A total of 28 yeast strains were obtained from the sea sediment of Antarctica.According to the results of routine identi-fication and molecular characterization,the strains belonged to species of Yarrowia lipolytica,D...A total of 28 yeast strains were obtained from the sea sediment of Antarctica.According to the results of routine identi-fication and molecular characterization,the strains belonged to species of Yarrowia lipolytica,Debaryomyces hansenii,Rhodotorula slooffiae,Rhodotorula mucilaginosa,Sporidiobolus salmonicolor,Aureobasidium pullulans,Mrakia frigida and Guehomyces pullu-lans,respectively.The Antarctica yeasts have wide potential applications in biotechnology,for some of them can produce b-galactosidase and killer toxins.展开更多
After a serial of UV, EMS and NTG mutagenesis, a mutant named MM of the red marine yeast strain Rhodotorula sp. hidai was obtained. The mutant MM could produce 603.93 μg g-1 of carotenoid within 5 days in the medium ...After a serial of UV, EMS and NTG mutagenesis, a mutant named MM of the red marine yeast strain Rhodotorula sp. hidai was obtained. The mutant MM could produce 603.93 μg g-1 of carotenoid within 5 days in the medium containing 4.0 g sucrose, 1.5 g yeast extract, 0.1 g MgSO4, and 100 mL of sea water, with pH 6.0 and at 30 ℃, while only 213.18 μg g-1 of carotenoid was pro-duced by the wild type under the same conditions.展开更多
The marine yeast strain N13d, producing an extracellular amylase, was isolated from the deep sea sediments of the Pa-cific Ocean. This strain was identified to be Aureobasidium pullulans by 18S rRNA gene sequence anal...The marine yeast strain N13d, producing an extracellular amylase, was isolated from the deep sea sediments of the Pa-cific Ocean. This strain was identified to be Aureobasidium pullulans by 18S rRNA gene sequence analysis and routine yeast identi-fication methods. The optimal sea water medium for amylase production by this yeast strain was 1.0% peptone and 1.0% soluble starch with pH 4.0. The optimal conditions for amylase production by this yeast strain were with temperature 28 ℃, aeration rate 6 Lmin-1 and agitation speed 250 rmin-1. Under these conditions, 58.5 units of amylase activity per mg protein were produced within 56 h of fermentation.展开更多
Mutant J61321 with enhanced siderophore production of Alteromonas aurantia A18 was obtained after a series of chemical-physical mutageneses. It was found that the antibacterial activity against Vibrio anguillarum W-1 ...Mutant J61321 with enhanced siderophore production of Alteromonas aurantia A18 was obtained after a series of chemical-physical mutageneses. It was found that the antibacterial activity against Vibrio anguillarum W-1 and siderophore produc- tion of the mutant were higher than those by the original strain A18 which had been used in mariculture. The results of the specific assay(Csáky and Arnow methods) of siderophore showed that the sidrophore with hydroxamate group was produced by mutant J61321 and the original strain A18, respectively, while the siderophore with catechol group was yielded by strain W-1 (Aibrio an- guillarum). Meanwhile, the siderophore yield, antibacterial activity and anti-chelator activity of strain J61321 were higher than those of its parent strain A18.展开更多
We have reported that A. pullulans 98 produces a high yield of cellulase. In this study, a carboxymethyl cellulase(CMCase) in the supernatant of the culture of A. pullulans 98 was purified to homogeneity, and the maxi...We have reported that A. pullulans 98 produces a high yield of cellulase. In this study, a carboxymethyl cellulase(CMCase) in the supernatant of the culture of A. pullulans 98 was purified to homogeneity, and the maximum production of CMCase was 4.51 U(mg protein)-1. The SDS-PAGE analysis showed that the molecular mass of the purified CMCase was 67.0 k Da. The optimal temperature of the purified enzyme with considerable thermosensitivity was 40℃, much lower than that of the CMCases from other fungi. The optimal p H of the enzyme was 5.6, and the activity profile was stable in a range of acidity(p H 5.0–6.0). The enzyme was activated by Na+, Mg2+, Ca2+, K+, Fe2+ and Cu2+, however, it was inhibited by Fe3+, Ba2+, Zn2+, Mn2+ and Ag+. Km and Vmax values of the purified enzyme were 4.7 mg m L-1 and 0.57 μmol L-1 min-1(mg protein)-1, respectively. Only oligosaccharides with different sizes were released from carboxymethylcellulose(CMC) after hydrolysis with the purified CMCase. The putative gene encoding CMCase was cloned from A. pullulans 98, which contained an open reading frame of 954 bp(EU978473). The protein deduced contained the conserved domain of cellulase superfamily(glucosyl hydrolase family 5). The N-terminal amino acid sequence of the purified CMCase was M-A-P-H-A-E-P-Q-S-Q-T-T-E-Q-T-S-S-G-Q-F, which was consistent with that deduced from the cloned gene. This suggested that the purified CMCase was indeed encoded by the cloned CMCase gene in this yeast.展开更多
A total of 317 yeast isolates from seawater,sediments,mud of salterns,guts of marine fishes and marine algae were obtained. The results of routine identification and molecular characterization showed that six isolates...A total of 317 yeast isolates from seawater,sediments,mud of salterns,guts of marine fishes and marine algae were obtained. The results of routine identification and molecular characterization showed that six isolates among these marine yeasts belonged to Candida genus as Candida intermedia for YA01a,Candida parapsilosis for 3eA2,Candida quercitrusa for JHSb,Can-dia rugosa for wl8,Candida zeylanoides for TJY13a,and Candida membranifaciens for W14-3. Isolates YA01a (Candida interme-dia),wl8 (Candida rugosa),3eA2 (Candida parapsilosis),and JHSb (Candida quercitrusa) were found producing cell-bound lipase,while isolate W14-3 (Candida membranifaciens) producing riboflavin. These marine yeast Candida spp. seem to have wide potential applications in biotechnology.展开更多
基金supported by the Hi-Tech Researchand Development Program of China(863),the grant No. is 2006AA09Z403
文摘A total of 28 yeast strains were obtained from the sea sediment of Antarctica.According to the results of routine identi-fication and molecular characterization,the strains belonged to species of Yarrowia lipolytica,Debaryomyces hansenii,Rhodotorula slooffiae,Rhodotorula mucilaginosa,Sporidiobolus salmonicolor,Aureobasidium pullulans,Mrakia frigida and Guehomyces pullu-lans,respectively.The Antarctica yeasts have wide potential applications in biotechnology,for some of them can produce b-galactosidase and killer toxins.
文摘After a serial of UV, EMS and NTG mutagenesis, a mutant named MM of the red marine yeast strain Rhodotorula sp. hidai was obtained. The mutant MM could produce 603.93 μg g-1 of carotenoid within 5 days in the medium containing 4.0 g sucrose, 1.5 g yeast extract, 0.1 g MgSO4, and 100 mL of sea water, with pH 6.0 and at 30 ℃, while only 213.18 μg g-1 of carotenoid was pro-duced by the wild type under the same conditions.
文摘The marine yeast strain N13d, producing an extracellular amylase, was isolated from the deep sea sediments of the Pa-cific Ocean. This strain was identified to be Aureobasidium pullulans by 18S rRNA gene sequence analysis and routine yeast identi-fication methods. The optimal sea water medium for amylase production by this yeast strain was 1.0% peptone and 1.0% soluble starch with pH 4.0. The optimal conditions for amylase production by this yeast strain were with temperature 28 ℃, aeration rate 6 Lmin-1 and agitation speed 250 rmin-1. Under these conditions, 58.5 units of amylase activity per mg protein were produced within 56 h of fermentation.
基金supported by the National Natural Science Foundation of China(Grant No.30328021).
文摘Mutant J61321 with enhanced siderophore production of Alteromonas aurantia A18 was obtained after a series of chemical-physical mutageneses. It was found that the antibacterial activity against Vibrio anguillarum W-1 and siderophore produc- tion of the mutant were higher than those by the original strain A18 which had been used in mariculture. The results of the specific assay(Csáky and Arnow methods) of siderophore showed that the sidrophore with hydroxamate group was produced by mutant J61321 and the original strain A18, respectively, while the siderophore with catechol group was yielded by strain W-1 (Aibrio an- guillarum). Meanwhile, the siderophore yield, antibacterial activity and anti-chelator activity of strain J61321 were higher than those of its parent strain A18.
基金Qingdao Municipal Science and Technology Commission,Qingdao,China for providing financial support to this work(06-2-2-22-jch)
文摘We have reported that A. pullulans 98 produces a high yield of cellulase. In this study, a carboxymethyl cellulase(CMCase) in the supernatant of the culture of A. pullulans 98 was purified to homogeneity, and the maximum production of CMCase was 4.51 U(mg protein)-1. The SDS-PAGE analysis showed that the molecular mass of the purified CMCase was 67.0 k Da. The optimal temperature of the purified enzyme with considerable thermosensitivity was 40℃, much lower than that of the CMCases from other fungi. The optimal p H of the enzyme was 5.6, and the activity profile was stable in a range of acidity(p H 5.0–6.0). The enzyme was activated by Na+, Mg2+, Ca2+, K+, Fe2+ and Cu2+, however, it was inhibited by Fe3+, Ba2+, Zn2+, Mn2+ and Ag+. Km and Vmax values of the purified enzyme were 4.7 mg m L-1 and 0.57 μmol L-1 min-1(mg protein)-1, respectively. Only oligosaccharides with different sizes were released from carboxymethylcellulose(CMC) after hydrolysis with the purified CMCase. The putative gene encoding CMCase was cloned from A. pullulans 98, which contained an open reading frame of 954 bp(EU978473). The protein deduced contained the conserved domain of cellulase superfamily(glucosyl hydrolase family 5). The N-terminal amino acid sequence of the purified CMCase was M-A-P-H-A-E-P-Q-S-Q-T-T-E-Q-T-S-S-G-Q-F, which was consistent with that deduced from the cloned gene. This suggested that the purified CMCase was indeed encoded by the cloned CMCase gene in this yeast.
基金the grant from the Ministry of Science and Technology,China (Grant No 2005DKA 21209)
文摘A total of 317 yeast isolates from seawater,sediments,mud of salterns,guts of marine fishes and marine algae were obtained. The results of routine identification and molecular characterization showed that six isolates among these marine yeasts belonged to Candida genus as Candida intermedia for YA01a,Candida parapsilosis for 3eA2,Candida quercitrusa for JHSb,Can-dia rugosa for wl8,Candida zeylanoides for TJY13a,and Candida membranifaciens for W14-3. Isolates YA01a (Candida interme-dia),wl8 (Candida rugosa),3eA2 (Candida parapsilosis),and JHSb (Candida quercitrusa) were found producing cell-bound lipase,while isolate W14-3 (Candida membranifaciens) producing riboflavin. These marine yeast Candida spp. seem to have wide potential applications in biotechnology.
