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Archives of Industrial Biotechnology | Volume 2

May 14-15, 2018 | Montreal, Canada

World Yeast Congress

conditions, and by HPLC analysis (C18 column, methanol/

aqueous acetic acid 1%, 75/25 at flow rate of 1 ml/min)

HPLC data did not indicate the appearance of side products

of degradation of phenol and its derivatives such as catechol

and 3.4-dihydroxybenzoic acid. The immobilised bacteria

can be reused several times, which opens the opportunity

for developing cost-effective processes for wastewater

treatment.

Pseudomonas mendocina, Rhodococcus koreensi

and Acinetobacter sp. we’re not effective for 2CP and 4CP

degradation (18-40% over 20-25 days), however it were

efficient for complete decomposition of phenol and cresol.

Speaker Biography

Berillo Dmitriy is the Maria Curie Research Fellow at School Pharmacy & Biomolecular

Sciences at University of Brighton (UK) (since September 2016). Dr Berillo was a visiting

PhD student and then the postdoctoral researcher at Biomaterials and Biosensors group

at Lund University (Sweden) in 2008-2009 and 2010-2014, respectively. Dr Berillo main

research interest is the preparation of 3D-scaffolds for regenerative medicine. His work

was related to cryogels preparation based on noncovalent interactions: polyelectrolyte

complex formed between chitosan-gelatin; self-assembly of Fmoc-diphenylalanine

into nanofibers under cryoconditions; scaffolds based on metal-polymer coordinated

complexes; enzymatically cross-linked casein and gelatin under cryoconditions, stimuli-

responsivecryogels,whichhavepotentialforbiomedicalapplication.DrBerillodeveloped

a synthetic nontoxic polymer for mild crosslinking of bacterial cells and a preparation of

conditions for bacteria immobilization into cryogels. The project resulted in a method of

3D-bioreactor preparation, which can be used for several biotechnological processes. He

is working under a water treatment from heavy metal ions using cryogels. Since January

2015 to September 2016, Dr Berillo hold a position of Senior researcher at Laboratory

of Biosensors and Bioinstruments at Nazarbayev University (Astana, Kazakhstan), where

he focused on electrodes modification with biorecognition elements (mAb MPT64, mAb

CEA, mAb IL6, mAB ECPKA and aptamers to MPT64). The ultimate purpose of the project

was the adaptation of various types of biosensors (SPR Biocore X100, SPR (SPIRIT),

Impedance, Quartz crystal microbalance and Capacitive Biosensors) for early diagnosis of

breast cancer and

M. tuberculesis

. He was awarded the Maria Curie Research Individual

Fellowship in 2016. The Maria Curie project is related toenviromental microbiology for

purification of water from stable organic toxic compounds (phenols, chlorophenols and

cresols) using 3D-bioreactor composed of structured alive bacterial cells.