林产化学与工业
林產化學與工業
림산화학여공업
CHEMISTRY AND INDUSTRY OF FOREST PRODUCTS
2014年
5期
1-7
,共7页
血红密孔菌%漆酶%介质%脱木质素%选择性
血紅密孔菌%漆酶%介質%脫木質素%選擇性
혈홍밀공균%칠매%개질%탈목질소%선택성
Pycnoporus sanguineus%laccase%mediator%delignification%selectivity
菌株自带介质可提高其漆酶降解木质素能力,因此自带介质高产漆酶菌株的筛选、鉴定对漆酶的商业应用将起到促进作用。从南京山林地区分离出两株血红密孔菌NFZH-1和NFZH-2,并以杂色云芝为对照,研究了两株血红密孔菌发酵产漆酶和木质素降解特性。首先通过形态学特性鉴定了NFZH-1为自带介质血红密孔菌。其次以愈创木酚为反应底物,平板接种菌株,培养5天,NFZH-1颜色圈较菌丝圈大,且颜色最深;经10天固态发酵,NFZH-1所产漆酶酶活高达23600 U/g,且未检测出木质素过氧化物酶( LiP)和锰过氧化物酶( MnP)。平板显色和固态发酵产酶结果表明自带介质血红密孔菌NFZH-1为漆酶高产菌株。麦草粉经菌株 NFZH-130天降解,木质素降解率、综纤维素降解率分别达56.7%和36.6%,表明血红密孔菌NFZH-1为选择性高木质素降解活性菌株。
菌株自帶介質可提高其漆酶降解木質素能力,因此自帶介質高產漆酶菌株的篩選、鑒定對漆酶的商業應用將起到促進作用。從南京山林地區分離齣兩株血紅密孔菌NFZH-1和NFZH-2,併以雜色雲芝為對照,研究瞭兩株血紅密孔菌髮酵產漆酶和木質素降解特性。首先通過形態學特性鑒定瞭NFZH-1為自帶介質血紅密孔菌。其次以愈創木酚為反應底物,平闆接種菌株,培養5天,NFZH-1顏色圈較菌絲圈大,且顏色最深;經10天固態髮酵,NFZH-1所產漆酶酶活高達23600 U/g,且未檢測齣木質素過氧化物酶( LiP)和錳過氧化物酶( MnP)。平闆顯色和固態髮酵產酶結果錶明自帶介質血紅密孔菌NFZH-1為漆酶高產菌株。麥草粉經菌株 NFZH-130天降解,木質素降解率、綜纖維素降解率分彆達56.7%和36.6%,錶明血紅密孔菌NFZH-1為選擇性高木質素降解活性菌株。
균주자대개질가제고기칠매강해목질소능력,인차자대개질고산칠매균주적사선、감정대칠매적상업응용장기도촉진작용。종남경산임지구분리출량주혈홍밀공균NFZH-1화NFZH-2,병이잡색운지위대조,연구료량주혈홍밀공균발효산칠매화목질소강해특성。수선통과형태학특성감정료NFZH-1위자대개질혈홍밀공균。기차이유창목분위반응저물,평판접충균주,배양5천,NFZH-1안색권교균사권대,차안색최심;경10천고태발효,NFZH-1소산칠매매활고체23600 U/g,차미검측출목질소과양화물매( LiP)화맹과양화물매( MnP)。평판현색화고태발효산매결과표명자대개질혈홍밀공균NFZH-1위칠매고산균주。맥초분경균주 NFZH-130천강해,목질소강해솔、종섬유소강해솔분별체56.7%화36.6%,표명혈홍밀공균NFZH-1위선택성고목질소강해활성균주。
The process of lignin degradation by white-rot fungi can be intensified by the presence of endogenous mediators. A high-yield laccase-producing fungus with an endogenous mediator is important for the commercial application of laccase. In the present study, we isolated two strains of Pycnoporus sanguineus, namely, NFZH-1 and NFZH-2 from mountain forest region in Nanjing, China, and their laccase production and delignifying characteristics was studied. We also studied these strains in comparison with the best-studied lignin-degrading fungus, Coriolus versicolor. P. sanguineus strain NFZH-1 with an endogenous mediator was identified. Thereafter, NFZH-1 was found to be a high yield laccase-producing strain as determined by the color-reaction and solid-state fermentation. The color zone diameter of NFZH-1 was found to be substantially greater than the mycelia colony one. Moreover, the color zone revealed a dark brown color-reaction using guaiacol as substrate. The laccase activities of P. sanguineus NFZH-1 were found to be 23 600 U/g, while no LiP and MnP were produced in solid-state fermentation. NFZH-1 demonstrated the capability to degrade 56. 7% of Klason lignin and 36. 6% of holocellulose in wheat straw within 30 days of incubation. Our results indicate that P. sanguineus NFZH-1 is a powerful and selective lignin-degrading strain.
