Previous Page  15 / 31 Next Page
Information
Show Menu
Previous Page 15 / 31 Next Page
Page Background

Page 51

Notes:

conferenceseries

.com

Volume 7, Issue 1 (Suppl)

J Biotechnol Biomater

ISSN: 2155-952X JBTBM, an open access journal

March 20-21, 2017 Rome, Italy

&

15

th

World Congress on

2

nd

International Conference on

Biotechnology And Biotech Industries Meet

Enzymology and Molecular Biology

Enzymology & Mol. Biology 2017

Biotechnology Congress 2017

March 20-21, 2017

Cell wall integrity checkpoint protein Rlm1p as novel transcriptional regulator of F-box encoding gene

SAF1

of

S. cerevisiae

during stress

Vijeshwar Verma, Meenu Sharma

and

Narendra K Bairwa

Sri Mata Vaishno Devi University, India

F

-box motif containing proteins are shown as the component of protein degradation machinery where they function as substrate

recruiting factor. Through substrate recruitment and subsequent degradation of recruited substrate by ubiquitin mediated

proteasome machinery they regulate variety of cellular functions such as signal transduction and cell cycle transition. The

S. cerevisiae

cells upon nutrient stress enter into the quiescence stage; at molecular level, this transition is mediated through the recruitment

of adenosine deaminase factor Aah1p by the F box motif containing protein Saf1p which constitute the SCF E3 ligase. Here, we

have investigated the regulation of the

SAF1

gene by various transcription factors during stress. For this we have analyzed the gene

expression profiling database (GEO), transcriptional regulation databases and yeast stress expression database. The gene expression

profiling database indicated that

SAF1

gene expression is up regulated during hypoxia and the drug treatment. The subsequent

analysis of transcription factors regulating the

SAF1

gene expression revealed RLM1 as novel transcription factor regulating the

SAF1

and its substrate

AAH1

gene expression during stress condition. The yeast stress expression database analysis revealed that in variety

of stress conditions (drug, pH, temperature, microbial toxin and inorganic compound) the

RLM1

and

SAF1

were constitutively over

expressed at log2 FC>1 and adjusted p-value <0.05 setting in comparison to control cells. The

RLM1

gene has been implicated in

the cell wall integrity checkpoint pathway. It has also been reported that RlmA deficient strains lacks cell wall organization and cell

growth in A. fumigatus. Based on the analysis we hypothesized that double knockout of

SAF1

and

RLM1

genes cells may be resistant

to stress condition which need to be tested experimentally.

Biography

Vijeshwar Verma has completed his PhD in IIIM (former RRL, Jammu) in 1980. Later the institute offered him the position of Scientist and thus he shifted to the

Institute in 1982. He was the pioneer member of the group which started a Genetic Engineering Unit in the institute to undertake research in the field of Recombinant

DNA in 1986. Presently, he is the Director of School of Biotechnology and Dean of College of Sciences. He is a renowned Researcher in the field of Microbial

Biotechnology and has large number of publications and patents to his name. He is a Fellow of Association of Microbiologists of India and Member of Indian

National Science Academy. He has spent a significant part of his career at Indian Institute of Integrated Medicine (formerly Regional Research Laboratory) -CSIR,

Jammu. This unit later got christened as Division of Biotechnology of which he was the Chairman at the time of taking VRS in 2007. During this period of about 25

years, he had Post-doc experience in the field of Recombinant DNA, Fermentation and General Molecular Biology in various prestigious laboratories/institutes in

Germany, England & France, where he learnt a lot about the subject.

verma211@gmail.com

Vijeshwar Verma et al., J Biotechnol Biomater 2017, 7:1(Suppl)

http://dx.doi.org/10.4172/2155-952X.C1.070