- Volume 73, Issue 10, 1992
Volume 73, Issue 10, 1992
- Animal
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Identification of Genes Encoding Two Capsid Proteins (VP24 and VP26) of Herpes Simplex Virus Type 1
More LessThe capsid of herpes simplex virus type 1 is composed of seven proteins. VP5, VP19C, VP22a and VP23 have been shown previously to be the products of genes UL19, UL38, UL26.5 and UL18, respectively. The genes encoding VP21, VP24 and VP26 have not been identified to date. We have determined amino acid sequences of fragments of isolated capsid proteins generated by partial cleavage with CNBr. The results confirm the gene assignments for VP5, VP19C and VP23. They also show that VP26 is the product of gene UL35 and that VP24 contains the protease domain present in the N-terminal portion of the UL26-encoded protein. VP21 was not investigated, but we suggest that it is the C-terminal portion of the UL26-encoded protein remaining after release of VP24 and that it thus corresponds to a form of VP22a extended at the N terminus.
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Alternative Splicing Determines The Carboxy Terminus of the Epstein—Barr Virus Nuclear Antigen 5 Species Expressed in the Burkitt's Lymphoma Cell Line Daudi
More LessThe Daudi strain of Epstein—Barr virus (EBV) possesses a genomic deletion, relative to the B95-8 EBV prototype, that removes the entire Epstein—Barr virus nuclear antigen 2 (EBNA2) open reading frame (ORF) and the sequences encoding the carboxy terminus of EBNA5. Immunoblot analysis carried out in this study indicates that two species of EBNA5 (31K and 37K) are expressed in Daudi cells. Nucleotide sequence analysis of Daudi cDNA clones has confirmed that, as a consequence of the genomic deletion, exons usually appearing further downstream in EBNA messages (exons U or HF) are spliced directly onto the truncated EBNA5 ORF. Furthermore, the use of alternative splicing suggests that the two EBNA5 species expressed in Daudi cells possess different carboxy termini.
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Identification of a Gag Protein Epitope Conserved Among All Four Groups of Primate Immunodeficiency Viruses by Using Monoclonal Antibodies
Five monoclonal antibodies (MAbs) were raised against the gag proteins of simian immunodeficiency virus (SIV) from African green monkey (SIVagmTYO-7). Two MAbs reacted with the matrix protein p17 and the other three with the core protein p24. Studies on the cross-reactivity of the MAbs revealed that the anti-p24 MAbs detected an epitope shared by the viruses belonging to the human immunodeficiency virus type 2 (HIV-2)/SIVmac group and SIVagmTYO-7 and SIVagmTYO-5. The anti-p17 MAbs recognized an epitope present on all these viruses and on SIVagmTYO-1, HIV-1 and SIVmnd. This finding demonstrates for the first time that the matrix protein, p17 or p18, respectively, of all nine HIV and SIV isolates tested in this study expresses at least one conserved immunogenic epitope recognized serologically. By using synthetic peptides, this epitope was identified at the N terminus of p17. Furthermore, this epitope was analysed by multiple sequence alignments of the peptide with homologous sequences of HIV and SIV p17.
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Genomic Characterization and Mutation Rate of Hepatitis C Virus Isolated From a Patient Who Contracted Hepatitis During an Epidemic of non-A, non-B Hepatitis in Japan
More LessTo investigate the genomic characterization of hepatitis C virus (HCV) isolated from a patient who contracted hepatitis during an epidemic of non-A, non-B (NANB) hepatitis in Shimizu city, Japan, we have cloned the nucleotide sequence of the viral genome (HCV-KF) spanning the structural domain. When compared to other previously reported HCV isolates, HCV-KF showed an overall identity at the amino acid level of 90.0 to 92.1% with Japanese isolates and 80.9 to 82.1% with American-like isolates. The HCV-KF genome displays an insertion of three nucleotides in-frame (corresponding to one amino acid) found at the junction between the E1 and E2/NS1 region. The mutation rate of the HCV-KF genome was assessed by comparing the nucleotide and deduced amino acid sequences of the viral RNA obtained from the serum of the original patient with viral sequences derived from the serum of a chimpanzee inoculated with the same serum 9 years previously. The substitution rate of the viral genome was estimated at 0.9 × 10−13 nucleotides per site per year for the HCV structural region. The highest mutation rate was found in the hypervariable region within the E2/NS1 domain. It is suggested that the outbreak in Shimizu city was caused by a strain of HCV closely related to the Japanese-like subgroup of isolates.
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Sequence analysis of the membrane protein gene of human coronavirus OC43 and evidence for O-glycosylation
More LessThe gene encoding the membrane (M) protein of the OC43 strain of human coronavirus (HCV-OC43) was amplified by a reverse transcription-polymerase chain reaction of viral RNA with HCV-OC43- and bovine coronavirus (BCV)-specific primers. The nucleotide sequence of the cloned 1.5 kb fragment revealed an open reading frame (ORF) of 690 nucleotides which was identified as the M protein gene from its homology to BCV. This ORF encodes a protein of 230 amino acids with an M r of 26416. The gene is preceded by the motif UCCAAAC, analogous to the consensus coronavirus transcription initiation sequence. The M protein of HCV-OC43 shows features typical of all coronavirus M proteins studied: a hydrophilic, presumably external N terminus including about 10% of the protein, and a potential N-glycosylation site followed by three major hydrophobic transmembrane domains. The amino acid sequence of the M protein of HCV-OC43 has 94% identity with that of the Mebus strain of BCV, and also contains six potential O-glycosylation sites in the exposed N-terminal domain. Indeed, the glycosylation of the M protein was not inhibited in the presence of tunicamycin, which is indicative of O-glycosylation, as previously reported for BCV and murine hepatitis virus. Virions released from tunicamycin-treated cells contained the M glycoprotein but were devoid of both peplomer (S) and haemagglutinin-esterase (HE) proteins. Thus, inhibition of the N-glycosylation of the S and HE structural proteins prevented their incorporation into progeny virions, an indication that they are dispensable for virion morphogenesis, unlike the M protein.
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Antigenic and Genetic Characterization of the Haemagglutinins of Recent Cocirculating Strains of Influenza B Virus
More LessThe antigenic and genetic characteristics of the haemagglutinins of influenza type B viruses isolated since 1988 during periods of both widespread activity (1990/1991) and sporadic activity (1989/1990) were examined using microneutralization tests and direct RNA sequencing. During 1989/1990, influenza B viruses representative of two distinct lineages antigenically and genetically related to either B/Victoria/2/87 or B/Yamagata/16/88 were isolated, and a minor drift variant of B/Yamagata/16/88, B/Hong Kong/22/89, was identified. In 1990/1991, B/Hong Kong/22/89- or B/Yamagata/16/88-like viruses accounted for the majority of the influenza virus isolates in most countries. Sequence analysis of the HA1 domains of representative viruses confirmed the containued existence of two main lineages among recent strains of influenza B virus and identified unique amino acid changes that could account for the altered antigenic reactivity of some variants. Sequence analysis of the HA2 domains of some of the recent influenza B viruses allowed for a comparison of the evolutionary rates and patterns between the HA1 and HA2 domains.
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Nucleotide Sequence Analysis of the Simian Virus 41 Gene Encoding the Large (L) Protein and Construction of a Phylogenetic Tree for the L Proteins of Paramyxoviruses
The complete nucleotide sequence of the simian virus 41 (SV41) large (L) protein gene was determined. The L gene spanned 6883 nucleotides including a putative trailer RNA, and the L mRNA contained a single large open reading frame encoding a polypeptide of 2269 amino acids. Dot-matrix comparisons under stringent conditions identified domains highly conserved among paramyxoviruses. Domain 3 is the most highly conserved, and has been hypothesized to be the RNA polymerase active site. A phylogenetic tree was constructed from the sequences of the L proteins of seven paramyxoviruses. SV41 was most closely related to human parainfluenza virus type 2 (HPIV-2), and SV41, HPIV-2 and SV5 form a subgroup. The intergenic sequences at the nucleocapsid protein-phosphoprotein and haemagglutinin—neuraminidase-L protein gene junctions, and the 5′ trailer sequence of SV41 were also determined, and it was shown that the first 13 nucleotides of the 5′ trailer sequence are complementary to those of the 3′ leader sequence. The intergenic, and gene-start and -end sequences of SV41, HPIV-2 and SV5 are shown.
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Are Sinc and the PrP gene congruent? Evidence from PrP gene analysis in Sinc congenic mice
More LessCongenic mouse strains VM/Dk and VM-Sinc s7/Dk differ at the Sinc gene, which controls the incubation period of scrapie in mice; VM/Dk mice are Sinc p7p7 and VM-Sinc s7/Dk mice are Sinc s7s7. Restriction fragment length polymorphism and DNA sequencing analysis demonstrated that the PrP genes also differ in these strains, confirming the close genetic linkage of Sinc and PrP. Using the restriction enzyme HhaI, we have shown that at least 100 kb of DNA flanking the PrP gene differs between the two strains, and therefore the congruence of the Sinc and PrP genes is still not certain.
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Molecular cloning of a mink prion protein gene
More LessTransmissible mink encephalopathy (TME) is a rare disease which is presumably transmitted to ranchraised mink from scrapie-infected sheep offal or bovine spongiform encephalopathy-infected cattle products. Although the infectious agent of TME has not been isolated, there is circumstantial evidence that TME is caused by prions. The experimental host range of TME includes sheep, cattle, monkeys and hamsters. However, TME has never been transmitted to mice. Since experiments in transgenic animals have shown that the prion protein (PrP) gene modulates the susceptibility, incubation time and neuropathology of prion-induced disease, we have started to analyse the mink PrP gene. PrP, as deduced from a genomic DNA sequence, consists of 257 amino acids and overall shows similarity of 84 to 90% with the sequences of the PrPs of other mammalian species. It remains to be determined whether these differences in the primary structure of PrP will explain the peculiar host range of TME.
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- Plant
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Pear Blister Canker Viroid is a Member of the Apple Scar Skin Subgroup (apscaviroids) and also has Sequence Homology with Viroids from other Subgroups
More LessThe sequence of pear blister canker viroid (PBCVd), the putative causal agent of pear blister canker (PBC) disease, has been determined. PBCVd consists of a single-stranded circular RNA of 315 nucleotide residues which assumes a branched conformation when it is folded in the model of lowest free energy. PBCVd has highest sequence similarity with grapevine 1B viroid (52.4%), but also contains sequences related to regions present in viroids that belong to different subgroups, suggesting that PBCVd could have developed from RNA recombination between viroids replicating in a common host plant. PBCVd contains almost the entire central sequence which is conserved in the members of the apple scar skin subgroup (apscaviroids) as well as a conserved sequence located in the left-terminal region of apscaviroids and pospiviroids (whose type member is potato spindle tuber viroid). A consensus phylogenetic tree has been obtained in which PBCVd and other viroids previously classified as apscaviroids appear closely related, allowing consideration of PBCVd as a new member of this subgroup.
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Defective Interfering L RNA Segments of Tomato Spotted Wilt Virus Retain Both Virus Genome Termini and have Extensive Internal Deletions
Defective interfering (DI) RNA molecules derived from the genomic L RNA segment of tomato spotted wilt virus (TSWV) were generated during sequential passage of the virus at high multiplicity. Characterization of DI RNAs from four distinct isolates by Northern blot analysis and sequence determination revealed that both the 5′ and 3′ genomic termini were retained in these molecules. Each DI RNA contained a single internal deletion of approximately 60% to 80% of the L RNA segment. All DI RNAs studied maintain an open reading frame (ORF) which suggests that these defective molecules should be translatable by ribosomes. Detection of only defective molecules with ORFs indicates either that association with ribosomes or translation is a prerequisite for the selection and maintenance of replicating DI RNAs, or that the truncated proteins produced play a role in their selection or replication. Analysis of the junction sites in the DI RNAs showed that short nucleotide sequences are repeated, one at the release and another at the reinitiation point on the L RNA. One of these is lost during the generation of the DI molecules. The presence of repeated sequences at the junction sites seems to be unique for tospovirus DI L RNAs; they have not been described for other DI systems of either positive- or negative-strand RNA viruses. A model for TSWV DI RNA generation is proposed in which the viral polymerase can ‘jump’ across the internal sequences from one secondary structure to another containing the repeated sequences, during the replication of the viral complementary L RNA segment.
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Replication of Grapevine Fanleaf Virus Satellite RNA Transcripts in Chenopodium quinoa Protoplasts
More LessA set of full-length cDNA clones of the satellite RNA of grapevine fanleaf nepovirus isolate F13 (GFLV-F13) was constructed with a variable number of additional, non-viral nucleotides at the 5′ and 3′ ends. The biological activity of the RNAs transcribed from these constructs was tested in Chenopodium quinoa protoplasts using a helper virus. When inoculated with arabis mosaic virus S (ArMV-S) RNA as helper, transcripts with 33 non-viral nucleotides at the 5′ end (tr45p4) did not replicate, whereas transcripts with only one non-viral nucleotide at the 5′ end (tr3S and tr3M) did replicate. Capping of the transcripts enhanced their replication. On the other hand, the presence of extra nucleotides at the 3′ end had little influence on the biological activity of the in vitro transcripts. In contrast with ArMV-S, GFLV isolate 24 was not a helper for tr3M transcripts, indicating a specific interaction between the helper strain and the satellite RNA.
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Cross-reacting and Heterospecific Monoclonal Antibodies Produced Against Arabis Mosaic Nepovirus
More LessMonoclonal antibodies (MAbs) were produced against arabis mosaic nepovirus (AMV). A hybridoma screening procedure was applied which involved the testing of culture supernatants, before the hybridomas were cloned to single cell lines, for their reaction with eight nepoviruses [AMV, cherry leafroll virus (CLRV), grapevine fanleaf virus (GFLV), peach rosette mosaic virus, raspberry ringspot virus (RRSV), tobacco ringspot virus, tomato black ring virus (TBRV) and tomato ringspot virus]. In addition to AMV-specific MAbs, this screening technique has allowed the selection of two cross-reacting MAbs: one reacting with AMV and GFLV, and one reacting with AMV and RRSV. This is the first report of MAbs cross-reacting with these nepoviruses. In addition, five heterospecific MAbs (HS-MAbs) could be selected: two reacting with RRSV, two with CLRV and one with TBRV. The usefulness of the screening technique that was applied for the selection of cross-reacting MAbs and HS-MAbs, and the potential use of such antibodies are discussed.
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Complete Nucleotide Sequence and Genetic Organization of Papaya Ringspot Virus RNA
The complete nucleotide sequence of the RNA genome of papaya ringspot virus (PRSV) was determined from four overlapping cDNA clones and by direct sequencing of viral RNA. The genomic RNA is 10326 nucleotides in length, excluding the poly(A) tract, and contains one large open reading frame that starts at nucleotide positions 86 to 88 and ends at positions 10118 to 10120, encoding a polyprotein of 3344 amino acids. The highly conserved sequence AAAUAAAANANCUCAACACAACAUA at the 5′ end of the RNA of PRSV and those of the other five reported potyviruses shows 80% similarity, suggesting that this region may play a common important role for potyvirus replication. Two cleavage sites of the polyprotein were determined by amino acid sequencing of the N termini of helper component (HC-Pro, amorphous inclusion) and cylindrical inclusion (CI) proteins. Other cleavage sites were predicted by analogy with the other potyviruses. The genetic organization of PRSV is similar to that of the other potyviruses except that the first protein processed from the N terminus of the polyprotein (NT protein) has an M r of 63K, 18K to 34K larger than those of the other potyviruses. The cleavage site for liberating the N terminus of the HC-Pro protein was found at the same location downstream from the consensus sequence FI(V)VRG as that reported for tobacco vein mottling virus. The NT protein of potyviruses is the most variable and may be considered important for identification of individual potyviruses. The most conserved protein of potyviruses appears to be the NIb protein, the putative polymerase for the replication of the potyviral RNA. The genetic organization of PRSV RNA is tentatively proposed to be VPg-5′ leader-63K NT-52K HC-Pro-46K-72K CI-6K-48K NIa-59K NIb-35K coat protein-3′ noncoding region-poly(A) tract.
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Nucleotide Sequence Responsible for the Synthesis of a Truncated Coat Protein of Brome Mosaic Virus Strain ATCC66
More LessThe ATCC66 strain of brome mosaic virus (BMV) (propagated at Kyoto University) contained two types of coat protein in its virion whereas the Russian strain of BMV has been known to contain a single coat protein; both strains have two initiation codons for coat protein in the same reading frame at the 5′-proximal end of the gene in RNA 4. Comparative studies on the nucleotide sequences of the ATCC66 and Russian strains of BMV demonstrated that in the ATCC66 strain, two adjacent adenine residues were absent from RNA 3 in the leader sequences of the coat protein gene just a few nucleotides 5′ to the first initiation codon of the coat protein gene. Using biologically active cDNA clones of BMV RNA of the ATCC66 strain, we inserted two adjacent adenine residues into the cDNA of RNA 3 to obtain an RNA 3 transcript which has the same nucleotide sequence as the Russian strain in the non-coding leader sequence of the coat protein gene. Barley protoplasts inoculated with this RNA 3 transcript together with RNA 1 and 2 produced a single coat protein. To obtain further insight into the mechanism of translation of the BMV coat protein, we constructed several types of RNA 4 by changing the sequence surrounding the first AUG codon in the coat protein gene and analysed the in vitro translation products of the mutant RNA 4. The results confirmed that the absence of the two adjacent adenine residues was responsible for the production of two types of coat protein in the ATCC66 strain. The deletion of the two adjacent adenine residues in ATCC66 resulted in a base substitution of A with U three nucleotides 5′ to the first AUG in the coat protein gene. The base substitution reduced translational activity from the first AUG codon and concomitantly increased translational activity from the second AUG codon from which a truncated coat protein was translated.
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Nucleotide Sequence of Shallot Virus X RNA Reveals a 5′-proximal Cistron Closely Related to Those of Potexviruses and a Unique Arrangement of the 3′-proximal Cistrons
More LessThe 8890 nucleotide RNA sequence of shallot virus X (ShVX), a new virus isolated from shallot, has been determined. The sequence contains six open reading frames (ORFs) which encode putative proteins (in the 5′ to 3′ direction) of M r 194528 (ORF1), 26333 (ORF2), 11245 (ORF3), 42209 (ORF4), 28486 (ORF5) and 14741 (ORF6). The ORF1 protein was found to be highly homologous to the putative potexvirus RNA replicases; ORF2, -3, -5 and -6 proteins also have analogues among the potex- and/or carlavirus-encoded proteins. ORF3 is followed by an AUG-lacking frame coding for an amino acid sequence homologous to that of the 7K to 8K proteins of the triple gene block of the above-mentioned viruses. The putative ORF4 protein has no reliable homology with proteins in the database. The results obtained testify that, except for the unique 42K protein gene, the ShVX genome combines a number of elements typical of both carla- and potexviruses.
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Geminivirus replication proteins are related to prokaryotic plasmid rolling circle DNA replication initiator proteins
More LessIt is demonstrated, by means of computer-assisted analysis, that C1 protein involved in the replication of geminivirus DNA is related to the rolling circle replication initiator proteins of eubacterial plasmids, particularly the plasmids of the pMV158 family. Three sequence motifs conserved in the geminivirus and plasmid replication proteins were delineated, one of them encompassing the Tyr residue that presumably forms a covalent linkage to DNA. These findings are compatible with the results of recent analyses of geminivirus replicative intermediates suggesting a rolling circle mechanism for geminivirus DNA replication. It is hypothesized that C1 protein initiates the rolling circle replication of geminivirus DNA by nicking a specific site in the virus-sense DNA and covalently linking to the 5′ side of the nick. The putative rolling circle replication initiator domain comprises the N-terminal portion of C1, whereas its C-terminal part is a putative helicase domain. By analogy with prokaryotic systems, it is speculated that the replication initiator domain and the helicase domain function coordinately. The possibility of the origin of geminiviruses from prokaryotic circular ssDNA replicons is discussed.
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Volumes and issues
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Volume 105 (2024)
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Volume 104 (2023)
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Volume 103 (2022)
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Volume 102 (2021)
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Volume 101 (2020)
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Volume 100 (2019)
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Volume 99 (2018)
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Volume 98 (2017)
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Volume 97 (2016)
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Volume 96 (2015)
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Volume 95 (2014)
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Volume 94 (2013)
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Volume 93 (2012)
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Volume 92 (2011)
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Volume 89 (2008)
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Volume 77 (1996)
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Volume 76 (1995)
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Volume 74 (1993)
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Volume 73 (1992)
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Volume 72 (1991)
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Volume 71 (1990)
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Volume 57 (1981)
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Volume 56 (1981)
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Volume 55 (1981)
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Volume 54 (1981)
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Volume 53 (1981)
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Volume 52 (1981)
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Volume 50 (1980)
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Volume 49 (1980)
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Volume 47 (1980)
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Volume 45 (1979)
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Volume 44 (1979)
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Volume 43 (1979)
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Volume 42 (1979)
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Volume 41 (1978)
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Volume 40 (1978)
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Volume 39 (1978)
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Volume 38 (1978)
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Volume 37 (1977)
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Volume 36 (1977)
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Volume 35 (1977)
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Volume 34 (1977)
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Volume 33 (1976)
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Volume 32 (1976)
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Volume 31 (1976)
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Volume 30 (1976)
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Volume 29 (1975)
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Volume 28 (1975)
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Volume 27 (1975)
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Volume 26 (1975)
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Volume 25 (1974)
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Volume 24 (1974)
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Volume 16 (1972)
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Volume 10 (1971)
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Volume 8 (1970)
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Volume 7 (1970)
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Volume 6 (1970)
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Volume 5 (1969)
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Volume 4 (1969)
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Volume 3 (1968)
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Volume 2 (1968)
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Volume 1 (1967)