ABSTRACT
<p><b>OBJECTIVE</b>To explore molecular and genetic mechanism of 3 cases of para-Bombay blood group.</p><p><b>METHODS</b>The bood samples of proband and family members were selected to identify their blood groups with conventional serologic methods, and salivary components carrying the ABH antigens were detected. The coding regions of FUT1 as well as exon 6 and 7 of the ABO gene were amplified using polymerase chain reaction(PCR), and the FUT1 gene was directly sequenced.</p><p><b>RESULTS</b>All the 3 cases of proband were confirmed as para-Bombay blood group. Direct sequencing revealed h new2 (nt328G→A) and h1(nt 547 ΔAG) in FUT1 gene of the proband 1, and FUT1 genotype was h1/h new2. However, the genotypes of his parents were H/h1 and H/h new2, which were non-Bombay individuals. The FUT1 genotypes of proband 2 and 3 were h1h2 (nt 547 ΔAG) and h1h2 (nt 880 ΔTT), respectively.</p><p><b>CONCLUSION</b>The technology of molecular biology can be used to detect the base deletion mutations in FUT1 gene, which contributes to the analysis of molecular and genetic mechanism of para-Bombay blood group.</p>
ABSTRACT
This study was purposed to analyse the characteristics of blast immunophenotype in patients with refractory anemia with excess blasts, type 1 (RAEB-1) and refractory anemia with excess blasts, type 2 (RAEB-2) by flow cytometry and investigate its diagnostic significance, as well as to compare the blast rate detected by FCM and bone marrow smear (BMS). FCM was used to count the blast rate and detect the expression of its antigens in 29 cases of MDS. The result indicated that: (1) The rate of the blasts detected by FCM and BMS was not statistically significant between patients with RAEB-1 and with RAEB-2 (P > 0.05); (2) Out of 13 patients with RAEB-1, the blasts of 10 cases, 12 cases, 8 cases, 11 cases, 11 cases, 3 cases, 7 cases, 0 case, 0 case, 3 cases and 2 cases patients had positive expressions of CD34, HLA-DR, CD117, CD33, CD13, CD15, CD11b, CD3, CD19, CD7 and CD56, separately. The blasts of 12 cases, 13 cases, 3 cases, 12 cases, 15 cases, 7 cases, 5 cases, 0 case, 1 case, 4 cases and 2 cases among 16 patients with RAEB-2 positively expressed CD34, HLA-DR, CD117, CD33, CD13, CD15, CD11b, CD3, CD19, CD7 and CD56, respectively. However, there was no significant difference in the expression of antigens in blasts of the bone marrow between the patients with RAEB-1 and with RAEB-2 (P > 0.05); (3) The positive expression for CD15 and CD11b in blasts was found in 10 cases and 12 cases, respectively; (4) The positive expression for CD19, CD7 and CD56 was observed in 1, 7 and 4 cases, respectively. None of the 29 cases of MDS was positive for CD3. It is concluded that FCM can reveal the characteristics of immunophenotypic abnormalities of the blasts in patients with MDS and provide the important information for diagnosis and differential diagnosis of MDS.