Objective:To study the genetic polymorphisms of short-tandem repeats (STR) for the D13S317 locus among an ethnic Han Chinese population and verify a novel tri-allelic pattern identified for the locus. Methods:A total of 378 paternity test cases from Guangdong Forensic Authentication Institute from October 17, 2017 to December 28, 2017 were selected as the study subjects. A GlobalFiler? Express kit was used for the STR genotyping. Samples suspected for having a novel tri-allelic pattern were verified with a PowerPlex ? 21 kit. Potential variant of the primer-binding region and flanking sequences underlying the tri-allelic pattern was excluded by molecular cloning and sequencing. Results:Six alleles were detected for the D13S317 locus, with the characteristic distribution frequencies being 8 (29.1%), 9 (13.1%), 10 (15.21%), 11 (24.21%), 12 (13.89%) and 13 (3.44%), respectively. In one of the families, the D13S317 locus of the proband was suspected to harbor a triband allele (8, 9, 10). A re-test has confirmed the result of initial test. Molecular cloning and sequencing analysis of the D13S317 locus in the proband and his daughter has failed to find allelic variants in the primer-binding region and flanking sequence, which has confirmed the novel tri-allelic pattern for the locus. Conclusion:A novel type 2 tri-allelic pattern (8, 9, 10) at the D13S317 locus has been identified among the ethnic Han Chinese population. The pattern has not been transmitted to the female offspring, and has been included in the international STRBase database for the first time.

Objective To investigate the tendency of viral hepatitis in Changning District, Shanghai, and to provide scientific evidence for decision-making of prevention and control. Methods Cases of viral hepatitis in Changning District from 2009-2019 were collected , and the epidemiological characteristics of viral hepatitis were analyzed by descriptive epidemiological method. Joinpoint regression analysis were used to estimate the annual percent change and average annual percent change, and to perform the trend test. Results Among the 2009-2019 in Changning District, a total of 3 397 cases of viral hepatitis were reported , the annual average incidence rate was 49.32/100 000. Results from Joinpoint trend analysis indicated that the incidence of viral hepatitis in Changning District was mainly due to hepatitis A and hepatitis B. Conclusions Although the annual incidence rate of viral hepatitis in Changning District is far below the incidence rate of viral hepatitis in China, but it still shows an increasing trend. This shows that the situation of prevention and control of viral hepatitis in Changning is still serious, and hepatitis B remains the key point of prevention of viral hepatitis in Shanghai.

Objective:To establish a reliable sequence-based typing method for KIR2DS4 and study its allele polymorphism in Chinese Han population.Methods:Using PCR - SSP method to detect the positive or negative of KIR2DS4 gene in 222 random Chinese Han individuals, and then using the method of high fidelity and long-fragment PCR - SBT to amplified, sequence and genotype the exons 4 and 5 of KIR2DS4 positive individuals.Results:We successfully amplify the fragment with 3.2 kb length contains exons 4 and 5 of KIR2DS4 and detected the KIR2DS4 allele frequency in Chinese Han population. 209 KIR2DS4 positive individuals were detected, and the positive rate is 94.1%. By sequence-based typing, we identified 12 genotypes and 7 alleles of KIR2DS4. The 6 known alleles and their detection frequency is as follows: KIR2DS4 * 00101/011 (180, 81.1%), KIR2DS4 * 010 (53, 23.9%), KIR2DS4 * 004 (34, 15.3%), KIR2DS4 * 003 (15 and 6.8%), KIR2DS4 * 006 (2, 0.9%) and KIR2DS4 * 015 (1, 0.5%). In this study, we found a new allele, KIR2DS4 * 016, with the difference in exon 5 comparing its most similar allele KIR2DS4 * 010. In the exon 5 of KIR2DS4 * 010, there is a 22bp-deletion, while the exon 5 of KIR2DS4 * 016 is normal. This is not a rare allele because it was detected 3 times in studied population and with the frequency of 1.4%. The sequence of the new allele sequence has been submitted to GenBank (accession no.: KC414890) and the IPD - KIR database (submission no.: IWS40001804), and was nominated by WHO nomenclature committee for HLA system. Conclusion:In this study, a sequence-based typing method for KIR2DS4 was established, and the polymorphism data of KIR2DS4 in Chinese Han population was enriched by studying the allele polymorphism and new allele.

OBJECTIVE: To assess the association of KIR/HLA alleles with hepatocellular carcinoma (HCC) and hepatitis B virus (HBV) infection among ethnic Han Chinese patients from southern China. METHODS: For 95 patients with HCC and 171 healthy controls, the genotype of HLA-C alleles was determined with a PCR sequence-specific oligonucleotides typing method on an Illumina GenDx NGSgo platform. Genotypes comprised of HLA-C and KIR gene alleles were also subjected to statistical analysis. RESULTS: In total 16 KIR genes (2DL2, 2DS2, 2DS3, 2DS5, 3DS1, 2DS1, 2DL5, 2DS4, 3DL1, 3DP1, 2DL3, 2DP1, 3DL3, 2DL1, 3DL2 and 2DL4) were discovered in the two groups. The frequencies of KIR2DL3 alleles and combinational genotypes of KIR2DL3/HLA-C1C2 were significantly lower in the patient group compared with the controls (0.9368 vs. 0.9883, χ²>3.84; P<0.05, OR = 0.1; 0.0112 vs. 0.2663, χ²>3.84; P<0.05, RR = 0.03). The frequency of HLA-C2C2 genotype of the patient group was significantly lower than that of the controls (0.0316 vs. 0.2690, P<0.05, RR = 0.09), while the frequency of HLA-C1C2 genotype was significantly higher than that of the controls (0.2316 vs. 0.0058, P<0.05, RR = 51.23). CONCLUSION Above results suggested that the KIR2DL3 allele is associated with lower risk for HCC. There may be individual difference in patients with HCC and HBV infection but various combinations of KIR/HLA alleles.
Alleles ; Carcinoma, Hepatocellular ; genetics ; China ; Gene Frequency ; Genotype ; Humans ; Liver Neoplasms ; genetics ; Polymorphism, Genetic ; Receptors, KIR

OBJECTIVETo study the distribution of MICA alleles among ethnic Han Chinese blood donors from Shenzhen and their linkage disequilibrium with HLA-B gene.

METHODSFor 143 randomly selected blood donors, the MICA and HLA-B alleles were determined with a PCR-sequence based typing (SBT) method. Allelic frequency, haplotypic diversity and linkage disequilibrium were analyzed with a Pypop software.

RESULTSThirteen MICA and 35 HLA-B alleles were identified among the 143 blood donors, among which MICA*008:01 had the highest frequency (76/286), whilst MICA*008:01-HLA-B*40:01 and MICA*010-HLA-B*46:01 were the most common haplotypes. No novel allele was identified.

CONCLUSIONThe allele frequencies, haplotype diversities and linkage disequilibrium parameters under a high resolution can facilitate further studies and applications of the MICA and HLA-B genes.

OBJECTIVETo list the key points for quality control during HLA-A, B, C, DRB1 and DQB1 allele typing by taking consideration of hardware, software and experimental procedures.

METHODSA total of 10 167 samples from randomly selected healthy blood donors and donor-recipient pairs from Shenzhen were typed for exons 2-4 of HLA-A, B, C, exon 2 of HLA-DRB1, and exons 2 and 3 of HLA-DQB1 by PCR- sequence-based typing. For 56 cases whose forward and reverse sequences were inconsistent, the samples were re-checked by a PCR-sequence specific oligonucleotide probe method. Novel alleles not included in the IMGT/HLA database were cloned and sequenced using in-house primers.

RESULTSEight novel HLA alleles were identified. A table for key positions of single nucleotide polymorphisms (SNPs) were generated, which summarized the key points for quality control during HLA-A, B, C, DRB1 and DQB1 allele typing. Among the listed SNPs, 3 were located at the HLA-A locus, 8 were at the HLA-B locus, 6 were at the C locus, 6 were at the DQB1 locus, and 4 were at the DRB1 locus. To ensure the quality control, an unique sample number for DNA transferring tubes in the process of experiment should be considered.

CONCLUSIONA protocol for quality control should be enforced by checking all of the key points. The SNPs and critical control points of the alleles should be examined to ensure the accuracy of HLA typing results.

BACKGROUND:As the sequencing technology has been widely used and high-resolution confirmation of organ transplant matching has been gradualy developed, new human leukocyte antigen (HLA) aleles are emerging. However, the gene frequency of some genes cannot be calculated accurately, and there are rare reports. These genes are often ignored, and it is easy to misjudge their genotypes only according to gene frequency. OBJECTIVE:To test and analyze a rare alele, HLA-C*08:99, from a volunteer donor of hematopoietic stem cel transplantation. METHODS: Genomic DNA was extracted automaticaly from the blood sample by using quick DNA purified kit and amplified by HLA-C locus commercial sequence-based typing kit. The purified PCR product was utilized as the DNA template in the sequencing reaction, and six direct sequencing reactions of PCR product covering exons 2, 3 and 4 in both directions were performed using commercial kit. Four direct sequencing reactions of PCR product covering exon 5 in both directions, exon 6 in forward direction and exon 7 in reverse direction were performed using in-house BigDye terminator cycle sequencing reaction kit. Sequencing reaction products purified by ethanol/sodium acetate/ ethylenediaminetetraacetic acid method were sequenced by ABI PrismTM3730 DNA Sequencer. RESULTS AND CONCLUSION:The alele assignment was analyzed with Assign-SBT 3.6+ software, and the sample HLA-C typing result was C*07:04, 08:99. Increasing the sequencing analysis at exons 5, 6 and 7 of HLA-C locus wil help to make clear the ambiguous SBT result and improve the accuracy of HLA-C typing when it is necessary, which shows important significance in clinical tissue matching. Cite this article:Wang DM, Zou HY, Nie DM, Gao SQ, Wang F.Sequencing analysis of a rare human leukocyte antigen, C*08:99, from a volunteer donor of hematopoietic stem cel transplantation. Zhongguo Zuzhi Gongcheng Yanjiu. 2016;20(1):102-106.

OBJECTIVETo investigate the number and ratio of ambiguous allele combinations from human leukocyte antigen (HLA) confirmatory test by sequencing based typing for unrelated donor marrow transplantation, and to establish an efficient strategy for identifying such ambiguities.

METHODSA total of 650 donor-receipt samples were genotyped for 5 loci of the HLA gene using an Atria SBT commercial kit. Exons 2, 3 and 4 of HLA-A, -B and -C, exon 2 of HLA-DRB1 and exons 2 and 3 of HLA-DQB1 were tested by routine HLA genotyping. The ratio of usual ambiguous allele combination was calculated. The ambiguities were subjected to further confirmatory test by PCR-SSP or PCR-SBT retest at outside of the routine sequencing region.

RESULTSAmong the 650 tested samples, the ratio of ambiguity at HLA-A, B, C, DRB1 and DQB1 were 76.31% (496/650), 91.08% (592/650), 97.69% (635/650), 88.62% (576/650) and 43.38% (141/650), respectively. A total of 36 ambiguous allele combinations inside the routine sequencing region and 22 ambiguous allele combinations outside of the routine sequencing region were discovered. After removing rare alleles based on the Chinese common and well documented (CWD) Allele Table (Version 1.01), 9 ambiguous CWD allele combinations inside the routine sequencing region, including 3 located in HLA-B, HLA-C and 1 located in other three HLA loci were found. Ten ambiguous CWD allele combinations outside of the routine sequencing region, including 4 located in HLA-C, -DRB1 and 1 in HLA-A, -B respectively were determined. All samples with ambiguous CWD allele combinations could be distinguished by high-resolution PCR-SSP commercial kits or PCR SBT retest at outside of the routine sequencing region.

CONCLUSIONThe common and well documented allele combinations in sequencing-based typing at five HLA loci have been analyzed. Our strategy may provide valuable information for more efficient, low cost and accurate method for high resolution genotyping of HLA genes.

Alleles ; Genotype ; HLA Antigens ; genetics ; Humans

OBJECTIVETo investigate the genetic basis for a novel allele HLA-C*01:78.

METHODSGenomic DNA was extracted from peripheral blood using a QIAGEN quick DNA extraction kit. The regions encompassing HLA-C from exon 1 to intron 3 and intron 3 to 3'UTR were amplified and cloned using a cloning sequencing kit in order to split the two alleles apart. Selected clones were sequenced to include exons 2 to 4.

RESULTSSequencing results have indicated the HLA-C alleles of the proband to be a novel C*03:04 allele. The sequence has been submitted to GenBank (KF049216). BLAST analysis has confirmed the novel allele to have one nucleotide difference as C*01:03 at genomic nt316C>A (codon 82CGC>AGC) in exon 2, which has resulted in replacement of one amino acid (82R>S).

CONCLUSIONThe novel allele has been officially named as C*01:78 by the WHO Nomenclature Committee. The HLA allele type of the proband was therefore A*02:07, 24:02; B*40:01, 46:01; C*01:78, 03:04; DQB1*05:02, 05:02; DRB1*16:02, 16:02.

Alleles ; Asian Continental Ancestry Group ; genetics ; Base Sequence ; Exons ; Female ; HLA-C Antigens ; genetics ; Humans ; Introns ; Leukemia ; genetics ; Male ; Molecular Sequence Data ; Polymorphism, Single Nucleotide ; Sequence Analysis, DNA

OBJECTIVETo explore the reason for HLA-DQB1 allele dropout during routine sequence-based typing(SBT) in order to improve the accuracy of typing.

METHODSTwo thousand samples derived from HLA high-resolution typing laboratory were typed for HLA-DQB1 locus using an AlleleSEQR HLA-DQB1 SBT kit. Non-conclusive results and "abnormal" sequencing samples were retyped using a LABType rSSO HD HLA-DQB1 kit and further analyzed with both sequence-specific primers and group-specific primers and sequenced for haplotype analysis.

RESULTSAmong the 2000 samples, 2 samples with no conclusive result were identified. The heterozygosity was confirmed with both the LAB Type SSO HD HLA-DQB1 kit and PCR-SBT in house method. Subsequent HLA-DQB1 cloning and haplotype sequencing have elucidated that HLA-DQB1*02:02 dropped out at exon 2 for the first sample and HLA-DQB1*02:01:01 dropped out at exon 2 for the second sample during PCR amplification. No novel nucleotide mutation was found.

CONCLUSIONOur results indicated that preferential amplification at exon 2 of DQB1 may result in allele dropout in exon 2 sequences during HLA-DQB1 SBT test. This may provide useful information for HLA genotyping.

Alleles ; DNA Primers ; genetics ; Exons ; Genotype ; HLA-DQ beta-Chains ; genetics ; Histocompatibility Testing ; methods ; Humans ; Polymerase Chain Reaction ; methods