Nucleotide sequence of the coat protein gene of pelargonium leaf curl virus and comparison of the deduced coat protein amino acid sequence with those of other tombusviruses.

The sequence of 1,787 nucleotides (nts) in the genomic RNA of pelargonium leaf curl virus (PLCV) was determined. It included the entire coat protein (cp) gene (nts 585 to 1,754), 558 nts of the 3' end of the putative RNA polymerase gene, 26 nts of an intercistronic region between the two genes and 33 nts downstream of the stop codon of the cp gene. The cp gene was cloned into the expression vector pET8c and expressed in E. coli. The deduced cp amino acid sequence of PLCV was compared with those of five other tombusviruses. The closer the degree of serological relatedness between two viruses, the more similarity was found in their cp amino acid sequences not only in the protruding domains, but also in their random and shell domains and in the arm regions. Nucleic acid hybridization tests, cp amino acid comparisons and serological tests all suggest the same order of sequence for the relationships in the tombusvirus group.

Single- and double-stranded RNAs associated with an isolate of beet soil-borne virus.

Ethidium bromide staining of electrophoretically separated ssRNAs and dsRNAs as well as northern blot analyses with cDNA clones suggested that the genome of the Ahlum serotype of beet soil-borne virus (BSBV) consists of two major ssRNA species of approximately 3.6 and 3.2 kb, respectively, and possibly a minor ssRNA of approximately 6.0 kb. A few of our clones hybridized with both the 3.6-kb and the 3.2-kb RNAs, the majority of the clones, however, hybridized only with the 3.2-kb RNA. The 3.2-kb RNA is, therefore, apparently not a degradation product or a partially deleted form of the 3.6-kb RNA. None of our clones hybridized with the faint band(s) of the 6.0-kb ssRNA(s) which was produced by RNA extracts of some of our virus preparations. A fourth ssRNA of approximately 3.0 kb, which hybridized with the same clones as the 3.2-kb RNA, was found at relatively high concentrations in RNA extracts from purified virus, but not in total RNA extracts from leaves. Its origin is unknown. It is apparently not derived from the 3.2-kb RNA by the loss of a VPg or a poly(A) tail. Hybridization tests with 32P-labelled poly(dT) suggested that none of the RNAs of BSBV is polyadenylated. With respect to size and the lack of a poly(A) tail the RNAs of BSBV are more similar to those of definitive furoviruses than to those of beet necrotic yellow vein virus which is only a possible member of the furovirus group and has RNAs which readily hybridized with poly(dT).

Monoclonal antibodies to double-stranded RNA as probes of RNA structure in crude nucleic acid extracts.

We describe four monoclonal antibodies (MAB) which specifically recognize double-stranded RNA (dsRNA) together with their use in new methods for detecting and characterizing dsRNA in unfractionated nucleic acid extracts. The specificity of the antibodies was analyzed using a panel of 27 different synthetic and naturally occurring nucleic acids. All four antibodies reacted in a highly specific manner with long dsRNA helices, irrespective of their sequence; no binding to single-stranded RNA homopolymers or to DNA or RNA-DNA hybrids was observed. The apparent affinity of the antibodies to short (less than or equal to 11 bp) RNA helices was very low in all test systems used: only background levels of binding were obtained on single-stranded RNA species which contain double-helical secondary structures (e.g. rRNA, tRNA, viroid RNA). A sandwich ELISA and a dsRNA-immunoblotting procedure have been established which allow detection and characterization of dsRNA by MAB even in the presence of a large excess of other nucleic acids. In combination with temperature-gradient gelelectrophoresis (TGGE) not only the molecular weights but also the highly characteristic Tm-values of conformational transitions of individual dsRNA species could be determined by immunoblotting. An example of the general use of these methods for the detection of plant virus infections is demonstrated with groundnut rosette virus (GRV) dsRNAs. We were able to estimate the dsRNA content of infected leaves, identify the dsRNA species present in crude extracts and to determine the Tm- values of GRV dsRNA-3.

Cloning and sequencing of the S RNA from a Bulgarian isolate of tomato spotted wilt virus.

Libraries of cloned cDNA were prepared from complete genomic RNA and isolated S RNA of the Bulgarian L3 isolate of tomato spotted wilt virus (TSWV-L3). Northern blotting of TSWV genomic RNA detected clones specific for the L, M and S RNAs in the library from complete RNA. S RNA-specific clones selected from both libraries covered approximately 2.8 kb (about 95%) of the S RNA. Sequencing of these clones showed TSWV-L3 S RNA to be ambisense. It contains two open reading frames (ORFs); one of 1401 nucleotides located on the viral RNA encodes an Mr 52,400 (52K) protein, and the other of 774 nucleotides on the complementary strand encodes an Mr 28,900 (29K) protein. Expression of the 29K ORF in bacteria and immunological analysis of the fusion protein synthesized confirmed that the 29K protein is the N protein of TSWV-L3. Comparison with the published sequence for the S RNA of a Brazilian TSWV isolate, CNPH1, revealed almost complete identity in the amino acid sequences for the 29K protein, but several clustered amino acid exchanges in the putative 52K protein. In addition, the separating non-translated intergenic region of the S RNA of the Bulgarian isolate is 81 nucleotides longer than that of CNPH1.

Restriction fragment length polymorphisms at the human parathyroid hormone gene locus.

Two common Pst I and Taq I restriction enzyme fragment length polymorphisms (RFLPs) were detected at the human parathyroid hormone (PTH) gene locus. The allele frequencies in a Northern German population were 0.578/0.422 (Pst I) and 0.628/0.372 (Taq I). The allele distributions follow Hardy-Weinberg expectations of equilibrium in the population. The Mendelian nature of the polymorphisms were confirmed in family studies.

Assignment of the human parathyroid hormone gene to chromosome 11.

A panel of human-mouse and human-Chinese hamster cell hybrid DNA's was screened for hybridisation with a fragment of the human parathyroid hormone chromosomal gene. A 7-kilobasepair Msp I restriction fragment homologous to this probe was found to segregate with the human chromosome 11.