Optimization of process parameters for cephalosporin C production under solid state fermentation from Acremonium chrysogenum

被引：65

作者：

Adinarayana, K ^{[1
]}

Prabhakar, T ^{[1
]}

Srinivasulu, V ^{[1
]}

Rao, MA ^{[1
]}

Lakshmi, PJ ^{[1
]}

Ellaiah, P ^{[1
]}

机构：

[1] Andhra Univ, Dept Pharmaceut Sci, Pharmaceut Biotechnol Div, Visakhapatnam 530003, Andhra Pradesh, India

来源：

PROCESS BIOCHEMISTRY | 2003年 / 39卷 / 02期

关键词：

cephalosporin C; Acremonium chrysogenum ATCC 48272; solid state fermentation; wheat rawa; optimization;

D O I：

10.1016/S0032-9592(03)00049-9

中图分类号：

Q5 [生物化学]; Q7 [分子生物学];

学科分类号：

071010 ; 081704 ;

摘要：

Production of cephalosporin C employing Acremonium chrysogenum ATCC 48272 under solid state fermentation was optimized. Different substrates like wheat bran, wheat rawa, bombay rawa, barley and rice bran were studied to optimize the best substrate. Wheat rawa showed the highest antibiotic yield. Physical and chemical parameters were optimized. The maximum productivity of cephalosporin C (22281 mug/g) was achieved by employing wheat rawa and with optimized process parameters including 1% w/w soluble starch and 1% w/w yeast extract as additives, incubation period of 5 days, incubation temperature at 30 degreesC, 1.5:10 (v/w) ratio of salt solution to weight of wheat bran, inoculum level 10% v/w, moisture content of solid substrate 80% and pH 6.5. (C) 2003 Published by Elsevier Science Ltd.

引用

页码：171 / 177

页数：7

共 50 条

[21] Enhanced fermentative production of Cephalosporin C by magnetite nanoparticles in culture of Acremonium chrysogenum
Shahidzadeh, Haleh
Labbeiki, Ghazal
Attar, Hossein
IET NANOBIOTECHNOLOGY, 2017, 11 (06) : 644 - 649
[22] Glutathione metabolism of Acremonium chrysogenum in relation to cephalosporin C production:: Is γ-glutamyltransferase in the center?
Nagy, MA
Emri, T
Fekete, E
Sándor, E
Springael, JY
Penninckx, MJ
Pócsi, I
FOLIA MICROBIOLOGICA, 2003, 48 (02) : 149 - 155
[23] Expression of a cephalosporin C esterase gene in Acremonium chrysogenum for the direct production of deacetylcephalosporin C
Basch, J
Franceschini, T
Tonzi, S
Chiang, SJD
JOURNAL OF INDUSTRIAL MICROBIOLOGY & BIOTECHNOLOGY, 2004, 31 (11) : 531 - 539
[24] Analysis of the relationship between growth, cephalosporin C production, and fragmentation in Acremonium chrysogenum
Sándor, E
Szentirmai, A
Paul, GC
Thomas, CR
Pócsi, I
Karaffa, L
CANADIAN JOURNAL OF MICROBIOLOGY, 2001, 47 (09) : 801 - 806
[25] Cybernetic modeling of the cephalosporin C fermentation process by Cephalosporium acremonium
Byung Min Kim
Seung Wook Kim
Dae Ryook Yang
Biotechnology Letters, 2003, 25 : 611 - 616
[26] Cybernetic modeling of the cephalosporin C fermentation process by Cephalosporium acremonium
Kim, BM
Kim, SW
Yang, DR
BIOTECHNOLOGY LETTERS, 2003, 25 (08) : 611 - 616
[27] SOLID-STATE FERMENTATION FOR CEPHALOSPORIN PRODUCTION BY STREPTOMYCES-CLAVULIGERUS AND CEPHALOSPORIUM-ACREMONIUM
JERMINI, MFG
DEMAIN, AL
EXPERIENTIA, 1989, 45 (11-12): : 1061 - 1065
[28] Optimization of process parameters for the production of α-amylase from Penicillium janthinellum (NCIM 4960) under solid state fermentation
Sindhu, R.
Suprabha, G. N.
Shashidhar, S.
AFRICAN JOURNAL OF MICROBIOLOGY RESEARCH, 2009, 3 (09): : 498 - 503
[29] Scaling up production of cephalosporin C by Acremonium chrysogenum W42-I in a fermenter using submerged fermentation
Ibrahim, Asmaa A.
El-Housseiny, Ghadir S.
Aboshanab, Khaled M.
Stratmann, Ansgar
Yassien, Mahmoud A.
Hassouna, Nadia A.
AMB EXPRESS, 2024, 14 (01):
[30] Optimisation of process parameters for chitinase production by soil isolates of Penicillium chrysogenum under solid substrate fermentation
Patidar, P
Agrawal, D
Banerjee, T
Patil, S
PROCESS BIOCHEMISTRY, 2005, 40 (09) : 2962 - 2967

← 1 2 3 4 5 →