Identification of a novel HLA-B allele, HLA-B*3713, in a Chinese individual

A novel human leukocyte antigen (HLA) class I allele, HLA-B*3713, has been identified in a Chinese individual. The HLA-B*3713 allele differs from the closest matching allele B*370101 by one nucleotide substitutions in exon 3 at nt 527(T-->A), resulting in an amino acid change from Val (GTG) to Glu (GAG) at codon 152.     

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.     

Characterization of the novel allele HLA-B*4075

A novel human leukocyte antigen (HLA)-B allele, B*4075, is the close matching allele B*40060101 by one nucleotide substitution in exon 2, at position 272 C→G, which leads to a amino acid change at codon 67 from Ser to Cys (S67C).     

HLA-B*5130, a new HLA-B allele carrying a rare nucleotide substitution in exon 4

We report herein the identification of a new HLA-B*51 allele in a Spanish Caucasoid organ donor. The novel allele, designated B*5130, differs from B*51011 by one nucleotide change at position 787 (A to G) in exon 4, leading to an amino acid change from Arg (AGA) to Gly (GGA) at codon 239 in the alpha3 domain. This substitution is present in most classical and nonclassical HLA class I loci (A, C, E, and G) but not in any of the HLA-B alleles reported so far, except for B*7301. Although the frequency of the new variant seems to be low, its existence makes mandatory the analysis of exon 4 before assigning a B*5101 type.     

Identification of a new HLA-B*08 variant, HLA-B*0804

The HLA-B locus is the most polymorphic locus known with currently over 100 different alleles described. Many of these alleles encode variants of the serologically-defined tissue transplantation antigens. This high level of diversity makes accurate tissue typing difficult. Here we present the sequence of a new HLA-B *08 variant, HLA-B *0804. found in Caucasian siblings JH and PF serologically typed as HLA-B51/B59 and HLA-B59/B60, respectively. Additionally, DNA-based typing by the polymerase chain reaction using sequence-specific primers (PCR-SSP) identified HLA-B *51 in JH and HLA-B *4001 in PF. However, PCR-SSP failed to identify a second allele in either of these individuals. The unusual finding of a B59 antigen in a Caucasian and the discrepant molecular typing results suggested that these individuals might express novel HLA molecules. Using denaturing gradient gel electrophoresis (DGGE) followed by direct sequencing, we characterized a novel HLA-B *08 variant, HLA-B *0804. The presence of this allele was confirmed by cloning and sequencing. HLA-B *0804 differed from HLA-B *0801 by only one nucleotide substitution resulting in an amino acid replacement of phenylalanine by serine at position 67. Incidentally, this single nucleotide difference was sufficient to prevent amplification by PCR-SSP. This striking difference between both the serologically typed antigen and the PCR-SSP-identified allele compared to the sequenced allele supports the use of sequence-based typing for the analysis of HLA class I locus alleles.     

序列分析及确认HLA新等位基因B*55:46

背景：近几年来,随着中华骨髓库的建立和人类白细胞抗原分型技术的不断发展和提高,中国人类白细胞抗原新等位基因不断被发现。 目的：探索中国人的人类白细胞抗原新等位基因。 方法：应用PCR-序列特异性寡核苷酸探针基因分型技术,对1名27岁男性汉族造血干细胞志愿捐献者进行HLA基因分型,并应用基于测序的方法分析该基因序列及与最相近等位基因序列的差异。 结果与结论：PCR-序列特异性寡核苷酸探针结果显示该样本HLA-B基因座反应格局出现异常提示;基因测序结果表明其B基因座第3外显子序列与所有已知HLA-B等位基因序列均不一致,在所检测的第2、3外显子中,与序列最相近的等位基因B*55:02:01的差异只是在第3外显子发生了nt 412 A→G一个核苷酸替代,导致第138位密码子由AAC→GAC,相应的编码的天冬酰胺改变为天冬氨酸。将其序列提交国际基因数据库及IMGT/HLA 数据库,证实该HLA等位基因为国际上首次发现,被世界卫生组织织人类白细胞抗原因子命名委员会正式命名为HLA-B*55:46 (HM989018)。     

Characterization of a new HLA-B allele, HLA-B*5312, and re-evaluation of the published sequences of the untranslated regions of HLA-B*35 and HLA-B*53

We report a novel human leukocyte antigen (HLA)-B allele, HLA-B*5312. Compared with HLA-B*530101, there is one silent substitution at nucleotide 438 and two non-synonymous substitutions at nucleotides 431 and 440, causing a change of the amino acid sequence (Asn-->Ser at codon 77 and Ile-->Thr at codon 80, respectively) within the Bw4 epitope. In contrast to the published sequences (IMGT/HLA Database, version 2.16.0, January 2007), we found that HLA-B*530101 had a C instead of a T at nucleotide -221, whereas HLA-B*350101 had a C instead of an A at nucleotide 2992. According to our sequencing results, HLA-B*5312 resembles HLA-B*350101 regarding its sequence of the untranslated regions. HLA-B*5312 may have been the result of a double crossing over event during which HLA-B*350101 adopted a Bw4 motif.     

Identification of three novel HLA class I alleles: HLA-B*3928, HLA-B*400104 and HLA-B*4437

Three new human leukocyte antigen (HLA) class I alleles have been identified in the Tissue Typing Laboratory in Sydney, Australia. Sequence analysis of exon 2 and exon 3 of the HLA-B gene revealed the novel polymorphism. A silent substitution of C to T at nucleotide position 369 has been identified for the HLA-B*400104 allele when compared to the closest matched allele, HLA-B*400101. The HLA-B*3928 allele was identified with a nucleotide substitution of G to C at position 362 when compared to the closest matched allele, HLA-B*390101, resulting in an amino acid substitution of Arginine to Threonine. A nucleotide substitution of C to G at position 572 resulting in the amino acid change Serine to Tryptophan was identified in the new allele HLA-B*4437, when compared to the closest matched allele HLA-B*440301. Both amino acid substitutions implicate a different specificity and affinity of antigen binding for the alleles HLA-B*3928 and HLA-B*4437.     

Routine HLA-B genotyping with PCR-sequence-specific oligonucleotides detects a B*52 variant (B*5206)

A new human leukocyte antigen (HLA)-B allele was found during routine typing of samples for a German unrelated bone marrow donor registry, the "Aktion Knochenmarkspende Bayern". After first interpretation of data of two independent low-resolution sequence-specific oligonucleotide typing tests, a B*51 variant was suggested. Further analysis via sequence-based typing identified the sequence as new B*52 allele. This new allele officially assigned as B*5206 differs from HLA-B*520102 by one nucleotide exchange in exon 2. The mutation is located at nucleotide position 274, at which a cytosine is substituted by a thymine leading to an amino acid change at protein position 67 from serine (TCC) to phenylalanine (TTC).     

A new HLA-B*51 variant, B*5158, identified by sequence-based typing in a Korean individual

A novel human leukocyte antigen (HLA)-B*51 allele, officially named HLA-B*5158, was identified in the cord blood from Korean. HLA-B*5158 allele shows single nucleotide difference from B*510101 in exon 2 at nucleotide position 214 (C/T), resulting in an amino acid substitution, Trp48Arg.     

Identification of a novel HLA-B allele, B*460102, in three Taiwanese individuals

We here report a new human leukocyte antigen (HLA)-B allele, B*460102, which differs from B*460101 by synonymous substitution at the third nucleotide of codon 74 (GAC→GAT) and independently found in three Taiwanese individuals.     

Identification of a novel allele HLA-B*5610 in a Chinese potential bone marrow donor

A novel HLA-B allele, B*5610, has been identified in a potential bone marrow donor, his mother and brother using DNA-based typing and molecular cloning methods. The B*5610 allele differs from the closest matching HLA sequence of B*5602 by two nucleotide substitutions in exon 3, 559 C-->A and 560 T-->C, resulting in an amino acid change from Leu (CTG) to Thr (ACG) at codon 187. This new allele was segregated together with A*24020101 and DRB1*140101 in the proband's family. Serology study revealed that B*5610 is associated with B22 specificity. A PCR-SSP method was developed to distinguish B*5610 from other B*56 alleles. No further individuals with B*5610 were detected in 5000 Chinese bone marrow blood donors.     

HLA-B新等位基因B*9536和B*4612的测序分析和确认

目的 研究人类白细胞抗原(human leukocyte antigen,HLA)新等位基因HLA_B*9536和B*4612的分子机制.方法 采用Invitrogen抽提试剂盒抽提标本DNA,利用单链特异性引物PCR方法扩增样本HLA-B基因第2～4外显子,对PCR产物直接进行HLA-B基因第2、3、4外显子双向测序分析.结果 先证者标本存在2个HLA-B等位基因,经HLA Blast验证均为新的等位基因,新的等位基因序列已递交GenBank(EU081878和EU081879),经世界卫生组织HLA命名委员会正式命名为HLA-B*9536和HLA-B*4612.HLA-B*9536第2～4外显子序列与最接近的B*1505相比,在第3外显子存在一个碱基的不同,即第544位G→A改变,导致第158位氨基酸Ala→Thr;HLA-B*4612第2～4外显子序列与最接近的B*4601相比,在第3外显子存在一个碱基的不同,即第363位G→C,导致第97位氨基酸Arg→Ser.结论 在同一标本中发现两个新的HLA-B等位基因,并被世界卫生组织HLA命名委员会正式命名.     

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.     

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).     

Characterization of three novel HLA alleles, HLA-B*4613, HLA-B*4614 and HLA-B*4618, in Chinese individuals

Three novel alleles, human leukocyte antigen (HLA)-B*4613, HLA-B*4614 and HLA-B*4618, were identified in Chinese individuals. HLA-B*4613 shows four nucleotides difference from B*460101, resulting in two amino acids change from Glu to Val at codon 152 and Trp to Leu at codon 156. HLA-B*4614 has a single nucleotide difference at position 97 T→C compared with HLA-B*460101, with an amino acid change from Tyr to His at codon 9. HLA-B*4618 shares the sequence of exon 2 with B*4601 and sequences of exons 3 and 4 with B*55, B*54 or B*59, together resulting in eight amino acids change compared with HLA-B*460101.     

Identification of a novel HLA-B allele, HLA-B*5529, by haplotype-specific sequencing

We have identified a novel HLA-B allele, B*5529. The novel allele differs from HLA-B*5501 by a single nucleotide substitution at codon 479 in exon 3 resulting in an amino acid change from alanine to valine. This alteration neither affects the peptide binding site nor the T-cell receptor (TCR) contact residues. Thus, the newly found allele is estimated to have a low alloreactive potential in case of a mismatch to the most common HLA-B allele B*5501.     

Identification of a novel HLA-B*40 null allele, HLAB*40:155N

The novel HLA (human leukocyte angiten)-A*26 allele differs from A*26:01:01 by a single nucleotide substitution at position 292 of exon 2 where a 'G' change to 'C'.     

HLA-B*1832, a novel B allele was found through high-resolution HLA typing of a Spanish blood donor

In this paper, we describe the novel human leukocyte antigen (HLA)-B*1832 allele that we found in a female Spanish volunteer blood donor for clinical investigation during her high-resolution HLA typing. The HLA-B typing is B*1801 , 1832 , and the DNA sequence is homozygous with the exception characterized by a nucleotide exchange 'C' to 'A' at position 505, which, in consequence, replaced arginine at codon 169 (CGC) by serine in the new allele B*1832.     

HLA-B*8202 identified in a Caucasoid potential bone marrow donor

Sequence analysis of HLA class I alleles has continued to reveal the true extent of polymorphism, particularly for B-locus alleles. This diversity can arise through reshuffling of polymorphic sequences generated by point mutation, resulting in interallelic recombination or intergenic recombination (1). Here we describe a new B-locus allele, B*8202, which is structurally most similar to B*8201, having only one nucleotide difference in exon 3 at nucleotide 557, resulting in an amino acid change of aspartic acid to glycine at residue 162. Glycine is the consensus amino acid for B-locus alleles, which suggests that B*8202 is older than B*8201 in evolutionary terms. B*8201 was found to be a hybrid of B*4501 and B*5602 that may have arisen through recombination events, explaining the serological patterns observed with these allotypes. The importance of high-resolution typing is emphasised here as routine typing suggested the presence of B*8201 and the new variant allele may have been missed had it not been typed further by sequence-based typing.