{"title":"Biophysical characterization of double-stranded oligonucleotides using ETBR and isothermal fluorescence spectroscopy: Implication for SNP genotyping","authors":"Pradip Bhattacharya, Swarkar Sharma, Sailesh Gochhait, Rameshwar N.K. Bamezai","doi":"10.1016/j.jprot.2007.10.001","DOIUrl":null,"url":null,"abstract":"<div><p>The UV-absorption, fluorescence and CD spectra of aps 23 bp oligoduplexes were performed for potential diagnostic purpose. These oligonucleotide sequences were mimicked from natural mutations (mitochondrial genome) of human population (unpublished). This work was designed on the basis of hybridization of non-self complementary oligoduplexes (aps) containing no mismatch, one-mismatch and two-mismatches. Since melting temperature™ is dependent on concentration of the oligoduplex, various concentrations were used in this study protocol. The thermal spectra profiles (UV absorbance and fluorescence) of these oligoduplexes (aps) are different for a particular concentration, and can be implicated for mutations. −<!--> <!-->d<em>F</em>/d<em>T</em> (or d<em>A</em>/d<em>T</em>) vs <em>T</em>, ln<em>K</em> (or <em>R</em>ln<em>K</em>) vs <em>T<sub>M</sub></em>, Δ<em>G</em> vs <em>T<sub>M</sub></em>, Δ<em>S</em> vs <em>T<sub>M</sub></em> and Δ<em>H</em> vs <em>T<sub>M</sub></em> are also variable for those sequences. All these thermodynamic data were calculated from absorbance (at 260 nm) data. On the contrary to the 23 bp oligoduplexes (aps), the PCR products of 97 bp and 256 bp length were genotyped with ETBR (excitation 530 nm, emission 600 nm) fluorimetrically. But our attempts to genotype these PCR sequences with isothermal UV absorbance spectroscopy were unsuccessful. Isothermal UV absorbance spectra has a limitation of sequence length. However, the structural conformation (all B-type) of the oligoduplexes (aps) was determined using CD. The minor discrepancy in CD spectra of these oligoduplexes are not significant for mutational analysis. 97 bp nested PCR product was an amplicon having either GcT or AcC mutation of mitochondria of normal human population, whereas 256 bp PCR product was an amplicon of human BRCA2 gene (NCBI Accession No. <span>AY151039</span><svg><path></path></svg>) of chromosome 13 having either A or G mutation at position −<!--> <!-->26.</p></div>","PeriodicalId":15257,"journal":{"name":"Journal of biochemical and biophysical methods","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2008-04-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://sci-hub-pdf.com/10.1016/j.jprot.2007.10.001","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Journal of biochemical and biophysical methods","FirstCategoryId":"1085","ListUrlMain":"https://www.sciencedirect.com/science/article/pii/S0165022X07001765","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
引用次数: 0
Abstract
The UV-absorption, fluorescence and CD spectra of aps 23 bp oligoduplexes were performed for potential diagnostic purpose. These oligonucleotide sequences were mimicked from natural mutations (mitochondrial genome) of human population (unpublished). This work was designed on the basis of hybridization of non-self complementary oligoduplexes (aps) containing no mismatch, one-mismatch and two-mismatches. Since melting temperature™ is dependent on concentration of the oligoduplex, various concentrations were used in this study protocol. The thermal spectra profiles (UV absorbance and fluorescence) of these oligoduplexes (aps) are different for a particular concentration, and can be implicated for mutations. − dF/dT (or dA/dT) vs T, lnK (or RlnK) vs TM, ΔG vs TM, ΔS vs TM and ΔH vs TM are also variable for those sequences. All these thermodynamic data were calculated from absorbance (at 260 nm) data. On the contrary to the 23 bp oligoduplexes (aps), the PCR products of 97 bp and 256 bp length were genotyped with ETBR (excitation 530 nm, emission 600 nm) fluorimetrically. But our attempts to genotype these PCR sequences with isothermal UV absorbance spectroscopy were unsuccessful. Isothermal UV absorbance spectra has a limitation of sequence length. However, the structural conformation (all B-type) of the oligoduplexes (aps) was determined using CD. The minor discrepancy in CD spectra of these oligoduplexes are not significant for mutational analysis. 97 bp nested PCR product was an amplicon having either GcT or AcC mutation of mitochondria of normal human population, whereas 256 bp PCR product was an amplicon of human BRCA2 gene (NCBI Accession No. AY151039) of chromosome 13 having either A or G mutation at position − 26.
应用紫外吸收光谱、荧光光谱和CD光谱对aps 23bp寡双工进行诊断。这些寡核苷酸序列是从人类自然突变(线粒体基因组)中模拟出来的(未发表)。这项工作是在非自互补寡双体(aps)杂交的基础上设计的,其中包含无错配,单错配和双错配。由于熔融温度™取决于寡双相的浓度,因此在本研究方案中使用了不同的浓度。这些寡双聚物(aps)的热光谱分布(紫外吸收和荧光)对特定浓度是不同的,并且可能涉及突变。−dF/dT(或dA/dT) vs T, lnK(或RlnK) vs TM, ΔG vs TM, ΔS vs TM和ΔH vs TM对于这些序列也是可变的。所有这些热力学数据都是根据吸光度(260 nm)数据计算的。与23 bp的寡双链(aps)相反,97 bp和256 bp的PCR产物用ETBR(激发530 nm,发射600 nm)荧光法进行了基因分型。但我们试图用等温紫外吸收光谱对这些PCR序列进行基因分型是不成功的。等温紫外吸收光谱具有序列长度的限制。然而,用CD测定了寡双体(aps)的结构构象(均为b型)。这些寡双体的CD光谱的微小差异对突变分析不显著。巢式PCR产物为正常人线粒体GcT或AcC突变的扩增子,256 bp的扩增子为人BRCA2基因的扩增子(NCBI登录号:13号染色体的AY151039)在−26位有A或G突变。
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