Inhibitory effect of carbon dioxide on bacterial cellulose production by Acetobacter in agitated culture

Tohru Kouda, Takaaki Naritomi, Hisato Yano, Fumihiro Yoshinaga
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引用次数: 25

Abstract

In order to study the inhibitory effect of the partial pressure of carbon dioxide (pCO2) on bacterial cellulose (BC) production by Acetobacter xylinum subsp. sucrofermentans BPR3001A, the BC concentration, oxygen consumption rate, viable cell concentration, and ATP content of the cells were investigated during cultivation in a 50-l jar fermentor sparged with air containing 10% (v/v) CO2. A high pCO2 (0.15–0.20 atm) reduced the BC yield, BC production rate per unit volume of broth (the volumetric BCPR), and viable cell concentration. However, it enhanced the oxygen consumption rate and the ATP content per viable cell, and consequently the BC production rate per viable cell (the specific BCPR). Thus, a high pCO2 reduced BC production due to a reduction of cell growth and not by inhibiting BC biosynthesis. A possible reason for the reduction of the BC yield arising from a high pCO2 is the dissipation of substrate for excess ATP generation.

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二氧化碳对醋酸杆菌在搅拌培养中产纤维素的抑制作用
为了研究二氧化碳分压(pCO2)对木醋杆菌(Acetobacter xylinum subsp)产纤维素的抑制作用。在含10% (v/v) CO2的50-l罐式发酵罐中,研究了sucrofermentans BPR3001A在培养过程中的BC浓度、耗氧率、活菌浓度和细胞ATP含量。高pCO2 (0.15-0.20 atm)降低了BC产量、单位体积肉汤BC产量(体积BCPR)和活菌浓度。然而,它提高了每个活细胞的耗氧量和ATP含量,从而提高了每个活细胞的BC产量(特定的BCPR)。因此,高二氧化碳分压降低了BC的产生,这是由于细胞生长的减少,而不是通过抑制BC的生物合成。高co2分压导致BC产率降低的一个可能原因是过量ATP生成的底物耗散。
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