Isolation and Screening of Microorganisms for R-(+)-Limonene and (−)-β-Pinene Biotransformation

被引:0
|
作者
Ieda Rottava
Priscila F. Cortina
Camila E. Grando
André R. S. Colla
Eduarda Martello
Rogério L. Cansian
Geciane Toniazzo
Helen Treichel
Octávio A. C. Antunes
Enrique G. Oestreicher
Débora de Oliveira
机构
[1] Instituto de Química–UFRJ,Department of Biochemistry
[2] CT,Department of Food Engineering
[3] URI,undefined
来源
Applied Biochemistry and Biotechnology | 2010年 / 162卷
关键词
Screening; Biotransformation; -(+)-limonene; (−)-β-Pinene; α-Terpineol; Monoterpenes;
D O I
暂无
中图分类号
学科分类号
摘要
This work is focused on the biotransformation of R-(+)-limonene and (−)-β-pinene to bioflavor production. To carry out the present study, 405 microorganisms were tested for their ability to bioconvert the substrates. From the isolated microorganisms, 193 were selected in the prescreening using mineral medium for limonene degradation. At the screening step, eight strains were able to convert R-(+)-limonene and 15 to transform (−)-β-pinene, both in α-terpineol. The highest concentration in α-terpineol from R-(+)-limonene was about 3,450 mg/L for Penicillium sp. isolated from eucalyptus steam. From (−)-β-pinene, the highest product concentration of 675.5 mg/L was achieved using an Aspergillus sp. strain isolated from orange tree stem.
引用
收藏
页码:719 / 732
页数:13
相关论文
共 50 条
  • [21] Production of R-(+)-α-terpineol by the biotransformation of limonene from orange essential oil, using cassava waste water as medium
    Marostica, Mario Roberto, Jr.
    Pastore, Glaucia Maria
    FOOD CHEMISTRY, 2007, 101 (01) : 345 - 350
  • [22] Limonene and Its Oxyfunctionalized Compounds: Biotransformation by Microorganisms and Their Role as Functional Bioactive Compounds
    Marostica Junior, Mario Roberto
    Pastore, Glaucia Maria
    FOOD SCIENCE AND BIOTECHNOLOGY, 2009, 18 (04) : 833 - 841
  • [23] Patch testing with oxidized R-(+)-limonene and its hydroperoxide fraction
    Matura, M
    Goossens, A
    Bordalo, O
    Garcia-Bravo, B
    Magnusson, K
    Wrangsjö, K
    Karlberg, AT
    CONTACT DERMATITIS, 2003, 49 (01) : 15 - 21
  • [24] Salen manganese (III) complexes as catalysts for R-(+)-limonene oxidation
    Cubillos, Jairo
    Vasquez, Santiago
    Montes de Correa, Consuelo
    APPLIED CATALYSIS A-GENERAL, 2010, 373 (1-2) : 57 - 65
  • [25] Stereoselective oxidation of R-(+)-limonene by chloroperoxidase from Caldariomyces fumago
    Aguila, Sergio
    Vazquez-Duhalt, Rafael
    Tinoco, Raunel
    Rivera, Manuel
    Pecchi, Gina
    Alderete, Joel B.
    GREEN CHEMISTRY, 2008, 10 (06) : 647 - 653
  • [26] In Vitro Antimicrobial and Antibiofilm Activity of S-(-)-Limonene and R-(+)-Limonene against Fish Bacteria
    da Silva, Elisia Gomes
    Bandeira Junior, Guerino
    Cargnelutti, Juliana Felipetto
    Vianna Santos, Roberto Christ
    Gundel, Andre
    Baldisserotto, Bernardo
    FISHES, 2021, 6 (03)
  • [27] Epoxidation by Layered Double Hydroxide-Hosted Catalysts. Catalyst Synthesis and Use in the Epoxidation of R-(+)-Limonene and (−)-α-Pinene Using Molecular Oxygen
    Samiran Bhattacharjee
    James A. Anderson
    Catalysis Letters, 2004, 95 : 119 - 125
  • [28] Effects of R-(+)- and S-(-)-limonene on the respiratory tract in mice
    Larsen, ST
    Hougaard, KS
    Hammer, M
    Alarie, Y
    Wolkoff, P
    Clausen, PA
    Wilkins, CK
    Nielsen, GD
    HUMAN & EXPERIMENTAL TOXICOLOGY, 2000, 19 (08) : 457 - 466
  • [29] Bioconversion of R-(+)-limonene to perillic acid by the yeast Yarrowia lipolytica
    Ferrara, Maria Antonieta
    Almeida, Debora S.
    Siani, Antonio C.
    Lucchetti, Leonardo
    Lacerda, Paulo S. B.
    Freitas, Andre
    Tappin, Marcelo R. R.
    Bon, Elba P. S.
    BRAZILIAN JOURNAL OF MICROBIOLOGY, 2013, 44 (04) : 1075 - 1080
  • [30] Epoxidation by layered double hydroxide-hosted catalysts.: Catalyst synthesis and use in the epoxidation of R-(+)-limonene and (-)-α-pinene using molecular oxygen
    Bhattacharjee, S
    Anderson, JA
    CATALYSIS LETTERS, 2004, 95 (3-4) : 119 - 125
12345