicum. The expression level of sacB under its native promoter in C. glutamicum is not high enough for cells to confer sucrose sensitivity. Therefore, a new promoter PlacM and a novel vector pDXW-3 were constructed. PlacM is 18 times stronger than the native promoter of sacB in C. glutamicum. The pDXW-3 contains B. subtilissacB with the PlacM fused at the 5′-end, a general Escherichia coli replicon oriE for easy cloning, a kanamycin resistance marker for selection, and a multiple unique restriction sites for XhoI, NotI, EagI, SalI, SacI, BamHI, and NheI, respectively. By using pDXW-3, the aceE gene in the chromosome of C. glutamicum was deleted. This sacB-based system should facilitate gene disruption and allelic exchange by homologous recombination in many bacteria.     

Mutagenesis of the cysteine-rich clip domain in the Drosophila patterning protease, Snake

A common motif found in invertebrate serine proteases involved in immunity and development is the clip domain, proposed to regulate catalytic activity or protein-protein interactions within proteolytic cascades. Snake functions in a cascade that patterns the Drosophila embryo, and provides an accessible model for exploring the structural requirements for clip domain function. We tested Snake zymogens bearing charged-to-alanine mutations in the clip domain for their ability to rescue embryos lacking endogenous Snake and for their interactions by S2 cell co-transfection with upstream Gastrulation Defective and downstream Easter in the protease cascade. Of 13 single and multiple substitutions, one double mutant in a predicted protruding region exhibited a severe defect in embryonic rescue but showed only minimal defects in the co-transfection assay. We discuss implications of these and other results for potential biological roles of the Snake clip domain and for use of the in vitro assay in predicting protease behavior.     

A unique nuclear receptor direct repeat 17 (DR17) is present within the upstream region of Schistosoma mansoni female-specific p14 gene

The eggs produced by sexually mature female Schistosma mansoni are responsible for the pathogenesis of the disease. The eggshell precursor gene p14 is expressed only in the vitelline cells of sexually mature female worms in response to a yet unidentified male stimulus. Herein, we report the identification of a novel nuclear receptor response element in the upstream region of the p14 gene. This element contains the canonical hexameric DNA core motif, 5′-PuGGTCA, composed of an atypically spaced direct repeat (DR17). Schistosome nuclear receptors SmRXR1 and SmNR1 specifically bound to the p14-DR17 element as a heterodimer. SmRXR1, but not SmNR1, bound to the motif as a monomer. Introduction of mutations in the TCA core sequence completely abolished the binding by SmRXR1/SmNR1 heterodimer. This finding supports our hypothesis that the expression of Schistosoma mansonip14 gene is regulated through the nuclear receptor signaling pathway.     

Comparison of Sequences from the Ribosomal DNA Intergenic Region of Meloidogyne mayaguensis and Other Major Tropical Root-Knot Nematodes

The unusual arrangement of the 5S ribosomal gene within the intergenic sequence (IGS) of the ribosomal cistron, previously reported for Meloidogyne arenaria, was also found in the ribosomal DNA of two other economically important species of tropical root-knot nematodes, M, incognita and M. javanica. This arrangement also was found in M. hapla, which is important in temperate regions, and M. mayaguensis, a virulent species of concern in West Africa. Amplification of the region between the 5S and 18S genes by PCR yielded products of three different sizes such that M. mayaguensis could be readily differentiated from the other species in this study. This product can be amplified from single juveniles, females, or egg masses. The sequences obtained in this region for one line of each of M. incognita, M. arenaria, and M. javanica were very similar, reflecting the close relationships of these lineages. The M. mayaguensis sequence for this region had a number of small deletions and insertions of various sizes, including possible sequence duplications.