Isolation and in vitro translation of zein messenger ribonucleic acid

Zein messenger RNA was isolated from membrane-bound polyribosomes of developing maize kernels by oligo(dT)-cellulose chromatography. Translation of the mRNA in vitro yielded protein similar to native zein in amino acid content, ethanol solubility, and mobility on sodium dodecyl sulfate- polyacrylamide gels. The zein mRNA sedimented as a homogeneous peak on sucrose gradients and contained a poly(A)-rich region based upon hybridization to [3H]poly(U). The mRNA had an apparent molecular weight of 540 000 on agarose-acrylamide gels. It synthesized both 21 800 and 19 000 molecular weight zein components in the wheat-germ cell-free protein synthesis system. The possibility of a polycistronic mRNA or two mRNAs of similar molecular weight is considered.     

Adenylate-rich sequences of heterogeneous nuclear RNA from normal and chronic lymphocytic leukaemia lymphocytes

Rapidly labelled high molecular weight heterogeneous nuclear RNA (Hn RNA) from normal and chronic lymphocytic leukaemia (CLL) lymphocytes has been fractionated into two classes by chromatography on poly (U) sephasose. The (+) Hn RNA is bound to poly (U) sepharose and contains both a long poly (A) segment (100-200 nucleotides) and shorter (A) rich sequences (approximately 20-30 nucleotides. (-) Hn RNA is not bound to poly (U) sepharose and lacks the longer poly (A) segment but does contain shorter (A) rich sequences. Partial association of the short (A) rich segments with double-stranded regions was found for both classes of Hn RNA but was most pronounced in (-) Hn RNA from high WBC cases of CLL. Both classes of Hn RNA from CLL lymphocytes contain varying but generally higher amounts of the short (A) rich fraction than those in normals. Similar amounts of the longer poly (A) segments were found in (+) Hn RNA from both CLL and normal lymphocytes.     

Size distribution of rat liver nuclear RNA containing mRNA sequences

Total rat liver poly(A)-containing polysomal mRNA was size-fractionated on polyacrylamide gels in 98% formamide. Complementary DNA (cDNA) was prepared from the 8--14-S mRNA fraction and separated into sequences representing abundant and non-abundant mRNAs. The cDNA complementary to the abundant small mRNA of the rat liver cell (approximately 20 species) was hybridized to nuclear RNA of different lengths to determine the size distribution of nuclear RNA molecules which contain these messenger sequences. It was found that: 1. All abundant 8--14-S poly(A)-containing mRNAs have larger nuclear precursor molecules; 20% of the different messenger sequences are found in nuclear RNA of several times their cytoplasmic length. 2. 70% of the mass of the examined nuclear messenger sequences is in RNA molecules of a size similar to their polysomal mRNA; 30% are in larger than 18-S RNA and 2% are between 37 S and 44 S. 3. The majority of small messenger-containing RNA molecules in the RNA prepared from isolated nuclei are of true nuclear origin, since their frequency distribution differs significantly from that of the polysomal 8--14-S mRNA.     

Replication of semliki forest virus: polyadenylate in plus-strand RNA and polyuridylate in minus-strand RNA

The 42S RNA from Semliki Forest virus contains a polyadenylate [poly(A)] sequence that is 80 to 90 residues long and is the 3'-terminus of the virion RNA. A poly(A) sequence of the same length was found in the plus strand of the replicative forms (RFs) and replicative intermediates (RIs) isolated 2 h after infection. In addition, both RFs and RIs contained a polyuridylate [poly(U)] sequence. No poly(U) was found in virion RNA, and thus the poly(U) sequence is in minus-strand RNA. The poly(U) from RFs was on the average 60 residues long, whereas that isolated from the RIs was 80 residues long. Poly(U) sequences isolated from RFs and RIs by digestion with RNase T1 contained 5'-phosphorylated pUp and ppUp residues, indicating that the poly(U) sequence was the 5'-terminus of the minus-strand RNA. The poly(U) sequence in RFs or RIs was free to bind to poly(A)-Sepharose only after denaturation of the RNAs, indicating that the poly(U) was hydrogen bonded to the poly(A) at the 3'-terminus of the plus-strand RNA in these molecules. When treated with 0.02 mug of RNase A per ml, both RFs and RIs yielded the same distribution of the three cores, RFI, RFII, and RFIII. The minus-strand RNA of both RFI and RFIII contained a poly(U) sequence. That from RFII did not. It is known that RFI is the double-stranded form of the 42S plus-strand RNA and that RFIII is the experimetnally derived double-stranded form of 26S mRNA. The poly(A) sequences in each are most likely transcribed directly from the poly(U) at the 5'-end of the 42S minus-strand RNA. The 26S mRNA thus represents the nucleotide sequence in that one-third of the 42S plus-strand RNA that includes its 3'-terminus.     

The heterogeneous nuclear RNA of chicken erythroblasts

Heterogeneous nuclear RNA (hnRNA) from chicken erythroblasts has a modal molecular weight of 1.6 -10(6) in 99% dimethylsulfoxide. When erythroblasts are labeled continuously with [14C]uridine, nuclear RNA is labeled as a single kinetic component with a half-life of 18 min. After a 10--20 min lag, label appears in cytoplasmic RNA at about 1% of the initial rate of total RNA synthesis. Of the hnRNA sedimenting faster than 28 S ribosomal RNA in both an aqueous sucrose gradient and a subsequent fructose gradient in 99% dimethylsulfoxide, about one-third is polyadenylated, although only about one in 2000 (i.e. about four molecules per cell) contain a globin messenger sequence. The hnRNA of erythroblasts isolated from 5.7- and 11-day chick embryos have the same content of globin messenger sequences as erythroblaasts from anemic adults.     

Isolation of an RNA-directed RNA polymerase-specific cDNA clone from tomato

A 3600-bp RNA-directed RNA polymerase (RdRP)-specific cDNA comprising an open reading frame (ORF) of 1114 amino acids was isolated from tomato. The putative protein encoded by this ORF does not share homology with any characterized proteins. Antibodies that were raised against synthetic peptides whose sequences have been deduced from the ORF were shown to specifically detect the 127-kD tomato RdRP protein. The immunoresponse to the antibodies correlated with the enzymatic activity profile of the RdRP after chromatography on Q-, poly(A)-, and poly(U)-Sepharose, hydroxyapatite, and Sephadex G-200 columns. DNA gel blot analysis revealed a single copy of the RdRP gene in tomato. RdRP homologs from petunia, Arabidopsis, tobacco, and wheat were identified by using polymerase chain reaction. A sequence comparison indicated that sequences homologous to RdRP are also present in the yeast Schizosaccharomyces pombe and in the nematode Caenorhabditis elegans. The previously described induction of RdRP activity upon viroid infection is shown to be correlated with an increased steady state level of the corresponding mRNA. The possible involvement of this heretofore functionally elusive plant RNA polymerase in homology-dependent gene silencing is discussed.     

The human U5-200kD DEXH-box protein unwinds U4/U6 RNA duplices in vitro

Splicing of nuclear precursors of mRNA (pre-mRNA) involves dynamic interactions between the RNA constituents of the spliceosome. The rearrangement of RNA-RNA interactions, such as the unwinding of the U4/U6 duplex, is believed to be driven by ATP-dependent RNA helicases. We recently have shown that spliceosomal U5 small nuclear ribonucleoproteins (snRNPs) from HeLa cells contain two proteins, U5-200kD and U5-100kD, which share homology with the DEAD/DEXH-box families of RNA helicases. Here we demonstrate that purified U5 snRNPs exhibit ATP-dependent unwinding of U4/U6 RNA duplices in vitro. To identify the protein responsible for this activity, U5 snRNPs were depleted of a subset of proteins under high salt concentrations and assayed for RNA unwinding. The activity was retained in U5 snRNPs that contain the U5-200kD protein but lack U5-100kD, suggesting that the U5-200kD protein could mediate U4/U6 duplex unwinding. Finally, U5-200kD was purified to homogeneity by glycerol gradient centrifugation of U5 snRNP proteins in the presence of sodium thiocyanate, followed by ion exchange chromatography. The RNA unwinding activity was found to reside exclusively with the U5-200kD DEXH-box protein. Our data raise the interesting possibility that this RNA helicase catalyzes unwinding of the U4/U6 RNA duplex in the spliceosome.     

Multiple methylated cap sequences in adenovirus type 2 early mRNA

The methylated constituents of early adenovirus 2 mRNA were studied. RNA was isolated from polyribosomes of cells double labeled with [methyl-3H]methionine and 32PO4 from 2 to 7 g postinfection in the presence of cycloheximide. Cycloheximide ensures that methylation and processing are performed by preexisting host cell enzymes. RNA was fractionated into polyadenylic [poly(A)]+ and poly(A)- molecules using poly(U)-Sepharose, and undergraded virus-specific RNA was isolated by hybridization to viral DNA in 50% formamide at 37 degrees C. Viral mRNA was digested with RNase T2 and chromatographed on DEAE-Sephadex in 7 M urea. Two 3H-labeled RNase T2-resistant oligonucleotide fractions with charges between -5 and -6 were obtained, consistent with two classes of 5' terminal methyl "cap" structures, m7G(5')ppp(5')NmpNp (cap 1) and m7G(5')ppp(5')NmNmpNp (cap 2) (Nm is a ribose 2'-O-methylation). The putative cap 1 contains all the methylated constituents of cap 1 plus Cm. The molar ratios of m7G to 2'-O-methylnucleosides is about 1.0 for cap 1 and 0.5 for cap 2, consistent with the proposed cap structures. Most significant, compositional analysis indicates four different cap 1 structures and at least three different cap 2 structures. Thus there is a minimum of seven early viral mRNA species with different cap structures, unless each type of mRNA can have more than one 5' terminus. In addition to methylated caps, early mRNA contains internal base methylations, exclusively as m6A, as shown by analyses of the mononucleotide (-2 charge) fraction. m6A was present in the ratio of 1 mol of m6Ap per 450 nucleotides. Thus viral mRNA molecules contain two to three internal m6A residues per methyl cap, since there is on the average 1 cap per 1,250 nucleotides.     

Multiple forms of the U2 small nuclear ribonucleoprotein auxiliary factor U2AF subunits expressed in higher plants

Requirements for intron recognition during pre-mRNA splicing in plants differ from those in vertebrates and yeast. Plant introns contain neither conserved branch points nor distinct 3' splice site-proximal polypyrimidine tracts characteristic of the yeast and vertebrate introns, respectively. However, they are strongly enriched in U residues throughout the intron, property essential for splicing. To understand the roles of different sequence elements in splicing, we are characterizing proteins involved in intron recognition in plants. In this work we show that Nicotiana plumbaginifolia, a dicotyledonous plant, contains two genes encoding different homologs of the large 50-65-kDa subunit of the polypyrimidine tract binding factor U2AF, characterized previously in animals and Schizosaccharomyces pombe. Both plant U2AF65 isoforms, referred to as NpU2AF65a and NpU2AF65b, support splicing of an adenovirus pre-mRNA in HeLa cell nuclear extracts depleted of the endogenous U2AF factor. Both proteins interact with RNA fragments containing plant introns and show affinity for poly(U) and, to a lesser extend, poly(C) and poly(G). The branch point or the 3' splice site regions do not contribute significantly to intron recognition by NpU2AF65. The existence of multiple isoforms of U2AF may be quite general in plants because two genes expressing U2AF65 have been identified in Arabidopsis, and different isoforms of the U2AF small subunit are expressed in rice.     

A coactivator of pre-mRNA splicing

The nuclear matrix antigen recognized by the monoclonal antibody (mAb) B1C8 is a novel serine (S) and arginine (R)-rich protein associated with splicing complexes and is named here SRm160 (SR-related matrix protein of 160 kD). SRm160 contains multiple SR repeats, but unlike proteins of the SR family of splicing factors, lacks an RNA recognition motif. SRm160 and a related protein SRm300 (the 300-kD nuclear matrix antigen recognized by mAb B4A11) form a complex that is required for the splicing of specific pre-mRNAs. The SRm160/300 complex associates with splicing complexes and promotes splicing through interactions with SR family proteins. Binding of SRm160/300 to pre-mRNA is normally also dependent on U1 snRNP and is stabilized by U2 snRNP. Thus, SRm160/300 forms multiple interactions with components bound directly to important sites within pre-mRNA. The results suggest that a complex of the nuclear matrix proteins SRm160 and SRm300 functions as a coactivator of pre-mRNA splicing.     

The structural organization of nuclear messenger RNA precursor. I. Reassociation and hybridization properties of double-stranded hairpin-like loops in messenger RNA precursor

The hybridization and renaturation properties of double-stranded hairpin-like loops isolated from giant nuclear messenger RNA precursor of mouse liver or ascites carcinoma cells were studied. About half of the hairpins in messenger RNA precursor appear to contain similar sequences, as indicated by the very fast kinetics of renaturation of the denatured double-stranded RNA sequences. These sequences have no tissue specificity. About one third of the hairpin sequences can hybridize to messenger RNA. It is suggested that the long hairpins in messenger RNA precursor play the role of sequences separating messenger RNA sequences from non-informative sequences and that these hairpins are recognized by processing enzymes.     

Mode of action of the anti-AIDS compound poly(I).poly(C12U) (Ampligen): activator of 2',5'-oligoadenylate synthetase and double-stranded RNA-dependent kinase

The mismatched double-stranded RNA (dsRNA), poly(I).poly(C12U), also termed Ampligen, exhibits a strong antiviral and cytoprotective effect on cells (human T-lymphoblastoid CEM cells and human T-cell line H9) infected with the human immunodeficiency virus type 1 (HIV-1). Untreated H9 cells infected with HIV-1 start to release the virus 3 days post-infection, while in the presence of 40 micrograms/ml (80 micrograms/ml) of poly(I).poly(C12U) the onset of virus production and release is retarded and does not occur before day 5 (day 6). We demonstrate that poly(I).poly(C12U) markedly extends the duration of the transient increase of 2',5'-oligoadenylate (2-5A) synthetase mRNA level and activity preceding virus production after infection of cells with HIV-1. Treatment of HeLa cells with poly(I).poly(C12U) was found to cause a significant increase in total (activated plus latent) 2-5A synthetase activity; no evidence was obtained that the level of latent (nonactivated) 2-5A synthetase is changed in cells treated with dsRNA plus interferon (IFN). Poly(I).poly(C12U) is able to bind and to activate 2-5A synthetase(s) from HeLa cell extracts. Addition of poly(I).poly(C12U) to HeLa cell extracts results in production of longer 2-5A oligomers (> or = 3 adenylate residues), which are better activators of RNase L. Both free and immobilized poly(I).poly(C12U) also bind to the dsRNA-dependent protein kinase (p68 kinase), resulting in autophosphorylation of the enzyme. Activation of the kinase by the free RNA occurs within a limited concentration range (10(-7) to 10(-6) grams/ml). Addition of HIV-1 Tat protein does not affect binding and activation of p68 kinase to poly(I).poly(C12U)-cellulose but strongly reduces the binding of the kinase to immobilized TAR RNA of HIV-1. We conclude that poly(I).poly(C12U) may antagonize Tat-mediated down-regulation of dsRNA-dependent enzymes.     

Preparation and properties of a poly A resin and its use in the isolation of naturally occurring poly U sequences

A method for the covalent attachment of poly A, as well as other nucleic acids and nucleosides, to a methylene dianiline derivative of starch is described. The properties of this poly A resin and its use for the recovery of poly U sequences from both nuclear and cytoplasmic extracts of HeLa cells is described.     

Arginine/serine-rich domains of SR proteins can function as activators of pre-mRNA splicing

Serine/arginine (SR)-rich splicing factors contain an RNA binding domain and an arginine/serine (RS)-rich domain required for protein-protein interactions. In addition to their roles in the basic splicing reaction, SR proteins function as components of splicing enhancer complexes. Here, we investigate the role of RS domains in splicing enhancer function. Hybrid proteins containing RS domains fused to the MS2 RNA binding protein were tested in vitro with RNA substrates bearing an MS2 recognition sequence. These hybrid proteins activated splicing in nuclear extracts, but not in S100 extracts lacking SR proteins. However, intact recombinant SR proteins could complement the activity of the hybrid proteins in S100 extracts. These data demonstrate that RS domains function as splicing activators and suggest that the general and enhancer-dependent functions of SR proteins can be uncoupled.     

EDTA-and puromycin-derived duck- and rabbit globin-messenger ribonucleoprotein complexes isolated by oligo (dT)-cellulose chromatography

Duck- and rabbit globin messenger ribonucleoprotein complexes isolated by oligo(dT) cellulose chromatography reveal an identical protein pattern-two main proteins of molecular weights of 73,000 and 49,000 daltons and minor components-whether the complexes have been liberated from polyribosomes with the EDTA- or the puromycin-high-salt method. In the globin messenger ribonucleoprotein particles of both species predominantly the protein with a molecular weight of 73,000 daltons is attached to poly(A)-containing regions of the messenger RNAs.