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1.
L C Surh  A L Beaudet  W E O'Brien 《Gene》1991,99(2):181-189
The cDNA and gene encoding murine argininosuccinate synthetase were cloned and characterized. The cDNA sequence predicts a peptide of 412 amino acids (aa) including the initiator methionine. There is 98% identity with the aa sequence of the human enzyme. The 3'-untranslated region of the cDNA includes two regions of sequence which are conserved between mouse, rat, human and cow. The murine gene contains 16 exons with the start codon occurring in exon 3. Although alternative splicing occurs in primates to include or exclude exon 2, exon 2 sequences were included in the murine mRNA in all tissues and developmental stages examined. The inclusion of exon 2 in murine mRNA, compared to the usual exclusion in human mRNA, may be explained by differences in the donor splice sequences for exon 2.  相似文献   

2.
The hnRNP A1 pre-mRNA is alternatively spliced to yield the A1 and A1b mRNAs, which encode proteins differing in their ability to modulate 5' splice site selection. Sequencing a genomic portion of the murine A1 gene revealed that the intron separating exon 7 and the alternative exon 7B is highly conserved between mouse and human. In vitro splicing assays indicate that a conserved element (CE1) from the central portion of the intron shifts selection toward the distal donor site when positioned in between the 5' splice sites of exon 7 and 7B. In vivo, the CE1 element promotes exon 7B skipping. A 17-nucleotide sequence within CE1 (CE1a) is sufficient to activate the distal 5' splice site. RNase T1 protection/immunoprecipitation assays indicate that hnRNP A1 binds to CE1a, which contains the sequence UAGAGU, a close match to the reported optimal A1 binding site, UAGGGU. Replacing CE1a by different oligonucleotides carrying the sequence UAGAGU or UAGGGU maintains the preference for the distal 5' splice site. In contrast, mutations in the AUGAGU sequence activate the proximal 5' splice site. In support of a direct role of the A1-CE1 interaction in 5'-splice-site selection, we observed that the amplitude of the shift correlates with the efficiency of A1 binding. Whereas addition of SR proteins abrogates the effect of CE1, the presence of CE1 does not modify U1 snRNP binding to competing 5' splice sites, as judged by oligonucleotide-targeted RNase H protection assays. Our results suggest that hnRNP A1 modulates splice site selection on its own pre-mRNA without changing the binding of U1 snRNP to competing 5' splice sites.  相似文献   

3.
The genes encoding mouse and human acetylcholinesterases have been cloned from genomic and cosmid libraries. Restriction analysis and a comparison of sequence with the cDNAs have defined the exon-intron boundaries. In mammals, three invariant exons encode the signal peptide and the amino-terminal 535 amino acids common to all forms of the enzyme whereas alternative exon usage of the next exon accounts for the structural divergence in the carboxyl termini of the catalytic subunits. mRNA protection studies show that the cDNA encoding the hydrophilic catalytic subunits represents the dominant mRNA species in mammalian brain and muscle whereas divergent mRNA species are evident in cells of hematopoietic origin (bone marrow cells and a erythroleukemia cell line). Analyses of mRNA species in these cells and the genomic sequence have enabled us to define two alternative exons in addition to the one found in the cDNAs; they encode unique carboxyl-terminal sequences. One mRNA consists of a direct extension through the intervening sequence between the common exon and the 3' exon deduced from the cDNA. This sequence encodes a subunit lacking the cysteine critical to oligomer formation. Another mRNA results from a splice that encodes a stretch of hydrophobic amino acids immediately upstream of a stop codon. This exon, when spliced to the upstream invariant exons, should encode glycophospholipid-linked species of the enzyme. Homologous sequence, identity of exon-intron junctions, and identity of position of the stop codon are seen for this region in mouse and human. Polymerase chain reactions carried out across the expected intron region and mRNA protection studies show that this splice occurs in mouse bone marrow and erythroleukemia cells yielding the appropriate cDNA.  相似文献   

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Cloning of the murine Krit1 cDNA reveals novel mammalian 5' coding exons   总被引:1,自引:0,他引:1  
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6.
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.  相似文献   

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9.
C A Gritzmacher  V S Mehl  F T Liu 《Biochemistry》1992,31(40):9533-9538
epsilon BP (for epsilon binding protein) is a M(r) 31,000 S-type animal lectin that binds to IgE and has been identified as the homologue of Mac-2, a macrophage cell-surface marker, as well as the lectins RL-29, CBP35, and L-34. The protein is composed of two domains with the amino-terminal portion containing tandem repeats of nine amino acids and the carboxyl-terminal half containing consensus sequences shared by S-type animal lectins. We determined the genomic map in both rat and mouse and isolated overlapping genomic clones that contain the 5' two-thirds of the murine gene. The remaining portion of the gene was obtained by polymerase chain reaction (PCR) amplification of genomic murine DNA followed by subcloning into plasmid vectors. The epsilon BP gene is composed of six exons separated by five introns. The entire amino-terminal repetitive sequence is contained in exon III, and the carboxyl-terminal domain is encoded by the three succeeding exons (IV, V, VI). The latter three exons correspond well in size and share sequence homology with three exons coding for 14-kDa S-type lectins. The sequence in exon I offers an explanation for the generation of two mRNAs differing only in their 5' untranslated sequences, previously reported in Mac-2 cDNA clones. Using cDNA synthesis and PCR amplification, we determined that two alternative splice sites are used in many different types of cells. This alternative splicing results in different 5' untranslated regions of the murine epsilon BP mRNA.  相似文献   

10.
We have previously shown that, in the myelin-deficient jimpy mutant mouse, 74 nucleotides are absent from the mRNA for proteolipid protein (PLP) as a result of aberrant RNA processing. To define the exact site of the jimpy mutation, we have analyzed the PLP gene obtained from a jimpy mouse genomic library. We find that the nucleotide sequence that is absent from jimpy PLP mRNA is fully preserved in the jimpy PLP gene. The missing segment corresponds to a separate exon, equivalent to exon 5 of the human PLP gene. The nucleotide sequence at the 3' end of intron 4 in the jimpy PLP gene contains a single point mutation. A base change A----G in the 3' acceptor splice site has altered a position that is 100% conserved in all published splice acceptor sequences. We conclude that the primary genetic defect of the jimpy mouse is a single base change in the PLP gene disabling an invariant recognition sequence of RNA splicing.  相似文献   

11.
The fourth exon of the mouse polymeric immuno-globulin receptor (pIgR) is 654 nt long and, despite being surrounded by large introns, is constitutively spliced into the mRNA. Deletion of an 84 nt sequence from this exon strongly activated both cryptic 5' and 3' splice sites surrounding a 78 nt cryptic intron. The 84 nt deletion is just upstream of the cryptic 3' splice site; the cryptic 3' splice site was likely activated because the deletion created a better 3' splice site. However, the cryptic 5' splice site was also required to activate the cryptic splice reaction; point mutations in either of the cryptic splice sites that decreased their match to the consensus splice site sequence inactivated the cryptic splice reaction. The activation and inactivation of these cryptic splice sites as a pair suggests that they are being co-recognized by the splicing machinery. Interestingly, the large fourth exon of the pIgR gene encodes two immunoglobulin-like extracellular protein domains; the cryptic 3' splice site coincides with the junction between these protein domains. The cryptic 5' splice site is located between protein subdomains where an intron is found in another gene of the immunoglobulin superfamily.  相似文献   

12.
Structure and sequence of the human homeobox gene HOX7.   总被引:13,自引:0,他引:13  
A cosmid containing the human sequence HOX7, homologous to the murine Hox-7 gene, was isolated from a genomic library, and the positions of the coding sequences were determined by hybridization. DNA sequence analysis demonstrated two exons that code for a homeodomain-containing protein of 297 amino acids. The open reading frame is interrupted by a single intron of approximately 1.6 kb, the splice donor and acceptor sites of which conform to known consensus sequences. The human HOX7 coding sequence has a very high degree of identity with the murine Hox-7 cDNA. Within the homeobox, the two sequences share 94% identity at the DNA level, all substitutions being silent. This high level of sequence similarity is not confined to the homeodomain; overall the human and murine HOX7 gene products show 80% identity at the amino acid level. Both the 5' and 3' untranslated regions also show significant similarity to the murine gene, with 79 and 70% sequence identity, respectively. The sequence upstream of the coding sequence of exon 1 contains a GC-rich putative promoter region. There is no TATA box, but a CCAAT and numerous GC boxes are present. The region encompassing the promoter region, exon 1, and the 5' region of exon 2 have a higher than expected frequency of CpG dinucleotides; numerous sites for rare-cutter restriction enzymes are present, a characteristic of HTF islands.  相似文献   

13.
Inclusion of fibronectin alternative exon B in mRNA is developmentally regulated. Here we demonstrate that exon B contains two unique purine-rich sequence tracts, PRE1 and PRE2, that are important for proper 5' splice site selection both in vivo and in vitro. Targeted mutations of both PREs decreased the inclusion of exon B in the mRNA by 50% in vivo. Deletion or mutation of the PREs reduced removal of the downstream intron, but not the upstream intron, and induced the activation of cryptic 5' splice sites in vitro. PRE-mediated 5' splice selection activity appears sensitive to position and sequence context. A well characterized exon sequence enhancer that normally acts on the upstream 3' splice site can partially rescue proper exon B 5' splice site selection. In addition, we found that PRE 5' splice selection activity was preserved when exon B was inserted into a heterologous pre-mRNA substrate. Possible roles of these unique activities in modulating exon B splicing are considered.  相似文献   

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In the heterogeneous nuclear ribonucleoprotein (hnRNP) A1 pre-mRNA, different regions in the introns flanking alternative exon 7B have been implicated in the production of the A1 and A1B mRNA splice isoforms. Among these, the CE1a and CE4 elements, located downstream of common exon 7 and alternative exon 7B, respectively, are bound by hnRNP A1 to promote skipping of exon 7B in vivo and distal 5' splice site selection in vitro. Here, we report that CE1a is flanked by an additional high affinity A1 binding site (CE1d). In a manner similar to CE1a, CE1d affects 5' splice site selection in vitro. Consistent with a role for hnRNP A1 in the activity of CE1d, a mutation that abrogates A1 binding abolishes distal 5' splice site activation. Moreover, the ability of CE1d to stimulate distal 5' splice site usage is lost in an HeLa extract depleted of hnRNP A/B proteins, and the addition of recombinant A1 restores the activity of CE1d. Notably, distal 5' splice site selection mediated by A1 binding sites is not compromised in an extract prepared from mouse cells that are severely deficient in hnRNP A1 proteins. In this case, we show that hnRNP A2 compensates for the A1 deficiency. Further studies with the CE4 element reveal that it also consists of two distinct portions (CE4m and CE4p), each one capable of promoting distal 5' splice site use in an hnRNP A1-dependent manner. The presence of multiple A1/A2 binding sites downstream of common exon 7 and alternative exon 7B probably plays an important role in maximizing the activity of hnRNP A1/A2 proteins.  相似文献   

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The primary structure of human glutathione reductase gene (GSR) was determined by genomic cloning. The gene structure of human GSR spans 50 kb, consists of 13 exons, and was found to be highly similar to the mouse GSR gene. The coding sequence of human GSR resides on all 13 exons. An N-terminal arginine-rich mitochondrial leader sequence was present, with high homology to the murine leader sequence, between two in-frame start codons in the first exon. The 5' and 3' intron/exon splice junctions, with one exception, followed the general consensus sequences for intron spliced donor and acceptance sites.  相似文献   

19.
cDNA clones encoding the murine int-1-related protein (m-irp) were isolated from an 8.5-day mouse embryo library. m-irp and its human counterpart, h-irp, share extensive nucleotide homology in coding (92%) and 3' untranslated (69%) regions. At the amino acid level, m-irp and h-irp share 97% of amino acids including all 24 cysteine residues, which are highly conserved among members of the int-1 family. However, in contrast to h-irp and int-1, the predicted m-irp protein sequence did not contain a signal peptide sequence. Analysis of polymerase chain reaction, amplified cDNA, and genomic sequences strongly suggests that a single-base substitution has created a new 5' splice site 17 bp 5' of a highly conserved splice site. Splicing at this new site generates a mRNA-encoding an amino-terminal truncated protein. Splicing at the conserved splice site generates a mRNA species encoding a protein with a signal peptide sequence similar to h-irp. Close linkage between m-irp and the met oncogene maps m-irp sequences to proximal mouse chromosome 6. Adult and fetal expression of m-irp was examined by RNA blot analysis. Adult expression of m-irp is restricted to lungs and heart, and fetal expression, to placental tissue and to all stages of fetal development examined. In situ hybridization localized early fetal m-irp expression to the pericardium of the heart, to the umbilicus and associated allantoic mesoderm, and to the ventral lateral mesenchyme tissue surrounding the umbilical vein in the fetus. These results suggest a role for m-irp in the development of fetal allantoic communication.  相似文献   

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