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Genetic studies of cucumber mosaic and tomato aspermy viruses / by A.L.N. RaoRao, Ayalasomayajula Lakshmi Naranya January 1982 (has links)
Typescript (photocopy) / Includes bibliographical references (leaves 84-94). / xi, 94 leaves, [35] leaves of plates : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Eight cucumovirus isolates were examined with respect to their host range, antigenic properties and nucleic acid composition. / Thesis (Ph.D.)--Dept. of Plant Pathology, University of Adelaide, 1983
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Genetic studies of cucumber mosaic and tomato aspermy viruses / by A.L.N. RaoRao, Ayalasomayajula Lakshmi Naranya January 1982 (has links)
Typescript (photocopy) / Includes bibliographical references (leaves 84-94). / xi, 94 leaves, [35] leaves of plates : ill. ; 30 cm. / Title page, contents and abstract only. The complete thesis in print form is available from the University Library. / Eight cucumovirus isolates were examined with respect to their host range, antigenic properties and nucleic acid composition. / Thesis (Ph.D.)--Dept. of Plant Pathology, University of Adelaide, 1983
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Studies on Subterranean clover mottle virus towards development of a gene silencing vector.J.Fosu@murdoch.edu.au, John Fosu-Nyarko January 2005 (has links)
Subterranean clover mottle virus (SCMoV) is a positive sense, single-stranded RNA virus that
infects subterranean clover (Trifolium subterraneum) and a number of related legume species.
The ultimate aim of this research was to investigate aspects of SCMoV that would support its
use as a gene silencing vector for legume species, since RNA (gene) silencing is now a
potential tool for studylng gene function. The ability of viruses to induce an antiviral defense
system is being explored by virus-induced gene silencing (VIGS), in which engmeered viral
genomes are used as vectors to introduce genes or gene ii-agments to understand the function of
endogenous genes by silencing them. To develop a gene silencing vector, a number of aspects
of SCMoV host range and molecular biology needed to be studied.
A requirement for a useful viral vector is a suitably wide host range. Hence the first part of this
work involved study of the host range and symptom development of SCMoV in a range of
leguminous and non-leguminous plants. The aim of this work was to identify new and most
suitable hosts among economically important crop and model legumes for functional genomic
studies, and also to study symptom development in these hosts for comparison with host
responses to any SCMoV-based viral vectors that might be used in later infection studies. A
total of 61 plant genotypes representing 52 species from 25 different genera belonging to 7
families were examined for their response to SCMoV infection, including established and new
crop legumes, established pasture, and novel pasture and forage legumes, and 12 host indicator
plants belonging to the families Amaranthaceae, Apiaceae, Chenopodiaceae, Cruciferae,
Cucurbitaceae and Solanaceae. Following mechanical inoculation, plants were examined for
symptoms and tested for primary and secondary infection by RT-PCR andlor ELISA after 2-3
weeks and 3-9 weeks, respectively. Thirty-six legume hosts belonging to eight different genera
of legumes were identified as suitable hosts of SCMoV, 22 of them systemic hosts and 15 were
infected locally. Only two non-legumes were infected with SCMoV-P23, one systemically and
one as a local host, so confirming that SCMoV is essentially a legume-infecting virus. This
work considerably expanded knowledge of the host range of SCMoV.
To provide the information needed to modify the SCMoV genome to develop gene vectors,
the virus was characterized in detail. The complete genomes of four isolates, SCMoV-AL,
SCMoV-MB, SCMoV-MJ and SCMoV-pFL, were sequenced using high fidelity RT-PCR and
molecular cloning, and compared to the first sequenced isolate (SCMoV-P23) to give a
complete picture of the genome organisation of the virus. The 4,258 nucleotide (nt) sequence
of SCMoV RNA is not polyadenylated. The 5' non-coding region (NCR) is 68 nt in length and
the 3' NCR is 174 nt. The coding regon contains four overlapping open reading fi-ames
(ORFs). The first, OW1 (nt 68-608), encodes a putative protein containing 179 amino acids
with a calculated molecular mass (Ma,) of 20.3 kDa. It overlaps with the next ORF, ORF2a, by
four bases. ORF2a (nt 605-2347) encodes a putative protein of 580 amino acids with a Ma, of
63.7 kDa and contains a motif characteristic of chymotrypsin-like serine proteases. The ORF2b
is probably translated as part of a polyprotein by -1 ribosomal fiameshifting in ORF2a. The
transfiame product (Ma, = 107.5 kDa) is made up of 966 amino acids. A GDD motif typical of
RNA virus polymerases is present in ORF2b. The 3' terminal ORF3 (nt 3323-4084) encodes
the 27.3 kDa coat protein (CP).
Nucleotide variation between the complete sequences of the isolates was two to three orders of
magnitude larger than base misincoporation rates of the polymerases used in RT-PCR.
Molecular relationship analysis between all five isolates, undertaken with the complete
nucleotide sequences, clearly separated them into three groups. These groups reflect similar
significantly diverse groupings based on the symptoms and their severity in subterranean
clover. Intra-isolate sequence variability is therefore a possible cause of the differences in
symptom severity. The analysis also showed that there were more nucleotide substitutions at
the 5' terminal half of SCMoV than at the 3' end. This observation was confirmed by the
higher value of nucleotide diversities at nonsynonymous versus synonymous sites (dN/ds ratio)
estimated for the ORF1, compared to the near conservation of sequences of the other ORFs.
These results, together with functional and comparative sequence analysis with other
sobemoviruses, implicate the ORFl gene product in pathogenicity of SCMoV, possibly as a
severity determinant or as a viral suppressor of RNA silencing in plants.
Because more information on SCMoV genome function was required, the possible involvement
of the ORFl gene product (PI) and the CP in movement of SCMoV was studied in cells of
grasspea (Lathyrus clymenum L) and chickpea as C-terminal fusion constructs with jellyfish
(Aequorea victoriae) green fluorescent protein (GFP). A transient expression vector, pTEV, for
in planta synthesis of reporter gene constructs was developed. The vector was based on
pGEM-T with 35s RNA transcriptional promoter of Caulzjlower Mosaic virus (CaMV) and
nopaline synthase gene transcription terminator signal (T-Nos) separated by a multiple
subcloning site. A custom-made particle inflow gun was used to introduce the constructs into
plant cells. The bombardment conditions were fxst optimised for efficient delivery of DNAcoated
particles. Transient gene expression of GFP was monitored 24-96 hours after particle
bombardment. Fluorescence from GFP alone, GFP:CP and GFP:Pl constructs was observed in
the nucleus of single cells, cytoplasm and cell periphery of neighbouring cells. There was
limited spread of these fusion proteins from one cell to another 36-48 hours after
transformation. These results indicate that the P 1 and CP cannot move independently from cell
to cell. Other viral/cellular components might be needed to form a complex with these proteins
to transport the viral genome. Putative nuclear export signals in the P1 and CP sequences of
SCMoV were identified by sequence comparison. These could be tested by mutagenesis using
full-length infectious clones.
To determine the possibility of gene expression of vectors based on SCMoV, three forms of a
full-length cDNA clone of SCMoV-pFL were developed: one with no heterologous
transcriptional factors (pFL), a second under the control of only 35s (p35SFL) and a third with
35s and T-Nos (pTEVFL). Fifteen day-old in vitro-cultured chickpea, grasspea and
subterranean clover seedlings were inoculated by particle bombardment using gold particles
coated with plasmid pTEVFL. In vivo-transcribed RNA transcripts were detected by RT-PCR
after two weeks in grasspea but not in subterranean clover and chickpea.
Experiments were undertaken towards developing the SCMoV genome into a VIGS vector.
Three forms each of five major GFP chimeric constructs of pFL (the full length SCMoV cDNA
clone) were generated from which in vitro- and in vivo-transcribed RNA transcripts could be
derived. The rationale used in developing these constructs was gene insertion andlor
replacement with d p , and duplication of the putative subgenomic RNA promoter (sgPro) of
SCMoV. The major constructs were as follows:
pFLCPgfp, pFL with the d p gene fused to the 3' end of the CP gene,
pFLP 1 gfp, pFL with gj27 gene fused to the 3 ' end of the ORF 1,
pFLCPsgprogfp, pFL with a putative sgPro sequence and a translatable & gene cloned
in tandem between the CP gene and the 3' NCR of SCMoV,
pFLCPVsgprogf$, pFL with a putative sgPro sequence and a translatable gfp gene
cloned in tandem between a truncated CP gene and the 3' NCR and
pFLREPsgprog@, pFL with the ORF2b, a putative sgPro sequence and a translatable
&fP gene cloned in tandem between a truncated CP gene and the 3' NCR
These constructs were all made, but a detailed assessment of their vector potential could not be
done because there was a delay of about one year whilst the Office of the Gene Technology
Regulator processed the application for permission for glasshouse testing. Although additional
work needs to be undertaken to complete development of a final RNA silencing vector, this
study has contributed to new knowledge in terms of extending understanding of SCMoV host
range, symptoms, sequence variation and control of gene expression. The constructs made
have also laid the groundwork for development of a legume gene silencing vector based on
SCMoV.
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Further studies on the structure and function of the cucumber mosaic virus genome : a thesis submitted to the University of Adelaide, South Australia for the degree of Doctor of Philosophy /Williams, Rhys Harold Verdon George. January 1988 (has links) (PDF)
Thesis (Ph. D.)--University of Adelaide, Department of Biochemistry, 1988. / Includes bibliographical references (leaves [102]-120).
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A comparative study of cucumber mosaic virus and a gladiolus isolate of tobacco ring-spot virus /Randles, J. W. January 1965 (has links) (PDF)
Thesis (M.Ag.Sc.)--University of Adelaide, Department of Plant Pathology,1965. / Typescript.
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Comparative studies on tomato aspermy and cucumber mosaic viruses /Habili, Nooredin. January 1974 (has links) (PDF)
Thesis (Ph.D.)--University of Adelaide, Dept. of Plant Pathology, 1975. / Includes bibliographical references (leaves 108-123).
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Genetic studies of cucumber mosaic and tomato aspermy viruses /Rao, Ayalasomayajula Lakshmi Naranya. January 1982 (has links) (PDF)
Thesis (Ph.D)--Dept. of Plant Pathology, University of Adelaide, 1983. / Typescript (photocopy). Includes bibliographical references (leaves 84-94).
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Variation among cucumber mosaic virus (CMV) isolates and their interaction with plants /Wahyuni, Wiwiek Sri. January 1992 (has links) (PDF)
Thesis (Ph.D.) -- University of Adelaide, Department of Crop Protection, 1992. / Includes appendix containing journal publications co-authored by the author. Includes bibliographical references (leaves 130-151).
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The epidemiology of cucumber mosaic virus in narrow-leafed lupins (Lupinus angustifolius) in South Australia /Geering, Andrew D.W. January 1992 (has links) (PDF)
Thesis (Ph.D.)--Department of Crop Protection, University of Adelaide,1992. / Includes bibliographical references (leaves 147-171).
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Studies on Subterranean clover mottle virus towards development of a gene silencing vector /Fosu-Nyarko, John. January 2005 (has links)
Thesis (Ph.D.)--Murdoch University, 2005. / Thesis submitted to the Division of Science and Engineering. Bibliography: leaves 184-207.
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