B.M. Kemps-Mols scite author profile

B.M. Kemps-Mols

5Publications

23Citation Statements Received

31Citation Statements Given

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Leiden University Medical Center, Leiden University

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The source of SYBR green master mix determines outcome of nucleic acid amplification reactions

et al. 2016

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BackgroundQuantitative (q) PCR by amplification of nucleic acid with a fluorescent dye is widely used. Selection of adequate PCR reagents and devices is relevant to achieve reliable and consistent data. Our main objective was to test the robustness of different commercial SYBR green PCR mixes with respect to specificity and sensitivity of the PCR assay, across various PCR machines (Light Cycler 96, ViiA7) and amplification protocols. Herein, we applied PCR protocols for determining mRNA transcript levels, DNA copy numbers, and DNA genotype.ResultsFirst, we set up 70 primer-based assays that targeted immune-related mRNA transcripts. Of the 70 assays 66 (94.3 %) resulted in a single melting curve peak, indicating specificity of the amplification, with PCR mixes from large vendors (Roche, ABI, Bio-Rad). But this was only seen when the PCR protocol that was indicated in the vendor’s guidelines for each particular mix was applied. When deviating from the prescribed protocol, suboptimal melting curves were most often seen when using Roche SYBR green. With respect to PCR yields, the use of ABI mix more often led to lower Cq values. Second, we set up 20 primer-selective PCR assays to target different insertion-deletion and single nucleotide polymorphism regions throughout the genome. The variation in delta Cq between positive and negative DNA samples among the PCR assays was the lowest when using ABI master mix. Finally, the quality of high resolution melting (HRM) assays for DNA genotyping was compared between four commercial HRM PCR mixes (Roche, Bioline, PCR Biosystems, ABI). Only Roche and ABI mixes produced optimal clusters of melting profiles that clearly distinguished genotype variants.ConclusionsThe current results show a preference for the use of ABI mix when it comes to obtaining higher sensitivity in cDNA analysis and a higher consistency among assays in distinguishing DNA genotypes among different individuals. For HRM assays, it is advisable to use master mix from a relatively large vendor.Electronic supplementary materialThe online version of this article (doi:10.1186/s13104-016-2093-4) contains supplementary material, which is available to authorized users.

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Three newly identified HLA‐B alleles: B5124, B5306, B5307 and confirmation of B0809 and B*5606

et al. 2001

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Five HLA-B sequences are described which have been detected as irregular patterns during routine molecular typing. Sequencing of HLA-B exon 2 and 3, both heterozygous and after group specific amplification, revealed three new HLA-B alleles: B*5124, B*5306 and B*5307, whereas the sequences of B*0809 and B*5606 were confirmed. Serological typing showed that B*0809 is expressed as a regular B8, B*5124 as a regular B51, B*5306 as a B51/B53-like variant and B*5606 as a B"blank"-Bw6.

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Effects of HLA Mismatches on Cytokine Release Syndrome and Associated Non-Relapse Mortality in Allogeneic Stem Cell Transplantation with Post-Transplant Cyclophosphamide

Borne

Kemps-Mols

Wreede

et al. 2022

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155-P: Reliable microchimerism detection by combining HLA-targeted flow cytometric cell sorting and real-time PCR

et al. 2009

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Differential effect of HLA-C locus mismatches on the CTL precursor frequency (CTLp)

Oudshoom¹,

Doxiadis²,

Kemps-Mols³

et al. 1997

Immunology Letters

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B.M. Kemps-Mols

The source of SYBR green master mix determines outcome of nucleic acid amplification reactions

Three newly identified HLA‐B alleles: B5124, B5306, B5307 and confirmation of B0809 and B*5606

Effects of HLA Mismatches on Cytokine Release Syndrome and Associated Non-Relapse Mortality in Allogeneic Stem Cell Transplantation with Post-Transplant Cyclophosphamide

155-P: Reliable microchimerism detection by combining HLA-targeted flow cytometric cell sorting and real-time PCR

Differential effect of HLA-C locus mismatches on the CTL precursor frequency (CTLp)

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B.M. Kemps-Mols

The source of SYBR green master mix determines outcome of nucleic acid amplification reactions

Three newly identified HLA‐B alleles: B*5124, B*5306, B*5307 and confirmation of B*0809 and B*5606

Effects of HLA Mismatches on Cytokine Release Syndrome and Associated Non-Relapse Mortality in Allogeneic Stem Cell Transplantation with Post-Transplant Cyclophosphamide

155-P: Reliable microchimerism detection by combining HLA-targeted flow cytometric cell sorting and real-time PCR

Differential effect of HLA-C locus mismatches on the CTL precursor frequency (CTLp)

Contact Info

Product

Resources

About

Three newly identified HLA‐B alleles: B5124, B5306, B5307 and confirmation of B0809 and B*5606