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.     

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.     

Identification of a new HLA-B null allele,B*1817 N,in a family

We describe a new HLA-B null allele found in a daughter and her mother. This null allele was due to a mutation at position 41 of exon 1 which resulted in a premature stop codon. This new null allele was officially named HLA-B*1817N*.     

Identification of a novel allele HLA-B*7805 in a Japanese female

A new HLA-B*78 allele, B*7805, was identified in a healthy Japanese female. The results of her serological HLA class I typing showed an unusual Bw4/Bw6 pattern with strongly positive reactivity to anti-Bw6, i.e. A24, -, B52, -, Bw4, Bw6. In DNA typing, she was typed as A*24, -, B*52, B*78-like, Cw1202, -, (Bw4, Bw6). Cloning and sequencing of exon 2 and exon 3 of her B locus genes revealed a new allele B*7805. The cloned B*7805 differed from B*78021 by three nucleotide substitutions in exon 2 at position 259 (A to G), 261 (C to G) and 272 (A to C), and contained sequences defining Bw6 motif in the region of codon 77 to 83.     

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 three novel HLA class I alleles: HLA-A*0261, HLA-B*1585 and HLA-B*1587

Three novel human leucocyte antigen (HLA) class I alleles have been characterized by means of direct DNA sequencing analysis. HLA-A* 0261 showed sequence variation at conserved codon. It differs from HLA-A* 020601 by a single-nucleotide substitution at codon 57 (CCG-->GCG) resulting in an amino acid change from Pro to Ala. The sequences of HLA-B*1585 are similar to those of HLA-B*15010101, but differed five nucleotides on exon 3 resulting in three amino acid changes at residues 94 (Thr-->Ile), 95 (Leu-->Ile) and 103 (Val-->Leu). Likewise, HLA-B*1587 is identical to HLA-B*15010101 except at codons 80-83 (Asn-Leu-Arg-Gly-->Ile-Ala-Leu-Arg) which has been replaced by HLA-Bw4 motif. These alleles seemed to be generated by either a point mutation or a gene conversion-like event from alleles existing in the population with high frequencies.     

Identification of a novel HLA-B*56 allele, B*5618 and an extension of B*2736 by sequence-based typing

We report the identification of a novel human leukocyte antigen (HLA)-B*56 allele, B*5618 and an extension of B*2736 that were found during routine high-resolution sequence-based typing in Chinese Han individual. The B*5618 allele has 4nt changes from B*5610 in exon 3, The B*2736 allele has 10nt changes from B*270401 in exons 3-4.     

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*40 allele, HLA-B*4071, by sequence-based typing

HLA-B*4071 allele shows six nucleotides difference from B*4005 allele in exon 3 at nucleotides 419A>T, 420C>A, 463C>A, 477C>G, 486G>C and 527A>T, resulting in three amino acid changes Tyr116Leu, Arg131Ser and Glu152Val.     

Identification of a new HLA-B*56 variant, B*5614

In this report, the novel allele B*5614 is presented. The allele was identified in a Chinese individual by sequence-based typing. HLA-B*5614 differs from B*5608 by a single nucleotide at position 277G-->C in exon 2. This results in an amino acid change from Gly to Arg at codon 93.     

Identification of a novel HLA-B*07 allele--HLA-B*0726

We describe here, the identification of a novel HLA-B*07 allele named HLA-B*0726. This allele was found in a Caucasian individual serologically typed as HLA-B7, B35. Novel DNA probe patterns for the HLA-B*07 allele were found using HLA-B specific reverse sequence-specific oligonucleotide probe (SSOP) and sequence-specific primer (SSP) typing. DNA sequencing demonstrated the presence of a new HLA-B*07 sequence variant encoding a single nucleotide substitution from a G to a T at nucleotide 539 in exon 3. This results in an amino acid substitution from arginine to leucine at residue 156 in exon 3.     

Identification of a novel HLA-B allele (B*4202) in a Saudi Arabian family with Behçet's disease

A new HLA-B antigen, tentatively called HLA-B42AND, was identified as a B42 serologic variant in a Saudi Arabian family. DNA sequencing analysis of the second and third exon of this new B allele revealed that B42AND was identical to B*4201 except for a single T to C substitution at position 97 of exon 2. This substitution results in histidine (CAC) at codon 9 in B42AND instead of tyrosine (TAC) in B*4201. The antigen frequency of B42AND in a Saudi Arabian population was around 10%. This novel B42AND has officially been named HLA-B*4202.     

Identification of a new HLA-B*78 allele in a Hispanic family

A new B*78 variant, B*7804, was detected in three members of a Hispanic family. The novel B*78 sequence differs from B*78021 by two substitutions: T at nucleotide 527 (all other B*78s have A) and T at nucleotide 583 (all other B*78s have a C). Both nucleotide substitutions encode amino acid changes at codons 152 and 171, respectively.     

Sequence, genetics and serology of a new HLA-B allele: B*4903

A new HLA-B allele - B*4903 - was detected by the polymerase chain reaction using sequence-specific priming (PCR-SSP), in a Caucasoid bone marrow panel donor, that differs from B*4901 by 8 nucleotides at positions 141, 142, 144, 165, 167, 193, 206 and 213 in exon 2. These substitutions all occur in HLA-B*51 and B*52 alleles and encode 4 amino acid substitutions at positions 24 (Thr to Ala), 32 (Leu to Gln), 41 (Thr to Ala) and 45 (Lys to Thr). This suggests that B*4903 occurred following a gene conversion-like event involving B*4901 and probably a B*51 allele. HLA-B*4903 was identified on a haplotype with: HLA-A*0201; Cw*07; DRB1*1302/34; DRB3*0301; DQA1*0102; DQB1*0604; BfS; C4A3; C4BQ0 and encodes a unique serological specificity which was characterised by the reactivity of 55 antisera directed towards at least four predicted epitopes. No further examples of B*4903 were found in 15,796 consecutive HLA PCR-SSP typed donors from the Welsh Bone Marrow Donor Registry, indicating that this allele has a phenotype frequency of <0.01% and a gene frequency of <0.00004.     

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.