OBJECTIVETo investigate whether miR-492 is involved in the post-transcriptional regulation of OK blood group antigen expression on red blood cells.

METHODSTwo 3'-UTR fragments of the BSG gene were synthesized with a chemical method, which respectively encompassed the BSG rs8259 TT or BSG rs8259 AA sites. The fragments were added with Xho I and Not I restriction enzyme cutting sites at both ends and cloned into a pUC57 vector, which in turn was constructed into a psiCHECK-2 vector and verified by sequencing. K562 cells were transfected with various combinations of miR-492 mimic and constructed psiCHECK2-BSG-T or psiCHECK2-BSG-A recombinant plasmid. A blank control group was set up. Each transfection experiment was repeated three times. The activity of Renilla reniformis luciferase was determined and normalized with that of firefly luciferase, and detected with a dual-luciferase reporter assay system. The data were subjected to statistical analysis.

RESULTSThe sequencing results confirmed that the recombinant psiCHECK2 plasmids containing the BSG rs8259 TT or rs8259 AA sites were constructed successfully. The results of dual-luciferase report gene detection showed that the miR-492 mimic could significantly inhibit psiCHECK2-BSG-T at a concentration over 100 nmol/L. However, it could not inhibit psiCHECK-BSG-A.

CONCLUSIONmiR-492 may be involved in the regulation of OK antigen expression on red blood cells with the BSG rs8259 TT genotype.

Basigin ; genetics ; Blood Group Antigens ; genetics ; Erythrocytes ; immunology ; Gene Expression Regulation ; Genotype ; Humans ; MicroRNAs ; physiology

Group A rotaviruses (RVs) are major pathogens associated with acute gastroenteritis in young children and animals worldwide. VP4 is responsible for interaction with the host and viral attachment. Recent study showed that the distal portion of rotavirus (RV) VP4 spike protein (VP8*) is implicated in binding to human histo-blood group antigens (HBGAs), which is new cellular receptors on rotavirus, Published in Nature and Journal of Virology in 2012. The paper describes advances in correlation between rotaivrus and HBGAs, summarizes the main achievements has gotten, Clarify the significance of study on Rotaivrus and HBGAs.
Animals ; Blood Group Antigens ; genetics ; immunology ; Genetic Variation ; Humans ; Rotavirus ; immunology ; physiology ; Rotavirus Infections ; blood

No abstract available.
ABO Blood-Group System/immunology ; Agglutination Tests ; Alleles ; Base Sequence ; Blood Group Antigens/*genetics/immunology ; Chimerism ; Exons ; Female ; Genotype ; Humans ; Infant ; Male ; Microsatellite Repeats/genetics ; Pedigree ; Republic of Korea ; Sequence Analysis, DNA ; Twins, Dizygotic

This study was aimed to investigate the distribution of rare blood group in Zhejiang Han population. The H(-) (H system), GPA(-) and s(-) (MNS), Rhnull, Rhmod, D--, CCDEE, CCdEE (variations of Rh), GPC(-) (Gerbich), i(+) (I), Lu(b-) (Lutheran), Js(b-) and k(-) (Kell), Fy(a-) (Duffy), Ok(a-) (Ok), Di(b-) (Diego) phenotypes were screened by serological or molecular methods. Jk (a-b-) phenotype was detected by urea hemolytic test. The results showed that one Di (a+b-) individual was found in 1618 blood donors, three Fy (a-b+) individuals in 1007 donors and one CCdEE individual in 633 Rh negative donors. No Jk (a-b-), H(-), GPA(-), s(-), GPC(-), i(+) (adult), Lu(b-), k(-), Js(b-), Lu(b-) and Ok(a-) phenotypes were found in this large scale survey. It is concluded that Di (a+b-), Fy (a-b+), CCdEE phenotypes are confirmed in the blood donors and this study provides the distribution data of erythrocyte rare blood group in Zhejiang Han population.
Asian Continental Ancestry Group ; genetics ; Blood Group Antigens ; genetics ; Blood Grouping and Crossmatching ; methods ; Erythrocytes ; immunology ; Humans ; Molecular Biology ; Phenotype

The MNS blood group system includes more than 40 antigens, and the M, N, S and s antigens are the most significant ones in the system. The antigenic determinants of M and N antigens lie on the top of GPA on the surface of red blood cells, while the antigenic determinants of S and s antigens lie on the top of GPB on the surface of red blood cells. The GYPA gene coding GPA and the GYPB gene coding GPB locate at the longarm of chromosome 4 and display 95% homologus sequence, meanwhile both genes locate closely to GYPE gene that did not express product. These three genes formed "GYPA-GYPB-GYPE" structure called GYP genome. This review focuses on the molecular basis of genomic GYP and the variety of GYP genome in the expression of diversity MNS blood group antigens. The molecular basis of Miltenberger hybrid glycophorin polymorphism is specifically expounded.
Blood Group Antigens ; genetics ; Chromosomes, Human, Pair 4 ; genetics ; Humans ; MNSs Blood-Group System ; genetics ; immunology ; Molecular Sequence Data ; Sequence Homology

OBJECTIVEA reliable method for genotyping blood group antigens Dib, k, Jsb1910 and Jsb2019 was developed. Through screening for rare blood types, the National Rare Blood Bank of China may be enriched.

METHODSThe controls for allele detection of blood groups Dib, k, Jsb1910 and Jsb2019 were prepared via polymerase chain reaction (PCR)-mediated gene site-directed mutagenesis (SDM) technique. Sequence-specific primers were designed according to known single nucleotide polymorphism (SNP) sites of alleles of blood groups antigens Dib, k, Jsb1910 and Jsb2019, a multiplex PCR system was developed by optimizing PCR reaction system. And 4190 random healthy donors samples were screened for the blood group antigens.

RESULTSUsing SDM technique, controls for alleles in blood group Dib, k, Jsb1910 and Jsb2019 were successfully generated. And a multiplex PCR system for genotyping above blood groups was developed. After verification, the system has performed with good stability and reproducibility. Two Di (b-) samples have been discovered from 4190 samples, no k- and Js(b-) sample was found.

CONCLUSIONMultiplex PCR features rapid detection, high throughput and low cost, and can be used for screening for donors of rare blood types. Information of donors may be registered in a database, which in turn can help those with rare blood types or require long-term blood transfusion to obtain matched blood, thereby reduce the adverse reactions of blood transfusion.

Blood Group Antigens ; genetics ; Erythrocytes ; immunology ; Genotyping Techniques ; Humans ; Multiplex Polymerase Chain Reaction ; methods ; Mutagenesis, Site-Directed ; Polymorphism, Single Nucleotide

OBJECTIVETo investigate the frequency of anti-Mur and Mur antigen among blood donors in Guangzhou to provide evidence for guiding clinical transfusion and prenatal screening.

METHODSDG Gel Coombs cards were used to screen active anti-Mur at 37 degrees celsius; from 2725 blood donors. Multiplex ligation-dependent probe amplification (MLPA) was used to genotype Mur antigen from 91 blood donors, and human anti-Mur serum was used to verify the phenotypes deduced from the genotypes.

RESULTSThe frequency of anti-Mur and genotyped Mur antigen was 0.04% (1/2725) and 6.59% (6/91), respectively, and the phenotyping results were consistent with the genotyping results.

CONCLUSIONThe blood donors in Guangzhou show a low frequency of anti-Mur and a relatively high frequency of Mur antigen. Genotyping using MLPA allows Mur antigen genotyping when commercial anti-Mur is not available.

Blood Donors ; Blood Group Antigens ; genetics ; immunology ; China ; Genotype ; Genotyping Techniques ; Humans ; Multiplex Polymerase Chain Reaction ; Phenotype

This study was purposed to determine the mode and size of human platelet antigens (HPA) typed platelet apheresis donor bank. The published data of HPA distribution collected from Chinese Han population of 16 provinces were analyzed. The combined data were tested with the Hardy-Weinberg equilibrium. The results showed that the bb homozygote was not detected in HPA-1, -4, -6, -10, and b gene was not found in HPA-7-9, 11-14, -16. There were 648 combined HPA 1-16 genotypes in Chinese Han population, and the cumulative frequency of 42 combinations higher than 0.001 were 0.9763. The highest frequency (0.2012) in combination was HPA-(7-8-9-11-12-13-14-16) aa - (1-4-5-6-10) aa-2aa-3ab-15ab. The probability of HPA dual antigen mismatch in HPA-15, -3 and -2 was higher than the 0.1, and the probability in the HPA-1, -5, and -6 was between 0.01 - 0.1. The probability of full-match in HPA1-16 antigens was 0.3195 in Chinese Han population after the random blood transfusion. According to the curve drawn by donor number (N) versus frequency (F), the regression equation LogN = -0.4394 x Ln (F) +0.4324 was derived at P = 95%. If the derived frequency (product of HPA frequency and ABO frequency) is 0.005, then the N should be 576.07 at least in Chinese Han population. It is concluded that the mode of regional, multi-center database of HPA-typed platelet apheresis donor bank may be acceptable in Chinese Han population, and the suitable number of HPA-typed platelet donor in one bank may be 600. Therefore, the bank can be used to treat the platelet transfusion refractoriness (PTR) caused by HPA-15, 3 and 2 mismatch mainly, and can be expanded effectively in similar genetic background to deal with the low-frequency HPA antigens mismatch. The number of HPA-typed platelet apheresis donor influences not only on the frequency of HPA, but also on the frequency of ABO group.
Antigens, Human Platelet ; genetics ; immunology ; Asian Continental Ancestry Group ; genetics ; Blood Donors ; Gene Frequency ; Genotype ; Histocompatibility Testing ; Humans ; Platelet Transfusion ; Plateletpheresis

This study was aimed to establish a genotyping method to detect ABO group gene of fetus from peripheral blood of pregnant women for prenatal diagnosis of hemolytic disease of newborn (HDN) resulting from ABO blood group incompatibility. 4 pairs of primers were designed according to ABO blood group gene DNA and mRNA sequences. 20 plasma DNA samples from healthy donors were extracted and amplified to explore the best conditions for plasma DNA extraction and PCR amplification. The O group plasma DNA was mixed with A group or B group plasmas by the ratios of 1:1, 2:1, 4:1, 8:1, 10:1, 20:1, 40:1, 100:1 to simulate the status of mixed ABO gene from pregnant maternal blood and to establish the mixed blood group ABO genotyping technology. The pregnant maternal blood samples with more than 30 weeks of gestation were selected for detecting the fetal ABO blood group genotype. The blood samples should be taken as possible as after birth for identification of ABO blood group and evaluation of sensitivity and accuracy of fetal ABO blood group genotyping technology through peripheral blood of pregnant women. The results indicated that the minimal amount of template DNA from single blood plasma for accuracy identification was at least about 0.625 ng, the DNA amount extracted from 500 microl of plasma could meet the requirement for PCR amplification. When the proportion of O group plasma DNA in mixed plasma DNA was group gene could be accurately detected. Among 14 peripheral blood samples from O-group pregnant women, the non-O group gene was amplified in 9 samples; the non-O group gene was not amplified in 5 samples. The identification of peripheral blood ABO group for 5 newborns using serologic method showed that the A group 3 cases, B group 2 cases, O group 1 case, which consisted with genotyping results with consistent rate 100%. It is concluded that in middle and late pregnancy the fetal ABO group gene can be detected accurately by means of established fetal ABO group gene extraction and typing technology, that provides some guidances for the prenatal diagnosis and prevention of HDN.
ABO Blood-Group System ; genetics ; immunology ; Blood Group Antigens ; blood ; genetics ; Blood Grouping and Crossmatching ; methods ; Female ; Fetus ; immunology ; Genotype ; Humans ; Pregnancy

Knull phenotype completely lacks all Kell system antigens. Anti-Ku antibody is seen in immunized persons with Knull phenotype by transfusion or pregnancy. It can cause a fatal hemolytic transfusion reaction. A 66-yr-old male patient with liver cirrhosis visited emergency center due to acute bleeding. The patient was at hypovolemic shock status: his blood pressure was 80/50 mmHg, pulse rate was 110/min and hemoglobin level was 4.4 g/dL. Because of the presence of antibody against high incidence antigen, we could not find any compatible blood for the patient. Nevertheless, 4 units of packed RBCs had to be transfused. Moderate hemolytic transfusion reaction was developed after transfusion. At endoscopic examination, blood was spurting from gastric cardiac varix. Endoscopic histoacryl injection was tried, and bleeding was successfully controlled. After bleeding stopped, he was managed for anemia using steroid and other medical therapy instead of transfusion. His hemoglobin level was improved to 7.7 g/dL at the time of discharge. Later he has been proved to have a Knull phenotype, which is very rare, and anti-Ku antibody. This report is the first case of anti-Ku in a Knull phenotype person in Korea, who experienced a moderate hemolytic transfusion reaction.
Aged ; Antigens, Nuclear/*immunology ; Blood Group Incompatibility ; Blood Transfusion/*adverse effects ; DNA-Binding Proteins/*immunology ; Humans ; Isoantibodies/blood ; Kell Blood-Group System/*genetics ; Korea ; Male ; Phenotype