贵州农业科学
貴州農業科學
귀주농업과학
GUIZHOU AGRICULTURAL SCIENCES
2014年
7期
84-87
,共4页
刘振华%井长勤%周晨妍%王燕%郭伟云
劉振華%井長勤%週晨妍%王燕%郭偉雲
류진화%정장근%주신연%왕연%곽위운
冷泉芽孢细菌%发酵液%絮凝%壳聚糖%海藻酸钠
冷泉芽孢細菌%髮酵液%絮凝%殼聚糖%海藻痠鈉
랭천아포세균%발효액%서응%각취당%해조산납
Paenibacillus algorifonticola%fermentation broth%flocculation%chitosan%sodium alginate
为从微生物中寻求新的抗菌活性物质,采用单因素试验方法,研究 pH 值、壳聚糖用量和海藻酸钠用量对冷泉芽孢细菌(Paenibacillus algorifonticola)发酵液絮凝除菌效果的影响,并进一步考察了加酸方式和发酵液中碳酸钙含量对絮凝效果的影响。结果表明:初步优化工艺为最适絮凝 pH 6.0,壳聚糖用量0.75 mL和海藻酸钠1.25 mL;经进一步优化,培养基中碳酸钙可以作为絮凝过程中pH缓冲剂而使其缓慢变化,从而达到最优值(pH 5~6),其工艺为先在发酵液中加入壳聚糖和海藻酸钠,使其在发酵液中的浓度分别达0.375 g/L和0.625 g/L,然后加入1 mol/L的盐酸100μL,絮凝率达95%以上。
為從微生物中尋求新的抗菌活性物質,採用單因素試驗方法,研究 pH 值、殼聚糖用量和海藻痠鈉用量對冷泉芽孢細菌(Paenibacillus algorifonticola)髮酵液絮凝除菌效果的影響,併進一步攷察瞭加痠方式和髮酵液中碳痠鈣含量對絮凝效果的影響。結果錶明:初步優化工藝為最適絮凝 pH 6.0,殼聚糖用量0.75 mL和海藻痠鈉1.25 mL;經進一步優化,培養基中碳痠鈣可以作為絮凝過程中pH緩遲劑而使其緩慢變化,從而達到最優值(pH 5~6),其工藝為先在髮酵液中加入殼聚糖和海藻痠鈉,使其在髮酵液中的濃度分彆達0.375 g/L和0.625 g/L,然後加入1 mol/L的鹽痠100μL,絮凝率達95%以上。
위종미생물중심구신적항균활성물질,채용단인소시험방법,연구 pH 치、각취당용량화해조산납용량대랭천아포세균(Paenibacillus algorifonticola)발효액서응제균효과적영향,병진일보고찰료가산방식화발효액중탄산개함량대서응효과적영향。결과표명:초보우화공예위최괄서응 pH 6.0,각취당용량0.75 mL화해조산납1.25 mL;경진일보우화,배양기중탄산개가이작위서응과정중pH완충제이사기완만변화,종이체도최우치(pH 5~6),기공예위선재발효액중가입각취당화해조산납,사기재발효액중적농도분별체0.375 g/L화0.625 g/L,연후가입1 mol/L적염산100μL,서응솔체95%이상。
In order to screen new antibacterial substances,the effects of pH,chitosan dosage and sodium alginate dosage,acid adding type and calcium carbonate on flocculation of P.algorifonticola fermentation broth were investigated.The results showed that the optimum process conditions included pH 5.0~6.0,chitosan 0.75 mL and sodium alginate 1.25 mL.Calcium carbonate in medium could be used as pH buffer to reach the optimum pH value.Suitable flocculation process was:chitosan and sodium alginate were added into fermentation broth at concentration of 0.375 g/L and 0.625 g/L;then 100 microliters of 1 mol/L hydrochloric acid were added.Flocculation rate could reach 9 5% or more.
