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Journal of Clinical & Experimental Pathology | ISSN: 2161-0681 | Volume 8

December 03-04, 2018 | Chicago, USA

American Pathology and Oncology Research

&

15

th

International Congress on

Microbial Genetics and Molecular Microbiology

International Conference on

Characterization of PHA synthases of

Acinetobacter baumannii

isolate P39,

Bacillus cereus

isolate

P83 and

Azomonas macrocytogenes

isolate P173 in a comparative approach

Noha S Elsayed, Khaled M Aboshanab, Mahmoud A Yassien

and

Nadia H Hassouna

Ain Shams University, Egypt

P

HA synthase enzyme is the key limiting enzyme catalyzing polymerization of hydroxyacyl co-enzyme, a precursor derived

fromvarious metabolic pathways to produce polyhydroxyalkanoates (PHA) polymers. In the present study, characterization

of this enzyme of three bacterial isolates namely

Acinetobacter baumannii

isolate P39,

Bacillus cereus

isolate P83 and

Azomonas

macrocytogenes

isolate P173 was carried out using a 5,5-dithio-bis-2-nitrobenzoic acid assay for activity measurement. Various

heterologous primers were designed for PCR amplification of the genes coded for PHA synthases of each isolate followed by

analysis of the tertiary structure of the respective gene products using the Modular Approach to Structural class prediction

(MODAS) software, Tied Mixture Hidden Markov Model (TMHMM) server and Swiss model software. The obtained results

showed that the highest activity was for PHA synthase of

A. baumnnii

isolate P39 (600 U) and the highest specific activity

was for PHA synthase of

B. cereus

isolate P83 (1500U/mg). Moreover, the results of the gel electrophoresis, their nucleotide

sequencing, and conserved domain analysis showed that PHA synthase class III was found in

A. baumannii

isolate P39 and

A. macrocytogenes

isolate P173 while class IV was found in B. cereus isolate P83. The MODAS software deduced that the

structural class of the tested PHA synthases was multi-domain protein (α/β) while the TMHMM server predicted the absence

of transmembrane helix in the PHA synthase sequences. Swiss model software showed conserved cysteine residue and lipase

box which both characterize α/β hydrolase superfamily. Taken together, the results of the enzymological and molecular

characterization of PHA synthase enzymes of the tested isolates supported that the PHA formation was attained by the micelle

model.

Biography

Noha Elgendy, PhD, is a lecturer of Microbiology in the faculty of pharmacy at Ain Shams University where she has been a member since 2009. Her research

interests are in the area of biopolymers particularly the biodegradable Poly (3-hydroxybutyrate) (PHB). Her journey with PHB polymer started with her master’s

thesis in 2010 which focused on screening for PHB producers in agricultural fields. The journey continued in her PhD at 2014 by studying the biochemical and

genetic pathways of PHB production in the bacterial isolates

Acinetobacter baumannii

isolate P39,

Bacillus cereus

isolate P83, and

Azomonas macrocytogenes

isolate P173 and their large-scale production of PHB on 14L fermenter. From her research, she published five international publications and six nucleotide/amino

acids sequences in the NCBI GenBank database where one of them is the first of its type entitled “PHA synthase of

Azomonas macrocytogenes

isolate P173”.

She has participated at different international conferences in the past four years including ASM Boston, 2016. Besides her research skills, she has been teaching

the practical sessions of Microbiology to undergraduates in the faculty of pharmacy in Egypt and supervising the students’ projects there. She is currently living in

Chicago with her husband and daughter.

nsalah15@gmail.com

Noha S Elsayed et al., J Clin Exp Pathol 2018, Volume 8

DOI: 10.4172/2161-0681-C5-057