Accurate estimates of HLA-A, B, DR and DQ phenotype, gene and haplotype frequencies (HF) in the normal population are of importance in, for example, disease susceptibility studies, platelet transfusion support and transplantation. HLA population genetics studies have been performed on numerous groups, however, no major studies have been carried out on the population of Wales. As part of the validation process for our routine HLA-A and B typing by PCR using sequence-specific primers (PCR-SSP) we examined 1,798 normal, unrelated Caucasoid blood donors living in Wales and recruited onto the Welsh Bone Marrow Donor Registry (WBMDR). Typing was performed by serology (HLA-A, B) and PCR-SSP at low resolution (HLA-A, B, DR, DQ) resulting in a particularly rigorous level of HLA specificity assignment. Four discrepancies were found between the HLA-A and B serological and PCR-SSP specificity assignments: (1) two instances of HLA-A2 by serology were undetected by PCR-SSP and were a new HLA-A2 allele – A*0224; (2) one example of HLA-B*15 by PCR-SSP failed to react by serology, and remained undetectable by serology in subsequent samples, and (3) one example of HLA-B45 by serology was identified as HLA-B*5002 by PCR-SSP. Hardy-Weinberg and homozygosity analysis showed that the goodness-of-fit was excellent (p > 0.05), for both phenotype distribution and the number of homozygotes identified, for all four loci. The phenotype and gene frequencies for the 18 HLA-A, 34 -B, 15 -DR and 8 -DQ specificities identified and two- and three-locus HF, linkage disequilibrium and related values for HLA-A/B, B/DR, DR/DQ and HLA-A/B/DR and B/DR/DQ were essentially typical of a northern European population. HLA-A2, B44, DR4 and DQ2 were the highest frequency phenotypes and HLA-A2403, A34, A74, B42, B75, B2708, B48, B67 and B703 occurred once only. There were no examples of: A36, A43, A69, A80, B46, B54, B59, B73, B76, B77, B7801, B8101 or DR18 specificities. DR17, DQ2 and A1, B8, DR17 were the highest frequency two- and three-locus haplotypes identified. Diverse HLA-A, B, DR phenotypes were identified in 87.0% (1,564) of subjects. When HLA-DQ was also considered, different four locus phenotypes were identified in 89.1% (1,602) of subjects. This frequency information will be beneficial as a high-quality reference control for disease susceptibility studies and in calculating the chances of identifying a bone marrow donor in a patient’s extended family. This process was successful for the validation of our HLA-A and -B PCR-SSP typing procedure and the findings suggest an accurate level of specificity assignment of WBMDR panel donors who had previously been typed by serology alone.
Using Simian-11 rotavirus RNA, a strategy has been developed for the production of full length cloned copies of the genes of double-stranded (dsRNA) viruses. Genomic RNA segments were polyadenylated and reverse transcribed to yield a mixture of full length cDNA copies of both possible polarities. The cDNAs were annealed, filled in to complete any partial copies, tailed and inserted into the PstI site of pBR322 using dG/dC tailing. Cloned rotavirus cDNA gene copies were assigned to genomic RNA segments by Northern hybridization. The complete sequence of gene 8 which codes for NCVP3, a non-structural protein of SA11 rotavirus, was determined from a cloned gene copy. It is 1059 bases in length and has an open reading frame which could code for a protein containing 317 amino acids. The apparent 5' and 3' terminal non coding regions are 46 and 59 bases in length, respectively. The sequence ATGTGACCOH at the 3' end of the plus strand is conserved in four of the eleven genes examined. The cloning procedures used should be generally applicable to viruses with segmented dsRNA genomes.
Rotavirus genomic RNAs, derived from a series of human isolates that exhibit variability in the pattern of migration of the double-stranded RNA on polyacrylamide gels, were transferred to diazobenzyloxymethyl paper, and their sequence diversity was investigated. Hybridization of cDNA probes prepared from the 11 segments of rotavirus RNA indicated that considerable sequence diversity exists among these viruses. Under conditions of both low and high stringency, hybridization analysis of virus collected between 1975 and 1980 suggested that the variation among rotavirus strains may have occurred by a process involving both "drift" and "shift" in the sequence of the rotavirus genomic segments.
We describe a variant HLA-B*35 allele (B*3527) that was detected by the polymerase chain reaction using sequence-specific primers (PCR-SSP) in an individual on the Welsh Bone Marrow Donor registry. B*3527 differs from B*3501 by a single base (G/A) at position 302 that encodes an amino acid change of Ser to Asn at position 77 in the Bw6 epitope. Serological studies using 38 B35-, 4 Bw6- and 7 Bw4-reactive sera indicated that the B*3527 product was indistinguishable from the B35 specificity, and that the substitution did not significantly affect the Bw6 epitope. A family study determined the B*3527 bearing haplotype as: HLA-A*29, B*3527, Cw*0401, DRB1*0404, DRB4*0101/0103, DQA1*03, DQB1*0302, BFS, C4A3, C4B1. The phenotype and gene frequencies in the local Welsh population were<0.01% and <0.00005%, respectively.
Haemorrhage from the N/M is rare in infancy. Trauma is commonly involved and child protection concerns often poorly explored. Pulmonary haemorrhage and several cases of ONH were associated with probable airway obstruction. Information, in cases of ONH, is in general recorded badly, and an investigation and management plan are suggested.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.