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United States Department of Agriculture

Agricultural Research Service

Related Topics

Harold W Gardner
Location not available


Phone: (309) 681-6230 ext.
Fax: (309) 681-6578
Room 1305

1815 N. University St.
NCAUR/ARS/USDA
PEORIA , IL 616043999


Publications (Clicking on the reprint icon Reprint Icon will take you to the publication reprint.)
BIOTRANSFORMATION OF LINOLEIC ACID TO 12-HYDROXY-13,16-EPOXY-9(Z)- AND 7,12-DIHYDROXY-13,16-EPOXY-9(Z)-OCTADECENOIC ACIDS BY CLAVIBACTER SP. ALA2 -
OXIDIZED FATTY ACIDS STIMULATE ALDOSTERONE SECRETION -
PREFACE -
ANALYSIS OF LIPOXYGENASE ACTIVITY AND PRODUCTS -
BIOTRANSFORMATION OF LINOLEIC ACID BY CLAVIBACTER SP ALA2: HETEROCYCLIC AND HETEROBICYCLIC FATTY ACIDS -
PRODUCTION OF ISOMERIC 9,10,13(9,12,13)-TRIHYDROXY-11E(10E)-OCTADECENOIC ACID FROM LINOLEIC ACID BY PSEUDOMONAS AERUGINOSA PR3 -
KIM, H., GARDNER, H.W., HOU, C.T. PRODUCTION OF ISOMERIC 9,10,13(9,12,13)-TRIHYDROXY-11E(10E)-OCTADECENOIC ACID FROM LINOLEIC ACID BY PSEUDOMONAS AERUGINOSA PR3. JOURNAL OF INDUSTRIAL MICROBIOLOGY AND BIOTECHNOLOGY. 2002. V. 30. P. 752-757.
4-HYDROXY-2-ALKENYL PATHWAY: ITS POSSIBLE ROLE -
BIOTRANSFORMATION OF LINOLEIC ACID BY CLAVIBACTER ALA2: ISOLATION AND CHARACTERIZATION OF BICYCLIC FATTY ACIDS -
A PEANUT SEED LIPOXYGENASE RESPONSIVE TO ASPERGILLUS COLONIZATION -
10(S)-HYDROXY-8(E)-OCTADECENOIC ACID, AN INTERMEDIATE IN THE CONVERSION OF OLEIC ACID TO 7,10-DIHYDROXY-8(E)-OCTADECENOIC ACID -
SPOROGENIC EFFECT OF POLYUNSATURATED FATTY ACIDS ON ASPERGILLUS SPP. DEVELOPMENT -
ALL (S) STEREOCONFIGURATION OF 7,10-DIHYDROXY-8(E)-OCTADECENOIC ACID FROM BIOCONVERSION OF OLEIC ACID BY PSEUDOMONAS AERUGINOSA NRRL STRAIN B-18602 (PR3) -
10(S)-HYDROXY-8(E)-OCTADECENOIC ACID, AN INTERMEDIATE IN THE CONVERSION OF OLEIC ACID TO 7,10-DIHYDROXY-8(E)-OCTADECENOIC ACID -
ALL (S) STEREOCONFIGURATION OF 7,10-DIHYDROXY-8(3)-OCTADECENOIC ACID FROM BIOCONVERSION OF OLEIC ACID BY PSEUDOMONAS AERUGINOSA -
BIOSYNTHESIS OF HYDROXYALKENALS BY PLANTS -
SOYBEAN LIPOXYGENASE IS ACTIVE ON NONAQUEOUS MEDIA AT LOW MOISTURE: A CONSTRAINT TO XEROPHILIC FUNGI AND AFLATOXINS? -
PRODUCTION OF MULTIHYDROXY FATTY ACIDS FROM LINOLEIC ACID BY CLAVIBACTER SP. ALA2 -
PRODUCTION AND TOXICITY OF 2,3-DIHYDRO-5-HYDROXY-2-METHYL-4H-1-BENZOPYRAN-4-ONE BY PHIALPHORA GREGATA -
9-HYDROXY-TRAUMATIN, A NEW METABOLITE OF THE LIPOXYGENASE PATHWAY -
ASPIRIN INHIBITION AND ACETYLATION OF THE PLANT CYTOCHROME P450, ALLENE OXIDE SYNTHASE, RESEMBLES THAT OF ANIMAL PROSTAGLANDIN ENDOPEROXIDE H SYNTHASE -
SOYBEAN LIPOXYGENASE-1 OXIDIZES 3Z-NONENAL: A ROUTE TO 4S-HYDROPEROXY-2- NONENAL AND RELATED PRODUCTS -
SOYBEAN LIPOXYGENASE IS ACTIVE ON NONAQUEOUS MEDIA AT LOW MOISTURES: A CONSTRAINT TO XEROPHILIC FUNGAL GROWTH? -
SOYBEAN LIPOXYGENASE-1 TRANSFORMS 3Z-NONENAL INTO 4-HYDROPEROXY-2E-NONENAL -
ANALYSIS OF PLANT LIPOXYGENASE METABOLITES -
SOYBEAN LIPOXYGENASE IS ACTIVE ON NONAQUEOUS MEDIA AT LOW MOISTURES -
LIPOXYGENASE AS A VERSATILE BIOCATALYST -
REACTION MECHANISM OF LINOLEIC ACID HYDROPEROXIDE WITH ALKALI -
OXYGENATION OF (3Z)-ALKENAL TO (2E)-4-HYDROXY-2-ALKENAL IN SOYBEAN SEED (GLYCINE MAX L.) -
LIPOXYGENASE AS A VERSATILE BIOCATALYST -
SIGNIFICANCE OF THE OCTADECANOID PATHWAY IN PLANTS--FOR A HALF CENTURY, AN EMERGING SAGA -
AN ENZYMIC PATHWAY TO ETHYLVINYLKETONE AND 2-PENTENAL IN SOYBEAN PREPARATIONS -
Last Modified: 5/2/2016
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