Bone Morphogenetic Proteins Signal Via SMAD and Mitogen-activated Protein (MAP) Kinase Pathways at Distinct Times during Osteoclastogenesis

To investigate the role of bone morphogenetic protein (BMP) signaling in osteoclastogenesis in vivo, we eliminated BMPRII in osteoclasts by creating a BMPRII^fl/fl;lysM-Cre mouse strain. Conditional knock-out (cKO) mice are osteopetrotic when compared with WT controls due to a decrease in osteoclast activity. Bone marrow macrophages (BMMs) isolated from cKO mice are severely inhibited in their capacity to differentiate into mature osteoclasts in the presence of M-CSF and receptor activator of NF-κB (RANK) ligand. We also show that BMP noncanonical (MAPK) and canonical (SMAD) pathways are utilized at different stages of osteoclast differentiation. BMP2 induces p38 phosphorylation in pre-fusion osteoclasts and increases SMAD phosphorylation around osteoclast precursor fusion. Phosphorylation of MAPKs was decreased in differentiated BMMs from cKO animals. Treating BMMs with the SMAD inhibitor dorsomorphin confirms the requirement for the canonical pathway around the time of fusion. These results demonstrate the requirement for BMP signaling in osteoclasts for proper bone homeostasis and also explore the complex signaling mechanisms employed by BMP signaling during osteoclast differentiation.     

A large-scale validation of dosage analysis by robust dosage-polymerase chain reaction

Epidemiological and clinical diagnostic assays benefit from accurate detection of deletions and duplications commonly missed by the conventional strategy of polymerase chain reaction (PCR) amplification and sequencing of individual exons. Robust dosage-PCR (RD-PCR) is a quantitative duplex PCR method that coamplifies a target template and an endogenous internal control (an autosomal and an X-chromosomal segment) for detection of these mutations. In this study, 110 consecutive RD-PCR assays were developed and validated. The average linear regression coefficient between template copy number and product yield and the average coefficient of determination for linear correlation, R(2), were very high: 0.95 and 0.98, respectively. The accuracy of RD-PCR revealed somatic mosaicism for a deletion in the factor 9 gene. Advantages of RD-PCR include (1) high accuracy and consistency, (2) easy calibration of linearity using male and female samples, (3) use of an endogenous internal dosage control to eliminate preparation and manipulation errors, and (4) detection of gene dosage over a wide dynamic range. Deletions and duplications can be easily detected (a 2x decrease or a 1.5x increase in gene dosage). Thus, RD-PCR is a general and accurate method for detecting changes in gene dosage.     

Detection of Deletion Mutants in Rice Via Overgo Hybridization Onto Membrane Spotted Arrays

Overlapping nucleotides or overgos were designed and used to detect deletions in rice mutants that had been generated by treatment with a chemical (diepoxybutane, DB) or irradiation (gamma ray, GR). As a proof of concept, DNA of three spotted leaf 11 (spl11) deletion mutants, GR5612, GR5717 and DB2487, and the wild-type DNA (IR64) were spotted onto nylon membranes in different concentrations and probed with radiolabeled overgos designed from different regions within the Spl11 gene. At least 3 μg per spot of DNA was required to show unambiguous and visible signals. Overgos designed from regions putatively deleted in GR5612 consistently did not hybridize to the GR5612 genomic DNA, whereas DNA from wild-type IR64 and from mutants in other regions consistently hybridized to the overgos. DNA of mutant DB2487 hybridized to all the overgos tested, suggesting the deletion is small and undetectable by the overgos. Overall, this study demonstrates that overgos can be employed to detect, verify, and characterize deletions, particularly in single copy genes, in mutant genomes. However, the technique requires careful adjustment of DNA concentration before spotting and the spotting of relatively high DNA concentrations onto the membranes.     

Effect of the chitin binding domain deletion from <Emphasis Type="Italic">Bacillus thuringiensis</Emphasis> subsp. <Emphasis Type="Italic">kurstaki</Emphasis> chitinase Chi255 on its stability in <Emphasis Type="Italic">Escherichia coli</Emphasis>

Bacillus thuringiensis subsp. kurstaki BUPM255 secretes a chitobiosidase Chi255 having an expected molecular weight of 70.665 kDa. When the corresponding gene, chi255, was expressed in E. coli, the active form, extracted from the periplasmic fraction of E. coli/pBADchi255, was of about 54 kDa, which suggested that Chi255 was excessively degraded by the action of E. coli proteases. Therefore, in vitro progressive C-terminal Chi255 deleted derivatives were constructed in order to study their stability and their activity in E. coli. Interestingly, when the chitin binding domain (CBD) was deleted from Chi255, an active form (Chi2555Δ5) of expected size of about 60 kDa was extracted from the E. coli periplasmic fraction, without the observation of any proteolytic degradation. Compared to Chi255, Chi255Δ5 exhibited a higher chitinase activity on colloidal chitin. Both of the enzymes exhibit activities at broad pH and temperature ranges with maximal enzyme activities at pH 5 and pH 6 and at temperatures 50°C and 40°C, respectively for Chi255 and Chi255Δ5. Thus, it was concluded that the C-terminal deletion of Chi255 CBD might be a nice tool for avoiding the excessive chitinase degradation, observed in the native chitinase, and for improving its activity.     

Unequal distribution of genes and chromosomes refers to nuclear diversification in the binucleated Giardia intestinalis

The single-celled parasite Giardia intestinalis (Diplomonadida) has two equally sized nuclei in one cell. The nuclei have been considered identical. We have previously shown that they contain different chromosomal sets and proceed through the cell cycle with some asynchrony. Here, we demonstrate by fluorescence in situ hybridization that several genes from chromosome 5 are lost in one of the two nuclei of the WBc6 Giardia line. The missing segment stretches over at least 50 kb near the 5′ chromosome end. In both WB and WBc6 Giardia cell lines, chromosome 5 is trisomic in one nucleus and monosomic in the other nucleus. The described chromosomal deletion has always been observed at the monosomic chromosome in WBc6; however, the deletion was not detected in the parent line WB. The chromosomal segment was thus initially lost after biological cloning of WB, which gave rise to clone WBc6. We show that Giardia is capable of carrying out gene expression from only one nucleus. The two nuclei display a certain level of diversity, making each of them irreplaceable. The doubled karyomastigonts of diplomonads likely have separate functions both in the mastigont/flagellar organization and in chromosomal and gene content. To our knowledge, our results offer the first methodical approach to differentiating the two, so far indistinguishable nuclei.     

Deleterious effect of angiotensin-converting enzyme gene polymorphism in vitiligo patients

Vitiligo is a rare skin condition caused by an immune reaction. Vitiligo can occur anywhere on the body. This proposed explanation of vitiligo makes it clear that vitiligo is not linked to any other autoimmune diseases. The polymorphisms of some genes present in the immune system play a major function in susceptibility of vitiligo. Meta-analysis studies have shown that the Angiotensin converting enzyme (ACE) gene insertion and deletion polymorphism is closely associated with vitiligo in many ethnicities. The connection between ACE gene and vitiligo is connected through the auto immune diseases and there are no genetic polymorphism studies have been carried out with ACE gene with vitiligo in the Saudi population. Previous studies show that vitiligo patients are more likely to also have an autoimmune disorder. The current study aims to investigate the I/D polymorphism in the ACE gene with diagnosed patients with vitiligo subjects. This is a case-control study carried out in the Saudi population with 100 vitiligo cases and 100 healthy controls. Genotyping was performed through polymerase chain reaction followed by 3% agarose gel electrophoresis. Genotype and allele frequencies were carried out with genetic mode of inheritances. Statistical analysis was performed considering p < 0.05 as significant association. There was a substantial difference in allele frequency distribution between vitiligo patients and healthy controls (OR-1.70 (95%CI: 1.14–2.53); p = 0.008). Additionally, DD genotype (OR-4.71 (95%CI: 1.42–15.61); p = 0.008) and recessive model (OR-2.66 (95%CI: 1.41–5.02); p = 0.002) was strongly associated. Both dominant and co-dominant showed the negative association (p > 0.05) when compared between the vitiligo cases and controls. The correlation between age and genotyping was performed with Anova analysis and current study results confirmed the substantial link between 11 and 20 years (p = 0.01) and 31–40 years (p = 0.04) with the defined age groups. In conclusion, in Saudi populations, the ACE gene I/D polymorphism was identified as being correlated with vitiligo. This is the first study in Saudi Arabia to report the risk factors of vitiligo with the ACE gene polymorphism.     

Characterization of Genomic Deletion Efficiency Mediated by Clustered Regularly Interspaced Palindromic Repeats (CRISPR)/Cas9 Nuclease System in Mammalian Cells

The clustered regularly interspaced palindromic repeats (CRISPR)/CRISPR-associated (Cas) 9 nuclease system has provided a powerful tool for genome engineering. Double strand breaks may trigger nonhomologous end joining repair, leading to frameshift mutations, or homology-directed repair using an extrachromosomal template. Alternatively, genomic deletions may be produced by a pair of double strand breaks. The efficiency of CRISPR/Cas9-mediated genomic deletions has not been systematically explored. Here, we present a methodology for the production of deletions in mammalian cells, ranging from 1.3 kb to greater than 1 Mb. We observed a high frequency of intended genomic deletions. Nondeleted alleles are nonetheless often edited with inversions or small insertion/deletions produced at CRISPR recognition sites. Deleted alleles also typically include small insertion/deletions at predicted deletion junctions. We retrieved cells with biallelic deletion at a frequency exceeding that of probabilistic expectation. We demonstrate an inverse relationship between deletion frequency and deletion size. This work suggests that CRISPR/Cas9 is a robust system to produce a spectrum of genomic deletions to allow investigation of genes and genetic elements.     

Different mutation profiles associated to P53 accumulation in colorectal cancer

The tumor suppressor TP53 gene is one of the most frequently mutated in different types of human cancer. Particularly in colorectal cancer (CRC), it is believed that TP53 mutations play a role in the adenoma–carcinoma transition of tumors during pathological process. In order to analyze TP53 expressed alleles in CRC, we examined TP53 mRNA in tumor samples from 101 patients with sporadic CRC. Samples were divided in two groups defined according to whether they exhibit positive or negative P53 protein expression as detected by immunohistochemistry (IHC). The presence of TP53 mutation was a common event in tumors with an overall frequency of 54.5%. By direct sequencing, we report 42 different TP53 sequence changes in 55 CRC patients, being two of them validated polymorphisms. TP53 mutations were more frequent in positive than in negative P53 detection group (p < 0.0001), being the precise figures 79.6% and 30.8%, respectively. In addition, the mutation profiles were also different between the two groups of samples; while most of the mutations detected in P53 positive group were missense (38 out of 39), changes in P53 negative detection group include 7 insertions/deletions, 6 missense, 2 nonsense and 1 silent mutation. As previously observed, most mutations were concentrated in regions encoding P53 DNA binding domain (DBD). Codons 175, 248 and 273 together account for 36.7% of point mutations, in agreement with previous observations provided that these codons are considered mutation hotspots. Interestingly, we detected two new deletions and two new insertions. In addition, in three samples we detected two deletions and one insertion that could be explained as putative splicing variants or splicing errors.     

水稻OsHAK26启动子的克隆及瞬时表达分析

对水稻KT/HAK/KUP钾离子转运蛋白家族OsHAK26起始密码子上游2 064bp序列进行分析,发现该序列除了具备TATA-Box、CAAT-Box等基本启动子元件外,还含有许多发育、激素、非生物胁迫等响应元件以及KT/HAK/KUP家族启动子普遍存在的元件。用该片段及5'端缺失的-1 473bp、-963bp、-441bp、-193bp四个片段分别取代植物瞬时表达载体pBI-221的CaMV35S启动子区域,并利用拟南芥叶肉原生质体进行瞬时表达分析。结果表明,这五种片段都具有一定的启动活性,随着长度减小,活性下降,但缺失-963bp~-441bp之间的片段却导致活性显著回升,推断该区段含有抑制元件,缺失-441bp~-193bp之间的片段导致活性大幅下降,推断-441bp~-193bp为OsHAK26基因启动子的核心启动区域。