Evolution of RH genes in hominoids: characterization of a gorilla RHCE-like gene

The human RH locus is responsible for the expression of the Rh blood group antigens. It consists of two closely linked genes, RHD and RHCE, that exhibit 92% similarity between coding regions. These observations suggest that they are derived from a relatively recent duplication event. Previously a study of nonhuman primate RH-like genes demonstrated that ancestral RH gene duplication occurred in the common ancestor of man, chimpanzees and gorillas. By amplification of intron 3 and intron 4 of gorilla RH-like genes, we have now shown that, like man, gorillas possess two types of RH intron 3 (RHCE intron 3 being 289 bp longer than the RHD intron 3) and two types of intron 4 (RHCE intron 4 being 654 bp longer than the RHD intron 4). Here we report the characterization of a cDNA encoded by a gorilla RH-like gene which possesses introns 3 and 4 of the RHCE type. A comparison of this gorilla RHCE-like coding sequence with previously characterized human and ape cDNA sequences suggests that RH genes experienced complex recombination events after duplication in the common ancestor of humans, chimpanzees and gorillas.     

Characterization of the recombination hot spot involved in the genomic rearrangement leading to the hybrid D-CE-D gene in the D(VI) phenotype.

In the Caucasian population, the RH locus of RhD-positive individuals is composed of two homologous genes, RHD and RHCE, arranged in tandem but of a single gene, RHCE, in RhD-negative individuals. Many variants recently characterized carry rearranged RH genes, most often by an unidirectional segmental DNA-exchange (gene-conversion) event. In D(VI) variants of type II, RHD is a D-CE-D hybrid gene in which the DNA fragment carrying exons 4-6 has been replaced by the corresponding sequences from the RHCE gene. To identify precisely and characterize the two transition sites, we have studied, by both PCR and sequence analysis, a genomic region between the 3' end of intron 3 and exon 7 in normal RHCE and RHD genes as well as in D(VI) DNA. We show that the D-CE breakpoint is located in intron 3, within a 250-bp fragment comprising an Alu S sequence, and that the CE-D breakpoint lies within a 39-bp fragment in intron 6. This Alu S sequence (and the 100-bp region immediately downstream) most likely defines a recombination hot spot, since there lies also the 5' breakpoint of different rearrangement events leading to D-CE and CE-D transitions in hybrid D(VI),DFR and Dc-,R(N) gene complexes, respectively.     

Gene organization and rearrangements at the human Rhesus blood group locus revealed by fiber-FISH analysis

The human Rhesus (Rh) blood group locus is composed of two highly homologous genes, the RHD and RHCE genes on chromosome 1, encoding the D, C/c, and E/e antigens in common Rh-positive phenotypes. In general, the RHD gene is either absent or grossly deleted in Rh-negative individuals. In this study, gene organization at the RH locus of Japanese donors with different serological phenotypes was directly analyzed by two-color fluorescence in situ hybridization on DNA fibers released from their lymphocytes (fiber-FISH) and by using DNA probes of introns 3 and 7 of the RHCE and RHD genes. Six Rh-positive samples (two with the D+C-c+E+e-, two with the D+C+c-E-e+, and two with the D+C+c+E+e+ phenotype) showed the presence of two RH genes within a region of less than 200 kb on chromosome 1p36.1. Of great interest was the finding that the genes were arranged in the antidromic order of the telomere -RHCE (5'--> 3') -RHD (3'-->5') - centromere. On the other hand, two typical Rh-negative samples (D-C-c+E+e+) showed the presence of only one RHCE gene, as expected. Moreover, further analysis combined with a locus-specific assay of three Rh-negative samples (D-C+c+E+e+, D-C+c+E-e+, and D-C+c-E-e+) showed the possible presence of the RHD gene(s) and complex rearrangements, including partial deletion, duplication, and recombination, in this region; these could be responsible for the Rh-negative phenotype.     

Rh gene evolution in primates: study of intron sequences

By amplification and sequencing of RH gene intron 4 of various primates we demonstrate that an Alu-Sx-like element has been inserted in the RH gene of the common ancestor of humans, apes, Old World monkeys, and New World monkeys. The study of mouse and lemur intron 4 sequences allowed us to precisely define the insertion point of the Alu-Sx element in intron 4 of the RH gene ancestor common to Anthropoidea. Like humans, chimpanzees and gorillas possess two types of RH intron 4, characterized by the presence (human RHCE and ape RHCE-like genes) or absence (human RHD and ape RHD-like genes) of the Alu-Sx element. This led us to conclude that in the RH common ancestor of humans, chimpanzees, and gorillas, a duplication of the common ancestor gene gave rise to two genes, one differing from the other by a 654-bp deletion encompassing an Alu-Sx element. Moreover, most of chimpanzees and some gorillas posses two types of RHD-like intron 4. The introns 4 of type 1 have a length similar to that of human RHD intron 4, whereas introns 4 of type 2 display an insertion of 12 bp. The latest insertion was not found in the human genome (72 individuals tested). The study of RH intron 3 length polymorphism confirmed that, like humans, chimpanzees and gorillas possess two types of intron 3, with the RHD-type intron 3 being 289 bases shorter than the RHCE intron 3. By amplification and sequencing of regions encompassing introns 3 and 4, we demonstrated that chimpanzee and gorilla RH-like genes displayed associations of introns 3 and 4 distinct to those found in man. Altogether, the results demonstrate that, as in humans, chimpanzee and gorilla RH genes experienced intergenic exchanges.     

A recombination hot spot in the Rh genes revealed by analysis of unrelated donors with the rare D-- phenotype.

We have studied the arrangement of Rh (rhesus) genes in donors who are completely null for the products of one of them, RHCE. We show that five of six homozygous individuals with the so-called Rh D-- phenotype, who express no red-cell antigens of the C/c and E/e series, have rearranged RHCE genes in which internal sequences have been replaced by the corresponding sequences from RHD. Moreover, although there is heterogeneity at the 3' end, the 5' boundary of this chimerism is within the same small interval around exon 2. This interval is characterized by an exceptionally high degree of sequence homology between RHCE and RHD, a high density of dispersed repetitive elements, and the presence of an alternating purine-pyrimidine copolymer tract. We suggest that these features may explain the mechanistic basis for the origin of the rearrangement.     

Molecular description of three macro-deletions and an Alu-Alu recombination-mediated duplication in the HPRT gene in four patients with Lesch-Nyhan disease

Mutations in the HPRT gene cause a spectrum of diseases that ranges from hyperuricemia alone to hyperuricemia with profound neurological and behavioral dysfunction. The extreme phenotype is termed Lesch-Nyhan syndrome. In 271 cases in which the germinal HPRT mutation has been characterized, 218 different mutations have been found. Of these, 34 (13%) are large- (macro-) deletions of one exon or greater and four (2%) are partial gene duplications. The deletion breakpoint junctions have been defined for only three of the 34 macro-deletions. The molecular basis of two of the four duplications has been defined. We report here the breakpoint junctions for three new deletion mutations, encompassing exons 4-8 (20033bp), exons 4 and 5 (13307bp) and exons 5 and 6 (9454bp), respectively. The deletion breakpoints were defined by a combination of long polymerase chain reaction (PCR) amplifications, and conventional PCR and DNA sequencing. All three deletions are the result of non-homologous recombinations. A fourth mutation, a duplication of exons 2 and 3, is the result of an Alu-mediated homologous recombination between identical 19bp sequences in introns 3 and 1. In toto, two of three germinal HPRT duplication mutations appear to have been caused by Alu-mediated homologous recombination, while only one of six deletion mutations appears to have resulted from this type of recombination mechanism. The other five deletion mutations resulted from non-homologous recombination. With this admittedly limited number of characterized macro-mutations, Alu-mediated unequal homologous recombinations account for at least 8% (3 of 38) of the macro-alterations and 1% (3 of 271) of the total HPRT germinal mutations.     

cis基因交换形成RHD-CE(2-9)-D等位基因

以往通过基因组DNA分析,分别在高加索人和中国人中观察到少数Rh阴性个体存在RHD基因第1和第10外显子,但是该等位基因形成的具体分子机制尚有争论。本文分别针对RHD基因mRNA的5′-和3′-非编码区设计一对特异性引物,通过逆转录PCR（RT-PCR）和cDNA测序,分析2例RHD基因阳性（拥有第1和第10外显子）、D抗原表型阴性个体的全长mRNA/cDNA序列,同时以1例正常Rh阳性个体（CcDDee）作对照。结果正常Rh阳性个体拥有正常RHD基因mRNA,2名携带RHD基因的Rh阴性个体则均检出存在与正常RHD基因或RHCE基因转录产物相同长度、以及相同外显子构成的mRNA,但该转录子的第1和第10外显子及3′-非编码区序列与RHD基因一致,而第2～9外显子全部序列与RHCE(e)基因mRNA相同,表明2名个体均存在RHD-CE(2~9)-D融合RHD等位基因,即其RHD基因的第2～9外显子被同源RHCE(e)基因替换,导致不能编码正常RhD蛋白,形成个体D抗原阴性表型。     

Gene arrangement at the Rhesus blood group locus of chimpanzees detected by fiber-FISH

The Rhesus (Rh) blood group system in humans is encoded by two genes with high sequence homology. These two genes, namely, RHCE and RHD, have been implied to be duplicated during evolution. However, the genomic organization of Rh genes in chimpanzees and other nonhuman primates has not been precisely studied. We analyzed the arrangement of the Rh genes of chimpanzees (Pan troglodytes) by two-color fluorescence in situ hybridization on chromatin DNA fibers (fiber-FISH) using two genomic DNA probes that respectively contain introns 3 and 7 of human RH genes. Among the five chimpanzees studied, three were found to be homozygous for the two-Rh-gene type, in an arrangement of Rh (5'-->3') - Rh (3'<--5'). Although a similar gene arrangement can be detected in the RH gene locus of typical Rh-positive humans, the distance between the two genes in chimpanzees was about 50 kb longer than that in humans. The remaining two chimpanzees were homozygous for a four-Rh-gene type, in an arrangement of Rh (5'-->3') - Rh (3'<--5') - Rh (3'<--5') - Rh (3'<--5') within a region spanning about 300 kb. This four-Rh-gene type has not been detected in humans. Further analysis of other great apes showed different gene arrangements: a bonobo was homozygous for the three-Rh-gene type; a gorilla was heterozygous for the one-Rh- and two-Rh-gene types; an orangutan was homozygous for the one-Rh-gene type. Our findings on the intra- and interspecific genomic variations in the Rh gene locus in Hominoids would shed further light on reconstructing the genomic pathways of Rh gene duplication during evolution.     

中国汉族个体HLA-A、-B基因全长序列的测定及调控区多态性

文章利用20个中国汉族个体样本建立了稳定精确的HLA-A、-B基因全长序列的克隆测序方法, 获得HLA-A 10个等位基因4.2 kb序列, HLA-B 6个等位基因3.7 kb序列, 序列涵盖了两个基因的所有外显子、所有内含子、5′启动子区以及3′非翻译区(3′UTR)。A*1153是文章发现的一个新等位基因, B*151101的内含子序列、5个HLA-A以及2个HLA-B等位基因的5′启动子序列和3′UTR序列为国际上首次报道, 其他等位基因均延伸了IMGT/HLA数据库中释放的全长序列。文章首次在中国汉族个体中测定了IMGT/HLA数据库中没有覆盖的HLA-A、-B基因的上游5′启动子以及下游3′UTR区域的多态性模式。HLA-A基因5′启动子延伸区域共发现26个SNPs和一处3 bp(AAA/-)的插入/缺失, 3′UTR延伸区域共发现14个SNPs; HLA-B基因5′启动子延伸区域共发现5个SNPs和一处1 bp(T/-)的插入/缺失, 3′UTR延伸区域共发现8个SNPs。通过对两个基因的5′启动子、外显子以及3′UTR的系统发育树分析, 发现两个基因调控区与外显子的进化关系有所不同, HLA-A基因除A*24020101外, 其他等位基因两端调控区与外显子连锁比较紧密, HLA-B基因两端调控区与外显子之间则发生了较为频繁的重组事件。     

Characterization of the gene for prostate-specific antigen, a human glandular kallikrein

The gene for the human glandular kallikrein, prostate-specific antigen, has been cloned. The sequence of 7130 nucleotides encompassing the gene and 633 bp of 5' and 639 bp of 3' flanking DNA has been determined. The translation initiation site was slightly heterogeneous, yielding 5' non-translated leader sequences of 41 and 35 bp. The gene is divided into five exons, with introns located at positions identical with those found in other glandular kallikrein genes. The nucleotide sequence is very similar to that of the human kallikrein gene hGK-1, with 76 to 93% of the nucleotides being identical in the exons and 76 to 87% in the introns. The similarity also extends approximately 200 bp into the sequence flanking the 5' end of hGK-1 and several other, both human and rodent, glandular kallikrein genes.     

The complete sequence of the human beta-myosin heavy chain gene and a comparative analysis of its product

We have isolated and sequenced the gene and the cDNA coding for the human cardiac beta-myosin heavy chain (designated MYH7). The gene is 22,883 bp long. The 1935 amino acids of this protein (Mr223,111) are encoded by 38 exons. The 5' untranslated region (86 bp) is split by two introns. The 3' untranslated region is 114 bp long. Three Alu repeats were identified within the gene and a fourth one in the 3' flanking intergenic region. The molecular organization of this gene reflects the conservative pattern with respect to size, coding ratio, and number or position of introns characteristic of vertebrate sarcomeric myosin heavy chain genes. The protein sequence of the human beta-heavy chain was compared with corresponding (homologous) sequences of rabbit, rat, and hamster as well as with the (heterologous) embryonic heavy chain sequences of rat, chicken, and man. The results show that protein subregions responsible for basic functions of myosin heavy chains (nucleotide binding and actin binding) are very similar in homologous and heterologous heavy chains. Regions that differ in their primary sequences in heterologous heavy chains appear to be highly conserved within mammalian beta-myosin heavy chains. Constant and variable subregions of heavy chains are discussed in terms of functional significance and evolutionary relatedness.     

Complete chloroplast genome sequences from Korean ginseng (Panax schinseng Nees) and comparative analysis of sequence evolution among 17 vascular plants.

The nucleotide sequence of Korean ginseng (Panax schinseng Nees) chloroplast genome has been completed (AY582139). The circular double-stranded DNA, which consists of 156,318 bp, contains a pair of inverted repeat regions (IRa and IRb) with 26,071 bp each, which are separated by small and large single copy regions of 86,106 bp and 18,070 bp, respectively. The inverted repeat region is further extended into a large single copy region which includes the 5' parts of the rpsl9 gene. Four short inversions associated with short palindromic sequences that form stem-loop structures were also observed in the chloroplast genome of P. schinseng compared to that of Nicotiana tabacum. The genome content and the relative positions of 114 genes (75 peptide-encoding genes, 30 tRNA genes, 4 rRNA genes, and 5 conserved open reading frames [ycfs]), however, are identical with the chloroplast DNA of N. tabacum. Sixteen genes contain one intron while two genes have two introns. Of these introns, only one (trnL-UAA) belongs to the self-splicing group I; all remaining introns have the characteristics of six domains belonging to group II. Eighteen simple sequence repeats have been identified from the chloroplast genome of Korean ginseng. Several of these SSR loci show infra-specific variations. A detailed comparison of 17 known completed chloroplast genomes from the vascular plants allowed the identification of evolutionary modes of coding segments and intron sequences, as well as the evaluation of the phylogenetic utilities of chloroplast genes. Furthermore, through the detailed comparisons of several chloroplast genomes, evolutionary hotspots predominated by the inversion end points, indel mutation events, and high frequencies of base substitutions were identified. Large-sized indels were often associated with direct repeats at the end of the sequences facilitating intra-molecular recombination.     

香菇三个功能基因部分序列的单核苷酸多态性分析

以15个香菇栽培品种为材料,对尿嘧啶核苷酸-胞嘧啶核苷酸激酶基因(UMP-CMP kinase gene,uck1)、分裂原活化蛋白激酶基因(mitogen-activated protein kinase gene,mapk)和外切β-1,3葡聚糖酶基因(exo-β-1,3-glucanase-encoding gene,exg1)进行了部分序列的单核苷酸多态性(single nucleotide polymorphism,SNP)分析。结果表明,测序中出现的双峰,是菌丝双核体细胞中两细胞核之间的差异造成的。在采用uck1、mapk和exg1的3,126bp中,共发现48处多态性位点,发生频率为1/65bp,其中36个属于转换、12个为颠换。从群体发生频率上,38个属于超过10%的常见SNP,10个属于罕见SNP。不同基因的SNP发生频率不同,uck1、mapk和exg1的SNP发生频率分别为1.40%、0.82%和2.41%。外显子区SNP数量高于内含子,3个基因在外显子区域分布28个,内含子分布20个。外显子的28个SNP位点中,11个为错义突变,17个为同义突变。错义突变引起了编码氨基酸的改变。对SNP位点的聚类分析表明,15个栽培品种间存在的多态性位点在1–36之间,15个品种的SNP类型不同。uck1,mapk,exg1的SNP可用于香菇栽培品种的鉴别。     

Nucleotide diversity and molecular evolution of the WAG-2 gene in common wheat (Triticum aestivum L) and its relatives

In this work, we examined the genetic diversity and evolution of the WAG-2 gene based on new WAG-2 alleles isolated from wheat and its relatives. Only single nucleotide polymorphisms (SNP) and no insertions and deletions (indels) were found in exon sequences of WAG-2 from different species. More SNPs and indels occurred in introns than in exons. For exons, exons+introns and introns, the nucleotide polymorphism π decreased from diploid and tetraploid genotypes to hexaploid genotypes. This finding indicated that the diversity of WAG-2 in diploids was greater than in hexaploids because of the strong selection pressure on the latter. All dn/ds ratios were < 1.0, indicating that WAG-2 belongs to a conserved gene affected by negative selection. Thirty-nine of the 57 particular SNPs and eight of the 10 indels were detected in diploid species. The degree of divergence in intron length among WAG-2 clones and phylogenetic tree topology suggested the existence of three homoeologs in the A, B or D genome of common wheat. Wheat AG-like genes were divided into WAG-1 and WAG-2 clades. The latter clade contained WAG-2, OsMADS3 and ZMM2 genes, indicating functional homoeology among them.     

Discovery of intron polymorphisms in cultivated tomato using both tomato and Arabidopsis genomic information

A low level of genetic variation has limited the application of molecular markers for characterizing important traits in cultivated tomato. To detect polymorphisms in tomato conserved ortholog sets (COS), expressed sequence tags (ESTs) were searched against tomato and Arabidopsis genomic sequences to define the positions of introns. Introns were amplified from 12 different accessions of tomato by polymerase chain reaction and nucleotide sequences were determined by sequencing. Results indicated that there was a possibility of 71% to amplify introns from tomato genomic DNA through this approach. A total of 201 introns were sequenced from 86 COS unigenes. The intron positions and numbers were conserved between tomato and Arabidopsis, but average intron length was three times longer in tomato than in Arabidopsis. A total of 307 single nucleotide polymorphisms (SNPs) and 75 indels were detected in introns of 57 COS unigenes among 12 tomato lines. Within cultivated tomato germplasm 172 SNPs and 47 indels were detected in introns of 33 COS unigenes. In addition, 41 SNPs were identified in the exons of 27 COS unigenes. The frequency of SNPs was 2.4 times higher in introns than in exons in the 22 COS unigenes having both intronic and exonic polymorphisms. These results indicate that intronic regions may contain sufficient variation to develop sufficient marker resources for genome-wide analysis in cultivated tomato.     

cDNA cloning, characterization, and variation analysis of chicken adipose triglyceride lipase (ATGL) gene

Adipose triglyceride lipase (ATGL) is an important triglyceride-specific lipase that catalyzes the initial step in triglyceride hydrolysis. In this study, cloning, sequencing, and mRNA real-time analyses were employed to characterize the chicken ATGL gene. We obtained a total of 1,528-bp long chicken ATGL cDNA fragment including 51-bp 5'UTR, 1,452-bp open reading frame (ORF), and 25-bp 3'UTR. The predicted chicken ATGL had 483 amino acids and a molecular weight of 53.5 kDa, giving rise to identities of 66.5%, 67.3%, 68.2%, 64.8%, and 66.5% with that of human, mouse, rat, pig, and cattle, respectively. The chicken ATGL gene spanned over 30,197 bp and comprised of nine exons and eight introns, in which the intron 1 (21,146 bp) was far longer than others. It predominantly expressed in subcutaneous fat and abdominal fat and then in kidney and lung. Very low but detectable mRNA level was also observed in other 15 tissues. However, no mRNA was detected in spleen. A total of 15 single nucleotide polymorphisms (SNPs) were identified in its complete cDNA sequences with an average of one SNP in every 102 bp and a summarized nucleotide diversity of 3.02 x 10(-3). Seven of the 15 SNPs were non-synonymous. All SNPs had allelic frequencies over 5% and could be considered as candidate markers for future marker-trait association analysis.     

The nucleotide sequence of a nodule-specific gene,Nms-25 of Medicago sativa: its primary evolution via exon-shuffling and retrotransposon-mediated DNA rearrangements

We present the primary structure of a nudule-specific gene, Nms-25 from Medicago sativa L. cultivar Nagyszénási. Analysis of the nucleotide sequence of Nms-25 revealed that this gene shows all the characteristics of an interrupted plant gene consisting of 13 exons and 12 introns. The promoter region of Nms-25 contains the common promoter elements of plant genes as well as motifs which are supposed to be involved in nodule-specific expression. There are two exon-like sequences in the gene named PE1 and PE2 which are not present in the cDNA clones of Medicago sativa cultivar Cardinal. Intron 9 carries a retrotransposon-like element, Tms1, which might be responsible for downstream deletion events in which a heptanucleotide, ATTAGCT, might have been involved. Most of the exons, exept 1, 12 and 13, are similar to each other both in length (54 bp) and sequence (up to 94% sequence similarity). All exons are interrupted by introns in the same phase (type I). It is suggested that exon-shuffling based on illegitimate recombination in which the ATTAGCT motif might have played an active role, and retrotransposon-mediated DNA rearrangements were the primary events in the molecular evolution of the Nms-25 gene. The nucleotide sequence of the genomic clone of Nms-25 from Medicago sativa is available from the EMBL/GenBank/DDBJ Nucleotide Sequence Databases under the accession number X13287.