1.
Pathogenesis-related proteins and peptides as promising tools for engineering plants with multiple stress tolerance
by Ali, Sajad
Microbiological research, 2018-07, Vol.212-213, p.29-37
2.
Peptide-based cancer therapy: Opportunity and challenge
by Wu, Dongdong
Cancer letters, 2014, Vol.351 (1), p.13-22
3.
Peanut protein in household dust is related to household peanut consumption and is biologically active
by Brough, Helen A., MRCPCH, MSc
Journal of allergy and clinical immunology, 2013, Vol.132 (3), p.630-638
4.
Lunasin peptide purified from Solanum nigrum L. protects DNA from oxidative damage by suppressing the generation of hydroxyl radical via blocking fenton reaction
by Jeong, Jin Boo
Cancer letters, 2009, Vol.293 (1), p.58-64
6.
Combinations of phytomedicines with different lipid lowering activity for dyslipidemia management: The available clinical data
by Cicero, Arrigo F.G
Phytomedicine (Stuttgart), 2016-10-15, Vol.23 (11), p.1113-1118
7.
Different dehydrins perform separate functions in Physcomitrella patens
by Agarwal, Tanushree
Planta, 2016-09-16, Vol.245 (1), p.101-118
8.
Expression and functional characterization of two pathogenesis-related protein 10 genes from Zea mays
by Xie, Yu-Rong
Journal of plant physiology, 2010, Vol.167 (2), p.121-130
9.
Engineering and expression of a RhoA peptide against respiratory syncytial virus infection in plants
by Ortega-Berlanga, Benita
Planta, 2015-10-16, Vol.243 (2), p.451-458
10.
Synthesis and Characterization of Novel Chickpea Protein Hydrolysate-Vanadium Complexes Having Cell Inhibitory Effects on Lung Cancer A549 Cells Lines
by Mukhamedov, Nurkhodja
The Protein Journal, 2021-05-16, Vol.40 (5), p.721-730
11.
Clinical relevance of the Hevea brasiliensis lipid transfer protein Hev b 12
by Faber, Margaretha A., MD
Journal of allergy and clinical immunology, 2014, Vol.135 (6), p.1645-1648.e1
12.
Proteomic analysis and purification of an unusual germin-like protein with proteolytic activity in the latex of Thevetia peruviana
by de Freitas, Cleverson D. T
Planta, 2016-01-21, Vol.243 (5), p.1115-1128
13.
Biological activities of the antiviral protein BE27 from sugar beet (Beta vulgaris L.)
by Iglesias, Rosario
Planta, 2015-02-01, Vol.241 (2), p.421-433
14.
Proteomic identification and purification of seed proteins from native Amazonian species displaying antifungal activity
by Ramos, Márcio V
Planta, 2018-04-19, Vol.248 (1), p.197-209
15.
Potential antitumor properties of a protein isolate obtained from the seeds of Amaranthus mantegazzianus
by Barrio, Daniel Alejandro
European journal of nutrition, 2009-08-22, Vol.49 (2), p.73-82
16.
Latex protein extracts from Calotropis procera with immunomodulatory properties protect against experimental infections with Listeria monocytogenes
by Nascimento, Danielle Cristina de Oliveira
Phytomedicine (Stuttgart), 2016-06-15, Vol.23 (7), p.745-753
17.
A protein with antiproliferative, antifungal and HIV-1 reverse transcriptase inhibitory activities from caper ( Capparis spinosa) seeds
by Lam, Sze-Kwan
Phytomedicine (Stuttgart), 2009, Vol.16 (5), p.444-450
18.
The major peanut allergen, Ara h 2, functions as a trypsin inhibitor, and roasting enhances this function
by Maleki, Soheila J
Journal of allergy and clinical immunology, 2003-07, Vol.112 (1), p.190-195
19.
A pathogenesis related protein, AhPR10 from peanut: an insight of its mode of antifungal activity
by CHADHA, Pooja
Planta, 2006-12-01, Vol.225 (1), p.213-222
20.
Crystal structure of tarocystatin-papain complex: implications for the inhibition property of group-2 phytocystatins
by Chu, Ming-Hung
Planta, 2011-08-01, Vol.234 (2), p.243-254
