Translation of alfalfa-mosaic-virus RNA 1 in the mRNA-dependent translation system from rabbit reticulocyte lysates

Artifacts are responsible for the translational activity of polyribosome preparations isolated from alfalfa mosaic virus-infected tobacco leaves

We observed that polyribosome preparations isolated from alfalfa mosaic virus (A1MV)-infected tobacco leaves were contaminated with virion-derived material which could not be removed completely by sucrose gradient centrifugation or by magnesium ion precipitation. Upon incubation of polyribosome preparations with S 100 extracts from reticulocyte lysates, viral-encoded proteins were produced. Aurintricarboxylic acid (ATA), an inhibitor of initiation of translation, was used to inhibit de novo translation of the RNAS contaminating the polyribosome preparations. ATA concentrations, which did not inhibit peptide chain elongation on in vitro-produced polyribosomes, completely inhibited the translational activity of the tobacco polyribosomes. Hence the protein synthetic capacity of the tobacco polyribosome preparations is due to de novo translation of virion-derived material by vacant ribosomes present in the complementing S 100 extract. Efforts to activate the tobacco polyribosomes remain unsuccessful.

Nonstructural alfalfa mosaic virus RNA-coded proteins present in tobacco leaf tissue

The proteins synthesized under the direction of alfalfa mosaic virus RNAS in tobacco leaves have been examined under conditions of suppressed host protein synthesis. Besides the coat protein we could detect a 22K (K = apparent molecular weight in thousands), a 35K, and a set of 54K proteins. The 22K protein is serologically related to the coat protein. The 35K protein comigrated with the 35K protein whose synthesis is directed by RNA 3 in vitro The 54K proteins are serologically related to the 35K protein produced in vitro. Readthrough products of the 35K protein cistron into the coat protein cistron have been found previously in wheat germ extracts programmed with RNA 3. Two of these proteins comigrate with the 54K proteins synthesized in vivo. Since the 35K and the coat protein cistrons are read in different reading frames the formation of readthrough products is puzzling. In viruses with a tripartite genome the subgenomic mRNA for coat protein, RNA 4, is not known to be replicated as a separate genome entity. This might indicate that proteins synthesized by readthrough into the coat protein cistron play an essential role during replication, especially in the earliest phases.

Properties of the tobacco mosaic virus intermediate length RNA-2 and its translation

The existence of subgenomic RNAs is well established in the case of plant viruses such as tobacco mosaic virus (TMV). However, except for the subgenomic coat protein mRNA, it is not known whether the other subgenomic RNAs have a function in the life cycle of the virus. In search of more information about one of the major subgenomic RNAs-intermediate length RNA-2 or I2 RNA-of TMV, in vitro and in vivo translational studies were performed. The I2 RNA, which codes in vitro for the synthesis of a 30K (K = kilodalton) protein, appears to be uncapped as judged by the need of different in vitro translation conditions for the synthesis of this protein, compared to the conditions required for the synthesis of the 126K and 183K proteins coded by the capped genomic RNA. In vivo a protein migrating in the same position as the 30K protein synthesized in vitro can be detected in infected tobacco leaves. Since this protein occurs transiently early upon infection, whether it is virus-coded or virus-induced, it could have an early function during infection.

Virus protein synthesis in alfalfa mosaic virus infected alfalfa protoplasts

Four proteins unique to virus infection were synthesized in alfalfa mosaic virus-infected alfalfa mesophyll protoplasts. These proteins, P1, P2, P3, and coat protein comigrated on electrophoresis with the major in vitro translation products of RNA 1, RNA 2, RNA 3, and RNA 4, respectively. P1, P3, and coat protein were observed at 5 hr post inoculation; P2 was detected at 9 hr post inoculation. The three nonstructural proteins accumulated most rapidly early in infection until about 15 hr post inoculation; stable protein levels were maintained thereafter. Coat protein accumulated rapidly until about 20 hr after inoculation. All four virus RNA species were detected in infected protoplasts by labelling with [3H]uridine. Ultraviolet irradiation of protoplasts prior to inoculation was necessary for virus protein detection, but it severely depressed the synthesis of RNA 1 and RNA 2 relative to RNA 3 and RNA 4.

Biological activity of transcripts synthesized in vitro from full-length and mutated DNA copies of tobacco rattle virus RNA 2

Full-length cDNA clones of RNA 2 of tobacco rattle virus (TRV) strain PLB have been cloned into the transcription vector pPM1. Products of in vitro transcription by Escherichia coli RNA polymerase, either capped or uncapped, were as infectious as native RNA 2 when coinoculated with RNA 1 of TRV strain TCM. At least 70% of the internal sequence of the cDNA could be deleted without reduction of the replication efficiency of the transcripts. Sequences of 340 nucleotides at the 5' end and 405 nucleotides at the 3' end of PLB RNA 2 were found to be sufficient for replication. The encapsidation of deletion mutants of PLB RNA 2 was investigated after addition of native PLB RNA 1 and RNA 2. Accumulation of these mutants was distinguished from that of wild-type RNA 2 by insertion of nonviral sequences in the deleted parts. Three mutant forms of RNA 2 with extensive deletions in the coat protein (CP) gene were replicated but failed to encapsidate, while mutants with nonviral sequences inserted downstream from the CP gene showed a large reduction in replication efficiency.

Alfalfa mosaic virus temperature-sensitive mutants. V. The nucleotide sequence of TBTS 7 RNA 3 shows limited nucleotide changes and evidence for heterologous recombination

Nucleotide sequence determination of the coat protein cistron of the alfalfa mosaic virus (AIMV) temperature-sensitive mutant, Tbts 7 (uv) revealed a small number of point mutations of which only one results in the replacement of an amino acid: the asparagine residue at position 126 is replaced by an aspartate residue. RNA transcribed in vitro from a Tbts 7 cDNA 4 clone directed the production in vitro of a polypeptide which shows the same altered electrophoretic mobility in SDS-polyacrylamide gels as the Tbts 7 coat protein. Nucleotide sequence analysis of the 32-kDa open reading frame revealed some base changes, but none of these lead to changes in the primary structure of the protein. The 5'-terminal sequence of Tbts 7 RNA 3 was analyzed by cDNA cloning. At least three different types of nontranslated leader sequences were found, indicating considerable heterogeneity at the 5' end of the mutant RNA 3. The results indicated that the low abundance of RNA 3-containing particles in Tbts 7 virus preparations might be due to malfunctioning of the 5' terminus of Tbts 7 RNA 3 during replication.

Expression of the 16K cistron of tobacco rattle virus in protoplasts

An antiserum was raised against a synthetic peptide corresponding to the 18 C-terminal amino acids of a putative 16K protein encoded by the 3'-terminal open reading frame of tobacco rattle virus (TRV) RNA-1. This antiserum was used to demonstrate expression of the 16K cistron in vivo. TRV-infected tobacco protoplasts accumulated similar amounts of 16K protein and viral coat protein but in tobacco plants only the coat protein was detectable. Time course experiments revealed that in protoplasts the accumulation of 16K protein lagged somewhat behind that of coat protein. The 16K protein was incorporated in a high-molecular-weight cellular component that was resistant to treatment with nonionic detergents.

Novel protein in human epidermal keratinocytes: regulation of expression during differentiation

Recently, two groups of cDNA clones have been isolated from human epidermal keratinocytes; the clones correspond to genes whose expression is stimulated by exposure of the cells to UV light or treatment with 4-nitroquinoline 1-oxide or 12-O-tetradecanoylphorbol 13-acetate (T. Kartasova and P. van de Putte, Mol. Cell. Biol. 8:2195-2203, 1988). The proteins predicted by the nucleotide sequence of both groups of cDNAs are small (8 to 10 kilodaltons), are exceptionally rich in proline, glutamine, and cysteine, and contain repeating elements with a common sequence, PK PEPC. These proteins were designated sprI and sprII (small, proline rich). Here we describe the characterization of the sprIa protein, which is encoded by one of the group 1 cDNAs. The expression of this protein during keratinocyte differentiation in vitro and the distribution of the sprIa protein in some human tissues was studied by using a specific rabbit antiserum directed against a synthetic polypeptide corresponding to the 30 amino acids of the C-terminal region of the sprIa gene product. The results indicate that the expression of the sprIa protein is stimulated during keratinocyte differentiation both in vitro and in vivo.

Transgenic tobacco expressing tobacco streak virus or mutated alfalfa mosaic virus coat protein does not cross-protect against alfalfa mosaic virus infection

Transgenic tobacco plants expressing the coat protein (CP) genes of tobacco streak virus (TSV) and alfalfa mosaic virus (AIMV) were used in studies on cross-protection and genome activation. Plants expressing the TSV CP gene were highly resistant to infection with TSV nucleoproteins but were susceptible to infection with AIMV nucleoproteins. Moreover, these plants could be infected with a mixture of AIMV RNAs 1, 2, and 3 in contrast to the nontransformed control plants. This demonstrates that the endogenously produced TSV CP is able to activate the AIMV genome but does not cross-protect against this virus. Conversely, it was shown that plants expressing the AIMV CP gene did not resist TSV infection. Transgenic tobacco plants transformed with an AIMV CP gene with a frame-shift mutation in the reading frame were found to accumulate viral transcripts to a level similar to that obtained in plants expressing a wild-type AIMV CP gene. However, these plants did not produce detectable amounts of viral protein and showed no resistance to infection with AIMV nucleoproteins in contrast to transgenic plants accumulating wild-type AIMV CP. This demonstrates that it is the CP that is responsible for cross-protection in transgenic plants and not the chimeric CP mRNA.

Novel protein in human epidermal keratinocytes: regulation of expression during differentiation

Recently, two groups of cDNA clones have been isolated from human epidermal keratinocytes; the clones correspond to genes whose expression is stimulated by exposure of the cells to UV light or treatment with 4-nitroquinoline 1-oxide or 12-O-tetradecanoylphorbol 13-acetate (T. Kartasova and P. van de Putte, Mol. Cell. Biol. 8:2195-2203, 1988). The proteins predicted by the nucleotide sequence of both groups of cDNAs are small (8 to 10 kilodaltons), are exceptionally rich in proline, glutamine, and cysteine, and contain repeating elements with a common sequence, PK PEPC. These proteins were designated sprI and sprII (small, proline rich). Here we describe the characterization of the sprIa protein, which is encoded by one of the group 1 cDNAs. The expression of this protein during keratinocyte differentiation in vitro and the distribution of the sprIa protein in some human tissues was studied by using a specific rabbit antiserum directed against a synthetic polypeptide corresponding to the 30 amino acids of the C-terminal region of the sprIa gene product. The results indicate that the expression of the sprIa protein is stimulated during keratinocyte differentiation both in vitro and in vivo.

Expression of alfalfa mosaic virus cDNA1 and 2 in transgenic tobacco plants

Chimeric genes composed of DNA complementary to alfalfa mosaic virus (AIMV) RNAs 1 or 2, the CaMV 35 S promoter, and the nos polyadenylation signal were transferred to the genome of Nicotiana tabacum cv. Samsun NN by means of the Agrobacterium tumefaciens transformation system. Transformants contained intact copies of the viral genes and accumulated transcripts of approximately the size predicted from the cloning procedure. Using antisera raised against synthetic peptides corresponding to the C-terminal parts of AIMV P1 and P2, it was not possible to detect viral translation products in the transformants. However, transgenic protoplasts containing cDNA1 were able to complement an infection by the AIMV nucleoproteins containing RNAs 2 and 3, indicating that biologically active P1 accumulates in these protoplasts. Upon inoculation with AIMV strains 425 or YSMV, the cDNA1- and cDNA2-transformed plants became infected to a level similar to that of nontransformed or vector-transformed control plants.

Induction of proteins and mRNAs after uv irradiation of human epidermal keratinocytes

uv sensitivity of cultured human epidermal keratinocytes was analyzed at different growth conditions and compared with the sensitivity of dermal fibroblasts derived from the same skin specimen. No significant differences in survival curves were found between these two cell types, although keratinocytes grown under standard conditions were slightly more resistant to uv irradiation than fibroblasts. The extracellular concentration of calcium appeared to be critical not only in the regulation of keratinocyte proliferation and differentiation, but also in the uv sensitivity of these cells: keratinocytes grown under conditions which favor cell proliferation (low calcium concentration) are more resistant to uv irradiation than those grown under conditions favoring differentiation (high calcium concentration). Two-dimensional protein gel electrophoresis was used to detect a possible effect of uv irradiation on the accumulation of specific mRNAs in the cytoplasm and/or on the synthesis of specific proteins. Proteins were pulse labeled in vivo with [35S]methionine or synthesized in vitro in rabbit reticulocyte lysates on mRNA isolated from keratinocytes that were irradiated with different uv doses at different periods of time prior to isolation. Alterations in expression were demonstrated for several proteins in both in vivo and in vitro experiments.

Biologically active transcripts of cloned DNA of the coat protein messenger of two plant viruses

To initiate infection, a mixture of the three genomic RNAs of alfalfa mosaic virus (AIMV) has to be supplemented with a small amount of coat protein or RNA 4, the subgenomic messenger for coat protein. The possibility to replace RNA 4 in the inoculum by in vitro synthesized transcripts of a cloned DNA copy of the coat protein cistron was investigated using the SP6 transcription system. Transcripts with or without the cap structure m(7)G(5')ppp(5')G were both translated in vitro in viral coat protein, but only capped transcripts yielded an infectious mixture when added to the AIMV genomic RNAs. This indicates that the cap structure is essential to the in vivo translatin of RNA 4. Similar results were obtained with RNAs transcribed in vitro from a DNA copy of the putative coat protein cistron of tobacco streak virus (TSV). re]19850822 rv]19851203 ac]19860114.

Ribosomes are stalled during in vitro translation of alfalfa mosaic virus RNA 1

In the presence of plant tRNAs the full-length translation product of alfalfa mosaic virus RNA 1 is produced in rabbit reticulocytes only at low mRNA concentration. At higher mRNA concentration translation is restricted to the 5' half of RNA 1. At high mRNA concentration the full-length product can be formed when additional plant tRNA and glutamine are supplied to the translation mixture. In contrast, in the presence of yeast or calf liver tRNA the translation pattern of alfalfa mosaic virus RNA 1 always results in the synthesis of the full-length product. Pulse-chase experiments in the presence of plant tRNAs show that the ribosomes pause at several positions in the 5' half of RNA 1. The pausing time is different at the different 'halting places'. Protein synthesis is resumed upon addition of glutamine, even when the addition is delayed for more than 3 h after the start of protein synthesis. Only one tRNA species, purified from wheat germ or tobacco, could promote full-length translation of RNA 1. This tRNA can be charged with glutamine. Analysis of the position of glutamine codons on RNA 1 shows a correlation between the positions of the CAA codons and the halting places of the ribosomes. The CAA codon (for any other codon) on its own cannot be responsible for the pausing of the ribosomes, since a variety of RNAs, known to contain all sense codons, are translated efficiently in rabbit reticulocyte lysates in the presence of plant tRNAs. Apparently other elements can restrict decoding of normal codons during protein chain elongation.

Translational discrimination between the four RNAs of alfalfa mosaic virus. A quantitative evaluation

In an attempt to relate the translational characteristics of alfalfa mosaic virus (A1MV) RNAs to their structure [Ravelonandro et al. (1983) Nucleic Acids Res. 11, 2815-2826; Gehrke et al. (1983) Biochemistry 22, 5157-5164] we measured the relative affinities (discrimination ratios) of these RNAs for the initiation complex, in the wheat germ extract and in the nuclease-treated reticulocyte lysate, using a competition method designed by Brendler et al. [(1981) J. Biol. Chem. 256, 11747-11754]. As a prerequisite of this study we ascertained that the molecular mass distribution of the translation products was independent of RNA concentration in both translation systems. In the wheat germ extract the discrimination ratios are very similar for two strains of A1MV (S and B) which differ mainly by the presence (strain S) or absence (strain B) of a stable 5'-proximal hairpin. Hence this structure has no bearing on discrimination. Taking the affinity of RNA 3 as reference, the following orders of magnitude are found for the affinities of the different RNAs in the wheat germ: RNA 3, 1.0; RNA 1, 10; RNA 2, 60; RNA 4, 150. In the reticulocyte lysate the discrimination ratios are not significantly different from the wheat germ. Thus it seems that the mechanism of discrimination is essentially the same in the two translation systems, despite a difference in rate-limitation.

Phytoferritin is synthesized in vitro as a high-molecular-weight precursor. Studies on the synthesis and the uptake in vitro of the precursors of ferritin and ferredoxin by intact chloroplasts

Evidence is presented that French-bean (Phaseolus vulgaris) seed ferritin is composed of one type of subunit with an apparent Mr of 26500. In normal and iron-loaded leaf tissues it is detected immunologically with an antiserum raised against purified bean seed ferritin and migrates in SDS (sodium dodecyl sulphate)/polyacrylamide-gel electrophoresis with the same mobility as the bean seed ferritin subunit. The biosynthetic pathway of ferritin in normal and iron-loaded leaves was investigated. RNA was extracted, fractionated into polyadenylated RNA and translated in a cell-free rabbit reticulocyte lysate and a wheat-germ-extract system. The products were identified by SDS/polyacrylamide-gel electrophoresis after indirect immunoprecipitation. In all cases the ferritin product had an Mr 5000 higher than that of the native subunit. Uptake and processing of the precursor form of ferritin from iron-loaded leaves by intact chloroplasts was demonstrated. This indicates that, in iron-loaded leaves, ferritin acts as a chloroplast protein. We propose that the ferritin precursor in normal leaves follows the same biosynthetic pathway. This suggests that the iron-buffering function of ferritin in plants takes place in the chloroplast and that non-functional cellular iron will accumulate in this cell organelle.

Complete nucleotide sequence of alfalfa mosaic virus RNA 2

Double-stranded cDNA of in vitro polyadenylated alfalfa mosaic virus (AlMV) RNA 2 has been cloned and sequenced. The use of an oligodeoxyribonucleotide corresponding to the known sequence of the 5'-end of RNA 2 to prime second-strand DNA synthesis, enabled us to construct the complete primary structure of AlMV RNA 2. The sequence of 2,593 nucleotides contains a long open reading frame for a protein of Mr 89,753 starting at the first AUG codon from the 5'-end. This coding region is flanked by a 5'-terminal sequence of 54 nucleotides and a 3'-noncoding region of 166 nucleotides which includes the sequence of 145 nucleotides the three genomic RNAs of AlMV have in common.

Structure of the 5'-terminal untranslated region of the genomic RNAs from two strains of alfalfa mosaic virus

We report the sequences of the 5'-terminal regions of the 3 Alfalfa Mosaic Virus genomic RNAs for the Strasbourg strain (AlMV-S) and for a new isolate, AlMV-B; they are compared to similar data obtained by Koper-Zwarthoff et al. (Nucleic Acids Res. 1980, 8, 5635-5647) for strain 425. The structure of these leaders is highly conserved in RNAs 1 and 2. The length of the leader is 102, 100 and 101 nucleotides in RNA1 for strains S, B and 425 respectively; 55 and 56 in RNA2 for strains S and B respectively. In RNA3 however, there are important differences near the 5'-terminus between strain S and the other two: The total leader length is 258 nucleotides for strain S and 242 for strain B. The secondary structure models show a conserved hairpin near the 5'-end of each genomic RNA of AlMV-S. This hairpin is inexistent in RNA3 of the B and 425 strains. The degree of base-pairing increases with leader length. The initiator codon is located in a single stranded region in RNA2 whereas it is found in a hairpin stem in RNA 3.

Translation of mRNA for Limulus polyphemus haemocyanin polypeptides in vitro: studies on subunit heterogeneity

The haemocyanin of Limulus polyphemus is composed of a number (possibly 10-15) of polypeptides and is believed to be synthesised in cells called cyanoblasts. In vitro translation in the rabbit reticulocyte haemolysate system and in Xenopus oocytes, of mRNA isolated from cyanoblast-containing tissue, allowed the detection of several haemocyanin polypeptides amongst the products of translation. At least seven polypeptides with molecular weights in the range 68 000-71 000 were identified by an immunological method followed by electrophoretic characterisation on two-dimensional polyacrylamide gels. Comparison of the polypeptide patterns of authentic haemocyanin, reticulocyte lysate translation products and Xenopus oocyte translation products led to the conclusion that the polypeptides are unlikely to undergo significant post-translational modification or to possess cleavable signal sequences. It is proposed that release of haemocyanin into the haemolymph in vivo may involve bursting of the cyanoblasts.

Complete nucleotide sequence of alfalfa mosaic virus RNA 1

Double-stranded cDNA of alfalfa mosaic virus (AlMV) RNA 1 has been cloned and sequenced. From clones with overlapping inserts, and other sequence data, the complete primary sequence of the 3644 nucleotides of RNA 1 was deduced: a long open reading frame for a protein of Mr 125,685 is flanked by a 5'-terminal sequence of 100 nucleotides and a 3' noncoding region of 163 nucleotides, including the sequence of 145 nucleotides the three genomic RNAs of AlMV have in common. The two UGA-termination codons halfway RNA 1, that were postulated by Van Tol et al. (FEBS Lett. 118, 67-71, 1980) to account for partial translation of RNA 1 in vitro into Mr 58,000 and Mr 62,000 proteins, were not found in the reading frame of the Mr 125,685 protein.

The origin of multiple polypeptides of molecular weight below 110 000 encoded by tobacco mosaic virus RNA in the messenger-dependent rabbit reticulocyte lysate

Multiple polypeptides encoded by tobacco mosaic virus (TMV) RNA in the messenger-dependent rabbit reticulocyte lysate are not attributable to contaminating 3'-coterminal RNA fragments, multiple leaky termination codons or endonuclease activity opening-up legitimate or spurious internal initiation sites. Quantitative analysis of polypeptides encoded over a range of added RNA concentrations from 0.09 microgram X ml-1 to 180 micrograms X ml-1 compared with those synthesized in response to size-fractionated RNAs from a crude virus preparation, or with RNA extracted from the alkali-stable fraction of TMV suggest that apart from four legitimate virus-coded products of apparent Mr approx. 165 000, 110 000, 30 000 and 17 500 all other polypeptides arise from the overlapping 5'-proximal cistrons either by (i) site-selective endonucleolytic cleavage, (ii) sense codon misreading, or (iii) specific regions of secondary structure on TMV RNA which impede ribosome translocation.

Complete nucleotide sequence of alfalfa mosaic virus RNA 4

Alfalfa mosaic virus RNA 4, the subgenomic messenger for viral coat protein, was partially digested with RNase T1 or RNase A and the sequence of a number of fragments was deduced by in vitro labeling with polynucleotide kinase and application of RNA sequencing techniques. From overlapping fragments, the complete primary sequence of the 881 nucleotides of RNA 4 was constructed: the coding region of 660 nucleotides (not including the initiation and termination codon) is flanked by a 5' noncoding region of 39 nucleotides and a 3' noncoding region of 182 nucleotides. The RNA sequencing data completely confirm the amino acid sequence of the coat protein as deduced by Van Beynum et al. (Fur.J. Biochem. 72, 63-78, 1977).