J Am Oil Chem Soc
159
Kumar, N., & Pruthi, V. (2014) Potential applications of ferulic acid
from natural sources. Biotechnology Reports, 4:86.
Laszlo, J. A., & Compton, D. L. (2006) Enzymatic glycerolysis and
transesterification of vegetable oil for enhanced production of feru-
loylated glycerols. Journal of the American Oil Chemists’ Society,
83:765–770.
Laszlo, J. A., Compton, D. L., Eller, F. J., Taylor, S. L., &
Isbell, T. A. (2003) Packed-bed bioreactor synthesis of feruloylated
monoacyl-and diacylglycerols: Clean production of a “green” sun-
screen. Green Chemistry, 5:382–386.
Lee, J., Kao, H., & Yang, S. (2014) Service innovation and smart ana-
lytics for industry 4.0 and big data environment. Procedia CIRP,
16:3–8.
Lee, J., Kim, K. S., & Na, K. (2016) Caffeic acid-coated multifunc-
tional magnetic nanoparticles for the treatment and bimodal imag-
ing of tumours. Journal of Photochemistry and Photobiology B,
160:210–216.
Martinez-Guerra, E., & Gude, V. G. (2016) Alcohol effect on
microwave-ultrasound enhanced transesterification reaction. Chemi-
cal Engineering and Processing, 101:1–7.
cold-pressed oils using photochemiluminescence assay (PCL) and
DPPH method. European Journal of Lipid Science and Technol-
ogy, 116:388–394.
Son, S., & Lewis, B. A. (2002) Free radical scavenging and antioxida-
tive activity of caffeic acid amide and ester analogues: Structure–
activity relationship. Journal of Agricultural and Food Chemistry,
50:468–472.
Sorour, N., Karboune, S., Saint-Louis, R., & Kermasha, S. (2012)
Lipase-catalyzed synthesis of structured phenolic lipids in
solvent-free system using flaxseed oil and selected phenolic acids
as substrates. Journal of Biotechnology, 158:128–136.
Sun, S., & Hu, B. (2017) A novel method for the synthesis of glyceryl
monocaffeate by the enzymatic transesterification and kinetic analy-
sis. Food Chemistry, 214:192–198.
Tsuchiyama, M., Sakamoto, T., Tanimori, S., Murata, S.,
&
Kawasaki, H. (2007) Enzymatic synthesis of hydroxycinnamic acid
glycerol esters using type A feruloyl esterase from Aspergillus niger.
Bioscience, Biotechnology, and Biochemistry, 71:2606–2609.
Uuml, İ. G., & Ccedil, L. (2010) Antioxidant properties of resveratrol:
A structure–activity insight. Innovative Food Science and Emerg-
ing Technologies, 11:210–218.
Wang, J., Gu, S. S., Cui, H. S., Wu, X. Y., & Wu, F. A. (2014) A
novel continuous flow biosynthesis of caffeic acid phenethyl ester
from alkyl caffeate and phenethanol in a packed bed microreactor.
Bioresource Technology, 158:39–47.
Morales, P., Ferreira, I. C. F. R., Carvalho, A. M., Fernández-
Ruiz, V., Sánchez-Mata, M. C., Cámara, M., … Tardío, J. (2013)
Wild edible fruits as a potential source of phytochemicals with
capacity to inhibit lipid peroxidation. European Journal of Lipid
Science and Technology, 115:176–185.
Mu, H., Xu, X., & Høy, C. (1998) Production of specific-structured
Wang, J., Gu, S. S., Pang, N., Wang, F. Q., Pang, F., Cui, H. S., …
Wu, F. A. (2014) Alkyl caffeates improve the antioxidant activity,
antitumor property and oxidation stability of edible oil. PLoS One,
9:e95909.
triacylglycerols by lipase-catalyzed interesterification in
a
laboratory-scale continuous reactor. Journal of the American Oil
Chemists’ Society, 75:1187–1193.
Prasad, N. R., Jeyanthimala, K., & Ramachandran, S. (2009) Caffeic
acid modulates ultraviolet radiation-B induced oxidative damage in
human blood lymphocytes. Journal of Photochemistry and Photo-
biology B, 95:196–203.
Rasmussen, L. E., Xu, C., Sørensen, J. F., Nielsen, M. K., &
Meyer, A. S. (2012) Enzyme kinetics and identification of the
rate-limiting step of enzymatic arabinoxylan degradation. Biochem-
ical Engineering Journal, 69:8–16.
Wang, J., Gu, S. S., Pang, N., Wang, F. Q., & Wu, F. (2013) A study
of esterification of caffeic acid with methanol using
p-toluenesulfonic acid as a catalyst. Journal of the Serbian Chemi-
cal Society, 78:1023–1034.
Warner, K., & Laszlo, J. A. (2005) Addition of ferulic acid, ethyl feru-
late, and feruloylated monoacyl- and diacylglycerols to salad oils
and frying oils. Journal of the American Oil Chemists’ Society, 82:
647–652.
Rupasinghe, H. V. (2016) Sonochemical enzyme-catalyzed regiose-
lective acylation of flavonoid glycosides. Bioorganic Chemistry,
65:17–25.
Saelo, S., Assatarakul, K., Sane, A., & Suppakul, P. (2016) Fabrica-
tion of novel bioactive cellulose-based films derived from caffeic
acid phenethyl ester-loaded nanoparticles via a rapid expansion pro-
cess: RESOLV. Journal of Agricultural and Food Chemistry, 64:
6694–6707.
Salta, J., Martins, A., Rui, G. S., Neng, N. R., Nogueira, J. M. F.,
Justino, J., & Rauter, A. P. (2010) Phenolic composition and anti-
oxidant activity of Rocha pear and other pear cultivars: A compara-
tive study. Journal of Functional Foods, 2:153–157.
Sielicka, M., Małecka, M., & Purłan, M. (2013) Comparison of the
antioxidant capacity of lipid-soluble compounds in selected
Wen, A., Delaquis, P., Stanich, K., & Toivonen, P. (2003) Antilister-
ial activity of selected phenolic acids. Food Microbiology, 20:
305–311.
Yanishlieva, N. V., & Marinova, E. M. (2015) Stabilisation of edible
oils with natural antioxidants. European Journal of Lipid Science
and Technology, 103:752–767.
Zheng, Y., Branford-White, C., Wu, X., Wu, C., Xie, J., Quan, J., &
Zhu, L. (2010) Enzymatic synthesis of novel feruloylated lipids and
their evaluation as antioxidants. Journal of the American Oil Chem-
ists’ Society, 87:305–311.
Zheng, Y., Wu, X., Branford-White, C., Ning, X., Quan, J., & Zhu, L.
(2009) Enzymatic synthesis and characterization of novel feruloy-
lated lipids in selected organic media. Journal of Molecular Cataly-
sis B: Enzymatic, 58:65–71.
J Am Oil Chem Soc (2018) 95: 149–159