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Previous Speakers

Enrica Pessione

Enrica Pessione

University of Torino Italy

Guido Krupp

Guido Krupp

AmpTec GmbH Germany

Jean A Boutin

Jean A Boutin

Institut de recherches SERVIER France

Michael Jensen

Michael Jensen

Seattle Children’s Research Institute USA

Emi Hifumi

Emi Hifumi

Oita University Japan

Roberto Mazzoli

Roberto Mazzoli

University of Torino Italy

Anthony C Forster

Anthony C Forster

Uppsala University Sweden

Mohit Kapoor

Mohit Kapoor

University Health Network Canada

Synthetic Biology Congress

About Conference

ConferenceSeries Ltd International Conferences invites all the participants from all over the world to attend "4th International Conference on “Synthetic Biology and  Metabolic Engineering " during Nov16th - 17th, 2017 at Singapore City, Singapore which includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions.
Synthetic Biology and  Metabolic Engineering is a relatively new field in biomedical research. It focuses on engineering new or modified signalling proteins to create desired signalling pathways in the cell. Every living cell is an extremely complex machine expressing thousands of different proteins. Due to superb regulation, many cells, such as photoreceptors and other neurons in vertebrates, can live for decades. Cells can also self-reproduce by division, where both daughter cells are perfectly viable. Natural selection (the “blind watchmaker”, to use Dawkins’ expression) spent hundreds of millions of year to achieve this perfection. Due to elucidation of the intricacies of cellular regulatory mechanisms we can now play evolution on our time scale: re-design proteins and signaling pathways to achieve our ends.
Synthetic Biology and Metabolic Engineering is a novel field that finds its origin at the intersection of biology and engineering. It involves designing and construction of biological systems or devices that can be applied in varied domains to get specified results. It’s a multidisciplinary effort made by scientists to understand the functioning of biological organisms, cells & genes and implementation of artificial genetic processes to give specific characteristics to an organism. It can even be used to develop a completely new biological system. Global systems and synthetic Biology market was valued at $3.0 billion in 2013 and it is estimated to reach $38.7 billion by 2020, growing at a CAGR of 44.2% during the forecast period
 
Objective
Synthetic Biology and Metabolic Engineering  has the goal to fulfill the prevailing gaps in the transformation of this science of hope, to serve promptly with solutions to all in the need. International Conference on Synthetic Biology and Metabolic Engineering 2017 will have an anticipated participation of 150+ delegates across the world to discuss the conference goal.
 
About Organizers
ConferenceSeries Ltd International is one of the leading Open Access publishers and organizers of international scientific conferences and events every year across USA, Europe & Asia  ConferenceSeries Ltd  has so far organized 300+ International Conferences across the World with 500+ peer-reviewed open access journals in basic science, health, and technology. ConferenceSeries Ltd International is also in association with more than 1000 International scientific and technological societies and associations and a team of 30,000 eminent scholars, reputed scientists as editorial board members.
 
Scientific Sessions
Synthetic Biology and Metabolic Engineering will encompass recent researches and findings in engineering new or modified signaling proteins to create desired signaling pathways in the cell. Due to superb regulation, many cells, such as photoreceptors and other neurons in vertebrates, can live for decades. Cells can also self-reproduce by division, where both daughter cells are perfectly viable. Natural selection (the “blind watchmaker”, to use Dawkins’ expression) spent hundreds of millions of year to achieve this perfection. Due to elucidation of the intricacies of cellular regulatory mechanisms we can now play evolution on our time scale: re-design proteins and signaling pathways to achieve our ends.
Synthetic Biology and Metabolic Engineering  will be a great platform for research scientists and young researchers to share their current findings in this field of applied science. The major scientific sessions in Synthetic Biology and Metabolic Engineering  -2017 will focus on the latest and exciting innovations in prominent areas of Systems biology and Synthetic biology research.

Sessions/Tracks

The 4th International Conference on Synthetic Biology and Metabolic Engineering  which is going to be held during November 16-17, 2017 at Singapore will bring together world-class personalities working on stem cells, tissue engineering and regenerative medicine to discuss materials-related strategies for disease remediation and tissue repair.
 
System biology is the computational and mathematical modelling of complex biological systems. Systems biology is concerned with the study of biological functions and mechanisms, underpinning inter- and intra-cellular dynamical networks, by means of signal- and system-oriented approaches. Systems Biology has the ability to obtain, integrate and analyse complex data sets from multiple experimental sources using interdisciplinary tools. Systems biology studies exclusively on modelling and discover emergent properties of cells, tissues and organisms that are functioning as a system whose theoretical description is only possible using techniques. These typically involve metabolic networks or cell signalling networks.
 
Related Conferences:
 
Genomic Engineering, also called genetic modification, is the direct manipulation of an organism's genome using biotechnology. It is a set of technologies used to change the gene cloning of cells, including the transfer of genes within and across species boundaries to produce improved or novel organisms.  Genes may be removed, or "knocked out", using a nuclease.
Methods in genome engineering are: Insertion involves introducing a gene into a chromosome to obtain a new function. Inactivation, or “knock-out”, is to shed light on the function of a gene by observing the anomalies that occur as a result of its inactivation. Correction aims to remove and replace a defective gene sequence with a functional sequence.
 
Relevant Conferences:
 
Artificial DNA synthesis, sometimes known as DNA printing is a method in synthetic biology that is used to create artificial genes in the laboratory. Currently based on solid-phase DNA synthesis, it differs from molecular cloning and polymerase chain reaction (PCR) in that the user does not have to begin with pre-existing DNA sequences. Therefore, it is possible to make a completely synthetic double-stranded DNA molecule with no limits on either nucleotide sequence or size. The method has been used to generate functional bacterial or yeast chromosomes containing approximately one million base pairs. Recent research also suggests the possibility of creating novel nucleo base pairs in addition to the two base pairs in nature, which could greatly expand the genetic code
Relevant Conferences:
6th International Conference on Tissue Engineering & Regenerative Medicine, Baltimore, USA, Aug 20-22, 2017; 8th World Congress and Expo on Cell & Stem Cell Research, Orlando, USA, March 20-22, 2017; 19th International Conference on Synthetic Biology: Engineering, Evolution and Design June 25-26 2017 Paris France, 2nd International Conference on Genetic Counselling and Genomic Medicine , Beijing, China, July 10-12, 2017; 7th International Conference on Bioengineering and Nanotechnology  March 19-22, 2017 The Renaissance Hotel, Chicago, IL, Biotechnology and Biological Sciences Research Council, Research Councils UK,  Engineering Biology Research Consortium, Emergent Behaviors of Integrated Cellular Systems, California Life Sciences Association, Edinburg University Students Association
 
Scientists tend to engineer human cells to remember past events and perform specific functions as a result. These systems are both transcriptional and post-transcriptionally driven. This includes cells that respond to drugs, disease states and the environment. We also develop novel ways to target cells with potentially therapeutic proteins with an emphasis on cells of the immune system and cancer. We develop computer simulations to model these systems.
Relevant Conferences:
 
 
Plant synthetic biology is an emerging field that combines engineering principles with plant biology toward the design cycle and production of new devices. This emerging field should play an important role in future agriculture for traditional crop improvement, but also in enabling tools for novel bio production in plants.. Some pioneering examples are offered as a demonstration of how synthetic biology can be used to modify plants for specific purposes. These include synthetic sensors, synthetic metabolic pathways, and synthetic genomes. We also speculate about the future of synthetic biology of plants.
Relevant Conferences:
 
Molecular Programming is a branch of computing which uses DNA, biochemistry, and molecular biology hardware, instead of the traditional silicon-based computer technologies. Research and development in this area concerns theory, experiments, and applications of DNA computing. The term "molectronics" has sometimes been used, but this term had already been used for an earlier technology, a then-unsuccessful rival of the first integrated circuits; this term has also been used more generally, for molecular-scale electronic technology. There are multiple methods for building a computing device based on DNA, each with its own advantages and disadvantages. Most of these build the basic logic gates (AND, OR, NOT) associated with digital logic from a DNA basis. Some of the different bases include
 
Relevant Conferences:
 
Microfluidics is an analytical system enabling the processing and manipulation of small amounts of fluids. Microfluidic technology has been a significant attraction for biochemists, biologist, analytical chemists, and others as it has demonstrated a capability to reduce cost and labor and also enhance resolution and precision. A single chip enables high-throughput continuous and batch processing of multiple samples both in series and in parallel. Therefore, it is believed that microfluidics can provide unprecedented approaches for synthetic biology. The advantages offered by miniaturization could be exploited to study the complexity associated with biological systems. Microfluidic tools are especially useful in biological studies for analyzing a large number of samples simultaneously and providing dynamic and controlled micro-environmental conditions.
Relevant Conferences:
 
Metabolic Engineering
Metabolic engineering is the use of genetic engineering to modify the metabolism of an organism. It can involve the optimization of existing biochemical pathways or the introduction of pathway components, most commonly in bacteria, yeast or plants, with the goal of high-yield production of specific metabolites for medicine or biotechnology. The ultimate goal of metabolic engineering is to be able to use these organisms to produce valuable substances on an industrial scale in  a cost effective manner. Current examples  include producing beer, wine, cheese, pharmaceuticals, and other biotechnology products. Some of the common strategies used for metabolic engineering are (1) overexpressing the gene encoding the rate-limiting enzyme of the biosynthetic pathway, (2) blocking the competing metabolic pathways, (3) heterologous gene expression, and (4) enzyme engineering.
Relevant Conferences:
 
Protein engineering is the process of developing useful or valuable proteins. There are two general strategies for protein engineering: rational protein design and directed evolution. These methods are not mutually exclusive; researchers will often apply both. In the future, more detailed knowledge of protein structure and function, and advances in high-throughput screening, may greatly expand the abilities of protein engineering. Eventually, even unnatural amino acids may be included, via newer methods, such as expanded genetic code, that allow encoding novel amino acids in genetic code.
Relevant Conferences
 
Synthetic biology (SB) is an emerging discipline, which is slowly reorienting the field of drug discovery. It  focuses on re-engineering bacteria and yeast for use as microscopic drug factories, and in the manipulation of mammalian gene expression. Synthetic biology designs biological devices (synthetic cells or cell-free system) to trigger a biological response with respect to input controlled signal. In Drug Discovery, such devices would be used to activate gene expression of biosynthetic units to explore  natural products -like chemical space. Genome editing tools give the possibility of following through reporter genes the action of a particular output signal, which is very useful to validate drug target or disease models as well as merging constraints from both Drug Discovery and drug production.
Relevant Conferences  :
7th Annual Conference on Stem Cell and Regenerative Medicine, Paris, France, Aug 04-05, 2016;  2ndBiotechnology World Convention, LONDON, UK, May 25-27, 2017; 2016 Synthetic Biology: Engineering, Evolution & Design (SEED)July 18-21, 2016 Hilton Chicago, Chicago, IL; 9th International Conference on Cancer Genomics, Chicago, USA, May 29-31, 2017;  3rd International Conference on Synthetic Biology ,Munich, Germany, July 20-21, 2017. 15th World Congress on Biotechnology and Biotech Industries Meet ,Rome, Italy, March 20-21, 2017;  6th International Conference on Tissue Engineering & Regenerative Medicine, Baltimore, USA, Aug 20-22, 2017; 8th World Congress and Expo on Cell & Stem Cell Research, Orlando , USA, March 20-22, 2017;  14th Asia-Pacific Biotech Congress, Beijing, China, April 10-12, 2017; Gordon Research Conference June 28 - July 3, 2015 Grand Summit Hotel at Sunday River Newry, ME. 5th International Conference and Exhibition on Cell and Gene Therapy, MadridSpain, Mar 2-3, 2017; International Conference on Cell Signalling and Cancer Therapy, Paris, France, Aug 20-22, 2017; 7th International Conference on Bioengineering and Nanotechnology March 19-22, 2017 The Renaissance Hotel, Chicago, IL; International Conference on Animal and Human Cell Culture, Jackson Ville, USA, Sep 25-27, 2017.California Life Sciences Association (CLSA), AZBio (Arizona Bioindustry Association), Northwest Association for Biomedical Research (NWABR), Colorado BioScience Association, The Bioscience Association of Maine (BAM)
 
Massive parallel sequencing or massively parallel sequencing is any of several high-throughput approaches to DNA sequencing using the concept of massively parallel processing; it is also called next-generation sequencing (NGS) or second-generation sequencing. Through NGS an entire human genome can be sequenced within a single day. In contrast, the previous Sanger sequencing technology, used to decipher the human genome, required over a decade to deliver the final draft. Although in genome research NGS has mostly superseded conventional Sanger sequencing, it has not yet translated into routine clinical practice. The aim of this article is to review the potential applications of NGS in paediatrics .Innovative NGS sample preparation and data analysis options enable a broad range of applications.
Relevant Conferences:
 
computational model is a mathematical model in computational science that requires extensive computational resources to study the behaviour of a complex system by computer simulation. This also includes combination of mathematical model along with computational biology. A key feature of today’s computational models is that they are able to study a biological system at multiple levels, including molecular processes, cell to cell interactions, and how those interactions result in changes at the tissue and organ level. The ability to study a system at these multiple levels is known as multiscale modelling.
Relevant Conferences :
 
 
 
 
Gene editing (or genome editing) is the insertion, deletion or replacement of DNA at a specific site in the genome of an organism or cell. Gene editing is derived from molecular biology and is widely used in gene circuits too. It is usually achieved in the lab using engineered nucleases also known as molecular scissors. Targeted alterations may be accomplished in different ways, including through the use of new and emerging techniques such as the CRISPR-Cas9 system. ‘Genome editing’ also includes making alterations to non-coding regions of genomes and to epigenomes (in order to modify whether all or part of the genome is active or silent, and to ‘tune’ the level of activity).
Relevant Conferences:
2nd Biotechnology World Convention, London, UK, May 25-27, 2017;  The 18th international conference on Systems Biology August 6–12, 2017 Brackburg, Virginia, USA; 9th International Conference on Cancer Genomics, Chicago, USA, May 29-31, 2017; 6th International Conference on Tissue Engineering & Regenerative Medicine, Baltimore, USA, Aug 20-22, 2017; The IET/SynBiCITE Engineering Biology Conference IET London  Savoy Place.
 
An  analytical device which incorporates a biologically active element with an appropriate physical transducer to generate a measurable signal proportional to the concentration of chemical species in any type of sample” Most of this current endeavour concerns potentiometric and amperometric biosensors and colorimetric paper enzyme strips. However, all the main transducer types are likely to be thoroughly examined, for use in biosensors, over the next few years.
Relevant Conferences:
 
Synthetic biology will play an important role in advancing adoptive T cell therapy. Engineered receptors and genetic circuits can make cell-based therapies safer and more powerful. Cellular engineering and genome editing can further improve the T cell as a frame work for therapy.The adoptive transfer of genetically engineered T cells with cancer-targeting receptors has shown tremendous promise for eradicating tumors in clinical trials. This form of cellular immunotherapy presents a unique opportunity to incorporate advanced systems and synthetic biology approaches to create cancer therapeutics with Here novel functions.
Relevant Conferences :
 
Bio manufacturing produces a wide range of bio based products for the emerging global bio economy . Bio manufacturing begins with bio prospecting – the discovery and commercialization of new products based on biologic resources. Bio manufacturing requires knowledge and methods from many scientific disciplines including biology, microbiology, biotechnology, chemistry, physics, engineering and technology. It includes genetic engineering and metabolic engineering plus various cell and tissue culture technologies .The cells used during the production may have been naturally occurring or derived using genetic engineering techniques.
Relevant Conferences :
Biomanufacturing Global Congress 2017 Europe, Hilton London Kensington Hotel, London, UK, 03 Apr,2017 - 04 Apr,2017 , 7th Annual  Biomanufacturing conference, Hilton Shanghai Hongqiao, 15th May – 18th May 2017, 3rd CIRP Conference on Bio Manufacturing 2017, 3rd CIRP Conference on Bio Manufacturing 2017, Tue, Jul 11, 2017, 7:00 AM –Fri, Jul 14, 2017, Bio Production Congress Convention Centre Dublin, Dublin, 17 - 18 October 2017. Biotechnology and Biological Sciences Research Council, Research Councils UK,  Engineering Biology Research Consortium, Emergent Behaviors of Integrated Cellular Systems, California Life Sciences Association, Edinburg University Students Association
 
Synthetic biology involves the design and construction of entirely new biological systems from standardized genetic components, together with the radical redesign of existing life for new purposes Research is also already underway that hopes to use synthetic biology in the manufacture of improved bio chemicals. At present one of the most promising alternatives to oil-based plastics is polylactic acid (PLA). This is currently made from corn or sugar cane .
 
Relevant Conferences :
15th World Congress on Biotechnology and Biotech Industries Meet ,Rome, Italy, March 20-21, 2017 ;International Conference on Plant Synthetic Biology and Bioengineering December 16-18, 2016 The Palms Hotel & Spa, Miami Beach, FL;  International Conference on Clinical and Molecular Genetics, Las Vegas, USA, April 24-26, 2017; 15th Euro Biotechnology Congress, Valencia, Spain, June 05-07, 2017; International Conference on Integrative Medicine & Nutrition, Dubai, UAE, May11-13, 2017.
 
Synthetic biologists” apply computer-aided design and engineering to living organisms. The aim is to redesign existing biological organisms and even to create entirely new ones. Synthetic biology is “extreme genetic engineering” and its goal is to derive commercially-valuable compounds from novel living organisms rather than from conventional sources (e.g., crops, petroleum). The overall aim of synthetic biology is to simplify biological engineering by applying engineering principles and designs—which emanate from electronic engineering and computer engineering—to biology.
Relevant Conferences :
 
 
The scientific community hasn’t shied away from acknowledging the potential dangers of synthetic life forms, with ethics playing a role in international conferences and with almost every review of synthetic biology indicating a need for ethical debate, internal regulation and safe practice. Indeed a declaration made by members at the Second International Meeting on Synthetic Biology  supports the adoption of policies to ensure safe practice in the scientific community .To produce generic capabilities in ‘bio-inspired’ tools and processes that will offer breakthrough answers to many needs of industry and the economy
Relevant Conferences :
SynBioBeta London 2017 Imperial College London, UK, , April 4th-6th, 2017,  SB7.0, the Seventh International Meeting on Synthetic Biology ,  at the National University of Singapore , 13-16 June 2017 ,  1st European Congress on Cell-Free Synthetic Biology, Congressi Stefano Franscini, Ascona/Monte Verita, Switzerland, March 26-30, 2017. SynBio Society, Cambridge University Synthetic Biology Society, Synthetic Biology Society, Royal Society of Biology, American Society for Cell biology, Society for developmental biology, Society of Systematic Biologists
 

 

Market analysis

About Synthetic Biology  2017
 Synthetic Biology and Metabolic Engineering is all about increased genome sequencing efforts have ushered in a new era of systems biology, in which entire cellular networks are analysed and optimized for application in the development of strains and Bioprocesses. The properties of these complex cellular networks cannot be understood by monitoring individual components alone, but from the integration of non-linear gene, protein, and metabolite interactions across multiple metabolic and regulatory networks via computer simulation.
" Synthetic  Biology  and Metabolic Engineering is an emerging area of research that can broadly be described as the design and construction of novel artificial biological pathways, organisms or devices, or the redesign of existing natural biological systems."
The demand for synthetic biology is likely to increase owing to the increasing R&D expenditure in pharmaceutical and biotechnology companies, growing demand for synthetic genes, rising production of genetically modified crops, and incessantly rising funding in the field of synthetic biology. Furthermore, rising concerns over fuel consumption and increasing demand for protein therapeutics are likely to create opportunities for the synthetic biology market. However, standardization and integration of biological parts at system-level still remains a challenge for the market. Synthetic Biology mainly focuses on the Universities, Institutes and major Societies along with the latest trends in the market of  Synthetic Biology.
The organizing committee is gearing up for an exciting and informative conference program including plenary lectures, symposia on a variety of topics, poster presentations and various programs for participants from all over the world. We invite you to join us at the  4th World Congress on  Synthetic Biology and Metabolic Engineering 2017, where you will be sure to have a meaningful experience with scholars from around the world. All members of the  4th World Congress on  Synthetic Biology and Metabolic Engineering  organizing committee look forward to meeting you in Singapore.
 
Importance & Scope:
 Synthetic biology and metabolic engineering   is a relatively new field in biomedical research. It focuses on engineering new or modified signaling proteins to create desired signaling pathways in the cell divion
Every living cell is an extremely complex machine expressing thousands of different proteins. Due to superb regulation, many cells, such as photoreceptors and other neurons in vertebrates, can live for decades. Cells can also self-reproduce by division, where both daughter cells are perfectly viable. Natural selection (the “blind watchmaker”, to use Dawkins’ expression) spent hundreds of millions of year to achieve this perfection. Due to elucidation of the intricacies of cellular regulatory mechanisms we can now play evolution on our time scale: re-design proteins and signaling pathways to achieve our ends.
Scientifically, the success of these endeavours is the ultimate proof that we know enough about cellular signalling pathways to harness them for our purposes. From a practical standpoint, targeted regulation of cell signalling paves the way to real cures of many disorders, genetic and acquired, where before we could only manage the symptoms using small molecules.
Why Singapore?
SINGAPORE, known as “the LION city,” becomes a favorite destination because it is a global city and is a densely populated island with tropical flora, parks and gardens. Singapore is a global commerce, finance and transport hub.
Singapore is considered as an important center for higher education and harbors, healthcare, well reputed and prestigious colleges and Universities. Singapore conferences indeed play a vital role in promoting scientific information and ideas all over the world. It can be considered as a suitable medium for the relocation of valuable knowledge about research and novel advancements worldwide. The conferences taking part here would promote a variety of scientific ideas among contenders belonging to diverse areas of science and technology.
 
Conference Highlights:
  • System Biology
  • Genome engineering
  • Artificial Gene Synthesis
  • Mammalian Synthetic Biology
  • Plant Synthetic Biology
  • Molecular Programming
  • Microfluidics
  • Metabolic Engineering
  • Protein Engineering
  • Healthcare / Drug Discovery
  • Next Generation Sequencing
  • Computational Modelling
  • Gene Editing
  • Biosensors
  • Engineered Cell Therapies and Antibodies
  • Bio-manufacturing
  • Applications of Synthetic Biology
  • Case studies
  • Ethics and regulations
 
Why to attend???
Meet the eminent researchers working in the allied areas of  Synthetic biology and Metabolic engineering fields  . This conference will be the best platform to explore your research work and innovations in the respective areas. This conference is focusing on all the major fields of Synthetic Biology.
With members from around the world focused on learning about systems and synthetic biology, this is your single best opportunity to reach the largest assemblage of participants from various communities. Conduct demonstrations, distribute information, meet with current and potential speakers and receive name recognition at this 2-day event. World-renowned speakers, the most recent techniques, tactics, and the newest updates in synthetic biology and metabolic engineering fields  are hallmarks of this conference.
 
Major Synthetic Biology Associations around the Globe
  • The International Association Synthetic Biology (IASB)
  • Synthetic Biology Organization
  • Industry Association of Synthetic Biology (IASB)
  • The Helmholtz Association, Germany
  • Association of Synthetic Biology Brawijaya University
  • Society for Biological Engineers (SBE)           
  • ISEE – International Society for Environmental Ethics
  • MIT Synthetic Biology Center
  • American Chemical Society
  • Biotechnology industrial organization
  • International Council for the Life Sciences
  • Synthetic Biology Engineering Research Center
  • University of Minnesota Synthetic Biology Society
  • Queen's Synthetic Biology Organization (QSYNBIO)
  • Synthetic Biology Industry Association
  • New York synthetic biology association – GuideStar
Target Audience:
Academicians, Scientists & Business delegates, Experts, Departmental Managers, Vice Presidents/ Directors & Brand Manufacturers/ Marketers of Consumer Products. Solution Providers (digital and mobile technology), Professors and Students from Academia in the study of Synthetic Biology & Technology.
Academia      60%
Industry        30%
Others           10%
Glance at Market of Advertising and Marketing:
This report studies the global synthetic biology market for the forecast period of 2013 to 2018. This market is expected to reach $5,630.4 million by 2018 from $1,923.1 million in 2013, growing at a CAGR of 24% during the forecast period.
The global synthetic biology market is segmented on the basis of tools, technologies, applications, and geographies.
On the basis of tools, the synthetic biology market is categorized into Xeno-nucleic acids, chassis organisms, oligonucleotides, enzymes, and cloning and assembly kits. The oligonucleotides segment accounted for a major share of the synthetic biology market, by tool, in 2013.
On the basis of technologies, the synthetic biology market is segmented into enabled and enabling technologies. Enabling technologies accounted for a major share of the synthetic biology market in 2013. On the basis of applications, the synthetic biology market is segmented into environmental, medical, and industrial applications. The medical applications segment accounted for a major share of the synthetic biology market in 2013.
 

Past Conference Report

Past Conference Report
Systems and Synthetic Biology 2016
 
ConferenceSeries Ltd takes a great pride in announcing the commencement of 2nd International Conference on Systems and Synthetic Biology which was held in London, United Kingdom, during August 18-20, 2016.
Systems and Synthetic Biology -2016 has received a benevolent response from all over the world. This has been conducted with the aim and the categorical intent of promoting the developments of new perceptions and ideas for exploring the high level of knowledge reached by scientific community. The extremely illustrious conference hosted by ConferenceSeries Ltd was marked with the attendance of young and brilliant researchers, business delegates and talented student communities representing more than 25 countries around the world. 
The conference aimed a parallel rail with theme “Systems and Synthetic Biology- Accomplish Impossible to Possible”. The meeting engrossed a vicinity of cognizant discussions on novel subjects like:
  • Structural Biology
  • Integrative Biology
  • Protein Engineering
  • Industrial Systems and Synthetic Biology
  • Biotechnology Advances
  • Metabolomics
  • Synthetic Genomics
  • Synthetic Gene Network
  • Gene Synthesis
  • Biophysics
  • Bio-Sensors and Bio-Electronics
  • Next Generation Sequencing
  • Computational Systems Biology
  • Pharmaceutical Biology
The three days event implanted a firm relation of upcoming strategies in the field of Systems and Synthetic Biology with the scientific community. The conceptual and applicable knowledge shared, will also foster organizational collaborations to nurture scientific accelerations.
The Organizing Committee would like to thank the moderator Dr. Betty Lee, United States Department of Commerce, USA for her contribution which resulted in smooth functioning of the conference.
We are thankful to our Honourable guests for their generous support and suggestions.
  • Richard J Naftalin, King’s College London, UK
  • Roberto Mazzoli, University of Torino, Italy
  • Guido Krupp, AmpTec GmbH, Germany
A special session was organized by Paul Lomax (TTP Labtech, UK) his lecture on “Automation at the heart of synthetic biology and Dr. Betty Lee (United States Department of Commerce, USA) her lecture on “Biosecurity and how export controls impact the life sciences”.
The conference witnessed an amalgamation of peerless speakers, who enlightened the crowd with their enviable research knowledge and on various alluring topics related to the field of Systems and Synthetic Biology-2016. The highlights of the conference were the keynote forum by prominent scientists, of which the following topics were highlighted:
  • Synthetic mRNAs as optimized tools for stem cell generation and for manipulating cellular phenotypes: Guido Krupp, AmpTec GmbH, Germany
  • Enhancing the synthetic IQ of CAR T-cells: Michael Jensen, Seattle Children’s Research Institute, USA
  • A computer model simulating human glucose absorption and metabolism in health and metabolic disease states: Richard J Naftalin, King’s College London, UK
These are some of the few speakers who gave their fruitful contributions in the form of highly informative presentations and made the conference a top notch one.
Various sessions were chaired and co-chaired by: Guido Krupp, AmpTec GmbH, Germany; Roberto Mazzoli, University of Torino, Italy; Anthony C Forster, Uppsala University, Sweden; Martin Falk, Czech Academy of Sciences, Czech Republic; Richard J Naftalin, King’s College London, UK.
We congratulate Dr. Ingy Hashad from German University in Cairo, Egypt for winning the Young Research Forum award.
ConferenceSeries Ltd has taken the privilege of felicitating Systems and Synthetic Biology-2016 Organizing Committee, Editorial Board Members and Keynote Speakers who supported for the success of this conference.
The esteemed guests, keynote speakers and researchers shared their innovative research and vast experience through their informative presentations at the podium of Systems and Synthetic Biology. ConferenceSeries Ltd offers its heartfelt appreciation to the exhibitors TTP Labtech and Forte Bio who supported the conference in every aspect for the awe-inspiring exhibition at the venue. We also express our sincere thanks to all the media partners for the promotion of our event to glory.
We are also obliged to various experts, company representatives and other eminent scientists who supported the conference by facilitating the discussion forums. We sincerely thank the Organizing Committee Members for their gracious presence, support and assistance. With the unique feedback from the conference, ConferenceSeries Ltd would like to proudly announce the commencement of the "4th International Conference on Synthetic Biology and Metabolic Engineering" to be organized during “November 16 -17’’ at Singapore City, Singapore
 
Mark your calendars for the upcoming extravaganza; we are hoping to see you soon

To Collaborate Scientific Professionals around the World

Conference Date Nov 16-17, 2017

Speaker Opportunity