Objective To compare the two cell adhesion assay techniques based on 51 Cr release and 3H-TdR incorporation.Methods Firstly,the cells to be tested were cultured to confluence in the 96 well plate for 24 hours. After with 51 Cr or 3H-TdR label, the isotope labeled cells were add into plate wells and incubated for another 4 hours. Then the un-adhered cells were removed by gently washing. The cpm of two assay system were counted, the sensitivity and stability of two methods were compared.Results Assay methods based on 51 Cr release and 3H-TdR incorporation could both reflect the cell adhesion level correctly. In assaying sensitivity and stability showed that the 3H-TdR incorporation assay was better than in 51 Cr release assay.Conclusions Adhesion method based on isotope label could provide good sensitivity and stability. The sensitivity and stability of 3H-TdR incorporation is better than that of 51 Cr release assay.

Objectives:To determine the expressions of decoy receptors (DcR1 and DcR2) of TRAIL in carcinoma of endometrium. Methods:The expressions of DcR1 and DcR2 in endometrium tissues from 13 carcinoma of endometrium and 7 normal endometrium were detected by immunohistochemical staining.Results: The expressions of DcR1 and DcR2 in carcinoma of endometrium were much lower than in normal endometrium. Conclusions:The decreasing of DcR1 and DcR2 in carcinoma of endometrium may be concerned with its pathogenesis, which may be related to the prevention of endometrium from carcinomatous change.

Objective To investigate the distribution,phenotype and genotype of D-elute type(Del)in blood donors with RhD negative blood in Guangzhou,so as to understand the molecular biological background of DEL blood group in this area.Methods During the period from November 1,2021 to June 30,2022,the RhD-negative blood initially screened by saline method was confirmed by indirect anti-human globulin test(IAT)serology,and RhCE phenotype was determined by RhCE typing card.A total of 1 146 RhD-negative samples,including all RhD-negative samples with RhCE C+(n=459)and a randomly selected subset of RhCE C-(n=175),were subjected to adsorption-elution(Del)screening(a total of 634 sam-ples).DNA from Del-positive samples was extracted for real-time fluorescent PCR detection of the RHD gene c.1227 locus using high-resolution melting curve analysis(HRM).For samples without mutations detected at the RHD?1227 locus by HRM,restriction fragment length polymorphism polymerase chain reaction(PCR-RFLP)was performed to amplify the prod-uct which was subsequently digested with Pst I enzyme and analyzed by electrophoresis to determine RHD gene haplotypes.Sanger sequencing was performed for exon sequencing(exon 1-10)of the RHD gene,and gene mutations were analyzed u-sing SeqMan software.Suspected Del-positive samples were subjected to RHD whole gene analysis using third-generation sin-gle-molecule sequencing technology.Results Among the 634 confirmed RhD-negative samples,229(36.1%)displayed Del phenotype,accounting for20%(229/1 146)of the total confirmed RhD-negative samples.The RhCE phenotypes of the 229 DEL cases were as follows:Ccee in 181 cases,CCee in 40 cases,CcEe in 7 cases,and ccEe in 1 case.HRM combined with RHD haplotype analysis showed that there were 170 cases with RHD gene as RHD?1227A/01N.01,32 cases with RHD gene as RHD?1227A/1227G,26 cases with RHD gene as RHD?1227A/1227A,and 6 cases with RHD gene as RHD?1227G/1227G(sequencing results included 1 case of weak D type 12,4 cases of D-,and 1 case of RHD?01EL.02).Con-clusion The individual genotype of DEL blood donors in Guangzhou area is mainly characterized by RHD?1227A/01N.01,and their RhCE phenotypes are all C+.HRM can be used as a molecular biology method for routine screening of Asian-type DEL blood type genes.

【Objective】 To explore the characteristics of the D antigen epitope of individuals with RhD variants and the genetic molecular mechanism of gene mutations in Guangzhou. 【Methods】 A total of 59 samples of RhD variants were collected from blood donors and hospitals in Guangzhou from January to August 2019. Serological characteristics of D epitopes were further analyzed using two kinds of monoclonal anti-D reagents and D epitope detection kits, and RHCE phenotypic typing was performed. QuickGene DNA extraction kit was used to extract the genomic DNA of the samples, and PCR-RFLP method was used to analyze the RHD gene zygote type. The RHD gene sequence was detected by multiple ligation-dependent probe amplification(MLPA) genotyping, and the RHD exon(1~10) Sanger sequencing was performed on the samples still in doubt after the above detection. DNAStar/SeqMan analysis software was used for comprehensive analysis. 【Results】 In this group of individuals with RhD variants in Guangzhou, 27.12%(16/59) were detected from blood donors [accounting for 0.007%(16/232 793) of blood donors in Guangzhou during the same period], and difficult samples of patients sent by hospitals for determination accounted for 72.88%(43/59). RHD genotype detection: 40.68%(24/59) were RHD^*weak partial 15, 25.42%(15/59) were RHD^* DⅥ.3 and 33.90%(20/59) were rare RHD variants [76.92%(10/13) were RhD variants with 2 different alleles]. Serological D-screen revealed a relatively fixed pattern of RHD^*DⅥ.3 in anti-D antibody(clone: P3^*212 23B10), while the others was negative. The phenotypic distribution of RhD variant CE was Ccee 38.98%(23/59), ccEe 35.59%(21/59), CcEe 25.42%(15/59). 【Conclusion】 Weak partial D15 and DⅥ.3 were the most common RhD variants in Guangzhou Han population, and DⅥ can be preliminarily identified by serological methods such as D-Screen anti-D reagent, while the remaining RhD variants can only be identified by molecular biological methods, and >95% of the RhD variants were C+ or E+ phenotypes.