Splicing defects in the ataxia-telangiectasia gene, ATM: underlying mutations and consequences.

Mutations resulting in defective splicing constitute a significant proportion (30/62 [48%]) of a new series of mutations in the ATM gene in patients with ataxia-telangiectasia (AT) that were detected by the protein-truncation assay followed by sequence analysis of genomic DNA. Fewer than half of the splicing mutations involved the canonical AG splice-acceptor site or GT splice-donor site. A higher percentage of mutations occurred at less stringently conserved sites, including silent mutations of the last nucleotide of exons, mutations in nucleotides other than the conserved AG and GT in the consensus splice sites, and creation of splice-acceptor or splice-donor sites in either introns or exons. These splicing mutations led to a variety of consequences, including exon skipping and, to a lesser degree, intron retention, activation of cryptic splice sites, or creation of new splice sites. In addition, 5 of 12 nonsense mutations and 1 missense mutation were associated with deletion in the cDNA of the exons in which the mutations occurred. No ATM protein was detected by western blotting in any AT cell line in which splicing mutations were identified. Several cases of exon skipping in both normal controls and patients for whom no underlying defect could be found in genomic DNA were also observed, suggesting caution in the interpretation of exon deletions observed in ATM cDNA when there is no accompanying identification of genomic mutations.     

kitl非编码区突变导致RNA剪切异常的小鼠

本文主要采用RT-RCR技术从kitl1-bao纯合子和正常C57BL/6(B6)小鼠总RNA中扩增出kitl基因片段,测序后与GenBank(登录号:NM.013598)序列比对,找到mRNA上突变部位。PCR扩增kitl基因组DNA上对应部位进一步测序验证。结果发现kitl1-bao突变纯合子kitl基因mRNA缺少第8号外显子。在基因组DNA上kitl基因第8号内含子第2个碱基由T转换为C,是引起mRNA剪接错误的原因     

Identification of a mutation that causes exon skipping during collagen pre-mRNA splicing in an Ehlers-Danlos syndrome variant

Recent biochemical studies have shown that the fibroblasts from a patient with Ehlers-Danlos Syndrome Type VIIB produce nearly equal amounts of normal and shortened pro-alpha 2(I) collagen chains (Wirtz, M.K., Glanville, R. W., Steinmann, B., Rao, V. H., and Hollister, D. (1987) J. Biol. Chem. 262, 16376-16385). Compositional and sequencing studies of the abnormal pro-alpha 2(I) chain identified an interstitial deletion of 18 residues corresponding to the N-telopeptide of the collagen molecule. Since this region is encoded by a 54-base pair exon, number 6, the protein defect could have been caused by gene deletion, abnormal pre-mRNA splicing, or both. Here, in order to elucidate the molecular nature of this mutation we have analyzed the sequences of pro-alpha 2(I) collagen cDNA and genomic clones obtained from RNA and DNA of the patient's fibroblasts. Using oligomer-specific cloning we identified a cDNA that contains a 54-base pair deletion corresponding precisely to the sequence of exon 6. Identification of the normal gene was based on the finding of an identical sequence polymorphism in a normal cDNA and in the genomic clone derived from one of the two collagen alleles. The other gene, instead, displayed a base substitution (T to C) in the obligatory GT dinucleotide of the 5' splice-site sequence of intron 6. Analysis of nearly 100 base pairs immediately 5' to exons 5, 6, and 7, and 3' to exons 5 and 7 did not reveal any additional change. Therefore, the data strongly suggest that the observed GT-to-GC transition at the splice donor site of intron 6 generates an abnormally spliced mRNA in which the sequence of exon 5 is joined to the sequence of exon 7. Since skipping of exon 6 does not interfere with the coding frame of the mRNA, the resulting shortened polypeptide, albeit utilized in the assembly of a procollagen trimer, ultimately causes the Ehlers-Danlos Syndrome Type VII phenotype.     

Exon Redefinition by a Point Mutation within Exon 5 of the Glucose-6-Phosphatase Gene is the Major Cause of Glycogen Storage Disease Type 1a in Japan

Glycogen storage disease (GSD) type 1a (von Gierke disease) is an autosomal recessive disorder caused by a deficiency in microsomal glucose-6-phosphatase (G6Pase). We have identified a novel mutation in the G6Pase gene of a individual with GSD type 1a. The cDNA from the patient's liver revealed a 91-nt deletion in exon 5. The genomic DNA from the patient's white blood cells revealed no deletion or mutation at the splicing junction of intron 4 and exon 5. The 3' splicing occurred 91 bp from the 5' site of exon 5 (at position 732 in the coding region), causing a substitution of a single nucleotide (G to T) at position 727 in the coding region. Further confirmation of the missplicing was obtained by transient expression of allelic minigene constructs into animal cells. Another eight unrelated families of nine Japanese patients were all found to have this mutation. This mutation is a new type of splicing mutation in the G6Pase gene, and 91% of patients and carriers suffering from GSD1a in Japan are detectable with this splicing mutation.     

棉花GhCCR1基因结构及表达分析

根据棉花GhCCR1基因的cDNA序列设计引物,采用PCR技术从棉花中克隆了GhCCR1基因的DNA序列,并采用半定量RT-PCR方法分析了GhCCR1基因在不同发育阶段棉纤维中的表达情况.结果表明:GhCCR1编码区DNA序列长度为1 161 bp,包含4个外显子和3个内含子,内含子富含AT,所有外显子/内含子交接点都遵从gt/ag剪接规则.半定量RT-PCR检测表明,GhCCR1基因在不同发育阶段的棉纤维中均有表达,在开花后20 d的棉纤维中表达量最高,说明该基因可能参与调控棉纤维细胞的伸长和次生壁的增厚过程.     

Molecular analysis of a novel hereditary C3 deficiency with systemic lupus erythematosus

A case of inherited homozygous complement C3 deficiency (C3D) in a patient with systemic lupus erythematosus (SLE) and the molecular basis for this deficiency are reported. A 22-year-old Japanese male was diagnosed as having SLE and his medical history revealed recurrent tonsillitis and pneumonia. He was diagnosed as having C3D because of undetectable serum C3 level. His parents were consanguineous. Sequence analysis of C3D cDNA revealed a homozygous deletion of exon 39 (84bp). A single base substitution (AG to GG) in the 3'-splice acceptor site of intron 38 was identified by sequencing the genomic DNA. Expression of C3Delta(ex39) cDNA, the C3cDNA lacking exon 39, in COS-7 cells revealed that C3Delta(ex39) was retained in endoplasmic reticulum-Golgi intermediate compartment because of defective secretion. These data indicate that a novel AG-->GG 3'-splice acceptor site mutation in intron 38 caused aberrant splicing of exon 39, resulting in defective secretion of C3.     

X-连锁迟发性脊椎骨骺发育不良基因剪接受体突变对mRNA加工的影响

X-连锁迟发性脊椎骨骺发育不良（spondyloepiphyseal dysplasia tarda, SEDL）是一种少见的由SEDL基因突变引起的骨软骨发育障碍性疾病,病变主要累及腰椎和近端承重大关节。为研究SEDL基因剪接受体突变(IVS2 -2A→C)对mRNA加工的影响,从该突变所致SEDL患者,以及健康对照者外周血中提取总RNA,逆转录合成cDNA, 以此为模板进行聚合酶链式反应（polymerase chain reaction, PCR）,对PCR扩增产物采用双向直接测序和非变性聚丙烯酰胺凝胶电泳(polyacrylamide gel electrophoresis, PAGE)方法进行分析。测序结果发现IVS2-2A→C突变患者的一种cDNA外显子2与外显子4直接拼接,显示外显子3全部丢失;另一种cDNA外显子1与外显子4拼接,显示外显子2和外显子3均缺失;在健康对照者也发现了外显子2缺失的cDNA。PAGE发现患者和对照者都存在两种RT-PCR产物,长度分别为567bp、425bp以及679bp、537bp,证实了测序结果。这说明SEDL基因第二内含子剪接受体突变（IVS2-2A→C）导致其外显子3在mRNA加工过程中全部丢失,由于SEDL基因的翻译起始位点位于外显子3,它的缺失可能使生成的mRNA不能被翻译,从而引起SEDL发生;外显子2位于5′ UTR,它的缺失提示SEDL基因存在选择性剪接,正常人也存在缺失外显子2的cDNA,说明这种选择性剪接对临床表型的影响似乎并不大,它对基因表达水平和表达调控是否有影响还需要进一步研究。     

Cloning and characterization of the human beta-glucuronidase gene

We have isolated a cosmid clone that contains GUSB, the human gene encoding beta-glucuronidase. The 21-kb gene contains 12 exons ranging from 85 to 376 bp in length. Exon 6 corresponds to the 153-bp deletion in the shorter of two types of cDNAs reported earlier, supporting the hypothesis that this cDNA arose by alternate splicing leading to exon skipping. The insert contains 4.2 kb of sequence upstream from the first exon and 6 kb 3' of the last exon. The clone expresses human beta-glucuronidase in stably transformed rat XCtk- cells. Comparison of the human gene organization with that recently reported for the murine beta-glucuronidase gene revealed that the intron/exon boundaries are identical. In the splice junctions, the most highly conserved regions are those identified as consensus sequences, and these are at least as highly conserved as bases encoding the translated portion of the gene.     

Aberrant splicing caused by the insertion of the B2 sequence into an intron of the complement C4 gene is the basis for low C4 production in H-2k mice.

The serum level of the fourth component of complement (C4) in mice bearing the H-2k haplotype is only 1/10 to 1/20 of that of non-H-2k mice. We have analyzed C4 cDNA clones from B10.BR(H-2k) mouse liver and found aberrant C4 cDNA which contained a 200-base pair (bp) insertion between the exon 13 and exon 14 encoded sequences in addition to the normal C4 cDNA. The 5' 148 bp and the 3' 52 bp of this insert were derived from the B2 sequence, the short interspersed repeats of mouse genome, and the central part of intron 13, respectively. Sequence analysis of intron 13 of the C4k gene showed the presence of a complete copy of a B2 consensus sequence. The structure of aberrant C4 mRNA indicated that the possible 3' splice site in the B2 sequence and the cryptic 5' splice site in intron 13 were used. Both the insertion of the B2 sequence into intron 13 and the presence of aberrant mRNA in the liver were specific to H-2k-bearing mice, suggesting that the aberrant splicing due to the B2 insertion is the basis for low C4 expression in H-2k mice.     

A splice site mutation of the beta-spectrin gene causing exon skipping in hereditary elliptocytosis associated with a truncated beta-spectrin chain.

We studied a French kindred with hereditary elliptocytosis associated with a spectrin variant (spectrin LePuy) containing a beta-spectrin chain that is truncated at its C terminus (Dhermy, D., Lecomte, M., Garbarz, M., Bournier, O., Galand, C., Gautero, H., Feo, C., Alloisio, N., Delaunay, J., and Boivin, P. (1982) J. Clin. Invest. 70, 707-715). The structure of the 3' end of the beta-spectrin gene, the region encoding the C terminus of beta-spectrin, was determined. Nucleotide sequencing of amplified genomic DNA revealed a mutation at position +4 (A----G) of the 5' donor consensus splice site of the intron following the third-to-last exon (exon X) in one beta-spectrin allele of a heterozygous patient. Agarose gel electrophoresis of polymerase chain reaction-amplified cDNA revealed an extra band of lower molecular weight, suggesting that the shortened beta-spectrin chain of spectrin LePuy arises from aberrant mRNA splicing. Nucleotide sequencing of the shorter cDNA amplification product revealed that the sequences encoding exon X were absent. Southern blotting of cDNA amplification products confirmed this result. The skipping of exon X causes a shift in the normal reading frame resulting in the encoding of a new amino acid sequence at the C terminus of the mutant beta-spectrin chain. A new in-frame stop codon is encountered following a single residue of this novel sequence.     

Variant forms of DNA polymerase beta in primary lung carcinomas.

DNA polymerase beta (pol beta) provides most of the gap-filling synthesis at apurinic/apyrimidine sites of damaged DNA in the base excision repair pathway. A truncated form of the pol beta protein is expressed in colon and breast cancers. However, the role of the pol beta gene in lung cancer is not known. Thus, we investigated a possible occurrence of pol beta variants in primary lung tumors. The entire cDNA of pol beta obtained by RT-PCR amplification was analyzed for nucleotide sequencing in lung tumor and matched normal lung tissue of the same patient. Three types of variants were detected in squamous, non-small, or large cell carcinomas. The most common variant was a deletion of 87 bp from pol beta cDNA at a site corresponding to exon 11. In addition, a variant exhibiting deletions of 87 and 140 bp together with an insertion of 105 bp was identified in three lung tumors. This is the first report of the occurrence of pol beta variants, possibly splicing variants, in lung cancer. A truncated pol beta protein resulting from variant forms of the gene may impact the function of the enzyme and increase susceptibility to carcinogenesis.