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11.
Identification of Brassica oleracea monosomic alien chromosome addition lines with molecular markers reveals extensive gene duplication 总被引:2,自引:0,他引:2
J. Mitchell McGrath Carlos F. Quiros John J. Harada Benoit S. Landry 《Molecular & general genetics : MGG》1990,223(2):198-204
Summary Chromosomes of Brassica oleracea (2n=18) were dissected from the resynthesized amphidiploid B. napus Hakuran by repeated backcrosses to B. campestris (2n=20), creating a series of monosomic alien chromosome addition line plants (2n=21). Using morphological, isozyme and restriction fragment length polymorphism markers (RFLPs), 81 putative loci were identified. Of nine possible synteny groups, seven were represented in the 25 monosomic addition plants tested. Sequences homologous to 26% of the 61 DNA clones utilized (80% were cDNA clones) were found on more than one synteny group, indicating a high level of gene duplication. Anomalous synteny associations were detected in four 2n=21 plants. One of these plants showed two markers from one B. oleracea chromosome associated with a second complete B. oleracea synteny group, suggesting translocation or recombination between non-homologous chromosomes in Hakuran or the backcross derivatives. The other three 2n=21 plants each contained two or more B. oleracea synteny groups, suggesting chromosome substitution. 相似文献
12.
T G Benoit G R Wilson D L Bull A I Aronson 《Applied and environmental microbiology》1990,56(8):2282-2286
Spores and vegetative cells of Bacillus thuringiensis were more sensitive to UV light than were spores or cells of plasmid-cured B. thuringiensis strains or of the closely related Bacillus cereus. Introduction of B. thuringiensis plasmids into B. cereus by cell mating increased the UV sensitivity of the cells and spores. Protoxins encoded by one or more B. thuringiensis plasmids were not involved in spore sensitivity, since a B. thuringiensis strain conditional for protoxin accumulation was equally sensitive at the permissive and nonpermissive temperatures. In addition, introduction of either a cloned protoxin gene, the cloning vector, or another plasmid not containing a protoxin gene into a plasmid-cured strain of B. thuringiensis all increased the UV sensitivity of the spores. Although the variety of small, acid-soluble proteins was the same in the spores of all strains examined, the quantity of dipicolinic acid was about twice as high in the plasmid-containing strains, and this may account for the differences in UV sensitivity of the spores. The cells of some strains harboring only B. thuringiensis plasmids were much more sensitive than cells of any of the other strains, and the differences were much greater than observed with spores. 相似文献
13.
14.
D J O'Callaghan C F Colle rd C C Flowers R H Smith J N Benoit C A Bigger 《Journal of virology》1994,68(9):5351-5364
The IR6 gene of equine herpesvirus 1 (EHV-1) is a novel gene that maps within each inverted repeat (IR), encodes a potential protein of 272 amino acids, and is expressed as a 1.2-kb RNA whose synthesis begins at very early times (1.5 h) after infection and continues throughout the infection cycle (C. A. Breeden, R. R. Yalamanchili, C.F. Colle, and D.J. O'Callaghan, Virology 191:649-660,1992). To identify the IR6 protein and ascertain its properties, we generated an IR6-specific polyclonal antiserum to a TrpE/IR6 fusion protein containing 129 amino acids (residues 134 to 262) of the IR6 protein. This antiserum immunoprecipitated a 33-kDa protein generated by in vitro translation of mRNA transcribed from a pGEM construct (IR6/pGEM-3Z) that contains the entire IR6 open reading frame. The anti-IR6 antibody also recognized an infected-cell protein of approximately 33 kDa that was expressed as early as 1 to 2 h postinfection and was synthesized throughout the infection cycle. A variety of biochemical analyses including radiolabeling the IR6 protein with oligosaccharide precursors, translation of IR6 mRNA in the presence of canine pancreatic microsomes, radiolabeling the IR6 protein in the presence of tunicamycin, and pulse-chase labeling experiments indicated that the two potential sites for N-linked glycosylation were not used and that the IR6 protein does not enter the secretory pathway. To address the possibility that the unique IR6 gene encodes a novel regulatory protein, we transiently transfected an IR6 expression construct into L-M fibroblasts alone or with an immediate-early gene expression construct along with a representative EHV-1 immediate-early, early, or late promoter-chloramphenicol acetyltransferase reporter construct. The results indicated that the IR6 protein does not affect the expression of these representative promoter constructs. Interestingly, the IR6 protein was shown to be phosphorylated and to associate with purified EHV-1 virions and nucleocapsids. Lastly, immunofluorescence and laser-scanning confocal microscopic analyses revealed that the IR6 protein is distributed throughout the cytoplasm at early times postinfection and that by 4 to 6 h it appears as "dash-shaped" structures that localize to the perinuclear region. At late times after infection (8 to 12 h), these structures assemble around the nucleus, and three-dimensional image analyses reveal that the IR6 protein forms a crown-like structure that surrounds the nucleus as a perinuclear network. 相似文献
15.
Summary The last decade has witnessed successful applications of plant tissue culture techniques in several crops. During that same
period, studies in plant molecular genetics have also grown exponentially. Molecular markers (isozymes, RFLPs, and PCR-based
markers such as RAPDs) are now used to study many of the current limitations of tissue culture. They have been used to investigate
mechanisms that underlie somaclonal variation in the nuclear, mitochondrial, and chloroplast genomes. One recurrent problem
with several tissue culture systems has been the difficulty of determining the origin of regenerants. Molecular markers represent
powerful tools to determine precisely the origin of plants derived from microspore or anther culture, protoplast fusion, and
other tissue culture studies where this information is important. With improvements in tissue culture techniques, populations
of doubled haploid lines have been produced in several major crop species. Doubled haploid populations have proven useful
in the production of molecular maps and in tagging important agronomic traits. This review describes the use of molecular
markers to address fundamental and practical questions of plant tissue culture, and discusses the potential of improvements
in molecular techniques and new molecular markers such as SCAR and STS along with high-resolution mapping strategies. 相似文献
16.
17.
Wing Y. Cheung Jean-Charles Côté Diane L. Benoit Benoit S. Landry 《Plant Molecular Biology Reporter》1993,11(2):142-155
We have designed a simple and rapid assay for chloroplast-based triazine resistance in higher plants using PCR amplification
of thepsbA gene coupled toMaeI digestion of the amplified product to distinguish triazine resistant from sensitive biotypes. Our assay is universal and
avoids the need of lengthy procedures of previously published assays, which either required spraying of seedlings in a controlled
environment, quantification of chlorophyll fluorescence of leaf discs after incubation in triazine solution, DNA sequencing
of thepsbA gene, or Southern-blot analysis. Our diagnostic system is qualitative, reliable, fast and simple. More than 100 seedlings
taken directly from the field can be analyzed in one day. This system has a direct application towards a more rational use
of herbicides in production fields. It also represents a valuable tool to monitor spreading of resistant biotypes through
time and space and can serve as a model system applicable to other gene monitoring needs. 相似文献
18.
Ivo Grabchev Jean-Philippe Soumillion Benoit Muls Galya Ivanova 《Photochemical & photobiological sciences》2004,3(11-12):1032-1037
A new poly(amidoamine) dendrimer from second generation whose periphery comprises sixteen fluorescent 4-N,N-dimethylaminoethylamino-1,8-naphthalimide units has been synthesized and characterized. In DMF, the dendrimer shows sensitivity to the presence of Cu(2+), Fe(3+) and protons. The changes in the fluorescence intensity of the material are in opposite directions if acids or metals are present. Fluorescence enhancements (FE from 5 to 9 depending on solvent) are recorded when the photoinduced electron transfer (PET) originating from the donating amine to the electron accepting naphthalimide is inhibited by the protonation of the N,N-dimethylamino groups. In the case of Cu(2+) cations, a fluorescence quenching (FQ of 6) is first observed, followed by fluorescence partial restoration. In the Fe(3+) case, the same behaviour is observed with a final FE of 2. The successive complexations of these cations by the dendrimer core and by the external rim of the dendrimer may explain the results. 相似文献
19.
Freshwater Bacteria Can Methylate Selenium through the Thiopurine Methyltransferase Pathway 下载免费PDF全文
Involvement of the bacterial thiopurine methyltransferase (bTPMT) in natural selenium methylation by freshwater was investigated. A freshwater environment that had no known selenium contamination but exhibited reproducible emission of dimethyl selenide (DMSe) or dimethyl diselenide (DMDSe) when it was supplemented with an organic form of selenium [(methyl)selenocysteine] or an inorganic form of selenium (sodium selenite) was used. The distribution of the bTPMT gene (tpm) in the microflora was studied. Freshwater bacteria growing on 10 μM sodium selenite and 10 μM sodium selenate were isolated, and 4.5 and 10% of the strains, respectively, were shown by colony blot hybridization to hybridize with a Pseudomonas syringae tpm DNA probe. Ribotyping showed that these strains are closely related. The complete rrs sequence of one of the strains, designated Hsa.28, was obtained and analyzed. Its closest phyletic neighbor was found to be the Pseudomonas anguilliseptica rrs sequence. The Hsa.28 strain grown with sodium selenite or (methyl)selenocysteine produced significant amounts of DMSe and DMDSe. The Hsa.28 tpm gene was isolated by genomic DNA library screening and sequencing. BLASTP comparisons of the deduced Hsa.28 bTPMT sequence with P. syringae, Pseudomonas aeruginosa, Vibrio cholerae, rat, and human thiopurine methyltransferase sequences revealed that the levels of similarity were 52 to 71%. PCR-generated Escherichia coli subclones containing the Hsa.28 tpm open reading frame were constructed. E. coli cells harboring the constructs and grown with sodium selenite or (methyl)selenocysteine produced significant levels of DMSe and DMDSe, confirming that the gene plays a role in selenium methylation. The effect of strain Hsa.28 population levels on freshwater DMSe and DMDSe emission was investigated. An increase in the size of the Hsa.28 population was found to enhance significantly the emission of methyl selenides by freshwater samples supplemented with sodium selenite or (methyl)selenocysteine. These data suggest that bTPMT can play a role in natural freshwater selenium methylation processes. 相似文献
20.
Benoit Cousineau Fabrice Leclerc Robert Cedergren 《Journal of molecular evolution》1997,45(6):661-670
Sequence similarity has given rise to the proposal that IF-2, EF-G, and EF-Tu are related through a common ancestor. We evaluate
this proposition and whether the relationship can be extended to other factors of protein synthesis. Analysis of amino acid
sequence similarity gives statistical support for an evolutionary affiliation among IF-1, IF-2, IF-3, EF-Tu, EF-Ts, and EF-G
and suggests further that this association is a result of gene duplication/fusion events. In support of this mechanism, the
three-dimensional structures of IF-3, EF-Tu, and EF-G display a predictable domain structure and overall conformational similarity.
The model that we propose consists of three consecutives duplication/fusion events which would have taken place before the
divergence of the three superkingdoms: eubacteria, archaea, and eukaryotes. The root of this protein superfamily tree would
be an ancestor of the modern IF-1 gene sequence. The repeated fundamental motif of this protein superfamily is a small RNA
binding domain composed of two α-helices packed along side of an antiparallel β-sheet.
Received: 17 October 1996 / Accepted: 10 June 1997 相似文献