Nucleotide sequence comparison of the rp49 gene region between Drosophila subobscura and D. melanogaster

A 1.6-kb fragment encompassing the rp49 gene, which codes for a ribosomal protein, has been cloned and sequenced in Drosophila subobscura. The rp49 coding region has accumulated 46 nucleotide differences out of 402 bp since D. subobscura diverged from D. melanogaster. Forty-three percent of the effectively silent sites have changed since both species diverged. Both silent and replacement differences are distributed at random between the two exons of the gene. The frequency of silent differences in exons does not differ from that observed in the 5' leader sequence and in the intron. The frequency of silent differences in exon and intron sites is much greater than the number of amino acid replacement differences. This observation indicates strong purifying selection against amino acid replacements.      

Location of the 11 bp exon in the chicken pro alpha 2(I) collagen gene.

During the fine structural analysis of the 5' end of the 38 kb chicken pro alpha 2(I) collagen gene, we failed to locate an exon, only 11 bp in size, which had been predicted from the DNA sequence analysis of a cDNA clone complementary to the 5' end of the pro alpha 2(I) collagen mRNA (1). We know report the location of this 11 bp exon, exon 2, at the 5' end of a 180 bp Pst I fragment, 1900 bp 3' to exon 1 and 600 bp 5' to exon 3. Its sequence, ATGTGAGTGAG, is highly unusual in that it contains two overlapping consensus donor splice sequences. Moreover, it is flanked by two overlapping donor splice sequences but only one of the four splice sequences is actually spliced (1). The first half of intron 1 also has an unusual sequence: it is 68% GC, contains 88 CpG dinucleotides and 11 Hpa II sites. The second half is more like other intron sequences in the collagen gene with a GC content of 41%, 19 CpG, and no Hpa II sites. However it contains two sequences with 7 and 9 bp homology to the 14 bp SV40 enhancer core sequence. It is suggested that some part of intron 1 may be involved in regulation.     

Junctions of the large single copy region and the inverted repeats in Spinacia oleracea and Nicotiana debneyi chloroplast DNA: sequence of the genes for tRNAHis and the ribosomal proteins S19 and L2.

This work describes the organization, at the nucleotide sequence level, of genes flanking the junctions of the large single copy regions and the inverted repeats of Spinacia oleracea (spinach) and Nicotiana debneyi chloroplast DNAs. In both genomes, trnH1, the gene for tRNA-His(GUG) is located at the extremity of the large single copy region 3' to psbA, the gene for the 35 kd Photosystem 2 protein. Both psbA and trnH1 are transcribed towards the inverted repeat. In spinach, the first 48 codons of rps19, the gene for the chloroplast ribosomal protein S19, lie in the inverted repeat and the last 44 codons lie in the large single copy region at the end opposite to that carrying trnH1. The gene for a protein homologous to the E. coli ribosomal protein L2, rp12, is in the inverted repeat immediately 5' to rps19 and, like rps19, is transcribed towards the large single copy region. In N. debneyi, but not in spinach, rp12 is interrupted by a 666 bp insertion. The gene for tRNA-lle(CAT), trnl1, is located in the inverted repeats of spinach and N. debneyi, 5' to rp12 and is transcribed in the same direction as rp12.     

An unstable mutant gene of the am locus of Neurospora results from a small duplication

We have cloned the unstable am mutant gene, am126, as well as the am gene from an am126 revertant. The mutation is a result of a 33-bp duplication that repeats a sequence starting 13 bp upstream of the 3' splice junction between intron 1 and exon 2 and extends 20 bp into exon 2. In addition, there is a G----A transition 2 bp upstream of the first copy of the duplicated sequence. In the revertant gene the wild-type sequence is precisely recovered, involving both the loss of the duplication and a reversion (A----G) of the associated transition. Our data suggest that only the more 5' of the two 3' splice junctions present in the duplicated version of the gene is used. This favors a 5'----3' scanning mechanism for exon splicing.     

The rat casein multigene family. Fine structure and evolution of the beta-casein gene

Eight overlapping phage clones, spanning 34.4 kilobase pairs of genomic DNA, containing the 7.2-kilobase pair rat beta-casein gene have been isolated and characterized. The first 510 base pairs (bp) of 5' flanking, 110 bp of 3' flanking, and all the exon/intron junctions have been sequenced. The beta-casein gene contains 9 exons ranging in size from 21 to 525 bp. We have attempted to identify potential regulatory elements by searching for regions of sequence homology shared between milk protein genes which respond similarly to lactogenic hormones and by searching for previously reported hormone receptor-binding sites. Within the conserved first 200 bp of 5' flanking sequences 3 regions of greater than 70% homology were observed between the rat beta- and gamma-casein genes. One of these contains a region 90% homologous to the chicken progesterone receptor-binding site. The conserved 5' noncoding region, the highly conserved signal peptide, and the hydrophobic carboxyl-terminal region of the protein are each encoded by a separate exon. In contrast the evolutionarily conserved phosphorylation site of beta-casein is formed by an RNA-splicing event. The exons which encode the phosphorylation sites of beta-casein appear to have resulted from an intragenic duplication. Based upon the exon structure of the casein genes, an evolutionary model of intragenic and intergenic exon duplications for this gene family is proposed.     

The structure of the rat ameloblastin gene and its expression in amelogenesis

Ameloblastin (also designated amelin and sheathlin) is an enamel matrix protein expressed within the ameloblast lineage. In this study we analyzed the structure of the rat ameloblastin gene and characterized its subtypes. The promoter sequence contains several E-box-like elements, and consensus sequences for AP1 and SP1. The gene is about 6 kb in length and contains 12 exons. Exon 1 was mapped by primer extension and encodes 90 bp of 5' untranslated leader sequence, followed by the coding sequences of exon 2 (309 bp), alternatively spliced exon 3a (45 bp), exon 3b (198 bp), exon 4 (36 bp), exon 5 (60 bp), exon 6 (45 bp), exon 7 (150 bp), and exon 8 (448 bp) containing coding sequence (426 bp) and 3' untranslated sequence (22 bp), followed by exon 9 (39 bp); exon 10 (143 bp); exon 11 (342 bp); and exon 12. Exon 3a, encoding YEYSLPVHPPPLPSQ, has a potential SH3 binding domain. Analysis of ameloblastin subclones showed that exon 3a and 11 were potential alternative splicing sites, producing 4 types of ameloblastin mRNA, from which ameloblastin I and II could be translated. Using in situ hybridization, immunohistochemistry, Western blot and RT-PCR methods we found that ameloblastin II, containing exon 3a, was more strongly expressed at the late maturation stage of ameloblasts than at the secretory stage, while a common probe for both ameloblastin subtypes showed wide expression throughout the presecretory, secretory and postsecretory stages. From the above results we propose that ameloblastin II plays an important role in the mineralization of ameloblasts during the maturation stages.     

A very small frame-shifting deletion within exon 19 of the Duchenne muscular dystrophy gene

We report the molecular characterization of a Japanese Duchenne muscular dystrophy (DMD) patient. The analysis of genomic gene by polymerase chain reaction indicates that the individuals have a limited deletion within an amplified region, which encompasses exon 19 of DMD gene. The amplified region was sequenced. Comparison of the deletion joint sequence with the normal amplified region sequence indicates that both 5' and 3' deletion end points are present within exon 19 and the deletion removes total 52 bp out of 88 bp of exon 19. Both his mother and sister are carriers of the deletion-containing allele. The mutation introduces a termination codon at residue 791 in exon 20, and is predicted to result in the production of a severely truncated protein. This sort of deletion (designated as DMD-Kobe) might be classified as a new type of DMD gene abnormality.     

Identification of novel splice variants of the human CD44 gene

The CD44 gene contains 10 variable exons (v1-v10) that can be alternatively spliced to generate hundreds of different CD44 protein isoforms, several of which have been implicated in the metastatic spread of tumour cells. Here, we describe a cryptic splice site, in intron 6 of the human CD44 gene, used during mRNA processing. This cryptic splice site is used in conjunction with variable exon 3, or independently from it in the form of a pseudo-exon of 49 bp, which generates a stop codon by frame shift in the contiguous variable exon downstream. This pseudo-exon has been found inserted immediately 3' to any other variable exon from v4 to v10, in the final CD44 mRNA. The implication of this cryptic splice site in haltering CD44 protein translation is questioned in the context of Nonsense Mediated Decay and the overall regulation of CD44 expression.