A comprehensive reference on the chemistry/biochemistry of one of the most important microbial agents, trichoderma, and its use in an increased number of industrial bioprocesses for the synthesis of many biochemicals such as pharmaceuticals and biofuels.
1. Applications of Trichoderma in biofuel industry: An overview 2. Cellulase systems in Trichoderma: An overview 3. Industrial use and improvement of Trichoderma cellulases in the 21st century 4. Development of Trichoderma enzyme systems for saccharification of lignocellulosic feedstock 5. Beta-glucosidase from Trichoderma to improve the activity of enzymatic cocktails 6. Genetic engineering/ Molecular mechanism of cellulase production systems in Trichoderma/ Molecular mechanism of cellulase production systems in Trichoderma 7. Applications of RNA interference for enhanced cellulase production in Trichoderma. 8. Biosynthesis of silver nano-particles by Trichoderma spp./ Trichoderma silver nano-particles in medical applications 9. Trichoderma enzymes for food industries 10. Trichoderma: A dual function fungi and their use in the wine and beer industries 11. Trichoderma enzymes for fabric/textile industries 12. Role of Trichoderma species in bioremediation process: Biosorption studies on hexavalent chromium 13. Molecular evolution of Trichoderma chitinases/ Chitinase genes from native isolates of Trichoderma spp 14. Molecular mechanisms and applications of biocontrol in agriculture 15. Applications of Trichoderma in plant growth promotion 16. Enhanced resistance of plants to abiotic stresses with the use of Trichoderma 17. Enhanced Resistance of Plants to Diseases using Trichoderma spp 18. Genes from Trichoderma as a source for improving plant resistance to fungal pathogen 19. Genome-wide approaches towards understanding mycotrophic Trichoderma species 20. Advances in formulation of Trichoderma for biocontrol 21. Trichoderma: A silent worker of plant rhizosphere 22. Signal transduction in mycoparasitic Trichoderma: Involvement of signaling cascades in regulating the mycoparasitic host attack and plant interaction 23. Enhanced plant immunity using Trichoderma 24. Secondary metabolism of Trichoderma/Antimicrobial metabolites of Trichoderma 25. Metabolic diversity of Trichoderma 26. Recent advancements on the role and analysis of volatile compounds (VOCs) from Trichoderma 27. Heterologous expression of proteins in Trichoderma 28. Regulation of protein secretion in Trichoderma 29. Trichoderma reesei secretome: An overview 30. Trichoderma protein with disruption activity on cellulosic substrates 31. Sequence analysis of industrially important genes from Trichoderma species 32. Tools for strain improvement of Trichoderma spp 33. Transcriptional regulation of glycoside hydrolases in Trichoderma 34. Multilocus phylogenetic structure within the Trichoderma - recent updates/ Molecular taxonomy of Trichoderma: Current advancements/Species diversity of Trichoderma 35. Ecophysiology of Trichoderma in genomic perspective (Continued)
Dr Vijai G. Gupta is an Assistant Professor of Biotechnology at
MITS University of India. Currently he is working as Research
Scientist at National University of Ireland in Galway. Dr. Gupta’s
present work is focused on the development and optimization of
novel Enzyme-based bioconversion systems for biorefining and
bioenergy. He has been honored with several awards, including the
prestigious Indian ICAR Senior Research Fellowship and Indian Young
Scientist Award. He has submitted 33 new fungal nucleotide
sequences and deposited 147 fungal strains in International
databases. His work with Fusarium spp., Colletotrichum
gloeosporioides, Penicillium spp. and Trichoderma spp. is augmented
by contributions to biotechnological development, molecular
diversity, secondary metabolites and industrial applications
Dr. Gupta is the editor-in-chief of the International Journal of
Plant Pathology and a regional editorial board member of 8 other
respected journals. He is the author of 40 journal articles and 27
book chapters. Gupta has also written and edited books and series
from reputed publishers, including CRC Press, Taylor and Francis,
USA; Springer, USA; Elsevier, USA; Nova Science Publisher, USA and
LAP Lambert Academic Publishing, Germany. Dr. Monika Schmoll
received her degree (1999) and Ph. D. (2003) on regulation of
cellulase expression and signal transduction in the filamentous
fungus Hypocrea jecorina (Trichoderma reesei) at the Vienna
University of Technology. Besides gaining postdoctoral experience
and building her own group at the Vienna University of Technology,
she has been a visiting scientist in the laboratory of Professor N.
Louise Glass (Department of Plant and Microbial Biology, University
of California, Berkeley, USA), the University of Rome La Sapienza
and the University of Szeged, Hungary. She is author of 33
publications and 2 book chapters. Currently, Dr. Schmoll is group
leader in the Research Area Molecular Biotechnology at the Vienna
University of Technology. The primary research field of Dr. Schmoll
is the interconnection between light response, sexual development
and cellulase gene expression in Trichoderma reesei. She showed for
the first time that cellulase gene expression is modulated by light
in T. reesei and could since then elucidate important mechanistic
details on the underlying mechanism. Her group discovered the
sexual cycle in the biotechnological workhorse Trichoderma, which
had previously considered asexual. This work was published in PNAS
in 2009 and since then investigation of this phenomenon and its
peculiarities in Trichoderma has become an additional focus. Her
work with Trichoderma is complemented by contributions to genome
annotation of several fungi (Trichoderma spp., Aspergillus
nidulans, Postia placenta, Ceriporiopsis subvermispora), especially
in the field of signal transduction. Prof. Alfredo Herrera-Estrella
grew up in Mexico City and graduated from the National School of
Biological Sciences in 1985. He did his graduate research
(1986-1990) with Prof. Marc Van Montagu at the State University of
Ghent, Belgium, studying the T-DNA transfer process from
Agrobacterium tumefaciens to plants. He described for the first
time Agrobacterium virulence proteins capable of carrying the T-DNA
into the plant cell nucleus, and began to study the mycoparasitic
process of the biocontrol agent Trichoderma atroviride. Dr.
Herrera-Estrella pioneered the development of molecular tools for
the study of a biocontrol agent with the establishment of
transformation systems, and cloning of the first mycoparasitism
related genes. Such developments opened possibilities for strain
improvement. He continued those studies while at the Genetic
Engineering Department of the Irapuato Unit of Cinvestav
(1991-2004), and began studies towards the elucidation of the
mechanisms involved in light perception in Trichoderma. In 2000, he
was awarded the prize of the Mexican Academy of Sciences. By 2004,
he got involved in the establishment of the National Laboratory of
Genomics for Biodiversity. Since then he and his group have been
involved in Functional Genomics Projects, including the elucidation
of the complete maize genome, and the development of advanced
techniques to study gene expression by deep sequencing. Dr.
Herrera-Estrella has continuing efforts in the elucidation of
signaling cascades triggering asexual development in fungi. In
particular his group has been using functional genomics approaches
for this purpose, and recently has been involved in the study of
the role of reactive oxygen species as signal molecules in injury
responses in fungi. Professor R. S. Upadhyay (b. November 15, 1955)
received his M. Sc. (1976) and Ph. D. (1980) degrees from Banaras
Hindu University (BHU), Varanasi, India. Since then he has been
actively engaged in research. His main focus on research has been
on biological control of plant pathogens, programmed plant cell
death in response to pathogens, bioremediation of toxic effluents,
induced resistance in plants and their immunization, plant growth
promoting microbes, chitinase production from actinomycetes,
mycorrhizal technology for reclamation of wastelands, role
rhizobacteria in detoxifying phytotoxic effects, development of
molecular markers in tracking microbes in environment, effect of
biotic and abiotic factors on plants, and molecular basis of
plant-microbe interaction specially for Trichoderma spp. & Fusarium
spp. His work has been well cited internationally. He has been
working at Banaras Hindu University in various positions such as
Lecturer, (1984-88), Senior Lecturer, (1988-1991), UGC Research
Scientist-B, BHU (1988-1991 on lien from BHU), Reader, Banaras
Hindu University (1991-1999, appointed in absentia), Professor,
(1999 till date), Student Advisor, Faculty of Science, BHU
(2010-11), Coordinator, Environmental Science, BHU (2011 till date)
and Dy. Coordinator, Centre of Advanced Study in Botany, BHU (2011,
for five years). He has been recipient of six prestigious national
fellowships of the Government of India. He is recipient of five
national awards in the area of science, two conferred by the Prime
Minister of India. In addition he worked in prestigious foreign
laboratories as visiting Scientist of The Royal Society, London
(1988-89), Research Associate of NIH, U.S.A. (1990-91), and INSA-
JSPS Fellowship, Japan (1994-95). He has also visited many other
courtiers to participate in International conferences or for
delivering invited lectures. Dr. Irina Druzhinina studied biology
at the Lomonosov’s State University in Moscow, Russia, and at the
University of Vienna, where she graduated (PhD) in 2001. Thereafter
she became a University Assistant in the research area of C.P.
Kubicek at Vienna University of Technology, and habilitated in 2011
in “Microbiology. She is now leader of the working group
“Microbiology at the same institute.The scientific work of Irina
Druzhinina started with a focus on mycology and molecular
evolution, working on species diversity and population
differentiation in Trichoderma, where she established an online
tool for species identification based on DNA barcodes that is today
one of the main resources for this purpose for researchers
worldwide. In addition, she worked on such diverse topics as
phenotype profiling of industrial fungi, peptaibol biosynthesis in
Trichoderma, biodiesel production by marine algae, Trichoderma
endophytes, biofungicide development and molecular ecology of
Trichoderma. In the last years, her interest expanded to ecological
genomics, i.e. the use of genome wide information to study the
evolutionary adaptation of Trichoderma in its habitats. She acts as
a member of the editorial board for Applied and Environmental
Microbiology, and is the chair of the International Subcommission
on Taxonomy of Trichoderma and Hypocrea, a member of ICTF/IUMS. She
published > 60 papers in peer reviewed international journals
and edited a book Dr. Maria G. Tuohy is the Head of the Molecular
Glycobiotechnology Research Group, Department of Biochemistry,
School of Natural Sciences, NUI Galway which has developed a strong
track record in Glycobiotechnology and Enzyme Biotechnology. She
has more than 20 years experience in the molecular biochemistry,
genetics and biotechnology of fungi, with a special interest in
thermophilic ascomycetes and the characterization of these fungi as
cell factories for protein production, including novel thermostable
enzymes/enzyme systems. Dr. Tuohy and her group have developed
patented enzyme-based technologies for key bioenergy and
biorefinery applications from terrestrial and marine biomass and
wastes, including 3rd generation feedstocks. The group also
investigates the use of enzymes for the recovery and selective
modification of high-value biochemicals and plant
carbohydrate-derived bioactives (‘Glycobioengineering’). Dr. Tuohy
is a PI in the Energy Research Centre, NUI, Galway and the recently
funded national Bioenergy and Biorefinery Competence Centre, is a
member of the EU FP7 Biofuels Platform and a national research
PhytoNetwork. Dr. Tuohy has been a visiting researcher in RUGhent,
Belgium and BSH Institut fur Holzchemie, Hamburg. Dr. Tuohy is
author of ~132 research publications, including refereed
publications, book chapters, conference papers poster/short
communications. She is also a reviewer for international journals
and funding agencies and several books as co-editor- Springer
Science Publisher, USA; CRC Press, Taylor and Francis, USA;
Germany; Nova Science Publisher, USA and Elsevier Press, USA (under
Progress) with Dr. V. K. Gupta
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