C. Buller scite author profile

The genus Cellulomonas is comprised of a group of Gram-positive, soil bacteria capable of utilizing cellulose as their sole source of carbon and energy. Cellulomonas flavigena KU was originally isolated from leaf litter and subsequently shown to produce large quantities of a curdlan-type (beta-1,3-glucan) exopolysaccharide (EPS) when provided with an excess of glucose or other soluble carbon-source. We report here that curdlan EPS is also produced by Cellulomonas flavigena KU when growing on microcrystalline cellulose in mineral salts-yeast extract media. Microscopic examination of such cultures shows an adherent biofilm matrix composed of cells, curdlan EPS, and numerous surface structures resembling cellulosome complexes. Those Cellulomonas species that produce curdlan EPS are all non-motile and adhere to cellulose as it is broken down into soluble sugars. These observations suggest two very different approaches towards the complex process of cellulose degradation within the genus Cellulomonas.

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Replication of T4rII Bacteriophage in Escherichia coli K-12 (λ)

Buller

Astrachan

1968

J Virol

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The defect of T4rII replication in Escherichia coli K-12 (X) can be phenotypically reversed by various supplements to the growth medium. Arginine, lysine, spermidine, and a number of diamines allowed varying levels of rII replication. The best reversion was obtained with 0.4 M sucrose in 0.002 to 0.005 M Ca++. Monovalent cations severely inhibited reversion. A cell surface site of polyamine action is consistent with the fact that spermidine inhibits phage ghost-induced cell lysis and with the finding that sufficient polyamine is available within the cells to allow normal patterns of neutralization of phage deoxyribonucleic acid, as detected by the polyamine content of progeny phage. In the absence of effective supplements, rIIinfected cells swelled and lost refractility. The data indicate that a leaky cell envelop is involved. No difference in mucopeptides of uninfected K-12 (X) and K-12 was detected and, because the mucopeptide in r+ infected cells was found to be at least partially hydrolyzed midway through the lytic cycle, it did not appear that the rIl defect concerned mucopeptide synthesis. The pattern of cell phospholipid synthesis changes after phage infection, but no difference was detected between r+ and rII with regard to biosynthesis of phosphatidylethanolamine and phosphatidylglycerol.

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Effect of ethylenediaminetetraacetate on phospholipids and outer membrane function in Escherichia coli

Hardaway¹,

Buller²

1979

J Bacteriol

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Treatment of Escherichia coli K-12 strain S15, containing a normal amount of phospholipase A, with ethylenediaminetetraacetate (EDTA) resulted in an increase in sensitivity of the organism to actinomycin D. Strain S17, a mutant deficient in both detergent-resistant phospholipase A and detergent-sensitive phospholipase A, was considerably less sensitive to the antibiotic after the treatment. Both strains released lipopolysaccharide after EDTA treatment, indicating that this outer membrane component alone is not the barrier to actinomycin in these organisms. The phospholipase A-deficient strain released less alkaline phosphatase, a periplasmic enzyme. EDTA treatment of S15 resulted in the accumulation of free fatty acids, indicative of phospholipase A activation. Cells briefly treated with EDTA regained the barrier to actinomycin when incubated in growth media, and the cessation of the accumulation of free fatty acids was in approximate temporal agreement with restoration of the barrier. Cells in which phospholipase A was activated by brief exposure to EDTA synthesized relatively more phosphatidylethanolamine than did untreated cells in the initial period after dilution into growth media. These experiments suggest that the EDTA-induced loss of outer membrane barrier function of E. coli K-12 is mediated through the activation of phospholipase A.

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Phospholipid Metabolism in T4 Bacteriophage-infected Escherichia coli K-12 (λ)

Peterson

Buller

1969

J Virol

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Infection of Escherichia coli K-12 (X) by bacteriophage results in an altered labeling pattern of phospholipids in the host cell. Although the overall incorporation of 82Pi into phospholipids is decreased by infection, the relative amounts of phosphatidylglycerol and cardiolipin are increased. Phospholipid changes occurring at later stages in the lytic cycle of infected bacteria are more prominent than those at earlier time intervals. The uptake of 32Pi into phospholipids of cells infected with T4Bs and endolysin-negative mutants was similar to that observed with the wild-type phage, suggesting that the development of resistance to lysis from without and the repair of mucopeptides are not responsible for the phospholipid changes. The metabolism of phospholipids in uninfected cells treated with cyanide was similar to that of infected cells, indicating that part of the phage-induced alterations may be a consequence of impaired respiration.

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C. Buller

The curdlan-type exopolysaccharide produced by Cellulomonas flavigena KU forms part of an extracellular glycocalyx involved in cellulose degradation

Replication of T4rII Bacteriophage in Escherichia coli K-12 (λ)

Effect of ethylenediaminetetraacetate on phospholipids and outer membrane function in Escherichia coli

Phospholipid Metabolism in T4 Bacteriophage-infected Escherichia coli K-12 (λ)

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