Interference of Paternity Test Due to Uniparental Disomy and STR Locus Mutation on Chromosome 2: A Case Report

doi:10.12116/j.issn.1004-5619.2020.500806

Abstract

CLC Number:

DF795.2

Figures/Tables 7

References 17

1	ENGEL E. A new genetic concept： Uniparental disomy and its potential effect， isodisomy[J]. Am J Med Genet，1980，6（2）：137-143. doi：10.1002/ajmg.1320060207.
2	SPENCE J E， PERCIACCANTE R G， GREIG G M， et al. Uniparental disomy as a mechanism for human genetic disease[J]. Am J Hum Genet，1988，42（2）：217-226.
3	OU X， LIU C， CHEN S， et al Complete paternal uniparental isodisomy for Chromosome2revealed in a parentage testing case[J]. Transfusion，2013，53（6）：1266-1269. doi：10.1111/j.1537-2995.2012.03863.x.
4	WEGENER R， WEIRICH V， DAUBER E M， et al. Mother-child exclusion due to paternal uniparental disomy 6[J]. Int J Legal Med，2006，120（5）：282-285. doi：10.1007/s00414-006-0077-y.
5	MANSUET-LUPO A， HENKE J， HENKE L， et al. A paternity case with three genetic incompatibilities between father and child due to maternal uniparental disomy 21 and a mutation at the Y chromosome[J]. Forensic Sci Int Genet，2009，3（2）：141-143. doi：10.1016/j.fsigen.2008.09.010.
6	BEIN G， DRILLER B， SCHÜRMANN M， et al. Pseudo-exclusion from paternity due to maternal uniparental disomy 16[J]. Int J Legal Med，1998，111（6）：328-330. doi：10.1007/s004140050181.
7	KERR E R， STUHLMILLER G M， MAHA G C， et al. Maternal uniparental isodisomy for chromosome 6 discovered by paternity testing： A case report[J]. Mol Cytogenet，2018，11：60. doi：10.1186/s13039-018-0411-3.
8	KELLER M C， MCRAE A F， MCGAUGHRAN J M， et al. Non-pathological paternal isodisomy of chromosome 2 detected from a genome-wide SNP scan[J]. Am J Med Genet A，2009，149A（8）：1823-1826. doi：10.1002/ajmg.a.32973.
9	ZHOU S， WANG H， WANG Q K， et al. Loss of heterozygosity detected at three short tandem repeat locus commonly used for human DNA identification in a case of paternity testing[J]. Leg Med （Tokyo），2017，24：7-11. doi：10.1016/j.legalmed.2016.11.001.
10	ZHANG X， DING Z， HE R， et al. Complete paternal uniparental disomy of chromosome 2 in an Asian female identified by short tandem repeats and whole genome sequencing[J]. Cytogenet Genome Res，2019，157（4）：197-202. doi：10.1159/000499893.
11	何汝雯，张小川，何仕雯，等. 2号染色体父系单亲二倍体遗传亲子鉴定1例[J].法医学杂志，2018，34（5）：571-574. doi：10.12116/j.issn.1004-5619.2018.05.033.
	HE R W， ZHANG X C， HE S W， et al. Complete paternal uniparental disomy of chromosome 2 in paternity testing： A case report[J]. Fayixue Zazhi，2018，34（5）：571-574.
12	康冰，吴东，王鑫，等. 单亲二倍体对亲子鉴定结论的影响分析[J].中华医学遗传学杂志，2019，36（9）：938-942. doi：10.3760/cma.j.issn.1003-9406.2019.09.021.
	KANG B， WU D， WANG X， et al. Influence of uniparental disomy on the conclusion of paternity testing[J]. Zhonghua Yixue Yichuanxue Zazhi，2019，36（9）：938-942.
13	国家市场监督管理总局，中国国家标准化管理委员会. 亲权鉴定技术规范：[S].北京：中国标准出版社，2018.
	State Administration for Market Regulation， Standardization Administration of China. Specification of parentage testing： [S]. Beijing：China Standards Publishing Press，2018.
14	BRITO R M， RIBEIRO T， VIRIATO L， et al. Sequence variation of new alleles at the short tandem repeat D19S253 locus[J]. J Forensic Sci，2000，45（4）：932-934.
15	WHITTLE M R， ROMANO N L， NEGREIROSV A C. Updated Brazilian genetic data， together with mutation rates， on 19 STR loci， including D10S1237[J]. Forensic Sci Int，2004，139（2/3）：207-210. doi：10.1016/j.forsciint.2003.11.004.
16	LI H X， TONG D Y， LU H L， et al. Mutation analysis of 24 autosomal STR loci using in paternity testing[J]. Forensic Sci Int Genet Suppl Ser，2011，3（1）：e159-e160.
17	黄代新，杨庆恩，梅昆. STR位点D19S253和D8S1179的多态性研究[J].中华医学遗传学杂志，1998，15（4）：228-231.
	HUANG D X， YANG Q E， MEI K. Genetic polymorphism of STR loci D19S253 and D8S1179 for Han population in Wuhan[J]. Zhonghua Yixue Yi-chuanxue Zazhi，1998，15（4）：228-231.

检测区域	引物（5′→3′）	mtDNA位置
HVR-I	F：GGGGAAGCAGATTTGGGTAC	16033-16569
HVR-I	R： CATCGTGATGTCTTATTTAAGGGGA	16033-16569
HVR-Ⅱ	F：GATCACAGGTCTATCACCCTATTA	1-774
HVR-Ⅱ	R：CATTGCTGCGTGCTTGAT	1-774

检测区域	引物（5′→3′）	mtDNA位置
HVR-I	F：GGGGAAGCAGATTTGGGTAC	16033-16569
HVR-I	R： CATCGTGATGTCTTATTTAAGGGGA	16033-16569
HVR-Ⅱ	F：GATCACAGGTCTATCACCCTATTA	1-774
HVR-Ⅱ	R：CATTGCTGCGTGCTTGAT	1-774

STR基因座	引物（5′→3′）	在2号染色体上的位置
D2S144	F：TCTCCCTGACAGACTCTGCG	25500833-25501006
	R：GCTGCATAGGCCGTACTGAG
D2S2223	F：CACTGCGCCTAGCCTC	26559144-26559325
	R：GGCGATTTATGAATAATCCTGC
D2S174	F：AGGCTGAATCCCACCTCC	26839873-26840075
	R：TTAGAGCACACATGGTCACTCC
D2S223	F：CTGTTTTTGTGGTAAGCACC	28337888-28338131
D2S223	R：TTTTTAGGTTCACCCAAATATG	28337888-28338131
D2S358	F：TCGTGGTCTCAAGCATC	68897544-68897710
D2S358	R：GGAAGGACTTGGCAGG	68897544-68897710
2-69446	F：AGGCTTCTGTGTGCGTAGTC	69446395-69446723
2-69446	R：ATAGTGCCTGGCTCATGGTG	69446395-69446723
D2S2152	F：TTTGGGGTACAACTGATCC	69715260-69715391
D2S2152	R：CTCTAAACGTGTGTGTGTGG	69715260-69715391
D2S2115	F：CCCCATGCCCATGTAACA	70351703-70351792
D2S2115	R：AAGCGCCTACTAGATGCCAT	70351703-70351792
ABCB11-AC1	F：ATTTCCCTTCAAACCTCTC	168813096-168813291
ABCB11-AC1	R：TACTATAGGATGAGAGGCAG	168813096-168813291
ABCB11-AC2	F：CATTTCACTATCATGCTGTC	168947593-168947763
ABCB11-AC2	R：CAATTTAAACTTGTGCTGGA	168947593-168947763
ABCB11-AC3	F：GTGAGTCTCCATTATTCATTTCT	169408755-169408981
ABCB11-AC3	R：GATATGCATCTCCTAATTTGCCA	169408755-169408981
ABCB11-CA1	F：GGCCTCAAACTCAGCAGGAT	170222311-170222424
ABCB11-CA1	R：TGGCTGAGATGCATATGAGAAAT	170222311-170222424
ABCB11-CA2	F：GGGCAATCTTGAGCAAGTCTCT	170255379-170255615
ABCB11-CA2	R：GTTCATGTGGGTTTGACTTTCACA	170255379-170255615
D2S2284	F：CAAAGCTGAGAAATGGGTATC	171493405-171493570
D2S2284	R：CATTGCACTGGAACTATCTTTTA	171493405-171493570
D2S2194	F：CCCCCAAGTTTTTTCAAG	171681418-171681559
D2S2194	R：CTGTTTTATTTAGCCTACACTCG	171681418-171681559

STR基因座	引物（5′→3′）	在2号染色体上的位置
D2S144	F：TCTCCCTGACAGACTCTGCG	25500833-25501006
	R：GCTGCATAGGCCGTACTGAG
D2S2223	F：CACTGCGCCTAGCCTC	26559144-26559325
	R：GGCGATTTATGAATAATCCTGC
D2S174	F：AGGCTGAATCCCACCTCC	26839873-26840075
	R：TTAGAGCACACATGGTCACTCC
D2S223	F：CTGTTTTTGTGGTAAGCACC	28337888-28338131
D2S223	R：TTTTTAGGTTCACCCAAATATG	28337888-28338131
D2S358	F：TCGTGGTCTCAAGCATC	68897544-68897710
D2S358	R：GGAAGGACTTGGCAGG	68897544-68897710
2-69446	F：AGGCTTCTGTGTGCGTAGTC	69446395-69446723
2-69446	R：ATAGTGCCTGGCTCATGGTG	69446395-69446723
D2S2152	F：TTTGGGGTACAACTGATCC	69715260-69715391
D2S2152	R：CTCTAAACGTGTGTGTGTGG	69715260-69715391
D2S2115	F：CCCCATGCCCATGTAACA	70351703-70351792
D2S2115	R：AAGCGCCTACTAGATGCCAT	70351703-70351792
ABCB11-AC1	F：ATTTCCCTTCAAACCTCTC	168813096-168813291
ABCB11-AC1	R：TACTATAGGATGAGAGGCAG	168813096-168813291
ABCB11-AC2	F：CATTTCACTATCATGCTGTC	168947593-168947763
ABCB11-AC2	R：CAATTTAAACTTGTGCTGGA	168947593-168947763
ABCB11-AC3	F：GTGAGTCTCCATTATTCATTTCT	169408755-169408981
ABCB11-AC3	R：GATATGCATCTCCTAATTTGCCA	169408755-169408981
ABCB11-CA1	F：GGCCTCAAACTCAGCAGGAT	170222311-170222424
ABCB11-CA1	R：TGGCTGAGATGCATATGAGAAAT	170222311-170222424
ABCB11-CA2	F：GGGCAATCTTGAGCAAGTCTCT	170255379-170255615
ABCB11-CA2	R：GTTCATGTGGGTTTGACTTTCACA	170255379-170255615
D2S2284	F：CAAAGCTGAGAAATGGGTATC	171493405-171493570
D2S2284	R：CATTGCACTGGAACTATCTTTTA	171493405-171493570
D2S2194	F：CCCCCAAGTTTTTTCAAG	171681418-171681559
D2S2194	R：CTGTTTTATTTAGCCTACACTCG	171681418-171681559

基因座	法定父亲	孩子	母亲
D3S1358	14/16	16/17	15/17
D1S1656	15/16	16/17	13/17
D6S1043	12/18	12/21	12/21
D13S317	9	9/10	9/10
Penta E	10/16	16	16/23
D16S539	9/12	9/12	9/11
D18S51	13/24	15/24	14/15
D2S1338^1）	17/23	17/23	19
CSF1PO	11/12	12	10/12
Penta D	9	9	9
TH01	7/9	7/8	7/8
vWA	14/20	14/19	17/19
D21S11	31.2/32.2	29/31.2	29/32.2
D7S820	8	8	8
D5S818	12/13	10/13	10
TPOX^1）	8	8	9
D8S1179	10/14	10/14	10/14
D12S391	15/20	20	20
D19S433	15.2	13/15.2	13/16.2
FGA	23/24	20/24	19/20
D4S2366	10/11	11/12	12/13
D6S477	14	14/17	17
D22GATA198B05	17/18	18/19	19/22
D15S659	12/17	10/17	10/13
D8S1132	20/21	19/20	19/20
D3S3045	11/13	9/13	9
D14S608	7	7/11	11/12
D17S1290	13/16	16	11/16
D3S1744	17/18	17/18	14/17
D2S441^1）	10/15	10/15	12/14
D18S535	11/13	11/14	10/14
D13S325	22/23	22/23	22
D7S1517	22/24	22/27	23/27
D10S1435	11/15	11/12	12
D11S2368	18	18/20	19/20
D19S253^1）	12	12/14	13/15
D7S3048	21/24	22/24	18/22
D10S1248	14	12/14	12/13
D5S2500	13/14	11/13	11

Interference of Paternity Test Due to Uniparental Disomy and STR Locus Mutation on Chromosome 2: A Case Report

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基因座	孩子	母亲
DXS6795	10	10/13
DXS9902	10	10/12
DXS8378	11	10/11
HPRTB	13	13
GATA165B12	10	10
DXS7132	15	15
DXS7424	16	15/16
DXS6807	14	14/15
DXS6803	12.3	12.3/13.3
GATA172D05	10	6/10
DXS6800	16	16
DXS10134	36	35/36
GATA31E08	9	9/11
DXS10159	27	25/27
DXS6789	21	16/21
DXS6810	18	18

mtDNA碱基位置	孩子	母亲
73	73G	73G
248	248del	248del
263	263G	263G
Nt303-315 HVRⅡ C-stretch	309.2C/309.3C	309.2C/309.3C
Nt514-524（CA）3~7	（CA）4	（CA）4
16182	16182C	16182C
16183	16183C	16183C
Nt16184-16193 HVRⅠ C-stretch	10C	10C
16303	16303A	16303A
16304	16304C	16304C
16519	16519C	16519C

STR基因座	法定父亲		孩子		母亲
STR基因座	等位基因1	等位基因2	等位基因1	等位基因2	等位基因1	等位基因2
D2S144	178.29	184.05	178.34	184.09	172.48	187.77
D2S2223	190.83	192.75	190.81	192.73	181.36	185.17
D2S174	203.27	207.05	203.30	207.04	197.67	201.43
D2S223	234.03	234.03	233.98	233.98	225.31	235.95
D2S358	162.50	166.54	162.63	166.57	154.51	166.58
2-69446	327.39	348.15	327.20	348.09	348.15	353.56
D2S2152	131.21	133.35	131.13	133.35	131.06	137.55
D2S2115	67.81	76.36	67.80	75.41	68.41	83.60
ABCB11-AC1	195.26	197.23	195.03	197.05	187.55	192.09
ABCB11-AC2	169.41	169.41	169.46	169.46	163.83	165.85
ABCB11-AC3	216.76	216.76	216.77	216.77	222.65	222.65
ABCB11-CA1	102.41	102.41	102.68	102.68	106.76	106.76
ABCB11-CA2	211.75	229.52	211.60	229.57	209.61	227.71
D2S2284	166.57	166.57	166.53	166.53	162.67	162.67
D2S2194	134.35	138.69	134.42	138.69	131.79	143.98

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