Simultaneous Genotyping of Three SNVs, rs5471, rs5472, and rs2000999 Involved in Serum Haptoglobin Levels by Fluorescent Probe‐Based Melting Curve Analysis

ABSTRACT Haptoglobin (Hp) is a hemoglobin‐binding acute‐phase serum protein. Several single nucleotide variations (SNVs) within the Hp gene (HP) or Hp‐related protein gene (HPR), such as rs5471 (A > C) and rs5472 (A > G) in HP promoter region and rs2000999 (G > A) in intron 2 of HRP, are su...

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Published inElectrophoresis Vol. 45; no. 21-22; pp. 2028 - 2033
Main Authors Soejima, Mikiko, Koda, Yoshiro
Format Journal Article
LanguageEnglish
Published Germany Wiley Subscription Services, Inc 01.11.2024
Subjects
blood serum
DNA
East Asian People - genetics
electrophoresis
fluorescence
fluorescent dyes
Fluorescent Dyes - chemistry
Fluorescent indicators
Genotype
genotyping
Genotyping Techniques - methods
Ghana
haplotypes
haptoglobin
haptoglobins
Haptoglobins - analysis
Haptoglobins - genetics
Humans
introns
Japan
melting curve genotyping
Nucleotides
Polymorphism, Single Nucleotide
Populations
promoter regions
Proteins
Reproducibility of Results
rs2000999
rs5471
rs5472
Serum proteins
West African People - genetics
Japan
Ghana
rs2000999
melting curve genotyping
haptoglobin
rs5472
rs5471
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Abstract ABSTRACT Haptoglobin (Hp) is a hemoglobin‐binding acute‐phase serum protein. Several single nucleotide variations (SNVs) within the Hp gene (HP) or Hp‐related protein gene (HPR), such as rs5471 (A > C) and rs5472 (A > G) in HP promoter region and rs2000999 (G > A) in intron 2 of HRP, are suggested to correlate with the serum Hp levels. To determine these three SNVs simultaneously, a genotyping assay based on duplex dual‐labeled fluorescent probes was developed. The method was then validated by analyzing genomic DNA from 121 Ghanaian and two Japanese subjects who had been previously genotyped for rs5471, rs5472, and rs2000999. Both rs5471 and rs5472 could be determined as haplotypes with a single FAM‐labeled fluorescent probe, and rs2000999 could be genotyped with a HEX‐labeled fluorescent probe. The results obtained with the present method were consistent with the previous results except for those of three Ghanaian subjects. All three subjects appear to have multiple HPR copy number variants characteristic of African populations, which may have led to incorrect results during previous genotyping. This method allows us to genotype these three SNVs in a relatively large number of samples, especially in African populations where rs5471 is uniquely distributed.
AbstractList Haptoglobin (Hp) is a hemoglobin-binding acute-phase serum protein. Several single nucleotide variations (SNVs) within the Hp gene (HP) or Hp-related protein gene (HPR), such as rs5471 (A > C) and rs5472 (A > G) in HP promoter region and rs2000999 (G > A) in intron 2 of HRP, are suggested to correlate with the serum Hp levels. To determine these three SNVs simultaneously, a genotyping assay based on duplex dual-labeled fluorescent probes was developed. The method was then validated by analyzing genomic DNA from 121 Ghanaian and two Japanese subjects who had been previously genotyped for rs5471, rs5472, and rs2000999. Both rs5471 and rs5472 could be determined as haplotypes with a single FAM-labeled fluorescent probe, and rs2000999 could be genotyped with a HEX-labeled fluorescent probe. The results obtained with the present method were consistent with the previous results except for those of three Ghanaian subjects. All three subjects appear to have multiple HPR copy number variants characteristic of African populations, which may have led to incorrect results during previous genotyping. This method allows us to genotype these three SNVs in a relatively large number of samples, especially in African populations where rs5471 is uniquely distributed.
Haptoglobin (Hp) is a hemoglobin-binding acute-phase serum protein. Several single nucleotide variations (SNVs) within the Hp gene (HP) or Hp-related protein gene (HPR), such as rs5471 (A > C) and rs5472 (A > G) in HP promoter region and rs2000999 (G > A) in intron 2 of HRP, are suggested to correlate with the serum Hp levels. To determine these three SNVs simultaneously, a genotyping assay based on duplex dual-labeled fluorescent probes was developed. The method was then validated by analyzing genomic DNA from 121 Ghanaian and two Japanese subjects who had been previously genotyped for rs5471, rs5472, and rs2000999. Both rs5471 and rs5472 could be determined as haplotypes with a single FAM-labeled fluorescent probe, and rs2000999 could be genotyped with a HEX-labeled fluorescent probe. The results obtained with the present method were consistent with the previous results except for those of three Ghanaian subjects. All three subjects appear to have multiple HPR copy number variants characteristic of African populations, which may have led to incorrect results during previous genotyping. This method allows us to genotype these three SNVs in a relatively large number of samples, especially in African populations where rs5471 is uniquely distributed.Haptoglobin (Hp) is a hemoglobin-binding acute-phase serum protein. Several single nucleotide variations (SNVs) within the Hp gene (HP) or Hp-related protein gene (HPR), such as rs5471 (A > C) and rs5472 (A > G) in HP promoter region and rs2000999 (G > A) in intron 2 of HRP, are suggested to correlate with the serum Hp levels. To determine these three SNVs simultaneously, a genotyping assay based on duplex dual-labeled fluorescent probes was developed. The method was then validated by analyzing genomic DNA from 121 Ghanaian and two Japanese subjects who had been previously genotyped for rs5471, rs5472, and rs2000999. Both rs5471 and rs5472 could be determined as haplotypes with a single FAM-labeled fluorescent probe, and rs2000999 could be genotyped with a HEX-labeled fluorescent probe. The results obtained with the present method were consistent with the previous results except for those of three Ghanaian subjects. All three subjects appear to have multiple HPR copy number variants characteristic of African populations, which may have led to incorrect results during previous genotyping. This method allows us to genotype these three SNVs in a relatively large number of samples, especially in African populations where rs5471 is uniquely distributed.
Haptoglobin (Hp) is a hemoglobin‐binding acute‐phase serum protein. Several single nucleotide variations (SNVs) within the Hp gene (HP) or Hp‐related protein gene (HPR), such as rs5471 (A > C) and rs5472 (A > G) in HP promoter region and rs2000999 (G > A) in intron 2 of HRP, are suggested to correlate with the serum Hp levels. To determine these three SNVs simultaneously, a genotyping assay based on duplex dual‐labeled fluorescent probes was developed. The method was then validated by analyzing genomic DNA from 121 Ghanaian and two Japanese subjects who had been previously genotyped for rs5471, rs5472, and rs2000999. Both rs5471 and rs5472 could be determined as haplotypes with a single FAM‐labeled fluorescent probe, and rs2000999 could be genotyped with a HEX‐labeled fluorescent probe. The results obtained with the present method were consistent with the previous results except for those of three Ghanaian subjects. All three subjects appear to have multiple HPR copy number variants characteristic of African populations, which may have led to incorrect results during previous genotyping. This method allows us to genotype these three SNVs in a relatively large number of samples, especially in African populations where rs5471 is uniquely distributed.
ABSTRACT Haptoglobin (Hp) is a hemoglobin‐binding acute‐phase serum protein. Several single nucleotide variations (SNVs) within the Hp gene (HP) or Hp‐related protein gene (HPR), such as rs5471 (A > C) and rs5472 (A > G) in HP promoter region and rs2000999 (G > A) in intron 2 of HRP, are suggested to correlate with the serum Hp levels. To determine these three SNVs simultaneously, a genotyping assay based on duplex dual‐labeled fluorescent probes was developed. The method was then validated by analyzing genomic DNA from 121 Ghanaian and two Japanese subjects who had been previously genotyped for rs5471, rs5472, and rs2000999. Both rs5471 and rs5472 could be determined as haplotypes with a single FAM‐labeled fluorescent probe, and rs2000999 could be genotyped with a HEX‐labeled fluorescent probe. The results obtained with the present method were consistent with the previous results except for those of three Ghanaian subjects. All three subjects appear to have multiple HPR copy number variants characteristic of African populations, which may have led to incorrect results during previous genotyping. This method allows us to genotype these three SNVs in a relatively large number of samples, especially in African populations where rs5471 is uniquely distributed.
Haptoglobin (Hp) is a hemoglobin‐binding acute‐phase serum protein. Several single nucleotide variations (SNVs) within the Hp gene ( HP ) or Hp‐related protein gene ( HPR ), such as rs5471 (A > C) and rs5472 (A > G) in HP promoter region and rs2000999 (G > A) in intron 2 of HRP , are suggested to correlate with the serum Hp levels. To determine these three SNVs simultaneously, a genotyping assay based on duplex dual‐labeled fluorescent probes was developed. The method was then validated by analyzing genomic DNA from 121 Ghanaian and two Japanese subjects who had been previously genotyped for rs5471, rs5472, and rs2000999. Both rs5471 and rs5472 could be determined as haplotypes with a single FAM‐labeled fluorescent probe, and rs2000999 could be genotyped with a HEX‐labeled fluorescent probe. The results obtained with the present method were consistent with the previous results except for those of three Ghanaian subjects. All three subjects appear to have multiple HPR copy number variants characteristic of African populations, which may have led to incorrect results during previous genotyping. This method allows us to genotype these three SNVs in a relatively large number of samples, especially in African populations where rs5471 is uniquely distributed.
Author Soejima, Mikiko
Koda, Yoshiro
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Snippet ABSTRACT Haptoglobin (Hp) is a hemoglobin‐binding acute‐phase serum protein. Several single nucleotide variations (SNVs) within the Hp gene (HP) or Hp‐related...
Haptoglobin (Hp) is a hemoglobin‐binding acute‐phase serum protein. Several single nucleotide variations (SNVs) within the Hp gene ( HP ) or Hp‐related protein...
Haptoglobin (Hp) is a hemoglobin-binding acute-phase serum protein. Several single nucleotide variations (SNVs) within the Hp gene (HP) or Hp-related protein...
Haptoglobin (Hp) is a hemoglobin‐binding acute‐phase serum protein. Several single nucleotide variations (SNVs) within the Hp gene (HP) or Hp‐related protein...
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pubmed
crossref
wiley
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StartPage 2028
SubjectTerms blood serum
DNA
East Asian People - genetics
electrophoresis
fluorescence
fluorescent dyes
Fluorescent Dyes - chemistry
Fluorescent indicators
Genotype
genotyping
Genotyping Techniques - methods
Ghana
haplotypes
haptoglobin
haptoglobins
Haptoglobins - analysis
Haptoglobins - genetics
Humans
introns
Japan
melting curve genotyping
Nucleotides
Polymorphism, Single Nucleotide
Populations
promoter regions
Proteins
Reproducibility of Results
rs2000999
rs5471
rs5472
Serum proteins
West African People - genetics
Title Simultaneous Genotyping of Three SNVs, rs5471, rs5472, and rs2000999 Involved in Serum Haptoglobin Levels by Fluorescent Probe‐Based Melting Curve Analysis
URI https://onlinelibrary.wiley.com/doi/abs/10.1002%2Felps.202400172
https://www.ncbi.nlm.nih.gov/pubmed/39402836
https://www.proquest.com/docview/3147601113
https://www.proquest.com/docview/3116677406
https://www.proquest.com/docview/3165871308
Volume 45
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