N Sanger sequencing. Moreover, mutations can be reliably distinguished from V

N Sanger sequencing. Moreover, mutations can be reliably distinguished from V600E mutation down to 2? mutant DNA in wild-type background (Figure 3c). In contrast to Sanger sequencing, the analysis of raw pyrosequencing data can be performed automatically using simple logical functions of a spreadsheet application (Table S2 in File S1). Furthermore, in Figure 4 we present the algorithm for automation of BRAF state classification of UBRAFV600 pyrosequencing data analysis taking into consideration the individual features of each mutation variant shown in Table 2. Thus, the single-reaction assay and data analysis automation makes I-BRD9 U-BRAFV600 suitable for the assessment of large clinical sample sizes.Taking all advantages together, we propose U-BRAFV600 approach as a universal diagnostic tool in the automated evaluation of metastatic melanoma and other tumors for their BRAF mutation state prior to targeted therapy.Supporting InformationFigure S1 Comparison of BRAF mutation analyses. (a) conventional pyrosequencing assay; (b) Sanger sequencing; (c) UBRAFV600 pyrosequencing assay. (EPS) File S1 Additional tables. Table S1, Primer sequences and PCR conditions. Table S2, Spreadsheet for BRAF state detection by U-BRAFV600. Table S3, Pyrogram sequence patterns for 36 BRAF mutations detectable by U-BRAFV600 assay. (PDF)AcknowledgmentsWe thank Prof. Wolfgang Hartschuh, Department of Dermatology, University Hospital Heidelberg, for his assistance in immunohistochemical experiments, and Mark Rudin for his assistance in deep-sequencing analysis.Author ContributionsConceived and designed the experiments: AS PH AE. Performed the experiments: AS PH. Analyzed the data: AS PH BB. Contributed reagents/materials/analysis tools: BB AE PS RP. Wrote the paper: AS.
Over the last few years, an impressive scale-up of antiretroviral therapy (ART) has been seen in low and middle income countries (LMIC), with 6,650,000 patients on treatment in 2010 [1]. Most of the patients in these countries currently use stavudine (D4T)containing regimens, followed by zidovudine (AZT)-based treatment [1]. One of the key clinical and operational challenges is the management of treatment-related drug toxicity. Whereas mitochondrial toxicity is the major concern with D4T, AZT use is often complicated by the occurrence of ?sometimes severe ?anemia [2]. Recent World Health Organization (WHO) guidelines have recommended to phase-out the use of D4T, in favor of tenofovir or AZT [3]. Consequently, millions of HIV-infected individuals on ART for prolonged time periods will replace D4T with AZT in the near future. However, studies on the incidence and determinantsof anemia in LMIC in such patients are currently scarce. A number of key questions remain to be addressed. First, there is some evidence that the risk of anemia is FCCP cost particularly high in patients with low body weight. In Peru, discontinuation rate of AZT-containing regimen due to toxicity in the first 120 days increased dramatically with lower baseline ?weight (, 60 kg) among antiretroviral-naive patients starting ART [4]. The authors suggested that a weight-based approach for AZT dosing should be considered to reduce the occurrence of anemia. Such findings could be particularly relevant for regions like SouthEast Asia, where most HIV-infected patients have a body weight clearly below 60 kg. A report from a small study in Thailand demonstrated a relationship between lower body weight and lower AZT clearance, associated with more frequen.N Sanger sequencing. Moreover, mutations can be reliably distinguished from V600E mutation down to 2? mutant DNA in wild-type background (Figure 3c). In contrast to Sanger sequencing, the analysis of raw pyrosequencing data can be performed automatically using simple logical functions of a spreadsheet application (Table S2 in File S1). Furthermore, in Figure 4 we present the algorithm for automation of BRAF state classification of UBRAFV600 pyrosequencing data analysis taking into consideration the individual features of each mutation variant shown in Table 2. Thus, the single-reaction assay and data analysis automation makes U-BRAFV600 suitable for the assessment of large clinical sample sizes.Taking all advantages together, we propose U-BRAFV600 approach as a universal diagnostic tool in the automated evaluation of metastatic melanoma and other tumors for their BRAF mutation state prior to targeted therapy.Supporting InformationFigure S1 Comparison of BRAF mutation analyses. (a) conventional pyrosequencing assay; (b) Sanger sequencing; (c) UBRAFV600 pyrosequencing assay. (EPS) File S1 Additional tables. Table S1, Primer sequences and PCR conditions. Table S2, Spreadsheet for BRAF state detection by U-BRAFV600. Table S3, Pyrogram sequence patterns for 36 BRAF mutations detectable by U-BRAFV600 assay. (PDF)AcknowledgmentsWe thank Prof. Wolfgang Hartschuh, Department of Dermatology, University Hospital Heidelberg, for his assistance in immunohistochemical experiments, and Mark Rudin for his assistance in deep-sequencing analysis.Author ContributionsConceived and designed the experiments: AS PH AE. Performed the experiments: AS PH. Analyzed the data: AS PH BB. Contributed reagents/materials/analysis tools: BB AE PS RP. Wrote the paper: AS.
Over the last few years, an impressive scale-up of antiretroviral therapy (ART) has been seen in low and middle income countries (LMIC), with 6,650,000 patients on treatment in 2010 [1]. Most of the patients in these countries currently use stavudine (D4T)containing regimens, followed by zidovudine (AZT)-based treatment [1]. One of the key clinical and operational challenges is the management of treatment-related drug toxicity. Whereas mitochondrial toxicity is the major concern with D4T, AZT use is often complicated by the occurrence of ?sometimes severe ?anemia [2]. Recent World Health Organization (WHO) guidelines have recommended to phase-out the use of D4T, in favor of tenofovir or AZT [3]. Consequently, millions of HIV-infected individuals on ART for prolonged time periods will replace D4T with AZT in the near future. However, studies on the incidence and determinantsof anemia in LMIC in such patients are currently scarce. A number of key questions remain to be addressed. First, there is some evidence that the risk of anemia is particularly high in patients with low body weight. In Peru, discontinuation rate of AZT-containing regimen due to toxicity in the first 120 days increased dramatically with lower baseline ?weight (, 60 kg) among antiretroviral-naive patients starting ART [4]. The authors suggested that a weight-based approach for AZT dosing should be considered to reduce the occurrence of anemia. Such findings could be particularly relevant for regions like SouthEast Asia, where most HIV-infected patients have a body weight clearly below 60 kg. A report from a small study in Thailand demonstrated a relationship between lower body weight and lower AZT clearance, associated with more frequen.