Electrochemical biosensor based on nanogold-modified poly-eriochrome black T film for BCR/ABL fusion gene assay by using hairpin LNA probe

A novel electrochemical biosensor is described for detection of breakpoint cluster region gene and a cellular abl (BCR/ABL) fusion gene in chronic myelogenous leukemia (CML) by using thiolated-hairpin locked nucleic acids (LNA) as the capture probe. The hairpin LNA probe was immobilized on the nanogold (NG)/poly-eriochrome black T (EBT) film-modified glassy carbon electrode (GCE). The immobilized LNA probe could selectively hybridize with its target DNA on LNA/NG/EBT/GCE surface. The immobilization and hybridization of the LNA probe were characterized with cyclic voltammetry and electrochemical impedance spectroscopy. The hybridization of the immobilized LNA probe with the target DNA was detected by differential pulse voltammetry with the electroactive methylene blue as an indicator. The results indicated this new method has excellent specificity for single-base mismatch and complementary after hybridization, and a high sensitivity. This novel electrochemical biosensor has been used for assay of PCR real sample with satisfactory result.     

Molecular beacon-based fluorescence biosensor for the detection of gene fragment and PCR amplification products related to chronic myelogenous leukemia

A novel fluorescence method has been established for the determination of gene fragment and PCR amplification products related to chronic myelogenous leukemia (CML). A molecular beacon (MB) which comprises a DNA loop section, a pair of fluorophore (tetramethoxyl rhodamine, TAMRA), and a quencher (4-(2-methyl-on-amino-azobenzene) benzoate, DABCYL) was designed. The loop sequence of MB was designed according to the DNA sequence relating to CML (type b3a2) which contained a single-stranded oligonucleotide. Before hybridization, the fluorescence from the TAMRA had been quenched by the DABCYL. After hybridization with the complementary DNA, the quencher will become far away from the TAMRA, and the fluorescence intensity detected will increase. Changes in the fluorescence intensity have a linear relationship with the concentration of complementary DNA (C) in the range of 4.0 × 10⁻⁹–3.2 × 10⁻⁸ mol/L, with a correlation coefficient of 0.9973; the detection limit was 6.0 × 10⁻¹⁰ mol/L (S/N = 3). The developed method has high selectivity, which can be used to discriminate single-base mismatch sequence. The method has been applied to detect the short-stranded CML DNA fragment (278 bp) with high sensitivity. This approach is a promising method for the detection of CML in real samples for medical diagnostics.     

Genotyping of single nucleotide polymorphism in MDM2 genes by universal fluorescence primer PCR and capillary electrophoresis

Single nucleotide polymorphism (SNP) 309 in the promoter region of the murine double minute 2 (MDM2) gene plays an important role in human tumorigenesis. We established a simple and effective CE method for SNP detection in the MDM2 gene. We designed one universal fluorescence-based nonhuman-sequence primer and one fragment-oriented primer, which were combined in one tube, and proceeded with the polymerase chain reaction (PCR). The amplicons were analyzed by capillary electrophoresis using single-strand conformation polymorphism method. PCR fragments generated from this two-in-one PCR displayed either T/T or G/G homozygosity or T/G heterozygosity. A total of 304 samples were blindly genotyped using this developed method, which included the DNA from 138 healthy volunteers, 43 chronic myeloid leukemia (CML) patients, and 123 colorectal cancer (CRC) patients. The results were confirmed by DNA sequencing and showed good agreement. The SSCP-CE method was feasible for SNP screening of MDM2 in large populations.     

BRCA1 mutation screening using restriction endonuclease fingerprinting-single-strand conformation polymorphism in an automated capillary electrophoresis system

Efficient mutation scanning techniques are needed for the rapid detection of novel disease-associated mutations and rare-sequence variants of putative importance. The large size of the breast cancer 1 gene (BRCA1) and the many mutations found throughout its entire coding sequence make screening for mutations in this gene particularly challenging. We have developed a method for screening exon 11 of the BRCA1 gene based on restriction enzyme digestion of fluorescence-labeled polymerase chain reaction (PCR) products followed by single-strand conformation polymorphism (SSCP) using an automated capillary electrophoresis system, denoted capillary restriction endonuclease fingerprinting (REF)-SSCP electrophoresis. Using this strategy on a control set of samples, we were able to detect 17 of 18 known sequence alterations. The method was then applied to screen 73 Norwegian females with family histories of breast and/or ovarian cancer. A total of 172 sequence alterations were detected, including substitutions, insertions, and deletions. One novel substitution of unknown function was identified. Sequencing of all samples negative in the capillary REF-SSCP system gave no additional mutations confirming the high sensitivity of the described methodology. Capillary REF-SSCP electrophoresis appeared as a technically convenient technique, requiring amplification of fewer PCR fragments than traditional SSCP. The novel strategy allows high-throughput mutation scanning without radioactive labeling and polyacrylamide gel electrophoresis (PAGE).     

碱基序列标记法结合焦磷酸测序测定不同来源基因表达量

建立了一种将序列标记反转录聚合酶链反应(PCR)与焦磷酸测序技术结合的相对基因表达量测定法(简称"SRPP").先用来源特异性引物对不同来源的同一基因通过反转录标记上特异性标签,PCR后用焦磷酸测序法对扩增产物进行序列解码,使得测序结果中的序列代表基因的来源,峰高代表基因在不同来源中的相对表达量.用实时荧光定量PCR法对本方法的准确性进行了验证,结果表明,SRPP可以同时准确测定同一基因在3个不同来源中的表达量,并实际测定了Egr1基因在糖尿病、肥胖和正常小鼠肝中的表达量差异.     

Sequence-specific electrochemical detection of double-strand PCR amplicons of PML/RARα fusion gene in acute promyelocytic leukemia

A novel electrochemical method for the sequence-specific detection of double-stranded polymerase chain reaction (PCR) products of PML/RARα fusion gene in acute promyelocytic leukemia (APL) was described in detail. Based on a “sandwich” sensing mode involving a pair of locked nucleic acids probes (capture probe and reporter probe), this DNA sensor exhibited excellent selectivity and specificity. The direct and quantitative analysis of double-stranded complementary was firstly performed by our sensor without the use of alkali, helicase enzymes, or denaturants. Finally, combining PCR technique with electrochemical detection scheme, PCR amplicons (191 bp) of the PML/RARα fusion gene were obtained and rapidly identified with a low detection limit of 79 fmol in the 100-μL hybridization system. The results clearly showed the power of sensor as a promising tool for the sensitive, specific, and portable detection of APL and other diseases.     

Electrochemical biosensor for detection of BCR/ABL fusion gene based on hairpin locked nucleic acids probe

This communication reports on a novel biosensor to study the hybridization specificity by using thiolated hairpin locked nucleic acids (LNA) as the capture probe. The LNA probe was immobilized on the gold electrode through sulfur–Au interaction and could selectively hybridize with its target DNA. Differential pulse voltammetry (DPV) was used to monitor the hybridization reaction on the probe electrode. The decrease of the peak current of methylene blue, an electroactive indicator, was observed upon hybridization of the probe with the target DNA. The results indicated this new method has excellent specificity for single-base mismatch and complementary after hybridization, and a high sensitivity. This LNA probe has been used for assay of fusion gene in Chronic Myelogenous Leukemia (CML) of the real sample with satisfactory result.     

分子信标探针荧光法测定慢性粒细胞性白血病相关基因

根据慢性粒细胞性白血病(CML)相关基因b3a2序列设计了一种带有荧光基团和淬灭基团的凸环结构探针(分子信标,MB),研究其与互补目标DNA杂交前后的荧光变化行为,建立了b3a2基因检测的新方法.在最适条件下,得到杂交后溶液荧光强度与本底荧光强度的比值(S/B)和目标DNA 的浓度呈线性关系,r=0.9973,线性范围4.0×10-9～3.2×10-8 mol/L.该方法为实际样品的检测奠定了基础.     

A novel catalase mutation detected by polymerase chain reaction-single strand conformation polymorphism, nucleotide sequencing, and western blot analyses is responsible for the type C of Hungarian acatalasemia

Polymerase chain reaction-single strand conformation polymorphism (PCR-SSCP) screening was used for searching mutations of the catalase gene in two Hungarian hypocatalasemic families. A syndrome-causing mutation was found in a PCR product containing exon 7 and its boundaries. Nucleotide sequence analyses detected a G to T substitution at position 5 of intron 7. The effect of this splice site mutation was confirmed by Western blot analyses demonstrating a decreased catalase protein level in these patients. These findings represent a novel type (C) of catalase mutations in the Hungarian acatalasemic/hypocatalasemic patients.     

Pentalenolactone biosynthesis. Molecular cloning and assignment of biochemical function to PtlI, a cytochrome P450 of Streptomyces avermitilis

A gene cluster encoding all of the enzymes for the biosynthesis of the antibiotic pentalenolactone (1) has recently been identified in Streptomyces avermitilis. The biosynthetic gene cluster contains the ptlI (SAV2999) gene which encodes a cytochrome P450 (CYP183A1). PtlI was cloned by PCR and expressed in Escherichia coli as a C-terminal His6-tag protein. Recombinant PtlI bound pentalenene (3) with high affinity (KD = 1.44 +/- 0.14 muM). Incubation of recombinant PtlI with (+/-)-3 in the presence of NADPH, E. coli flavodoxin and flavodoxin reductase, and O2 resulted in conversion to a single enantiomer of pentalen-13-al (7), by stepwise allylic oxidation via pentalen-13-ol (6). The steady-state kinetic parameters for the oxidation of pentalenene (3) to pentalen-13-ol (6) were kcat = 0.503 +/- 0.006 min-1 and Km = 3.33+/-0.62 muM for 3.     

Genotyping of two single nucleotide polymorphisms in 5,10-methylenetetrahydrofolate reductase by multiplex polymerase chain reaction and capillary electrophoresis

Two single nucleotide polymorphisms (SNPs) of 5,10-methylenetetrahydrofolate reductase (MTHFR) gene, A1298C and C677T, were widely considered to be related with various neoplasia disorders. We established a simple and effective capillary electrophoresis (CE) method for detection of two SNPs in MTHFR gene simultaneously. DNA samples were amplified by multiplex PCR with universal fluorescence-labeled primer and analyzed by single-strand conformation polymorphism (SSCP)-CE method. The CE method was performed using 1.5% hydroxyethyl cellulose in 1× TBE buffer containing 1 M urea. The PCR products after SSCP procedure were electrokinetically injected at −10 kV, 30 s. Separation voltage was −6 kV and the temperature was set at 20 °C. The optimal SSCP-CE method was applied to detect two polymorphisms in MTHFR gene of acute lymphoblastic leukemia (ALL) and attention-deficit/hyperactivity disorder (ADHD) patients. Genotyping results were evaluated in terms of relationships between outcomes for ADHD patients after ALL chemotherapy and ALL disease. The SSCP-CE method and multiplex PCR with universal fluorescence primer were used as the fast technique for screening two SNPs in MTHFR gene, A1298C and C677T. The genotyping data were coincident with DNA sequencing. This SSCP-CE method was found feasible for detecting mutation of MTHFR gene in populations.     

Novel Tyrosine Kinase Inhibitors to Target Chronic Myeloid Leukemia

This paper reports on a novel series of tyrosine kinase inhibitors (TKIs) potentially useful for the treatment of chronic myeloid leukemia (CML). The newly designed and synthesized compounds are structurally related to nilotinib (NIL), a second-generation oral TKI, and to a series of imatinib (IM)-based TKIs, previously reported by our research group, these latter characterized by a hybrid structure between TKIs and heme oxygenase-1 (HO-1) inhibitors. The enzyme HO-1 was selected as an additional target since it is overexpressed in many cases of drug resistance, including CML. The new derivatives 1a–j correctly tackle the chimeric protein BCR-ABL. Therefore, the inhibition of TK was comparable to or higher than NIL and IM for many novel compounds, while most of the new analogs showed only moderate potency against HO-1. Molecular docking studies revealed insights into the binding mode with BCR-ABL and HO-1, providing a structural explanation for the differential activity. Cytotoxicity on K562 CML cells, both NIL-sensitive and -resistant, was evaluated. Notably, some new compounds strongly reduced the viability of K562 sensitive cells.     

A circular ferrofluid driven microchip for rapid polymerase chain reaction

In the past few years, much attention has been paid to the development of miniaturized polymerase chain reaction (PCR) devices. After a continuous flow (CF) PCR chip was introduced, several CFPCR systems employing various pumping mechanisms were reported. However, the use of pumps increases cost and imposes a high requirement on microchip bonding integrity due to the application of high pressure. Other significant limitations of CFPCR devices include the large footprint of the microchip and the fixed cycle number which is dictated by the channel layout. In this paper, we present a novel circular close-loop ferrofluid driven microchip for rapid PCR. A small ferrofluid plug, containing sub-domain magnetic particles in a liquid carrier, is driven by an external magnet along the circular microchannel, which in turn propels the PCR mixture through three temperature zones. Amplification of a 500 bp lambda DNA fragment has been demonstrated on the polymethyl methacrylate (PMMA) PCR microchip fabricated by CO(2) laser ablation and bonded by a low pressure, high temperature technique. Successful PCR was achieved in less than 4 min. Effects of cycle number and cycle time on PCR products were investigated. Using a magnet as the actuator eliminates the need for expensive pumps and provides advantages of low cost, small power consumption, low requirement on bonding strength and flexible number of PCR cycles. Furthermore, the microchip has a much simpler design and smaller footprint compared to the rectangular serpentine CFPCR devices. To demonstrate its application in forensics, a 16-loci short tandem repeat (STR) sample was successfully amplified using the PCR microchip.     

Capillary electrophoresis of DNA for molecular diagnostics

A number of applications of capillary zone electrophoresis (CZE) in sieving liquid polymers (notably linear polyacrylamides and cellulose) for the analysis of polymerase chain reaction (PCR) products of clinically relevant, diagnostic DNA, are reviewed. The fields covered are: human genetics, quantitative gene dosage, microbiology and virology, forensic medicine and therapeutic DNA (notably, antisense nucleotides). Some unique, novel developments are highlighted, such as: (i) nonisocratic CZE, i.e., temperature-programmed CZE for detection of DNA point mutations; (ii) the synthesis of novel N-substituted acrylamides, offering extreme resistance to alkaline hydrolysis coupled to high hydrophilicity. In the field of denaturing gradient gel electrophoresis (DGGE), as routinely performed in gel slabs, a novel methodology is described in CZE: double-gradient DGGE. In this technique, two gradients are simultaneously applied along the migration direction: a chemical (or thermal) denaturing gradient, for partially unwinding homo- and hetero-duplexes of DNA, and a porosity gradient, for recompacting diffuse bands melting over a broader range of denaturing conditions. It is thus demonstrated that chemical gradients, in addition to temperature gradients, can be easily implemented even in a capillary format.     

Pressure controllable aptamers picking strategy by targets competition

Selection of aptamers with high affinity and good specificity requires multiple rounds of alternating steps of separation and PCR amplification.Herein,we proposed a novel high-efficiency aptamers picking strategy:One-round pressure controllable selection(OPCS).OPCS integrates four types of screening superiority,high-efficiency separation,one-round selection and PCR amplification,synchronous negative selection and targets competition.The controllable screening pressure can be achieved through two approaches,balanced competition by the regulation of protein concentration,and dominant competition by introducing a predatory protein with high concentration.In OPCS process,two proteins were co-incubated with one ssDNA library,and each protein bound its favorable sequences specifically and formed protein-ss D NA complex re spectively.Meanwhile,one protein could supply/sufferthe picking pressure of affinity and specificity to/from another,which eliminated weakly bound or unbound sequences for each other.Two complexes could be separated and collected conveniently,and aptamers for two proteins obtained synchronously with high affinity and good specificity.This strategy not only provides a more effective way for aptamers selection,but shows great potential in other ligands or drugs selection.     

Molecular cloning, expression and sequence analysis of DNA polymerase I from an Iranian thermophilic bacterium, Bacillus sp. G (2006)

Thermostable DNA polymerases are widely used in DNA amplification reactions such as the Polymerase Chain Reaction (PCR), requiring the activity of the enzymes at high temperatures. The aim of the present study was to assess the potential biotechnological capabilities of Iranian thermostable DNA polymerases. To this end, we cloned the gene encoding a DNA polymerase from a novel thermophilic eubacterium, Bacillus sp. G (2006). Phylogentic analysis of this gene revealed that the new isolate belongs to the genera Bacillus. Sequence analysis of the fragment produced by degenerate primers also showed that it consists of 2,631 bp encoding an 876 amino acid protein, and subsequent amino acid sequence analysis of this DNA polymerase showed that it belongs to family A-type DNA polymerases. The expression vector pET28a (+) was chosen for expression of the gene fragment in the mesophilic host bacterium E. coli BL21. This expression vector has some advantages such as attachment of a Poly-His tag to the N-terminus of the protein for the ease of purification and a powerful promoter of lac-Z induced by IPTG. The band corresponding to the protein product was observed in the molecular weight range of about 100KDa on the SDS-PAGE gel after heat and Ni⁺²-NTA column chromatography. Using the dot blot technique, the polymerase activity of the enzyme was qualitatively confirmed at 70 °C. Therefore, it is suggested that optimizations of this activity could make this enzyme appropriate for PCR processes in future.     

交联壳聚糖水凝胶填充层状微胶囊的制备与性能

在甲基丙烯酸和乳酸接枝修饰的水溶性壳聚糖(CML)存在下, 合成了尺寸均匀的球形CML杂化碳酸钙微粒. 通过层层组装(LBL)技术在该微粒表面形成了聚苯乙烯磺酸钠(PSS)/聚烯丙基胺盐酸盐(PAH)多层膜, 去除碳酸钙微粒后得到内部含有CML的聚电解质微胶囊. 进一步采用紫外光引发CML聚合, 将CML转化为CML微凝胶, 得到内部填充凝胶的微胶囊. 通过扫描电镜、光学显微镜和透射电镜等技术表征了微胶囊的结构. 与传统的LBL微胶囊不同, 凝胶填充的微胶囊干燥时尺寸收缩, 但仍可保持球形; 再次水化后, 能够膨胀恢复其原有尺寸和形态. 各种具有不同电荷性质、分子量和亲疏水性的染料分子及蛋白质均可有效地装载到微胶囊内.     

Sunlight induces N epsilon-(carboxymethyl)lysine formation from glycated polylysine-iron(III) complex

Sunlight was found to strongly induce the formation of N epsilon-(carboxymethyl)lysine (CML) from glycated polylysine in the presence of Fe(III) ion. The initial step of this Fe(III)-catalyzed CML formation was noted to be similar to that of blueprint photography as was confirmed by the production of Turnbull's blue in sunlight-exposed glycated human serum albumin ferricyanide solution in the presence of Fe(III). Based on this, photoinduced oxidative C-C bond cleavage of the Amadori compound was assumed to be initiated by photochemical single electron transfer front ligand to Fe(III) in the Fe(III)-Amadori compound complex affording the Fe(II)-Amadori compound radical intermediate, which eventually yields either CML or active oxygen species. CML is thus a useful oxidative stress marker. The mechanism proposed here would explain the high accumulation of CML in lens protein and skin actinic elastosis.     

Determination of N epsilon-(carboxymethyl)lysine in exhaled breath condensate using isotope dilution liquid chromatography/electrospray ionization tandem mass spectrometry

In order to identify new biomarkers for pulmonary diseases in exhaled breath condensate (EBC) it was the aim of this study to develop an analytical method for the identification and quantification of N epsilon-(carboxymethyl)lysine (CML) in EBC. As detection by liquid chromatography with positive electrospray ionization tandem mass spectrometry (LC/ESI-MS/MS) offers the advantage of structurally related detection with the necessary specificity required for the identification of a substance, it was the method chosen for the determination of the non-volatile compound. Specific mass transitions and comparison of retention times with standards under given conditions were used for the unequivocal identification of CML in EBC of healthy subjects. Synthesis of isotopically labelled CML was performed and used as an internal standard for an accurate determination. It was possible to identify the advanced glycation end-product CML in 8 out of 10 healthy subjects. The concentration range determined in the quantifiable examined samples ranged between 35 and 110 pg/mL. EBC samples from 11 patients with different diseases such as diabetes and chronic obstructive pulmonary disease were also measured. In one patient with pneumonia a concentration of 1509 pg CML/mL EBC could be detected. This is the first time that CML has been identified and determined in EBC. The developed LC/ESI-MS/MS method could be used to address the utility of CML as a biomarker in pulmonary diseases.     

Fabrication of PDMS/glass microchips by twofold replication of PDMS and its application in genetic analysis

In this paper, we describe a simple method for fabrication of high quality poly(dimethylsiloxane) (PDMS)/glass microchip by twofold replica molding of PDMS. This technique first served to transfer the negative microchannels from the glass template to the PDMS substrate as a master, and then this PDMS master with positive microchannels was used to replicate the PDMS replica with negative microchannels. Finally, the PDMS replica was bound to a glass sheet by UV radiation. The fabricated microchips were successfully applied for the detection of C677T mutation from the human methylenetetrahydrofolate reductase gene.