A novel recombinant HLA-B*39 allele (B*3910) in a South African Zulu

The sequence of a new B*39 allele has been identified in a South African Zulu individual. This allele, designated B*3910, differs at two nucleotide positions (246 and 272) from B*39011. The difference at position 246 is silent, while that at position 272 results in an amino acid change from cysteine (B*39011) to tyrosine (B*3910). As these same differences are found in other HLA-B alleles, they were probably introduced into the B*3910 sequence by a short gene conversion event with another allele. This finding provides further evidence for the diversification of HLA-B allelic sequences via recombination.     

A novel HLA-B*51 allele, HLA-B*5149

Discovery of the novel HLA-B*5149 allele in a North American Caucasian individual is described. It differs from B*510101 by one nucleotide within the coding sequence of exons 1-6. A substitution at nucleotide position 488 in exon 3 changes alanine to glycine in amino acid position 139.     

Identification of a new HLA-B*39 allele: HLA-B*3924

We have identified a new HLA-B*39 allele through polymerase chain reaction (PCR) using sequence-specific primers (SSP) and sequence-based typing of exons 2 and 3. This novel allele was identified in three HLA-identical siblings of Turkish origin. This allele only differs from HLA-B*3903 at a unique single nucleotide substitution (T for C) at position 365 in exon 3 which results in an amino acid change in codon 98 of methionine (ATG) to threonine (ACG). The sequencing enabled the development of a monospecific PCR-SSP reaction which can be used to discriminate between HLA-B*3924 and other B*39 alleles.     

Identification of a novel HLA-B allele, HLA-B*5904

The new human leukocyte antigen (HLA) class I allele, HLA-B*5904 was identified in Japanese individual. HLA-B*5904 differs from HLA-B*5901 by two non-synonymous nucleotide exchanges at codon 163 (ACG to CTG).     

A novel HLA-B*51 allele (B*5116) identified by nucleotide sequencing

We report here an additional HLA-B*51 variant designated HLA-B*5116. Detected by an abnormal serological reactivity pattern, this variant was identified as a B*51 allele by polymerase chain reaction using sequence-specific primers (PCR-SSP) and characterized by nucleotide sequencing. The new variant sequence match closely with the classical HLA-B*5101 excepted two adjacent nucleotide substitutions at positions 216 and 217 of the third exon and the subsequent Leucine to Glutamic acid change at codon 163 of the alpha2 domain (CTG-->GAG). This new variant was not detected in three different ethnic groups (French, Algerian and Lebanese) suggesting a very rare frequency.     

A novel HLA-B*57 (B*5714) allele in a healthy male Caucasian individual

A novel human leucocyte antigen (HLA)-B57 (HLA-B*5714) allele has been identified in a male Caucasian individual from Middle Europe using single allele-specific sequencing strategy. This allele is identical to the HLA-B*570101 allele except for two point mutations in exon 3 at codon 138 (ACG→ACC) with no amino acid change [persisting threonine (T)] and at codon 171 (TAC→CAC), resulting in an amino acid change from tyrosine (Y) to histidine (H).     

Characterization of a novel allele HLA-B*3549

A novel HLA-B allele, B*3549, was identified in a bone marrow transplantation candidate. B*3549 differs from B*3525 by two nucleotides at exon 2, position 142 (T to G) and 165 (G to C). The difference at position 142 resulted in an amino acid difference (serine to alanine). However, the difference at position 165 did not cause any amino acid change. This novel allele was found on a haplotype with A*3101, B*3549, Cw*0401, DRB1*0407, and DQB1*0302.     

A novel HLA-B*40 allele, HLA-B*4083, identified in a Korean individual

HLA-B*4083 differs from the closest aligned sequence HLA-B*400601 by three nucleotide substitutions at codons 31 (ACG →ACC), 32 (CTG →CAG), and 41 (ACG → GCG), resulting in two amino acid changes at residues 32 (Leu to Gln) and 41 (Thr to Ala).     

A novel HLA-B*35 (B*3570) allele of a Caucasian family differing with one amino acid mismatch from HLA-B*3503 allele in exon 4

A novel human leucocyte antigen (HLA)-B35 (HLA-B*3570) allele has been identified in a Caucasian family from Middle Europe using single allele-specific sequencing strategy. This allele is identical to the HLA-B*3503 allele except for one point mutation in exon 4 at codon 188 (CAC-->CGC), resulting in an amino acid change from histidine to arginine.     

新等位基因HLA-B*9526的确认和序列分析

目的 鉴定中国人群中人类白细胞抗原(human leukocyte antigen,HLA)新等位基因HLA-B*9526,并进行核苷酸序列分析.方法 使用序列特异性寡核苷酸PCR技术进行HLA基因分型,发现1个反应格局异常的等位基因,应用分子克隆和DNA双向测序技术测定新等位基因的核苷酸序列,并与已知等位基因进行序列比对分析.结果 检出反应格局异常的DNA样本,经过克隆测序得到两个等位基因,分型结果一个为B*5403,另一个的核苷酸序列与已知的HLA等位基因均不同,该基因序列与同源性最高的HLA-B*1507基因序列相比在第3外显子区域中425位碱基发生A→G突变,导致142位编码氨基酸由酪氨酸变成半胱氨酸.结论 一个新的HLA-B等位基因被确认,并被世界卫生组织HLA因子命名委员会正式命名为HLA-B*9526.     

HLA-B*1819, a novel HLA-B allele identified by sequence-based typing

In this brief communication, we describe a novel human leukocyte antigen-B (HLA-B) allele (HLA-B*1819). This allele, found in an Italian Caucasian individual, differs from HLA-B*180101 by three nucleotide changes in exon 3. These mutations are located at positions 527, 538, and 539 where a T, a C, and a T are substituted respectively, by an A, a T, and a G, leading to three aminoacidic substitutions at codon 152 from Valine to Glutamic Acid (GTG-->GAG), at codon 155 from Histidine to Glutamine (CAC-->CAG), and at codon 156 from Cysteine to Tryptophan (TGT-->TGG).     

Identification of a novel HLA-B allele HLA-B*4070 in a Chinese donor

Identification of a novel human leukocyte antigen-B allele HLA-B*4070.     

Identification of a novel HLA-B allele HLA-B*9526 in a Chinese donor

A novel human leukocyte antigen-B (HLA-B) allele, B*9526, was identified. The B*9526 allele has one nucleotide change from the closest matching allele B*1507 resulting in an amino acid change from Y(TAC) to C(TGC) at codon 142.     

Acanthocytosis in a patient with homozygous familial hypobetalipoproteinemia due to a novel APOB splice site mutation

We report on acanthocytosis in a 31-year-old woman with homozygous familial hypobetalipoproteinemia due to a mutation affecting the splicing of the APOB gene encoding apolipoprotein B. Treatment with fat-soluble vitamins was associated with arrest of the usually progressive neurological complications of this condition. However, the acanthocytosis - literally 'thorny' erythrocytes that result from abnormal membrane fluidity - persists despite treatment.