Volume 10 Issue 2 - page 15

© Benaki Phytopathological Institute
Endophytic fungi & secondary metabolites in medicinal plants
63
cer cells through a ROS-mediated mitochondri-
al pathway.
Chemico-biological Interactions
, 188:
151-160.
Maehara, S., Simanjuntak, P., Maetani, Y., Kitamura,
C., Ohashi, K. and Shibuya, H. 2013. Ability of en-
dophytic filamentous fungi associated with
Cin-
chona ledgeriana
to produce
Cinchona
alkaloids.
Journal of Natural Medicines
, 67: 421-423.
Maehara, S., Simanjuntak, P., Kitamura, C., Ohashi,
K. and Shibuya, H. 2011. Cinchona alkaloids are
also produced by an endophytic filamentous
fungus living in
Cinchona
plant.
Chemical and
Pharmaceutical Bulletin
, 59: 1073-1074.
Magotra, A., Kumar, M., Kushwaha, M., Awasthi, P.,
Raina, C., Gupta, A. P. Shah,B.A, Gandhi SG and
Chaubey, A. 2017. Epigenetic modifier induced
enhancement of fumiquinazoline C production
in
Aspergillus fumigatus
(GA-L7): an endophyt-
ic fungus from
Grewia asiatica
L.
AMB Express
,
7: 43.
Malik, S., Cusidó, R.M., Mirjalili, M.H., Moyano, E.,
Palazón, J. and Bonfill, M. 2011. Production of
the anticancer drug taxol in
Taxus baccata
sus-
pension cultures: A review.
Process Biochemistry
,
46: 23–34.
Manda, V.K., Avula, B., Dale, O.R., Chittiboyina, A.G.,
Khan, I.A., Walker, L.A. and Khan, S.I. 2015. Stud-
ies on pharmacokinetic drug interaction poten-
tial of vinpocetine.
Medicines,
2: 93–105.
Ming, Q., Han, T., Li, W., Zhang, Q., Zhang, H., Zheng,
C., and Qin, L. 2012. Tanshinone IIA and tanshi-
none I production by
Trichoderma atroviride
D16, an endophytic fungus in
Salvia miltiorrhi-
za
.
Phytomedicine
, 19: 330-333.
Mir, R.A., Kaushik, S.P., Chowdery, R.A, and Anurad-
ha, M. 2015. Elicitation of Forskolin in Cultures of
Rhizactonia bataticola
– A Phytochemical Syn-
thesizing Endophytic Fungi.
International Jour-
nal of Pharmacy and Pharmaceutical Sciences
, 7:
10.
Mousa, W.K., Shearer, C., Limay-Rios, V., Ettinger,
C.L., Eisen, J.A. and Raizada, M.N. 2016. Root-
hair endophyte stacking in finger millet creates
a physicochemical barrier to trap the fungal
pathogen
Fusarium graminearum
.
Nature Micro-
biology
, 1: 16167.
Na, R., Jiajia, L., Dongliang, Y., Yingzi, P., Juan, H.,
Xiong, L., Nana, Z., Jing, Z. and Yitian, L. 2016.
Indentification of vincamine indole alkaloids
producing endophytic fungi isolated from
Ne-
rium indicum
, Apocynaceae.
Microbiological Re-
search
, 192: 114-121.
Pan, F., Hou, K., Gao, F., Hu, B., Chen, Q., and Wu, W.
2014. Peimisine and peiminine production by
endophytic fungus
Fusarium
sp. isolated from
Fritillaria unibracteata
var.
wabensis
.
Phytomed-
icine
, 21: 1104-1109.
Pan, F., Su, X., Hu, B., Yang, N., Chen, Q. and Wu, W.
2015.
Fusarium redolens
6WBY3, an endophytic
fungus isolated from
Fritillaria unibracteata
var.
wabuensis
, produces peimisine and imperialine-
3β-d-glucoside.
Fitoterapia
, 103: 213-221.
Pan, F., Su, T.J., Cai, S.M. and Wu, W. 2017. Fungal
endophyte-derived
Fritillaria unibracteata
var.
wabuensis
: diversity, antioxidant capacities in
vitro and relations to phenolic, flavonoid or sa-
ponin compounds.
Scientific Reports
,
7
.
Pan, S.Y., Zhou, S.F., Gao, S.H., Yu, Z.L., Zhang, S.F.,
Tang, M.K., Sun, J.N., Ma, D.L., Han, Y.F., Fong,
W.F. and Ko, K.M. 2013. New Perspectives on
How to Discover Drugs from Herbal Medicines:
CAM’s Outstanding Contribution to Modern
Therapeutics.
Evidence-based complementary
and alternative medicine: eCAM
, 2: 627375.
Panaccione, D.G., Beaulieu, W.T. and Cook, D. 2014.
Bioactive alkaloids in vertically transmitted fun-
gal endophytes.
Functional Ecology
, 28: 299-
314.
Palem, P.P., Kuriakose, G.C. and Jayabaskaran, C.
2015. An endophytic fungus,
Talaromyces radi-
cus
, isolated from
Catharanthus roseus
, produc-
es vincristine and vinblastine, which induce
apoptotic cell death.
PloS one
, 10: e0144476
Pateraki, I., Andersen-Ranberg, J., Jensen, N.B., Wub-
shet, S.G., Heskes, A.M., Forman, V., Hallstrom, B,
Hamberger, B, Motawia, M.S., Olsen, C.E., Staerk,
D., Hansen, J., Møller, B.L. and Staerk, D. 2017. To-
tal biosynthesis of the cyclic AMP booster for-
skolin from
Coleus forskohlii
.
Elife
, 6: e23001.
Pateraki, I., Andersen-Ranberg, J., Hamberger, B.,
Heskes, A.M., Martens, H.J., Zerbe, P., Bach, S.S.,
Mølle,r B.L., Bohlmann, J. and Hamberger, B.
2014. Manoyl oxide (13R), the biosynthetic pre-
cursor of forskolin, is synthesized in specialized
root cork cells in
Coleus forskohlii
.
Plant Physiolo-
gy
, 164: 1222–1236.
Pérez-Alonso, N., Wilken, D., Gerth, A., Jähn, A., Nitz-
sche, H.M., Kerns, G. and Jiménez, E. 2009. Car-
diotonic glycosides from biomass of
Digitalis
purpurea
L. cultured in temporary immersion
systems.
Plant Cell, Tissue and Organ Culture
, 99:
151-156.
Petrini, O. and Fisher, P. 1990. Occurrence of fungal
endophytes in twigs of
Salix fragilis
and
Quercus
robur
.
Mycological Research,
94: 1077–80.
Piao, X.L., Jang, M.H., Cui, J. and Piao, X.S. 2008. Lig-
nans from the fruits of
Forsythia suspensa
.
Bioor-
ganic Medical Chemistry Letters
, 18: 1980–1984.
Pu, X., Qu, X., Chen, F., Bao, J., Zhang, G. and Luo,
Y. 2013. Camptothecin-producing endophytic
fungus
Trichoderma atroviride
LY357: isolation,
identification, and fermentation conditions op-
timization for camptothecin production.
Ap-
plied Microbiology and Biotechnology
, 97: 9365-
9375.
Qian, Y.X., Kang, J.C., Luo, Y.K., Zhao, J.J., He, J. and
Geng, K. 2016. A Bilobalide-Producing Endo-
phytic Fungus,
Pestalotiopsis uvicola
.
Current Mi-
1...,5,6,7,8,9,10,11,12,13,14 16,17,18,19,20,21,22,23,24,25,...48
Powered by FlippingBook