Optimization of protein yields in water extracts that were obtained from Jackiopsis ornata roots by Microwave assisted extraction (MAE) was established by a Circumscribed Central Composite Design (CCCD). MAE proved to be an optimum choice for the protein extraction. The highest yield (20.425±108) was obtained with the parameters liquid to solid ratio (S= 30:1), particle size (P=0.022±0.002mm (radius), temperature (T= 65°C); microwave power (W= 300W) and extraction time (t= 20 minutes). Statistical analysis illustrated the adequacy of the generated full quadratic equation with ad high values of the coefficient of determination (R2), adjusted coefficient of determination R2adj and predicted coefficient p of determination R2pred The p value of the Lack of Fit test illustrated the adequacy of the model. The optimization conditions of extracting the protein was predicted to be with the parameters S: 26, P: 0.0284; T: 65 °C; P: 303 W and t: 20 min. The high efficiency of MAE to obtain J. ornata protein extract encouraged further application on pilot and industrial scale.

1.
R.A.
Aziz
,
M.R.
Sarmidi
,
S.
Kumaresan
, and
D.C.Y.
Foo
,
Bull. Inst. Eng. Malaysia
10
19
(
2005
).
2.
C.
Liyana-Pathirana
and
F.
Shahidi
,
Food Chem.
93
,
47
56
(
2005
).
3.
A.
Kaya
and
O.
Aydın
,
Energy Convers. Manage.
50
,
118
124
(
2009
).
4.
C.
Puff
and
A.
Igersheim
,
Bot. J. Linn. Soc.
115
,
29
33
(
1994
).
5.
F.
Ng
,
Malay For. Rec.
(
1989
).
6.
N.
Wallich
,
Plantae Asiaticae Rariores
, Reprinted (
Treuttel and Würtz
,
Treuttel Jun and Richter, London
,
1979
).
7.
H.
Keng
,
The concise flora of Singapore: gymnosperms and dicotyledons
(
NUS Press
,
1990
), pp.
225
.
8.
G.
Spigno
,
L.
Tramelli
and
D.M.
De Faveri
,
J. Food Eng.
81
,
200
208
(
2007
).
9.
K.
Stamatopoulos
,
A.
Chatzilazarou
and
E.
Katsoyannos
,
Foods
,
3
,
66
81
(
2013
).
10.
F.
Chemat
and
G.
Cravotto
,
Microwave-assisted extraction for bioactive compounds theory and practice
(
Springer
,
New York
,
2012
), pp.
238
.
11.
F.
Chemat
,
N.
Rombaut
,
A.
Meullemiestre
,
M.
Turk
,
S.
Perino
,
A.-S.
Fabiano-Tixier
and
M.
Abert-Vian
,
Innov. Food Sci. Emerg. Technol.
41
,
357
377
(
2017
).
12.
M.
Jacotet-Navarro
,
N.
Rombaut
,
S.
Deslis
,
A.S.
Fabiano-Tixier
,
F.X.
Pierre
,
A.
Bily
and
F.
Chemat
,
Green Chem.
18
,
3106
3115
(
2016
).
13.
N.
Flórez
,
E.
Conde
and
H.
Domínguez
,
J. Chem. Technol. Biotechnol.
90
,
590
607
(
2015
).
14.
P.C.
Veggi
,
J.
Martinez
and
M.A.A.
Meireles
, “Fundamentals of microwave extraction,” in
Microwave-assisted Extraction for Bioactive Compounds
, edited by
C.
Farid
and
C.
Giancarlo
(
Springer
,
New York
,
2012
), pp.
15
52
.
15.
E.T.
Thostenson
and
T.-W.
Chou
,
Compos. Part A Appl. Sci. Manuf.
30
,
1055
1071
(
1999
).
16.
W.
Routray
and
V.
Orsat
,
Food Bioprocess Technol.
5
,
409
424
(
2012
).
17.
1
C.S.
Eskilsson
and
E.
Björklund
,
J. Chromatogr. A
902
,
227
250
(
2000
).
18.
A.
Rinas
and
L.M.
Jones
,
J. Am. Soc. Mass Spectrom.
26
,
540
546
(
2015
).
19.
L.M.
Tazi
and
S.
Jayawickreme
,
J. Chromatogr. B
1011
,
89
93
(
2016
).
20.
O.H.
Lowry
,
N.J.
Rosebrough
,
A.L.
Farr
and
R.J.
Randall
,
J. Biol. Chem.
193
,
265
275
(
1951
).
21.
J.H.
Waterborg
,
The protein protocols handbook
,
7
10
(
2009
).
22.
R.H.
Myers
,
D.C.
Montgomery
and
C.M.
Anderson-Cook
,
Response Surface Methodology: Process and Product Optimization Using Designed Experiments
(
John Wiley & Sons
,
Hoboken, New Jersey
,
2016
), pp.
1247
.
23.
S.
Samaram
,
H.
Mirhosseini
,
C.P.
Tan
,
H.M.
Ghazali
,
S.
Bordbar
and
A.
Serjouie
,
Food Chem.
172
,
7
17
(
2015
).
24.
C.
Leonelli
,
P.
Veronesi
and
G.
Cravotto
, “Microwave-assisted extraction: An introduction to dielectric heating,” in
Microwave-assisted Extraction for Bioactive Compounds
, edited by
F.
Chemat
and
G.
Cravotto
(
Springer
,
2012
), pp.
1
14
.
25.
T.A.
Reddy
,
Applied data analysis and modeling for energy engineers and scientists
(
Springer Science & Business Media
,
2011
), pp.
430
.
26.
P.J.
Whitcomb
and
M. J.
Anderson
,
RSM simplified: optimizing processes using response surface methods for design of experiments
(
CRC press
,
2004
), pp.
286
27.
M.P.
Hojilla-Evangelista
and
R.L.
Evangelista
,
Ind. Crop. Prod.
29
,
466
472
(
2009
).
28.
B.
Lapornik
,
M.
Prošek
and
A.G.
Wondra
,
J. Food Eng.
71
,
214
222
(
2005
).
29.
A.
Brachet
,
P.
Christen
, and
J.
Veuthey
,
Phytochem. Anal. An Int. J. Plant Chem. Biochem. Tech.
13
,
162
169
(
2002
).
30.
T.
Jain
,
V.
Jain
,
R.
Pandey
,
A.
Vyas
, and
S.S.
Shukla
,
Asian J Res Chem
2
,
19
25
(
2009
).
31.
Y.
Wang
,
J.
You
,
Y.
Yu
,
C.
Qu
,
H.
Zhang
,
L.
Ding
,
H.
Zhang
and
X.
Li
,
Food Chem.
110
,
161
167
(
2008
).
32.
T.
Michel
,
E.
Destandau
and
C.
Elfakir
,
Food Chem.
126
,
1380
1386
(
2011
).
33.
C.S.
Eskilsson
,
E.
Björklund
,
L.
Mathiasson
,
L.
Karlsson
and
A.
Torstensson
,
J. Chromatogr. A
840
,
59
70
(
1999
).
34.
L.J.
Wang
,
Chapter 2 Advances in Extraction of Plant Products in Nutraceutical Processing
(
2011
).
36.
C.W.
Huie
,
Anal. Bioanal. Chem.
373
,
23
30
(
2002
).
37.
P.
Lidström
,
J.
Tierney
,
B.
Watheyb
and
J.
Westmana
,
Tetrahedron
,
57
,
9225
9283
(
2001
).
38.
S.N.
Tan
,
J.W.H.
Yong
,
C.C.
Teo
,
L.
Ge
,
Y.W.
Chan
and
C.S.
Hew
,
Talanta
83
,
891
898
(
2011
).
39.
Z.
Hu
,
M.
Cai
and
H.H.
Liang
,
Sep. Purif. Technol.
61
,
266
275
(
2008
).
40.
C.H.
Chan
,
R.
Yusoff
,
G.C.
Ngoh
and
F.W.
Kung
,
J. Chromatogr. A
1218
,
6213
25
(
2011
).
41.
V.
Mandal
,
Y.
Mohan
and
S.
Hemalatha
,
Pharmacognosy. Reviews
1
,
7
18
(
2007
).
42.
W.
Ma
,
Y.
Lu
,
X.
Dai
,
R.
Liu
,
R.
Hu
and
Y.
Pan
,
Sep. Sci. Technol.
44
,
995
1006
(
2009
).
43.
W.
Xiao
,
L.
Han
and
B.
Shi
,
Sep. Purif. Technol.
62
,
614
618
(
2008
).
44.
S.
Chemat
,
H.
Aït-Amar
,
A.
Lagha
, and
D.C.
Esveld
,
Chem. Eng. Process. Process Intensif.
44
,
1320
1326
(
2005
).
45.
M.
Khajeh
,
A.R.A.
Moghaddam
, and
E.
Sanchooli
,
Food Anal. Methods
3
,
133
137
(
2010
).
46.
J.
Li
,
Y.-G.
Zu
,
Y.-J.
Fu
,
Y.-C.
Yang
,
S.-M.
Li
,
Z.-N.
Li
, and
M.
Wink
,
Innov. Food Sci. Emerg. Technol.
11
,
637
643
(
2010
).
47.
M.
Al-Harahsheh
and
S.W.
Kingman
,
Hydrometallurgy
73
,
189
203
(
2004
).
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