Mouth cavity base defect treated with biosynthetic graft

The use of in vitro prepared biosynthetic grafts can considerably improve the patient’s quality of life. This work reports on the use of an autologous graft prepared from a patient’s preputial cells cultivated on biodegradable polymeric membrane. Coladerm membrane is based on the chemically modified polyelectrolyte complex of atelocollagen and hyaluronan. The graft was used to cover a defect in the mouth cavity base and tongue after reconstruction surgery performed at this site in the past. The presented clinical case showed that the autologous biosynthetic graft prepared from foreskin cells can be successfully used for covering of medium-size defects in mouth cavity base resulting in the regeneration of target mouth structures with significant improvement of patient’s quality of life.     

Understanding the mechanism of beta-hairpin folding via phi-value analysis

The folding kinetics of a 16-residue beta-hairpin (trpzip4) and five mutants were studied by a laser-induced temperature-jump infrared method. Our results indicate that mutations which affect the strength of the hydrophobic cluster lead to a decrease in the thermal stability of the beta-hairpin, as a result of increased unfolding rates. For example, the W45Y mutant has a phi-value of approximately zero, implying a folding transition state in which the native contacts involving Trp45 are not yet formed. On the other hand, mutations in the turn or loop region mostly affect the folding rate. In particular, replacing Asp46 with Ala leads to a decrease in the folding rate by roughly 9 times. Accordingly, the phi-value for D46A is determined to be approximately 0.77, suggesting that this residue plays a key role in stabilizing the folding transition state. This is most likely due to the fact that the main chain and side chain of Asp46 form a characteristic hydrogen bond network with other residues in the turn region. Taken together, these results support the folding mechanism we proposed before, which suggests that the turn formation is the rate-limiting step in beta-hairpin folding and, consequently, a stronger turn-promoting sequence increases the stability of a beta-hairpin primarily by increasing its folding rate, whereas a stronger hydrophobic cluster increases the stability of a beta-hairpin primarily by decreasing its unfolding rate. In addition, we have examined the compactness of the thermally denatured and urea-denatured states of another 16-residue beta-hairpin, using the method of fluorescence resonance energy transfer. Our results show that the thermally denatured state of this beta-hairpin is significantly more compact than the urea-denatured state, suggesting that the very first step in beta-hairpin folding, when initiated from an extended conformation, probably corresponds to a process of hydrophobic collapse.     

The self-assembly ability of the first microtubule-binding repeat from tau and its modulation by phosphorylation

Aggregation of abnormally phosphorylated tau in the form of tangs of paired helical filaments (PHFs) is one of the hallmarks of Alzheimer's disease (AD) and other tauopathies. It is of fundamental importance to study the mechanism of PHF formation and its modulation by phosphorylation. In this work, we have focused on the first microtubule-binding repeat of tau encompassing an abnormal phosphorylation site Ser262. The assembly propensities of this repeat and its corresponding phosphorylated form were investigated by turbidity and electron microscopy. Additionally, conformation of the two peptides is also analyzed through circular dichroism (CD) and NMR spectroscopy. Our results reveal that both of them are capable of self-assembly and phosphorylation at Ser262 could speed up the process of assembly. A possible mechanism of PHF formation is proposed and enhancing effect of phosphorylation on assembly provides an explanation to its toxicity in Alzheimer's disease.     

Mapping nucleolar localization sequences of 1A6/DRIM

Human 1A6/downregulated in metastasis (DRIM) is a nucleolar protein with multiple HEAT-repeat motifs (Huntington, elongation factor 3, a subunit of protein phosphatase 2A, target of rapamycin). The yeast homologue to 1A6/DRIM, Utp20, is part of the small subunit processome and functions in 18S RNA processing. In the present study, we utilized the green fluorescent protein as the fusion protein marker to investigate the sequence responsible for 1A6/DRIM accumulation in nucleolus. Deletion sequence analysis demonstrated that a single region located between amino acids 2744 and 2761 at the C-terminus of 1A6/DRIM is capable of nucleolar accumulation. Two basic amino acid clusters within this region are essential for nucleolar accumulation. The sequences required for nucleolar accumulation overlaps the putative nuclear localization signal of 1A6/DRIM.     

Volume-sensitive outwardly rectifying chloride channels are involved in oxidative stress-induced apoptosis of mesangial cells

Volume-sensitive outwardly rectifying (VSOR) Cl- channels have been electrophysiologically identified in human and mouse mesangial cells, but the functional role of VSOR Cl- channels in mesangial cell apoptosis is not clear. The aim of the present study was to demonstrate the role of VSOR Cl- channels in oxidative stress-induced mesangial cell apoptosis. H2O2-induced Cl- currents showed phenotypic properties of VSOR Cl- channels, including outward rectification, voltage-dependent inactivation at more positive potentials, sensitivity to hyperosmolarity, and inhibition by VSOR Cl- channel blockers. Moreover, blockage of VSOR Cl- channels by DIDS (100 microM), NPPB (10 microM) or niflumic acid (10 microM) rescued mesangial cell apoptosis induced by H2O2. Treatment with 150 microM H2O2 for 2h resulted in significant reduction of cell volume, in contrast, nuclear condensation and/or fragmentation were not observed and the caspase-3 activity was also not increased. The early-phase alterations in cell volume were markedly abolished by pretreatment with VSOR Cl- channel blockers. We conclude that VSOR Cl- channels are involved in H2O2-induced apoptosis in cultured mesangial cells and its mechanism is associated with apoptotic volume decrease processes.     

Human telomeres have different overhang sizes at leading versus lagging strands

G-rich 3' telomeric overhangs are required both for forming the distinct telomere structures to protect chromosome ends and for extending telomeres by telomerase. However, little is known about the molecular mechanisms generating telomere overhangs in human cells. We show here that cultured normal human diploid cells have longer G overhangs at telomeres generated by lagging-strand synthesis than by leading-strand synthesis. We also demonstrate that telomerase expression results in elongated overhangs at the leading daughter telomeres. Thus, the overhangs at the leading and lagging daughter telomeres are generated differently in human cells, and telomerase may preferentially affect overhangs generated at the telomeres produced by leading-strand synthesis.     

Retrotranspositions in orthologous regions of closely related grass species

Background  

Retrotransposons are commonly occurring eukaryotic transposable elements (TEs). Among these, long terminal repeat (LTR) retrotransposons are the most abundant TEs and can comprise 50–90% of the genome in higher plants. By comparing the orthologous chromosomal regions of closely related species, the effects of TEs on the evolution of plant genomes can be studied in detail.     

PCR-based generation of shRNA libraries from cDNAs

Background  

The use of small interfering RNAs (siRNAs) to silence target gene expression has greatly facilitated mammalian genetic analysis by generating loss-of-function mutants. In recent years, high-throughput, genome-wide screening of siRNA libraries has emerged as a viable approach. Two different methods have been used to generate short hairpin RNA (shRNA) libraries; one is to use chemically synthesized oligonucleotides, and the other is to convert complementary DNAs (cDNAs) into shRNA cassettes enzymatically. The high cost of chemical synthesis and the low efficiency of the enzymatic approach have hampered the widespread use of screening with shRNA libraries.