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Jay C. D. Hinton Julie M. Sidebotham Lizbeth J. Hyman Michel C. M. Pérombelon George P. C. Salmond 《Molecular & general genetics : MGG》1989,217(1):141-148
Summary The blackleg pathogen Erwinia carotovora subsp. atroseptica (Eca) causes an economically important disease of potatoes. We selected a genetically amenable Eca strain for the genetic analysis of virulence. Tn5 mutagenesis was used to generate nine mutants which exhibited reduced virulence (Rvi-) of strain SCRI1043. Following physiological characterisation, mutants were divided into three classes: (1) auxotrophs; (2) extracellular enzyme mutants; and (3) a growth rate mutant. The isolation of these Rvi- mutants has allowed us to consider some factors that affect Eca virulence. 相似文献
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Summary 03m3/xxlarge968.gif" alt="psgr" align="MIDDLE" BORDER="0"> M1 is a virulent bacteriophage of Methanobacterium thermoautotrophicum strain Marburg. Restriction enzyme analysis of the linear, 30.4 kb phage DNA led to a circular map of the 27.1 kb 03m3/xxlarge968.gif" alt="psgr" align="MIDDLE" BORDER="0"> M1 genome. 03m3/xxlarge968.gif" alt="psgr" align="MIDDLE" BORDER="0"> M1 is thus circularly permuted and exhibits terminal redundancy of approximately 3 kb. Packaging of 03m3/xxlarge968.gif" alt="psgr" align="MIDDLE" BORDER="0"> M1 DNA from a concatemeric precursor initiates at the pac site which was identified at coordinate 4.6 kb on the circular genome map. It proceeds clockwise for at least five packaging rounds. Headful packaging was also shown for 03m3/xxlarge968.gif" alt="psgr" align="MIDDLE" BORDER="0"> M2, a phage variant with a 0.7 kb deletion at coordinate 23.25 on the map. 相似文献
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Matilde Jose Isabelle Tratner Maryse Poiret Jean-Louis Nahon Jean-Louis Danan Jose Maria Sala-Trepat 《Molecular & general genetics : MGG》1989,215(2):225-230
Summary The distribution of middle repetitive sequences in the genic and extragenic regions of the rat albumin and 0">-fetoprotein genes was analyzed. Their presence was determined by probing Southern blots of restriction fragments of albumin and 0">-fetoprotein genomic subclones with 32P-labeled total rat DNA. Repetitive sequences were detected in both genes. They were classified as weak, moderate and intense hybridizing elements according to the intensity of hybridization. Weak repetitive sequences were characterized as dG·dT repeats by using 32P-labeled poly-(dG·dT)(dC·dA) oligomer probe. They occurred in 50"> and 30"> extragenic regions of the two genes and in introns 4 and 5 of the albumin gene. The moderate repetitive sequence present in intron 6 of the albumin gene was identified as the rat SINES element, 4D12. The intense repetitive sequence, localized in the 30"> non-coding region of the albumin gene, corresponded to the terminal segment of a rat high repeat long interspersed DNA family, L1Rn. 4D12 and L1Rn sequences were also scattered throughout the 0">-fetoprotein locus as moderate and intense repetitive elements, respectively, but their distribution was different from that of the albumin genomic region. These results indicate that repetitive sequences invaded the two loci in a non-conservative manner. 相似文献
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When young wheat (Triticum aestivum L.) or barley (Hordeum vulgare L.) plants were deprived of an external sulphate supply (-S plants), the capacity of their roots to absorb sulphate, but not phosphate or potassium, increased rapidly (derepression) so that after 3013;5 d it was more than tenfold that of sulphate-sufficient plants (+S plants). This increased capacity was lost rapidly (repression) over a 24-h period when the sulphate supply was restored. There was little effect on the uptake of L-methionine during de-repression of the sulphate-transport system, but S input from methionine during a 24-h pretreatment repressed sulphate influx in both+S and-S plants.Sulphate influx of both+S and-S plants was inhibited by pretreating roots for 1 h with 4,40rj606445r8187/xxlarge8242.gif" alt="prime" align="BASELINE" BORDER="0">-diisothiocyanatostilbene-2,20rj606445r8187/xxlarge8242.gif" alt="prime" align="BASELINE" BORDER="0">-disulphonic acid (DIDS) at concentrations > 0.1 mol · m-3. This inhibition was substantially reversed by washing for 1 h in DIDS-free medium before measuring influx. Longer-term pretreatment of roots with 0.1 mol·m-3 DIDS delayed de-repression of the sulphatetransport system in-S plants but had no influence on+S plants in 3 d.The sulphydryl-binding reagent, n-ethylmaleimide, was a very potent inhibitor of sulphate influx in-S roots, but was much less inhibitory in +S roots. Its effects were essentially irreversible and were proportionately the same at all sulphate concentrations within the range of operation of the high-affinity sulphate-transport system. Inhibition of influx was 85013;96% by 300 s pretreatment by 0.3 mol·m-3
n-ethylmaleimide. No protection of the transport system could be observed by including up to 50 mol·m-3 sulphate in the n-ethylmaleimide pre-treatment solution. A similar differential sensitivity of-S and+S plants was seen with p-chloromercuriphenyl sulphonic acid.The arginyl-binding reagent, phenylglyoxal, supplied to roots at 0.25 or 1 mol·m-3 strongly inhibited influx in-S wheat plants (by up to 95%) but reduced influx by only one-half in+S plants. The inhibition of sulphate influx in-S plants was much greater than that of phosphate influx and could not be prevented by relatively high (100 mol·m-3 sulphate concentrations accompanying phenylglyoxal treatment. Effects of phenylglyoxal pretreatment were unchanged for at least 30 min after its removal from the solution but thereafter the capacity for sulphate influx was restored. The amount of 0rj606445r8187/xxlarge8216.gif" alt="lsquo" align="BASELINE" BORDER="0">new0rj606445r8187/xxlarge8217.gif" alt="rsquo" align="BASELINE" BORDER="0"> carrier appearing in-S roots was far greater than in+S roots over a 24-h period.The results indicate that, in the de-repressed state, the sulphate transporter is more sensitive to reagents binding sulphydryl and arginyl residues. This suggests a number of strategies for identifying the proteins involved in sulphate transport.Abbreviations DIDS
4,40rj606445r8187/xxlarge8242.gif" alt="prime" align="BASELINE" BORDER="0">-diisothiocyanatostilbene-2,20rj606445r8187/xxlarge8242.gif" alt="prime" align="BASELINE" BORDER="0">-disulphonic acid
- NEM
n-ethylmaleimide
- PCMBS
p-chloromercuriphenyl sulphonic acid 相似文献