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461.
Phospholipids and active sodium transport in toad bladder 总被引:4,自引:0,他引:4
462.
The exploitation of biofilms in industrial processes such as wastewater treatment and metabolite production is described. In this way it is intended to highlight the positive aspects of biofilms, and provide a contrast with the negative associations which these microbial aggregations normally have. In particular, the exploitation of adhesive microbes in fluidized bed operation is discussed. A range of processes is outlined, from wastewater treatment to the production of ethanol, enzymes, and antibiotics. These various processes use a range of cell types; which has required the modification of the basic design of FB bioreactor, e.g. for anaerobic or aerobic operation; and for bacteria, actinomycetes, or plant cells. One basic design is illustrated, and reference made to how this is modified for different fermentations. 相似文献
463.
VAλ73, a λ bacteriophage carrying R100 replication genes, maintains itself as an independent plasmid under conditions in which the λ replication genes are inactive. 相似文献
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A role for a pyridoxne derivative in the multivalent repression of the isoleucine and valine biosynthetic enzymes 总被引:8,自引:0,他引:8
J Wasmuth H E Umbarger W B Dempsey 《Biochemical and biophysical research communications》1973,51(1):158-164
Starvation of a pdx mutant of Escherichia coli strain B in the presence of repressing levels of isoleucine, valine and leucine leads to a derepression of the normally repressible ilv genes. The derepression of the ilvA gene under these conditions results in the accumulation of apothreonine deaminase. Addition of pyridoxine leads to a sudden increase in threonine deaminase activity, and to restoration of repression. The pyridoxine component needed for the repression signal is probably not threonine deaminase but, more likely, some transient (“immature”) form of the enzyme. 相似文献
466.
T J Wetter C A Harms W B Nelson D F Pegelow J A Dempsey 《Journal of applied physiology》1999,87(2):643-651
The work of breathing (W(b)) normally incurred during maximal exercise not only requires substantial cardiac output and O(2) consumption (VO(2)) but also causes vasoconstriction in locomotor muscles and compromises leg blood flow (Q(leg)). We wondered whether the W(b) normally incurred during submaximal exercise would also reduce Q(leg). Therefore, we investigated the effects of changing the W(b) on Q(leg) via thermodilution in 10 healthy trained male cyclists [maximal VO(2) (VO(2 max)) = 59 +/- 9 ml. kg(-1). min(-1)] during repeated bouts of cycle exercise at work rates corresponding to 50 and 75% of VO(2 max). Inspiratory muscle work was 1) reduced 40 +/- 6% via a proportional-assist ventilator, 2) not manipulated (control), or 3) increased 61 +/- 8% by addition of inspiratory resistive loads. Increasing the W(b) during submaximal exercise caused VO(2) to increase; decreasing the W(b) was associated with lower VO(2) (DeltaVO(2) = 0.12 and 0.21 l/min at 50 and 75% of VO(2 max), respectively, for approximately 100% change in W(b)). There were no significant changes in leg vascular resistance (LVR), norepinephrine spillover, arterial pressure, or Q(leg) when W(b) was reduced or increased. Why are LVR, norepinephrine spillover, and Q(leg) influenced by the W(b) at maximal but not submaximal exercise? We postulate that at submaximal work rates and ventilation rates the normal W(b) required makes insufficient demands for VO(2) and cardiac output to require any cardiovascular adjustment and is too small to activate sympathetic vasoconstrictor efferent output. Furthermore, even a 50-70% increase in W(b) during submaximal exercise, as might be encountered in conditions where ventilation rates and/or inspiratory flow resistive forces are higher than normal, also does not elicit changes in LVR or Q(leg). 相似文献
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