Exonic rearrangements in DMD in Chinese Han individuals affected with Duchenne and Becker muscular dystrophies.

Exonic deletions and duplications within DMD are the main pathogenic variants in Duchenne and Becker muscular dystrophies (DMD/BMD). However, few studies have profiled the flanking sequences of breakpoints and the potential mechanism underlying the breakpoints in different fragile regions of DMD. In this study, 896 Chinese male probands afflicted with DMD/BMD were selected from unrelated families and analyzed using multiplex ligation-dependent probe amplification of the DMD gene, in which we identified exon deletions in 784 subjects and duplications in 112 subjects. Deletions occurred most frequently in the genomic region encompassing exons 45-55, accounting for 73% of all deletion patterns. Furthermore, to unravel the potential mechanism that induced breaks, DMD gene capture and sequencing were performed to identify the breakpoints in 37 subjects with deletions encompassing exons 45-55 of DMD; we found that DMD instability did not arise from a single cause; instead, long-sequence motifs, nonconsensus microhomologies, low-copy repeats, and microindels were embedded around the breakpoints, which may predispose DMD to instability. In summary, this study highlights the heterogeneous characteristics of the flanking sequences around the breakpoints and helps us to understand the mechanism underlying DMD gene instability.

Changes to the core and flanking sequences of G-box elements lead to increases and decreases in gene expression in both native and synthetic soybean promoters.

Cis-regulatory elements in promoters are major determinants of binding specificity of transcription factors (TFs) for transcriptional regulation. To improve our understanding of how these short DNA sequences regulate gene expression, synthetic promoters consisting of both classical (CACGTG) and variant G-box core sequences along with different flanking sequences derived from the promoters of three different highly expressing soybean genes, were constructed and used to regulate a green fluorescent protein (gfp) gene. Use of the classical 6-bp G-box provided information on the base level of GFP expression while modifications to the 2-4 flanking bases on either side of the G-box influenced the intensity of gene expression in both transiently transformed lima bean cotyledons and stably transformed soybean hairy roots. The proximal 2-bp sequences on either flank of the G-box significantly affected G-box activity, while the distal 2-bp flanking nucleotides also influenced gene expression albeit with a decreasing effect. Manipulation of the upstream 2- to 4-bp flanking sequence of a G-box variant (GACGTG), found in the proximal region of a relatively weak soybean glycinin promoter, significantly enhanced promoter activity using both transient and stable expression assays, if the G-box variant was first converted into a classical G-box (CACGTG). In addition to increasing our understanding of regulatory element composition and structure, this study shows that minimal targeted changes in native promoter sequences can lead to enhanced gene expression, and suggests that genome editing of the promoter region can result in useful and predictable changes in native gene expression.

Isolation and characterisation of the epothilone gene cluster with flanks from high alkalotolerant strain Sorangium cellulosum (So0157-2).

Epothilones are cytotoxic macrolactones having auspicious anti-tumorous activities, but merely produced by rare Sorangium strains. Here, we have focused on the epothilone gene cluster from special niche bacterial strain, S. cellulosum So0157-2. Therefore, we have isolated a high pH tolerant S. cellulosum strain So0157-2 and characterized the epothilones gene cluster and its flanks by cosmid/fosmid libraries preparation and sequencing. The assembly spanned 94,459 bp and consisted of 56,019 bp core region. Remarkably, the core as well as upstream 420 bp and downstream 315 bp were highly conserved, while further neighboring regions varied extremely. Transposase traces were identified near the core of clusters, supporting that the transposon-mediated transgenesis is a naturally evolved strategy for the cluster's dissemination. A predicted neighboring esterase gene was identified as a potential epothilone-resistance gene preventing self-toxicity. Novel modification or regulatory genes, a multi-position-cyclo releasing gene and their relationship with corresponding analogs were identified in strain So0157-2. These findings open the door to discover additional, naturally evolved epothilone-related genes for significant applications in industrial as well as clinical sector.

Activity Enhancement of G-Quadruplex/Hemin DNAzyme by Flanking d(CCC).

G-quadruplex (G4)/hemin DNAzymes have been extensively applied in bioanalysis and molecular devices. However, their catalytic activity is still much lower than that of proteinous enzymes. The G4/hemin DNAzyme activity is correlated with the G4 conformations and the solution conditions. However, little is known about the effect of the flanking sequences on the activity, though they are important parts of G4s. Here, we report sequences containing d(CCC), flanked on both ends of the G4-core sequences remarkably enhance their DNAzyme activity. By using circular dichroism and UV-visible spectroscopy, the d(CCC) flanking sequences were demonstrated to improve the hemin binding affinity to G4s instead of increasing the parallel G4 formation, which might explain the enhanced DNAzyme activity. Meanwhile, the increased hemin binding ability promoted the degradation of hemin within the DNAzyme by H2O2. Furthermore, the DNAzyme with d(CCC) flanking sequences showed strong tolerance to pH value changes, which makes it more suitable for applications requiring wide pH conditions. The results highlight the influence of the flanking sequences on the DNAzyme activity and provide insightful information for the design of highly active DNAzymes.

A method for amplification of unknown flanking sequences based on touchdown PCR and suppression-PCR.

Thermal asymmetric staggered PCR is the most widely used technique to obtain the flanking sequences. However, it has some limitations, including a low rate of positivity, and complex operation. In this study, a improved method of it was made based on suppression-PCR and touchdown PCR. The PCR fragment obtained by the amplification was used directly for sequencing after gel purification. Using this improved method, the positive rate of amplified flanking sequences of the ATMT mutants reached 99%. In addition, the time from DNA extraction to flanking sequence analysis was shortened to 2 days with about 6 dollars each sample.

The phylogenetic utility and functional constraint of microRNA flanking sequences.

MicroRNAs (miRNAs) have recently risen to prominence as novel factors responsible for post-transcriptional regulation of gene expression. miRNA genes have been posited as highly conserved in the clades in which they exist. Consequently, miRNAs have been used as rare genome change characters to estimate phylogeny by tracking their gain and loss. However, their short length (21-23 bp) has limited their perceived utility in sequenced-based phylogenetic inference. Here, using reference taxa with established phylogenetic relationships, we demonstrate that miRNA sequences are of high utility in quantitative, rather than in qualitative, phylogenetic analysis. The clear orthology among miRNA genes from different species makes it straightforward to identify and align these sequences from even fragmentary datasets. We also identify significant sequence conservation in the regions directly flanking miRNA genes, and show that this too is of utility in phylogenetic analysis, as well as highlighting conserved regions that will be of interest to other fields. Employing miRNA sequences from 12 sequenced drosophilid genomes, together with a Tribolium castaneum outgroup, we demonstrate that this approach is robust using Bayesian and maximum-likelihood methods. The utility of these characters is further demonstrated in the rhabditid nematodes and primates. As next-generation sequencing makes it more cost-effective to sequence genomes and small RNA libraries, this methodology provides an alternative data source for phylogenetic analysis. The approach allows rapid resolution of relationships between both closely related and rapidly evolving species, and provides an additional tool for investigation of relationships within the tree of life.

Identification of pathogenicity-related genes in the rice pathogen Ustilaginoidea virens through random insertional mutagenesis.

Agrobacterium tumefaciens-mediated transformation (ATMT) is becoming a popular effective system as an insertional mutagenesis tool in filamentous fungi. To gain more insight into the cellular and molecular mechanisms in the pathogenesis of Ustilaginoidea virens, the causal agent of rice false smut disease, a T-DNA insertion mutant library of U. virens was established using ATMT. We optimized a range of conditions to improve the transformation efficiency. Transformants were most effectively obtained when the optimal co-cultivation time is 72h, with 50µM AS in medium and 100µl A. tumefaciens for co-cultivation, leading to the production of 160-185 hygromycin B resistant transformants per 1×10(5) conidia. Southern blot analysis indicated that 58.14% of transformants had a single T-DNA copy. Among 5600 transformants tested for virulence, 37 mutants with reproducible pathogenic defects were obtained. The flanking sequences of three avirulent tranformants (B20, B1015 and B1465) and two pathogenicity-reduced transformants (B726 and B785) were amplified by high-efficiency thermal asymmetric interlaced PCR. Sequence analyses revealed that single T-DNA insertion in mutant B20 targeted the coding region of a gene encoding a protein highly similar to SUN family protein, and in mutant B726 targeted upstream of a gene with unknown function. The two T-DNA insertion sites in mutant B785 were found in the coding region of a gene encoding C6 transcription factor, but failed in amplified flanking sequence of another T-DNA. Chromosomal rearrangement occurred in the genome of mutant B1016 and B1465 with single T-DNA insertion. Among avirulent mutants, B20 showed altered colony growth and pigmentation. The T-DNA insert in B20 was detected in the coding region of a gene named UvSUN2. Morphophysiological characterization analysis suggested that UvSUN2 might be a virulence factor, and possibly required for proper fungal growth, cell wall construction, and stress responses in U. virens. This study optimize and validate the transformation procedure, maximizing the number of single copy transformants and developing an efficient procedure for rescuing adjacent host sequences along with the inserted T-DNA. This is the first report of identification several candidate virulence factors and validated one in U. virens. Together with identification of avirulent mutants and their associated genes, results suggested that ATMT can effectively be used to identify genes associated with pathogenicity in U. virens, and provided novel insights into molecular mechanisms underlying virulence of this pathogen.

Gene promoter polymorphisms in boar spermatozoa differing in freezability.

Single nucleotide polymorphisms (SNPs) in the 5'-flanking regulatory regions of genes could affect their expression levels. This is a follow-up study aimed to identify polymorphic variants in the 5'-flanking regulatory regions of genes expressed in boar spermatozoa, and to predict the interactions of such variants with transcription factors (TFs) on the gene promoter activity, using bioinformatics. Five and six boars were classified as having good and poor semen freezability (GSF and PSF, respectively) according to post-thaw (PT) assessment of sperm motility and membrane integrity characteristics. The 5'-flanking region sequences of the 14 genes (FOS, NFATC3, EAF2, FGF-14, BAMBI, RAB33B, CKS2, LARS2, SLC25A16, ACADM, CPT2, CCT3, DTD2 and CCDC85A) were PCR amplified and analyzed by Sanger sequencing method. A total of 32 polymorphic variants were identified in the 5'-flanking regions of the genes, including 4 insertion/deletion (indel) polymorphisms, and 8 unknown (novel) SNPs. Multiple sequence alignment analysis revealed a 26-bp indel variant in the 5'-flanking region of the LARS2 gene, which showed greater protein expression in spermatozoa from boars of the PSF group. It was found that 17 polymorphic variants, observed in the differentially expressed (DE) genes, showed significant allele frequency differences between the GSF and PSF groups. Polymorphic variants in the 5'-flanking regulatory regions of the genes contributed to the decrease or increase in the binding affinity for different testis-specific TFs, such as SMAD1, NF-1, FOXMI, RXRA, STAT4 and C/EBPß. This study provides more insights into the mechanisms responsible for variations in transcriptional activity in promoters of genes expressed in boar spermatozoa. The allelic variants are promising genetic markers for predicting the freezability of boar spermatozoa.

An efficient tool for random insertional mutagenesis: Agrobacterium tumefaciens-mediated transformation of the filamentous fungus Aspergillus terreus.

Agrobacterium tumefaciens-mediated transformation (ATMT) has been widely used in various organisms. In the current study, we developed a simple and efficient system for genetic transformation of the filamentous fungus Aspergillus terreus using ATMT. The transformation protocol was optimized for certain parameters to rapidly generate a library of Transferred DNA (T-DNA) insertion mutants of A. terreus. The presence of mitotically stable hygromycin resistance gene (hph) integration in the genome was confirmed by PCR, and T-DNA flanking sequences were cloned by thermal asymmetric interlaced PCR. The successful construction of the mutant library demonstrated the utility of the ATMT approach for future forward and reverse genetic studies in this important fungus.

SNP-Flankplus: SNP ID-centric retrieval for SNP flanking sequences.

UNLABELLED: The flanking sequences provided by dbSNP of NCBI are usually short and fixed length without further extension, thus making the design of appropriate PCR primers difficult. Here, we introduce a tool named "SNP-Flankplus" to provide a web environment for retrieval of SNP flanking sequences from both the dbSNP and the nucleotide databases of NCBI. Two SNP ID types, rs# and ss#, are acceptable for querying SNP flanking sequences with adjustable lengths for at least sixteen organisms. AVAILABILITY: This software is freely available at http://bio.kuas.edu.tw/snp-flankplus/