Molecular cloning and nucleotide sequences of the complementary DNAs to chicken skeletal muscle myosin two alkali light chain mRNAs.

We report here the molecular cloning and sequence analysis of DNAs complementary to mRNAs for myosin alkali light chain of chicken embryo and adult leg skeletal muscle. pSMA2-1 contained an 818 base-pair insert that includes the entire coding region and 5' and 3' untranslated regions of A2 mRNA. pSMA1-1 contained a 848 base-pair insert that included the 3' untranslated region and almost all of the coding region except for the N-terminal 13 amino acid residues of the A1 light chain. The 741 nucleotide sequences of A1 and A2 mRNAs corresponding to C-terminal 141 amino acid residues and 3' untranslated regions were identical. The 5' terminal nucleotide sequences corresponding to N-terminal 35 amino acid residues of A1 chain were quite different from the sequences corresponding to N-terminal 8 amino acid residues and of the 5' untranslated region of A2 mRNA. These findings are discussed in relation to the structures of the genes for A1 and A2 mRNA.     

Evolutionary conservation in the untranslated regions of actin mRNAs: DNA sequence of a human beta-actin cDNA.

We report the complete nucleotide sequence of a human beta actin cDNA. Both the 5' and 3' untranslated regions of the sequence are similar (greater than 80%) to the analogous regions of the rat beta-actin gene reported by Nudel et al (1983). When a segment of the 3' untranslated region is used as a radiolabelled probe, strong hybridization to chick beta actin mRNA is seen. This conservation of sequences suggests that strong selective pressures operate on non-translated segments of beta actin mRNA.     

Mouse C-reactive protein. Generation of cDNA clones, structural analysis, and induction of mRNA during inflammation.

A full-length C-reactive protein (CRP) cDNA clone has been isolated from a CBA/J-strain-mouse acute-phase liver library. The 1614-nucleotide cDNA specifies mRNA 5' and 3' untranslated regions of 81 and 858 bases respectively that flank 675 bases encoding mouse pre-CRP. The derived amino acid sequence predicts a 19-residue leader peptide followed by a 206-residue mature mouse CRP that shows considerable sequence identity with both human and rabbit CRP. Northern-blot analysis of mouse liver CRP mRNA concentrations after inflammatory stimuli and comparison with hepatic induction of mRNA for the major mouse acute-phase protein serum amyloid P component established that CRP, a major acute-phase reactant in human and rabbit, is a minor acute-phase reactant in mouse. The size and organization of the mouse CRP mRNA 5' and 3' untranslated regions are significantly different from those of human and rabbit CRP mRNA and may have implications for its anomalous minimal induction during acute inflammation.     

Mouse testes contain two size classes of actin mRNA that are differentially expressed during spermatogenesis.

Using several actin isotype-specific cDNA probes, we found actin mRNA of two size classes, 2.1 and 1.5 kilobases (kb), in extracts of polyadenylated and nonpolyadenylated RNA from sexually mature CD-1 mouse testes. Although the 2.1-kb sequence was present in both meiotic and postmeiotic testicular cell types, it decreased manyfold in late haploid cells. The 1.5-kb actin sequence was not detectable in meiotic pachytene spermatocytes (or in liver or kidney cells), but was present in round and elongating spermatids and residual bodies. To differentiate between the beta- and gamma-actin mRNAs, we isolated a cDNA, pMGA, containing the 3' untranslated region of a mouse cytoplasmic actin that has homology to the 3' untranslated region of a human gamma-actin cDNA but not to the 3' untranslated regions of human alpha-, beta-, or cardiac actins. Dot blot hybridizations with pMGA detected high levels of presumptive gamma-actin mRNA in pachytene spermatocytes and round spermatids, with lower amounts found in elongating spermatids. Hybridization with the 3' untranslated region of a rat beta-actin probe revealed that round spermatids contained higher levels of beta-actin mRNA than did pachytene spermatocytes or residual bodies. Both probes hybridized to the 2.1-kb actin mRNA but failed to hybridize to the 1.5-kb mRNA.     

Cooperativity between the preproinsulin mRNA untranslated regions is necessary for glucose-stimulated translation

Glucose regulates proinsulin biosynthesis via stimulation of the translation of the preproinsulin mRNA in pancreatic beta-cells. However, the mechanism by which this occurs has remained unclear. Using recombinant adenoviruses that express the preproinsulin mRNA with defined alterations, the untranslated regions (UTRs) of the preproinsulin mRNA were examined for elements that specifically control translation of the mRNA in rat pancreatic islets. These studies revealed that the preproinsulin 5'-UTR was necessary for glucose stimulation of preproinsulin mRNA translation, whereas the 3'-UTR appeared to suppress translation. However, together the 5'- and 3'-UTRs acted cooperatively to markedly increase glucose-induced proinsulin biosynthesis. In primary hepatocytes the presence of the preproinsulin 3'-UTR led to reduced mRNA levels compared with the presence of the SV40 3'-UTR, consistent with the presence of mRNA stability determinants in the 3'-UTR that stabilize the preproinsulin mRNA in a pancreatic beta-cell-specific manner. Translation of these mRNAs in primary hepatocytes was not stimulated by glucose, indicating that regulated translation of the preproinsulin mRNA occurs in a pancreatic beta-cell-specific manner. Thus, the untranslated regions of the preproinsulin mRNA play crucial roles in regulating insulin production and therefore glucose homeostasis by regulating the translation and the stability of the preproinsulin mRNA.     

GM-CSF and oncogene mRNA stabilities are independently regulated in trans in a mouse monocytic tumor

Regulation of mRNA turnover has emerged as an important control point in lymphokine and oncogene expression. We have studied a monocytic tumor in which activation of GM-CSF expression results from the constitutive stabilization of the normally short-lived GM-CSF mRNA. Linkage of the germ-line 3' untranslated region of the GM-CSF gene to a neo reporter gene demonstrated that mRNA stabilization is mediated by a tumor-specific trans-acting factor(s), rather than by an alteration of the GM-CSF gene itself. Significantly, similar fusions of the c-myc and c-fos 3' untranslated regions to neo yielded mRNAs that turned over rapidly in all cells, including the tumor cells. These results demonstrate that AU-rich mRNA turnover signals are recognized differentially in trans within the same cell.     

Nucleotide sequence analysis of the cloned salmon preproinsulin cDNA

A cDNA library was constructed using polyadenylated RNA from salmon (Oncorhynchus keta) Brockmann bodies, plasmid vector pBR322, and in vitro recombinant DNA techniques. Insulin-related clones were identified with a cDNA probe generated from the same RNA and enriched for insulin sequences. Two recombinants were shown to contain the nucleotide sequence of the entire coding region and parts of the 5' and 3' untranslated regions. The salmon preproinsulin mRNA is about 760 nucleotides long, 315 of which code for the protein, while about 190 and 200 nucleotides belong to the 5' and 3' flanking regions, respectively. Comparison of the nucleotide sequences of salmon insulin mRNA with those from other species reveals that sequence conservation is limited to the regions coding for the B and A peptides and two segments of the signal peptide. The C-peptide region exhibits no significant sequence homology with the C-peptides of other vertebrates. The 5' and 3' untranslated regions of the salmon preproinsulin mRNA are homologous only with the anglerfish mRNA, whereas there is no evident homology with those of birds and mammals. In addition to establishing the sequence of the preproinsulin mRNA, cloned salmon insulin cDNA provides a specific probe for the analysis and isolation of genomic DNA fragments containing insulin genes.     

Terminal sequences do not contain the rate-limiting decay determinants of E. coli cat mRNA.

The mechanism of E. coli chloramphenicol acetyltransferase (cat) mRNA decay was investigated. Alteration of the 5' untranslated terminus does not appear to have an effect on the turnover rate of the mRNA. Similarly, changes at the 3' terminus of the message, including the addition of a stable stem and loop structure, do not affect the half-life of the message. The data suggest that 5' and 3' terminal untranslated sequences do not contain the rate-limiting determinants for cat message decay. Decay rates for various segments of the cat mRNA were measured and indicate that all regions of the message have similar stabilities. The current model of cat mRNA degradation involves a rate-limiting endonucleolytic decay event that occurs internal to the message followed by degradation of the cleavage products.     

Organization of sequences of avian globin mRNA.

Formamide polyacrylamide gel electrophoresis shows that chicken globin mRNA contains about 6.50 nucleotides, and since only 435 of these code for globin, a further 215 are not translated, and their function and position are not known. This work has produced the following conclusions. 1. 45-50 of these untranslated nucleotides are present as poly (A) at the 3' terminus. 2. The 3' untranslated region of chicken globin mRNA is at least 90 nucleotides in length. This minimal estimate is based on data derived from hybridization of defined lenghts of chicken globin cDNA to rabbit globin mRNA. The percentage of avian globin cDNA sequences which hybridize to rabbit globin mRNA is directly proportional to the length of the cDNA in each case. This relationship holds for lengths of cDNA from 115 up to 620 nucleotides. The low percentage homology for short cDNA molecules is not due to their being short per se. In homologous mRNA excess hybridizations (chicken cDNA/chicken mRNA), all cDNA preparations were completely protected from S1 nuclease digestion. 3. It is probable that there is greater evolutionary divergence in the 3' untranslated region of chicken and rabbit globin mRNA when compared with the coding regions of these molecules; The combined data is sued to formulate a regional map of chicken globin mRNA,     

Structural characterization and tissue-specific expression of the mRNAs encoding isoenzymes from two rat mitochondrial creatine kinase genes.

Creatine kinase (CK; EC 2.7.3.2) isoenzymes play prominent roles in energy transduction. Mitochondrial CK (MtCK) reversibly catalyzes the transfer of high energy phosphate to creatine and exists, in the human, as two isoenzymes encoded by separate genes. We report here the cDNA sequences of the two isoenzymes of MtCK in the rat. Rat sarcomeric MtCK has 87% nucleotide identity in the 1257 bp coding region and 82% in the 154 bp 3' untranslated region as compared with human sarcomeric MtCK. Rat ubiquitous MtCK has 92% nucleotide identity over the 1254 bp coding region with human ubiquitous MtCK and 81% identity of the 148 by 3' untranslated region. Nucleotide identity between the rat sarcomeric and ubiquitous MtCK coding regions is 70%, with no conservation of their 3' untranslated regions. Thus, MtCK sequence is conserved in a tissue-specific, rather than species-specific, manner. Conservation of the 3' untranslated regions is highly unusual and suggests a regulatory function for this region. The NH2-terminal transit peptide sequences share 82% amino acid homology between rat and human sarcomeric MtCKs and 92% homology between rat and human ubiquitous MtCKs, but have only 41% homology to each other. This tissue-specific conservation of the transit peptides suggests receptor specificity in mitochondrial uptake. Rat sarcomeric MtCK mRNA is expressed only in skeletal muscle and heart, but rat ubiquitous MtCK mRNA is expressed in many tissues, with highest levels in brain, gut and kidney. Ubiquitous MtCK mRNA levels are dramatically regulated in uterus and placenta during pregnancy. Coexpression of sarcomeric and ubiquitous MtCK with their cytosolic counterparts, MCK and BCK, respectively, supports the creatine phosphate shuttle hypothesis and suggests that expression of these genes is coordinately regulated.     

Structural characteristics of osteopontin mRNA]

Conservatism of primary and secondary structure of osteopontin mRNA in vertebrates of various taxes was studied using computer analysis and blot-hybridization procedure. Relatively high rate of evolution of a nucleotide sequence of osteopontin gene was revealed. Formation of hairpin-loop structures by adjacent sequences and a high content of AU-pairs indicate more flexible structure of the mammalian osteopontin mRNA as compared with the avian one. It has been detected some AU-enriched regions in 3'-terminal untranslated sequences, which presence is characteristic for short-lived mRNA. Evolutionary conserved subsequences in 3'- and 5'-terminal regions were suggested to be determinants of RNA-protein interaction in cytoplasm.