We wished to identify markers associated with allelic nondisjunction in nuclear families with Down syndrome (DS) offspring. Since the GRIK1 and GARS-AIRS-GART genes, mapping to chromosome 21q22.1, may be informative in this regard, we genotyped four single-nucleotide polymorphisms [30952599(A/G) rs363484; 30924733(A/G) rs363506; 34901423(A/G) rs2834235; 34877070(A/G) rs7283354] present in these genes using the SNaPshot™ assay protocol.
Results:
We have reported 30952599(A/G)-rs363484 to be monomorphic in our sample population. Genotyping revealed 35/65 families to be informative for 34877070(A/G)-rs7283354 (GARS-AIRS-GART), whereas only 25/65 and 11/65 are informative for 34901423(A/G)-rs2834235 (GARS-AIRS-GART) and 30924733(A/G)-rs363506 (GRIK1) polymorphisms, respectively. The parent- and stage-of-origin of nondisjunction could be traced in 48/65 families using at least one polymorphic marker. A single trio provided internal validation for assignment of the parent- and stage-of-origin of nondisjunction whereby the nondisjoining alleles were independently identified as G-rs363506, G-rs2834235, and G-rs7283354, respectively. An enhanced ratio of meiosis-I to meiosis-II errors during maternal or paternal meioses accounts for allelic nondisjunction.
Conclusions:
The SNaPshot assay is quantitative and permits multiplexing for detection of allelic nondisjunction. Inclusion of additional informative chromosome 21-specific markers may aid rapid aneuploidy detection, screening, and prenatal counseling of parents at risk of having babies with DS.
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References
1.
AimiJ, QiuH, WilliamsJet al.1990. De novo purine nucleotide biosynthesis: cloning of human and avian cDNAs encoding the trifunctional glycinamide ribonucleotide synthetase-aminoimidazole ribonucleotide synthetase-glycinamide ribonucleotide transformylase by functional complementation in E. coli. Nucleic Acids Res, 18:6665-6672.
2.
American Psychiatric Association. 2000. Diagnostic and Statistical Manual of Mental Disorders. 4thText Revised (DSM-IV TR 2000)American Psychiatric Association Press: Washington DC, 39-46.
3.
AntonarakisSE, LyleR, DermitzakisETet al.2004. Chromosome 21 and Down syndrome: from genomics to pathophysiology. Nat Rev Genet, 5:725-738.
4.
BanerjeeD, GhoshD, ChatterjeeAet al.2012. No evidence for mutations that deregulate GARS-AIRS-GART protein levels in children with Down syndrome. Indian J Clin Biochem[Epub ahead of print]10.1007/s12291-011-0183-6.
5.
BarbonA, BarlatiS. 2000. Genomic organization, proposed alternative splicing mechanisms, and RNA editing structure of GRIK1. Cytogenet Cell Genet, 88:236-239.
6.
BrodskyG, BarnesT, BleskanJet al.1997. The human GARS-AIRS-GART gene encodes two proteins which are differentially expressed during human brain development and temporally over-expressed in cerebellum of individuals with Down syndrome. Hum Mol Genet, 6:2043-2050.
7.
BujalkovaM, ZavodnaK, KrivulcikTet al.2008. Multiplex SNaPshot genotyping for detecting loss of heterozygosity in the mismatch-repair genes MLH1 and MSH2 in microsatellite-unstable tumors. Clin Chem, 54:1844-1854.
8.
ChouMY, RookeN, TurckCWet al.1999. hnRNP H is a component of a splicing enhancer complex that activates a c-src alternative exon in neuronal cells. Mol Cell Biol, 19:69-77.
9.
CiriglianoV, VoglinoG, OrdonezEet al.2009. Rapid prenatal diagnosis of common chromosome aneuploidies by QF-PCR, results of 9 years of clinical experience. Prenat Diagn, 29:40-49.
10.
DierssenM, HeraultY, EstivillX. 2009. Aneuploidy: from a physiological mechanism of variance to Down syndrome. Physiol Rev, 89:887-920.
11.
GardinerK, HeraultY, LottITet al.2010. Down syndrome: from understanding the neurobiology to therapy. J Neurosci, 30:14943-14945.
12.
GhoshD, SinhaS, ChatterjeeAet al.2009. A study of GluK1 kainate receptor polymorphisms in Down syndrome reveals allelic non-disjunction at 1173(C/T)Dis Markers, 27:1-10.
13.
GoranovaTE, OhueM, KatoK. 2009. Putative precursor cancer cells in human colorectal cancer tissue. Int J Clin Exp Pathol, 2:154-162.
14.
GregorP, GastonSM, YangXet al.1994. Genetic and physical mapping of the GLUR5 glutamate receptor gene on human chromosome 21. Hum Genet, 94:565-570.
15.
HardRG, BenkovicSJ, Van KeurenMLet al.1986. Assignment of a third purine biosynthetic gene (glycinamide ribonucleotide transformylase) to human chromosome 21. Am J Hum Genet, 39:179-85.
16.
HillsA, DonaghueC, WatersJet al.2010. QF-PCR as a stand-alone test for prenatal samples: the first 2 years' experience in the London region. Prenat Diagn, 30:509-517.
17.
HochstenbachR, MeijerJ, van de BrugJet al.2005. Rapid detection of chromosomal aneuploidies in uncultured amniocytes by multiplex ligation-dependent probe amplification (MLPA)Prenat Diagn, 25:1032-1039.
18.
HurstCD, ZuiverloonTCM, HafnerCet al.2009. A SNaPshot assay for the rapid and simple detection of four common hotspot codon mutations in the PIK3CA gene. BMC Res Notes, 2:66.
19.
JonesKL. 2006. Smith's Recognizable Patterns of Human Malformation. 6th. Elsevier Saunders: Philadelphia, 7-12.
20.
KooperAJ, FaasBH, Kater-BaatsEet al.2008. Multiplex ligation dependent probe amplification (MLPA) as a stand-alone test for rapid aneuploidy detection in amniotic fluid cells. Prenat Diagn, 28:1004-1010.
21.
KorbelJO, Tirosh-WagnerT, UrbanAEet al.2009. The genetic architecture of Down syndrome phenotypes revealed by high-resolution analysis of human segmental trisomies. Proc Natl Acad Sci U S A, 106:12031-12036.
22.
LeclercqS, LebbarA, GrangeGet al.2008. Optimized criteria for using fluorescence in situ hybridization in the prenatal diagnosis of common aneuploidies. Prenat Diagn, 28:313-318.
23.
Lindblad-TohK, TanenbaumDM, DalyMJ. 2000. Loss-of-heterozygosity analysis of small-cell lung carcinomas using single-nucleotide polymorphism arrays. Nat Biotechnol, 18:1001-1005.
24.
MarkridakisNM, ReichardtJKV. 2001. Multiplex automated primer extension analysis: simultaneous genotyping of several polymorphisms. Biotechniques, 31:1374-1380.
25.
MillerSA, DykesDD, PoleskyHF. 1988. A simple salting out procedure for extracting DNA from human nucleated cells. Nucleic Acids Res, 16:1215.
26.
OitmaaE, PetersM, VaidlaKet al.2010. Molecular diagnosis of Down syndrome using quantitative APEX-2 microarrays. Prenat Diagn, 30:1170-1177.
27.
OliverTR, BhiseA, FeingoldEet al.2009. Investigation of factors associated with paternal nondisjunction of chromosome 21. Am J Med Genet Part A, 149A:1685-1690.
28.
PattersonD, GrawS, JonesC. 1981. Demonstration by somatic cell genetics, of coordination of genes for two enzymes of purine synthesis assigned to human chromosome 21. Proc Natl Acad Sci U S A, 78:405-409.
29.
RamírezNJ, BelalcázarHM, YunisJJet al.2007. Parental origin, nondisjunction, and recombination of the extra chromosome 21 in Down syndrome: a study in a sample of the Colombian population. Biomedica, 27:141-148.
30.
RozenS, SkaletskyHJ. 2000. Primer3 on the WWW for general users and for biologist programmers. KrawetzS, MisenerS. Bioinformatics Methods and Protocols: Methods in Molecular Biology. Humana Press: Totowa, NJ, 365-386.
31.
SavageAR, PetersenMB, PettayDet al.1998. Elucidating the mechanisms of paternal non-disjunction of chromosome 21 in humans. Hum Mol Genet, 7:1221-1227.
32.
SoaresSR, TempladoC, BlancoJet al.2001. Numerical chromosome abnormalities in the spermatozoa of the fathers of children with trisomy 21 of paternal origin: generalised tendency to meiotic non-disjunction. Hum Genet, 108:134-139.
33.
ShermanSL, TakaesuN, FreemanSBet al.1991. Trisomy 21: association between reduced recombination and nondisjunction. Am J Hum Genet, 49:608-620.
34.
VallonePM, JustRS, CobleMDet al.2004. A multiplex allele-specific primer extension assay for forensically informative SNPs distributed throughout the mitochondrial genome. Int J Legal Med, 118:147-157.
35.
Van OpstalD, BoterM, NoomenPet al.2009. Rapid aneuploidy detection with multiplex ligation-dependent probe amplification: a prospective study of 4000 amniotic fluid samples. Eur J Hum Genet, 17:112-121.
36.
WisemanFK, AlfordKA, TybulewiczVLet al.2009. Down syndrome-recent progress and future prospects. Hum Mol Genet, 18:R75-R83.
