Bovine serum albumin further enhances the effects of organic solvents on increased yield of polymerase chain reaction of GC-rich templates

Bovine serum albumin further enhances the effects of organic solvents on increased yield of polymerase chain reaction of GC-rich templates

<p>Abstract</p> <p>Background</p> <p>While being a standard powerful molecular biology technique, applications of the PCR to the amplification of high GC-rich DNA samples still present challenges which include limited yield and poor specificity of the reaction. Organic...

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Main Authors: Farell Eric M, Alexandre Gladys
Format: Article
Language:English
Published: BMC 2012-05-01
Series:BMC Research Notes
Online Access:http://www.biomedcentral.com/1756-0500/5/257
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spelling doaj-303aedd900434f139ffa99adb16a97f42020-11-25T01:52:42ZengBMCBMC Research Notes1756-05002012-05-015125710.1186/1756-0500-5-257Bovine serum albumin further enhances the effects of organic solvents on increased yield of polymerase chain reaction of GC-rich templatesFarell Eric MAlexandre Gladys<p>Abstract</p> <p>Background</p> <p>While being a standard powerful molecular biology technique, applications of the PCR to the amplification of high GC-rich DNA samples still present challenges which include limited yield and poor specificity of the reaction. Organic solvents, including DMSO and formamide, have been often employed as additives to increase the efficiency of amplification of high GC content (GC > 60%) DNA sequences. Bovine serum albumin (BSA) has been used as an additive in several applications, including restriction enzyme digestions as well as in PCR amplification of templates from environmental samples that contain potential inhibitors such as phenolic compounds.</p> <p>Findings</p> <p>Significant increase in PCR amplification yields of GC-rich DNA targets ranging in sizes from 0.4 kb to 7.1 kb were achieved by using BSA as a co-additive along with DMSO and formamide. Notably, enhancing effects of BSA occurs in the initial PCR cycles with BSA additions having no detrimental impact on PCR yield or specificity. When a PCR was set up such that the cycling parameters paused after every ten cycles to allow for supplementation of BSA, combining BSA and organic solvent produced significantly higher yields relative to conditions using the solvent alone. The co-enhancing effects of BSA in presence of organic solvents were also obtained in other PCR applications, including site-directed mutagenesis and overlap extension PCR.</p> <p>Conclusions</p> <p>BSA significantly enhances PCR amplification yield when used in combination with organic solvents, DMSO or formamide. BSA enhancing effects were obtained in several PCR applications, with DNA templates of high GC content and spanning a broad size range. When added to the reaction buffer, promoting effects of BSA were seen in the first cycles of the PCR, regardless of the size of the DNA to amplify. The strategy outlined here provides a cost-effective alternative for increasing the efficiency of PCR amplification of GC-rich DNA targets over a broad size range.</p> http://www.biomedcentral.com/1756-0500/5/257
collection DOAJ
language English
format Article
sources DOAJ
author Farell Eric M
Alexandre Gladys
spellingShingle Farell Eric M
Alexandre Gladys
Bovine serum albumin further enhances the effects of organic solvents on increased yield of polymerase chain reaction of GC-rich templates
BMC Research Notes
author_facet Farell Eric M
Alexandre Gladys
author_sort Farell Eric M
title Bovine serum albumin further enhances the effects of organic solvents on increased yield of polymerase chain reaction of GC-rich templates
title_short Bovine serum albumin further enhances the effects of organic solvents on increased yield of polymerase chain reaction of GC-rich templates
title_full Bovine serum albumin further enhances the effects of organic solvents on increased yield of polymerase chain reaction of GC-rich templates
title_fullStr Bovine serum albumin further enhances the effects of organic solvents on increased yield of polymerase chain reaction of GC-rich templates
title_full_unstemmed Bovine serum albumin further enhances the effects of organic solvents on increased yield of polymerase chain reaction of GC-rich templates
title_sort bovine serum albumin further enhances the effects of organic solvents on increased yield of polymerase chain reaction of gc-rich templates
publisher BMC
series BMC Research Notes
issn 1756-0500
publishDate 2012-05-01
description <p>Abstract</p> <p>Background</p> <p>While being a standard powerful molecular biology technique, applications of the PCR to the amplification of high GC-rich DNA samples still present challenges which include limited yield and poor specificity of the reaction. Organic solvents, including DMSO and formamide, have been often employed as additives to increase the efficiency of amplification of high GC content (GC > 60%) DNA sequences. Bovine serum albumin (BSA) has been used as an additive in several applications, including restriction enzyme digestions as well as in PCR amplification of templates from environmental samples that contain potential inhibitors such as phenolic compounds.</p> <p>Findings</p> <p>Significant increase in PCR amplification yields of GC-rich DNA targets ranging in sizes from 0.4 kb to 7.1 kb were achieved by using BSA as a co-additive along with DMSO and formamide. Notably, enhancing effects of BSA occurs in the initial PCR cycles with BSA additions having no detrimental impact on PCR yield or specificity. When a PCR was set up such that the cycling parameters paused after every ten cycles to allow for supplementation of BSA, combining BSA and organic solvent produced significantly higher yields relative to conditions using the solvent alone. The co-enhancing effects of BSA in presence of organic solvents were also obtained in other PCR applications, including site-directed mutagenesis and overlap extension PCR.</p> <p>Conclusions</p> <p>BSA significantly enhances PCR amplification yield when used in combination with organic solvents, DMSO or formamide. BSA enhancing effects were obtained in several PCR applications, with DNA templates of high GC content and spanning a broad size range. When added to the reaction buffer, promoting effects of BSA were seen in the first cycles of the PCR, regardless of the size of the DNA to amplify. The strategy outlined here provides a cost-effective alternative for increasing the efficiency of PCR amplification of GC-rich DNA targets over a broad size range.</p>
url http://www.biomedcentral.com/1756-0500/5/257
work_keys_str_mv AT farellericm bovineserumalbuminfurtherenhancestheeffectsoforganicsolventsonincreasedyieldofpolymerasechainreactionofgcrichtemplates
AT alexandregladys bovineserumalbuminfurtherenhancestheeffectsoforganicsolventsonincreasedyieldofpolymerasechainreactionofgcrichtemplates
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