Individual Identification of Racehorses from Urine Samples Using a 26-Plex Single-Nucleotide Polymorphism Assay

被引:3
|
作者
Kakoi, Hironaga [1 ]
Kijima-Suda, Isao [2 ]
Gawahara, Hitoshi [1 ]
Kinoshita, Kenji [2 ]
Tozaki, Teruaki [3 ]
Hirota, Kei-ichi [3 ]
Yoshizawa, Midori [4 ]
机构
[1] Lab Racing Chem, Genet Anal Sect, Utsunomiya, Tochigi 3200851, Japan
[2] Lab Racing Chem, Doping Anal Sect, Utsunomiya, Tochigi 3200851, Japan
[3] Lab Racing Chem, Mol Genet Sect, Utsunomiya, Tochigi 3200851, Japan
[4] Utsunomiya Univ, Dept Anim Sci, Fac Agr, Utsunomiya, Tochigi 3218505, Japan
来源
JOURNAL OF FORENSIC SCIENCES | 2013年 / 58卷 / 01期
关键词
forensic science; DNA typing; horse; urine; single-nucleotide polymorphism; individual identification; PARENTAGE EXCLUSION; THOROUGHBRED HORSES; MICROSATELLITE DNA; MARKERS; VALIDATION; LOCI; TECHNOLOGIES; PROBABILITY; KIT;
D O I
10.1111/j.1556-4029.2012.02291.x
中图分类号
DF [法律]; D9 [法律]; R [医药、卫生];
学科分类号
0301 ; 10 ;
摘要
To construct a system for identifying individual horses from urine samples that are submitted for postracing doping tests, we developed a genotyping assay based on 26-plex single-nucleotide polymorphisms (SNPs). DNA was isolated from urine using a commercially available DNA/RNA extraction kit, and SNP genotyping was achieved with a SNaPshot (TM) technique. DNA profiles including 26 SNPs were acquired from urine samples and blood/hair samples. Within the studied Thoroughbred population, the 26-plex assay showed a probability of identity of 5.80 x 10-11. Compared to the conventional short tandem repeat assay, the SNP assay used less DNA, and the rate of successful genotyping was improved to 97% using aliquots of horse urine as small as 140 mu L. The urinary DNA could be successfully genotyped under proper storage concerning refrigeration or freezethawing. This SNP assay can be used for individual identification when suspicious results are obtained from horse doping tests.
引用
收藏
页码:21 / 28
页数:8
相关论文
共 50 条
  • [1] Electrical Detection Assay Based on Programmable Nucleic Acid Probe for Efficient Single-Nucleotide Polymorphism Identification
    Zhang, Yun
    Chen, Bo
    Chen, Duo
    Wang, Yiming
    Lu, Qingqing
    Tan, Jie
    Chen, Long
    Zhou, Liping
    Tan, Weihong
    Yang, Yanbing
    Yuan, Quan
    ACS SENSORS, 2023, 8 (05) : 2096 - 2104
  • [2] Assay for identification of heterozygous single-nucleotide polymorphism (Ala67Thr) in human poliovirus receptor gene
    Nandi, Shyam Sundar
    Sharma, Deepa Kailash
    Deshpande, Jagadish M.
    INDIAN JOURNAL OF MEDICAL RESEARCH, 2016, 143 : 38 - 45
  • [3] Identification of biparental and diploid blastocysts from monopronuclear zygotes with the use of a single-nucleotide polymorphism array
    Xie, Ping-Yuan
    Tang, Yi
    Hu, Liang
    Ouyang, Qi
    Gu, Yi-Fan
    Gong, Fei
    Leng, Li-Zhi
    Zhang, Shuo-Ping
    Xiong, Bo
    Lu, Guang-Xiu
    Lin, Ge
    FERTILITY AND STERILITY, 2018, 110 (03) : 545 - +
  • [4] Development of bioluminescent pyrophosphate assay using pyruvate phosphate dikinase and its application to single-nucleotide polymorphism analysis
    Arakawa, Hidetoshi
    Karasawa, Koji
    Munakata, Emi
    Obinata, Rie
    Maeda, Masako
    Suzuki, Shigeya
    Kamahori, Masao
    Kambara, Hideki
    ANALYTICAL BIOCHEMISTRY, 2008, 379 (01) : 86 - 90
  • [5] Genotyping and development of single-nucleotide polymorphism (SNP) markers associated with blast resistance genes in rice using GoldenGate assay
    Thakur, Shallu
    Singh, Pankaj K.
    Rathour, Rajeev
    Variar, Mukund
    Prashanthi, Sangam K.
    Gopalakrishnan, S.
    Singh, A. K.
    Singh, U. D.
    Chand, Duni
    Singh, Nagendra K.
    Sharma, Tilak R.
    MOLECULAR BREEDING, 2014, 34 (03) : 1449 - 1463
  • [6] Genotyping and development of single-nucleotide polymorphism (SNP) markers associated with blast resistance genes in rice using GoldenGate assay
    Shallu Thakur
    Pankaj K. Singh
    Rajeev Rathour
    Mukund Variar
    Sangam K. Prashanthi
    S. Gopalakrishnan
    A. K. Singh
    U. D. Singh
    Duni Chand
    Nagendra K. Singh
    Tilak R. Sharma
    Molecular Breeding, 2014, 34 : 1449 - 1463
  • [7] Methods for Human Demographic Inference Using Haplotype Patterns From Genomewide Single-Nucleotide Polymorphism Data
    Lohmueller, Kirk E.
    Bustamante, Carlos D.
    Clark, Andrew G.
    GENETICS, 2009, 182 (01) : 217 - 231
  • [8] Detection of single nucleotide variations and copy number variations in breast cancer tissue and ctDNA samples using single-nucleotide polymorphism-targeted massively multiplexed PCR
    Pelham, Robert J.
    Zimmermann, Bernhard G.
    Kirkizlar, Eser
    Swenerton, Ryan K.
    Hoang, Bin
    Sakarya, Onur
    Babiarz, Joshua E.
    Wayham, Nicholas
    Constantin, Tudor
    Sigurjonsson, Styrmir
    Rabinowitz, Matthew
    Hill, Matthew
    CANCER RESEARCH, 2015, 75
  • [9] Mass spectrometry-based loss of heterozygosity analysis of single-nucleotide polymorphism loci in paraffin embedded tumors assay using the MassEXTEND assay - Single-nucleotide polymorphism loss of heterozygosity analysis of the protein tyrosine phosphatase receptor type J in familial colorectal cancer
    van Puijenbroek, M
    Dierssen, JWF
    Stanssens, P
    van Eijk, R
    Cleton-Jansen, AM
    van Wezel, T
    Morreau, H
    JOURNAL OF MOLECULAR DIAGNOSTICS, 2005, 7 (05): : 623 - 630
  • [10] Cancer classification using loss of heterozygosity data derived from single-nucleotide polymorphism genotyping arrays
    Wang, Yuhang
    2006 28TH ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY, VOLS 1-15, 2006, : 226 - 229
12345