Biomedical Engineering Reference
In-Depth Information
Cooney, J.M., D.R. Lauren, D.J. Jensen and L.J. Perry-Meyer. 1997. Effect of solid
substrate, liquid supplement and harvest time on 6-n-Pentyl-2H-pyran-2-
one (6PAP) production by
Trichoderma
spp.
J. Agric. Food Chem
.
45:
531-534.
Dean, J.F.D. and J.D. Anderson. 1991. Ethylene Biosynthesis-Inducing Xylanase
II. Purifi cation and Physical Characterization of the Enzyme Produced by
Trichoderma viride.
Plant Physiol
.
95:
316-323.
Delgado-Jarana, J., S. Sousa, F. Gonzalez, M. Rey and A. Llobell. 2006. ThHog1
controls the hyperosmotic stress response in
Trichoderma harzianum
.
Microbiology
.
152:
1687-1700.
Deng, S., M. Lorito, M. Penttilä and G.E. Harman. 2007. Overexpression of
an endochitinase gene (ThEn-42) in
Trichoderma
atroviride
for increased
production of antifungal enzymes and enhanced antagonist action against
pathogenic fungi.
Appl. Biochem. Biotechnol
.
142:
81-94.
Distefano, G., S. La Malfa, A. Vitale, M. Lorito, Z. Deng and A. Gentile. 2008.
Defence-related gene expression in transgenic lemon plants producing an
antimicrobial
Trichoderma
harzianum
endochitinase during fungal infection.
Transgenic Res
.
17:
873-879.
Dixit P., P.K. Mukherjee, V. Ramachandran and S. Eapen. 2011a. Glutathione
transferase from
Trichoderma
virens
enhances cadmium tolerance without
enhancing its accumulation in transgenic
Nicotiana tabacum
.
PLoS One.
6:
e16360.
Dixit, P., P.K. Mukherjee, P.D. Sherkhane, S.P. Kale and S. Eapen. 2011.
Enhanced tolerance and remediation of anthracene by transgenic tobacco
plants expressing a fungal glutathione transferase gene.
J. Haz. Materials
(doi:10.1016/j.jhazmat. 2011.05.018).
Djonivic, S., M.J. Pozo, L.J. Dangott, C.R. Howell and C.M. Kenerley. 2006a. Sm1,
a proteinaceous elicitor secreted by the biocontrol fungus
Trichoderma
virens
induces plant defense responses and systemic resistance.
Mol. Plant Microbe
Interact
.
19:
838-853.
Djonivic, S., M.J. Pozo and C.M. Kenerley. 2006b. Tvbgn3, a beta-1,6-glucanase
from the biocontrol fungus
Trichoderma
virens
, is involved in mycoparasitism
and control of
Pythium ultimum
.
Appl. Environ. Microbiol
.
72:
7661-7670.
Djonivic, S., W.A. Vargas, M.V. Kolomiets, M. Horndeski, A. Wiest and C.M.
Kenerley. 2007a.A proteinaceous elicitor Sm1 from the benefi cial fungus
Trichoderma
virens
is required for induced systemic resistance in maize.
Plant
Physiol
.
145:
875-889.
Djonivic, S., G. Vittone, A. Mendoza-Herrera and C.M. Kenerley. 2007b. Enhanced
biocontrol activity of
Trichoderma
virens
transformants constitutively
coexpressing beta-1,3- and beta-1,6-glucanase genes.
Mol. Plant Pathol
.
8:
469-480.
Emani, C., J.M. Garcia, E. Lopata-Finch, M.J. Pozo, P. Uribe, D.J. Kim, G.
Sunilkumar, D.R. Cook, C.M. Kenerley and K.S. Rathore. 2003. Enhanced
fungal resistance in transgenic cotton expressing an endochitinase gene from
Trichoderma
virens
.
Plant Biotechnol. J
.
1:
321-336.
Enkerli, J., G. Felix and T. Boller. 1999. The enzymatic activity of fungal xylanase
is not necessary for its elicitor activity.
Plant Physiol
.
121:
391-397.
