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Volume 7, Issue 6 (Suppl)

J Biotechnol Biomater, an open access journal

ISSN: 2155-952X

World Biotechnology 2017

December 04-05, 2017

2

nd

World Biotechnology Congress

December 04-05, 2017 | Sao Paulo, Brazil

Un-regulatory actions of ecdB transcription factor present in echinocandin B biosynthetic gene cluster

Arvind Kumar

and

Antresh Kumar

Central University of South Bihar, India

Statement of the Problem

: Candida infection is a major threat for, immunocompromised patients, in transplantation, AIDS and

malignancy patients undergone in ICU which accounts ~40% ICUmortality. Echinocandin B (ECB), a cyclic hexa-peptide antifungal

is mainly used for the treatment of such

Candida

and

Aspergillus

infectious pathogens that refractory to Azoles and Polyenes. It

inhibits 1,3-β- glucan synthase by blocking the cell wall synthesis. The biosynthetic gene cluster of Echinocandin B of

Aspergillus

nidulans

NRRL 11440 was identified, it contains various structural genes such as NRPS, transporters, acyl-AMP ligase, various

oxygenases adjacent to a transcription factor

ecdB

. The regulatory mechanism and function of this

ecdB

transcription factor was not

so far known which has been targeted to be explored in present study.

Methodology & Theoretical Orientation

: The functional analysis of

ecdB

transcription factor was investigated by gene knockout

strategy. The ECB production and transcriptional analysis was observed by HPLC and semi-quantitative PCR respectively.

Findings:

The Echinocandin B production in

ecdB

knockout strain (Δ

ecdB

) and WT and no significant difference was found both

at production and expression level as compared to WT, while expression of

ecdB

gene is completely lost in Δ

ecdB

strain. Moreover,

growth, sporulation, spore germination rates and morphology were also found same with no difference as compared to WT.

Conclusion& Significance:

Taken together,

ecdB

present with in the gene cluster has no direct role in regulation the ECB biosynthesis,

in addition to that it also not involved in developmental and morphological process of the cell. We suggest that other regulatory

network present outside the cluster may have role in ECB biosynthesis.

Biography

Arvind Kumar has completed his MTech in Biotechnology and recently engaged in the research as PhD Fellow in Central University of South Bihar, Patna, (India). He has

expertise in elucidation of regulatory network involved in fungal secondary metabolite biosynthetic gene clusters. He also has expertise in the screening, isolation and char-

acterization of bioactive secondary metabolites from fungi as well as plants. Recently, he has started working in the field of molecular characterization and elucidation of reg-

ulatory network involved in echinocandin B production. Previously, he has identified a new plant derived insecticide for mosquito control and patented for its commercial use.

arv.mbt@gmail.com

Arvind Kumar et al., J Biotechnol Biomater 2017, 7:6 (Suppl)

DOI: 10.4172/2155-952X-C1-085