OBJECTIVE: To establish a based method flow cytometry to identify the antigen Jka in human red blood cells (RBCs) and verify its accuracy. METHODS: A total of 96 blood samples were enrolled in the study randomly from the voluntary blood donors in Shenzhen Blood Center. The RBCs were incubated with IgG anti-Jka primary antibody, and then labeled with the secondary antibody anti-IgG-Alexa Fluor 647. The fluorescence histograms of each sample were obtained by flow cytometry. Serological agglutination test was used to compare the accuracy of flow cytometry in the detecting of antigen Jka, while PCR-SSP and gene sequencing genotyping were used to verify the accuracy of flow cytometry in the detecting of the antigen in human RBCs. RESULTS: The results of flow cytometry for antigen Jka in human RBCs were consistent with those from serological tests. Samples that demonstrated higher serological agglutination intensity also showed higher fluorescence activity, which indicate more stronger of Jka antigen. The sensitivity of flow cytometry was higher than that of serological test; especially in distinguish Jka weak and negative samples. Flow cytometric results of all samples were consistent with the genotyping results, which confirmed the accuracy of flow cytometry. CONCLUSION The study established a new flow cytometry-based method successfully for the identification of Jka antigen of Kidd blood group in human RBCs. The Kidd blood group antigen Jka of different intensities can be accurately distinguished by the technique.
Blood Group Antigens ; Blood Grouping and Crossmatching ; Erythrocytes ; Flow Cytometry ; Humans ; Immunoglobulin G ; Kidd Blood-Group System

OBJECTIVE: To explore the distribution characteristics of main antigen gene frequencies of Duffy,Diego,Kidd,Dombrock,MNS,Lutheran,Kell,Colton,Scianna,Yt,Knops and Indian in red blood cell blood group system of Li nationality in Hainan Province. METHODS: Antigens in twelve rare blood group systems of 214 Li people in Hainan Province were genotyped and analyzed by polymerase chain reaction-sequence specific primers (PCR-SSP). RESULTS: The gene frequency of antigens in twelve rare blood group systems of 214 Li people in Hainan Province including: the gene frequency of Duffy blood group system: fy CONCLUSION The genetic distribution and genetic status in twelve rare blood group systems of Li nationality in Hainan Province are relatively stable. The gene distribution of Duffy, Diego, Kidd, Drombrock, MNS and Lutheran blood group systems are polymorphic and show unique distribution characteristics compared with other regions and different nationalities. The gene frequency distribution of Kell、Colton、Scianna、Yt、Knops、Indian blood group systems are monomorphic.
Blood Group Antigens/genetics* ; Ethnic Groups ; Gene Frequency ; Genotype ; Humans ; Kidd Blood-Group System ; Polymorphism, Genetic

OBJECTIVE: To screen for Jk(a-b-) phenotype among blood donors from Jining area and explore its molecular basis to enrich the rare blood group bank for the region. METHODS: The population who donated blood gratuitously at Jining Blood Center from July 2019 to January 2021 were selected as the study subjects. The Jk(a-b-) phenotype was screened with the 2 mol/L urea lysis method, and the result was confirmed by using classical serological methods. Exons 3 to 10 of the SLC14A1 gene and its flanking regions were subjected to Sanger sequencing. RESULTS: Among 95 500 donors, urea hemolysis test has identified three without hemolysis, which was verified by serological method as the Jk(a-b-) phenotype and demonstrated no anti-Jk3 antibody. The frequency of the Jk(a-b-) phenotype in Jining area is therefore 0.0031%. Gene sequencing and haplotype analysis showed that the genotypes of the three samples were JK*02N.01/JK*02N.01, JK*02N.01/JK-02-230A and JK*02N.20/JK-02-230A, respectively. CONCLUSION The splicing variant of c.342-1G>A in intron 4, missense variants of c.230G>A in exon 4, and c.647_ 648delAC in exon 6 probably underlay the Jk(a-b-) phenotype in the local population, which is different from other regions in China. The c.230G>A variant was unreported previously.
Humans ; Phenotype ; Blood Donors ; Hemolysis ; Kidd Blood-Group System/genetics* ; Urea ; Molecular Biology

The purpose of this study was to find the rare individual JK(a-b-) phenotype of proband family and explore its molecular mechanism and the genetic background, in order to provide base for searching compatible donor to blood transfusion of the individuals with rare JK(a-b-) phenotype. Urea lysis test was used to screen the JK(a-b-) phenotype and results were confirmed with serological method. The genotypes were detected with PCR-SSP. The 4-11 exons and their flanking intron regions of JK gene were amplified and sequenced. The results showed that her elder brother has a same phenotype JK(a-b-) and genotypes JK(a)/JK(b) with proband. The phenotype and genotypes of their parent is JK (a+b-) and JK(a)/JK(b), respectively; and the younger sister's is JK (a+b-) and JK(a)/JK(a). Acceptor site of intron 5 3' g > a mutation was detected in proband and her elder brother, which may cause the JK(a-b-) phenotype of proband and her elder brother. There is g/a and a at this site in their parent and younger sister, respectively. Additionally, the SNP (ncbi:rs8090908) a > g at nt-99 in intron 3 was found in proband and her elder brother, it needs to be explored whether the SNP is related to JK(a-b-) phenotype. This SNP was not found in their parent and younger sister. This JK(a-b-) phenotype abides by the rule of dominant inheritance in the family, suggesting that there is higher probability to find homology phenotype and genotype by investigating in their family, especially in their siblings.
Adult ; Alleles ; Exons ; Female ; Genotype ; Humans ; Introns ; Kidd Blood-Group System ; genetics ; Male ; Pedigree ; Phenotype

This study was aimed to establish the real-time fluorescent quantitative PCR (RT-qPCR) with erythrocyte Kidd blood group gene for detecting the hematopoietic chimera and to investigate the feasibility of this method. The TaqMan MGB probes and special primers were designed on basis of difference of erythrocyte Kidd blood group alleles, the hematopoietic chimerism was detected by RT-qPCR, the DNA chimerism was simulated by means of dilution of multiple proportions, and the sensitivity analysis was performed. The results showed that the RT-qPCR with erythrocyte Kidd blood group gene could effectively distinguish JK*A and JK*B alleles. There was no significant difference between the theoretic value and the practical measured value by this method (P > 0.05). As 156 donor's cells could be discriminated from 10(4) chimeric cells, this method may effectively detect donor's cells with correlation coefficient 0.998. It is concluded that the established RT-qPCR with erythrocyte Kidd blood group gene shows the feasibility for quantitative detection of hematopoietic chimera, and may be used to quantitatively detect chimera in a certain range.
Chimera ; Erythrocytes ; Humans ; Kidd Blood-Group System ; genetics ; Real-Time Polymerase Chain Reaction

The Kidd blood group is clinically significant since the Jk antibodies can cause acute and delayed transfusion reactions as well as hemolytic disease of newborn (HDN). In general, HDN due to anti-Jk(b) incompatibility is rare and it usually displays mild clinical symptoms with a favorable prognosis. Yet, we apparently experienced the second case of HDN due to anti-Jk(b) with severe clinical symptoms and a fatal outcome. A female patient having the AB, Rh(D)-positive boodtype was admitted for jaundice on the fourth day after birth. At the time of admission, the patient was lethargic and exhibited high pitched crying. The laboratory data indicated a hemoglobin value of 11.4 mg/dL, a reticulocyte count of 14.9% and a total bilirubin of 46.1 mg/dL, a direct bilirubin of 1.1 mg/dL and a strong positive result (+++) on the direct Coomb's test. As a result of the identification of irregular antibody from the maternal serum, anti-Jk(b) was detected, which was also found in the eluate made from infant's blood. Despite the aggressive treatment with exchange transfusion and intensive phototherapy, the patient died of intractable seizure and acute renal failure on the fourth day of admission. Therefore, pediatricians should be aware of the clinical courses of hemolytic jaundice due to anti-Jk(b), and they should be ready to treat this disease with active therapeutic interventions.
Bilirubin/blood ; Erythroblastosis, Fetal/*blood ; Fatal Outcome ; Female ; Humans ; Infant, Newborn ; Isoantibodies/blood ; Kidd Blood-Group System/*immunology

OBJECTIVETo study the molecular genetics characteristics of Jk(a-b-) phenotype of blood donors from Chengdu.

METHODSExons 4-11 of the JK genes and their flanking intronic regions for 8 Jk(a-b-) samples were analyzed with PCR-sequence specific primers (PCR-SSP) and DNA sequencing.

RESULTSAll samples had AA genotype at position 838 of exon 9 predicting a null Jk(b)-like alleles. Sequence analysis has revealed 4 mutant alleles, which included: (1) IVS5-1G>A, A to G at position 588 (Pro196Pro) of exon 7; (2) G to A at position 896 (Gly299Glu) of exon 9, A to G at position 588 (Pro196Pro) of exon 7; (3) IVS5-1G>A, C>A at position 222 (Asn74Lys) of exon 5, A to G at position 499 (Met167Val) of exon 7, A to G at position 588 (Pro196Pro) of exon 7; and (4) IVS5-1G>A, G to A at position 896 (Gly299Glu) of exon 9, A to G at position 588 (Pro196Pro) of exon 7.

CONCLUSIONIVS5-1G>A, C to A at position 222 (Asn74Lys) of exon 5 and G to A at position 896 (Gly299Glu) of exon 9 might have been the molecular genetic mechanisms underlying Jk(a-b-) phenotype of the selected blood donors.

Alleles ; Base Sequence ; Blood Donors ; China ; Exons ; Genotype ; Humans ; Introns ; Kidd Blood-Group System ; genetics ; Mutation ; Phenotype

BACKGROUNDMolecular testing is more precise compared to serology and has been widely used in genotyping blood group antigens. Single nucleotide polymorphisms (SNPs) of blood group antigens can be determined by the polymerase chain reaction with sequence specific priming (PCR-SSP) assay. Commercial high-throughput platforms can be expensive and are not approved in China. The genotype frequencies of Kidd, Kell, Duffy, Scianna, and RhCE blood group antigens in Jiangsu province were unknown. The aim of this study is sought to detect the genotype frequencies of Kidd, Kell, Duffy, Scianna, and RhCE antigens in Jiangsu Chinese Han using molecular methods with laboratory developed tests.

METHODSDNA was extracted from EDTA-anticoagulated blood samples of 146 voluntary blood donors collected randomly within one month. Standard serologic assay for red blood cell antigens were also performed except the Scianna blood group antigens. PCR-SSP was designed to work under one PCR program to identify the following SNPs: JK1/JK2, KEL1/KEL2, FYA/FYB, SC1/SC2, C/c and E/e.

RESULTSSerologic antigen results were identical to the phenotypes that were predicted from genotyping results. The allele frequencies for Jk*01 and Jk*02 were 0.51 and 0.49, respectively; for Fy*A and Fy*B 0.94 and 0.06; for RHCE*C and RHCE*c 0.68 and 0.32; and for RHCE*E and RHCE*e 0.28 and 0.72. Among 146 blood donors, all were KEL*02/KEL*02 and SC*01/SC*01, indicating allele frequencies for KEL*02 and SC*01 close to 1.00.

CONCLUSIONSThe use of PCR-SSP working under the same condition for testing multiple antigens at the same time is practical. This approach can be effective and cost-efficient for small-scale laboratories and in developing counties. These molecular tests can be also used for identifying rare blood types.

Blood Group Antigens ; genetics ; Butyrophilins ; China ; ethnology ; Duffy Blood-Group System ; genetics ; Gene Frequency ; Genotype ; Humans ; Kell Blood-Group System ; genetics ; Kidd Blood-Group System ; genetics ; Polymerase Chain Reaction ; Polymorphism, Single Nucleotide ; Rh-Hr Blood-Group System ; genetics

Blood Group Antigens ; genetics ; Duffy Blood-Group System ; genetics ; Humans ; Kell Blood-Group System ; genetics ; Kidd Blood-Group System ; genetics ; Polymorphism, Single Nucleotide ; Rh-Hr Blood-Group System ; genetics

We report a case of an intravascular hemolytic reaction attributable to anti-Jk(b) antibodies that were not detected using an enzyme phase antibody identification test. A 61-year-old male who had received two units of red blood cells was admitted to the emergency room because his urine was dark. LISS/Coombs gel column agglutination tests suggested the presence of anti-Jk(b) and anti-E antibodies. However, his serum was negative for the Jk(b) antigen when an enzyme phase test was performed. A positive reaction was evident, however, when EDTA-treated plasma was tested; this excluded any possible complement-mediated reaction. The patient was diagnosed with an intravascular hemolytic transfusion reaction, caused by anti-Jk(b), and was later discharged without specific complications after receiving antigen-negative blood transfusions.
Agglutination Tests ; Antibodies ; Blood Group Incompatibility* ; Blood Transfusion ; Edetic Acid ; Emergency Service, Hospital ; Erythrocytes ; Humans ; Kidd Blood-Group System ; Male ; Middle Aged ; Plasma