Theme: Systems and Synthetic Biology: Meeting the Needs of a Changing World
Systems and Synthetic Biology 2017
ConferenceSeries Ltd International Conferences invites all the participants from all over the world to attend "3rd International Conference on Systems and Synthetic Biology" during July 20-21, 2017 at Munich, Germany, which includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions.
Systems and Synthetic Biology 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. 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.
Systems and Synthetic Biology 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
Systems and Synthetic Biology 2017 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 Systems and Synthetic Biology 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
Systems and Synthetic Biology-2017 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.
Systems and Synthetic Biology-2017 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 Systems and Synthetic Biology-2017 will focus on the latest and exciting innovations in prominent areas of Systems biology and Synthetic biology research.
About Systems and Synthetic Biology 2017
Systems and Synthetic Biology is all about increased genome sequencing efforts have ushered in a new era of systems biology, in which entire cellular networks are analyzed 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 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 focusses on the Universities, Institutes and major Societies along with the latest trends in the market of Systems and Synthetic Biology.
We are delighted to invite you all to attend and register for the “3rd International Conference on Systems and Synthetic Biology (Systems and Synthetic Biology 2017)” which is going to be held during July20-21, 2017 Munich, Germany.
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 Systems abd Synthetic Biology 2017, where you will be sure to have a meaningful experience with scholars from around the world. All members of the Systems and Synthetic Biology 2017 organizing committee look forward to meeting you in Germany.
For more details please visit- http://syntheticbiology.conferenceseries.com/
Importance & Scope:
Synthetic Biology 2017 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.
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 endeavors is the ultimate proof that we know enough about cellular signaling pathways to harness them for our purposes. From a practical standpoint, targeted regulation of cell signaling paves the way to real cures of many disorders, genetic and acquired, where before we could only manage the symptoms using small molecules.
Why Munich?
Munich is the capital and largest city of the German state of Bavaria, on the banks of River Isar north of the Bavarian Alps. Munich is the third largest city in Germany, after Berlin and Hamburg, and the 12th biggest city of the European Union, with a population of above 1.5 million. The Munich Metropolitan Region is home to 5.8 million people. The city is a major center of art, advanced technologies, finance, publishing, culture, innovation, education, business, and tourism in Germany and Europe and enjoys a very high standard and quality of living, reaching #1 in Germany and #4 worldwide according to the 2015 Mercer survey. According to the Globalization and World Rankings Research Institute Munich is considered an alpha-world city, as of 2015. Munich is home to many national and international authorities, major universities, major museums and theaters. Its numerous architectural attractions, international sports events, exhibitions, conferences and Oktoberfest attract considerable tourism. Munich is one of the most prosperous and fastest growing cities in Germany.
Systems and Synthetic Biology 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
Conference Highlights:
- Synthetic Genomics
- Design and construction of Synthetic Gene Networks
- Molecular Modeling and Drug Designing
- Genome Design and Next-generation genomic technologies
- Development of Recombinant-DNA technology
- Protein Engineering Design and Selection
- Advanced DNA Sequencing
- Computational Biology
- Biotechnology and Bioprocess Engineering
- Industrial Biotechnology
- Animal Cell and Tissue Engineering
- Evolutionary Biology
- Novel materials and Biosensors
- Synthetic Biology Trends in Oncology
Why to attend???
Meet the eminent researchers working in the allied areas of Systems Biology and Synthetic Biology. 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 sstems and synthetic biology 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.
Target Audience:
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.
Sessions/Tracks
Conferences Series LLC invites all the participants from all over the world to attend 2nd International Conference on Systems and Synthetic Biology July 20-21, 2017 Munich, Germany which includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions.
Systems and Synthetic Biology 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. 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.
Related Conferences:
SynBioBeta London April 4-6 2017 Imperial College London UK; 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; 2017 Synthetic Biology: Engineering, Evolution & Design (SEED) June 20-23, 2017 British Columbia, Canada
Synthetic genomics is an early field of engineered science that uses parts of hereditary alteration on prior life frames with the plan of delivering some item or wanted conduct with respect to the living thing so made. Synthetic genomics joins strategies for the fake amalgamation of DNA with computational methods to plan it. These strategies permit researchers and specialists to build hereditary material that would be inconceivable or illogical to deliver utilizing more routine biotechnological approaches. For instance, utilizing manufactured genomics it is conceivable to outline and amass chromosomes, qualities and quality pathways, and even entire genomes.
Related Conferences:
2nd International Conference on Molecular Biology , London, UK , June 22-24, 2017; 3rd World Bio Summit & Expo, Abu Dhabi, UAE, June 19-21, 2017; Synthetic Biology UK 2016 14-16 November Dynamic Earth, Edinburgh, UK; 2nd World Congress on Human Genetics, Chicago, USA, July 24-26, 2017; 9th International Conference on Genomics and Pharmacogenomics, Chicago, USA, July 13-14, 2017.
Plan and development of Synthetic gene network from secluded segments is a noteworthy objective of engineered science. Nonetheless, the development of quality systems with unsurprising capacities remains hampered by an absence of suitable segments and the way that amassed arranges regularly require broad, iterative retrofitting to function as proposed. Propels in the improvement of atomic devices for the inducible control of interpretation, interpretation, and protein debasement are the premise for the quickly developing configuration and development of engineered quality systems in mammalian cells. Nonetheless, progresses in manufactured science have been constrained by an absence of interoperable parts, strategies for powerfully testing organic frameworks and systems for the solid development and operation of mind boggling, higher-request systems. As these difficulties are tended to, manufactured scholars will have the capacity to develop helpful cutting edge engineered quality systems with certifiable applications in prescription, biotechnology, bioremediation and bioenergy. Artificial gene synthesis amalgamation is a strategy in Synthetic Biology that is utilized to make artificial genes in the research facilities.
Related Conferences:
5th International Conference on Integrative Biology June 19-21, 2017 London, UK; The Seventh International Meeting on Synthetic Biology 13-16 June 2017 Singapore; International Conference on Clinical and Medical Genetics December 01-02, 2016 Atlanta, USA; 9th International Conference on Genomics and Pharmacogenomics July 13-14, 2017 Chicago, USA.
Gene synthesis is a strategy in synthetic biology that is utilized to make create artificial genes in the research center. Currently based on solid-phase DNA synthesis, it contrasts from molecular cloning and polymerase chain reaction (PCR) in that the client does not need in the first place prior DNA sequences. Accordingly, it is conceivable to make a totally synthetic double-stranded DNA molecule with no obvious cutoff points on either nucleotide sequence or size. The technique has been utilized to create utilitarian bacterial or yeast chromosomes containing around one million base sets. Late research likewise proposes the likelihood of making novel nucleobase pairs notwithstanding the two base pairs in nature, which could incredibly extend the likelihood of growing the genetic code. Gene editing or genome editing with built nucleases (GEEN) is a sort of genetic engineering in which DNA is inserted, deleted or replaced in the genome of an organism utilizing engineered nucleases, or "molecular scissors." These nucleases create site-specific double-strand breaks (DSBs) at craved areas in the genome. The induced double strand breaks are repaired through nonhomologous end-joining (NHEJ) or homologous recombination (HR), bringing about targeted mutations. There are at present four groups of engineered nucleases being utilized: Meganucleases, Zinc finger nucleases (ZFNs), Transcription Activator-Like Effector-based Nucleases (TALENs), and the CRISPR-Cas System.
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Structural biology is a branch of molecular biology, biochemistry, and biophysics concerned with the molecular structure of biological macromolecules, especially proteins and nucleic acids, how they secure the structures they have, and how modifications in their structures influence their capacity. This subject is of incredible enthusiasm to researcher since macromolecules complete the vast majority of the elements of cells, and on the grounds that it is just by curling into particular three-dimensional shapes that they can perform these functions. This engineering, the "tertiary structure" of molecule, depends complicatedly on the primary structures.
Relevant Conferences:
2nd International Conference on Molecular Biology , London, UK , June 22-24, 2017; 3rd World Bio Summit & Expo, Abu Dhabi, UAE, June 19-21, 2017; International Conference on Systems Biology 16-20 september,Barcelona Spain; 2nd World Congress on Human Genetics, Chicago, USA, July 24-26, 2017; 9th International Conference on Genomics and Pharmacogenomics, Chicago, USA, July 13-14, 2017.
As name "Integrative Biology" reflects conviction that the investigation of biological systems is best drawn nearer by fusing numerous points of view. We unite assorted qualities of controls that supplement each other to disentangle the complexity of biology. The idea incorporates anatomy, physiology, cell and stem cell biology, molecular biology, developmental biology, biochemistry and biophysics. We work with animals, plants and microorganisms and our exploration traverses the levels of the organic chain of command from molecules to ecosystems. Our expansive scope of mastery incorporates: geneticists, paleontologists, physiologists, behaviorists, systematists, morphologists, microbiologists, bioinformatician, evolutionary biologists, ecologists, biophysicists and biotechnologists.
Relevant Conferences:
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Protein engineering is the procedure of creating helpful or profitable proteins. It is a youthful control, with much research occurring into the comprehension of protein folding and acknowledgment for protein design principles. There are two general systems for protein engineering, rational protein design and directed evolution. These systems are not fundamentally unrelated; specialists will frequently apply both. Later on, more itemized learning of protein structure and capacity, and also headways in high-throughput innovation, might incredibly grow the abilities of protein engineering. In the long run, even unnatural amino acids might be incorporated, because of another strategy that permits the consideration of novel amino acids in the genetic code.
Relevant Conferences
5th International Conference and Exhibition on Cell and Gene Therapy, Madrid, Spain, Mar 2-3, 2017; International Conference on Cell Signalling and Cancer Therapy, Paris, France, Aug 20-22, 2017;The 18th international conference on Systems Biology August 6–12, 2017 Brackburg, Virginia, USA; 3rd International Conference & Exhibition on Tissue Preservation and Bio banking, Baltimore, USA,June 29-30, 2017.
Industrial Systems and Synthetic Biology
Industrial Systems and Synthetic Biology is a standout amongst the most encouraging new ways to deal with contamination counteractive action, asset protection, and cost lessening. It is frequently alluded to as the third wave in biotechnology. On the off chance that created to its maximum capacity, modern biotechnology might largely affect the world than human services and agriculture biotechnology. It offers organizations an approach to diminish costs and make new markets while securing the earth. Additionally, since a hefty portion of its items don't require the long audit times that medication items must experience, it's a speedier, less demanding pathway to the business sector. The utilization of Industrial Systems and Synthetic Biology to modern procedures is changing how we make items as well as giving us new items that couldn't be envisioned a couple of years back. Since Industrial Systems and Synthetic Biology is so new, its advantages are still not surely understood or comprehended by industry, policymakers, or customers.
Relevant Conferences
2nd Biotechnology World Convention, London, UK, May 25-27, 2017; Synthetic Biology UK 2016 14-16 November Dynamic Earth, Edinburgh, UK;The 17th international conference on Systems Biology September 16–20, 2016 Barcelona, Spain; 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.
Biotechnology advances is the utilization of systems and organisms to create or make product, or any innovative application that uses biological, living organism’s forms or derivatives thereof, to make or alter products or procedures for particular use. Depending on the instruments and applications, it regularly covers with the (related) fields of bioengineering, biomedical building, biomanufacturing, and so forth.
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.
Metabolomics is the experimental investigation of concoction procedures including metabolites. In particular, metabolomics is the deliberate investigation of the exceptional substance fingerprints that particular cell forms desert, the investigation of their little molecules metabolite profiles. The metabolome speaks to the accumulation of all metabolites in a biological cell, tissue, organ or living being, which are the end products of cell processes. mRNA quality expression data and proteomic examinations uncover the set of gene products being created in the cell, data that speaks to one part of cell function. On the other hand, metabolic profiling can give an immediate depiction of the physiology of that cell. One of the difficulties of system biology and functional genomics is to integrate proteomic, transcriptomic, and metabolomic data to give a superior comprehension of cell biology.
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5th International Conference and Exhibition on Cell and Gene Therapy, Madrid, Spain, Mar 2-3, 2017; International Conference on Cell Signalling and Cancer Therapy, Paris, France, Aug 20-22, 2017; 2nd Biotechnology World Convention, London, UK, May 25-27, 2017; International Conference on Animal and Human Cell Culture, Jackson Ville, USA, Sep 25-27, 2017; Synthetic Biology UK 2016 14—16 November Dynamic Earth, Edinburgh, UK
Biophysics covers the natural association, from the atomic level to entire life forms level in a biological processes. It depicts how creatures get sustenance, imparting, detecting nature, and repeating. Biophysical research requires some crucial standards from natural chemistry, nanotechnology, bioengineering, computational science and frameworks science.
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Bio-Sensors and Bio-Electronics
A biosensor is an analytical device, used for the detection of an analyte,that combines a biological component with a physicochemical detector. Electrochemical biosensors are normally based on enzymatic catalysis of a reaction that produces or consumes electrons (such enzymes are rightly called redox enzymes). The sensor substrate usually contains three electrodes; a reference electrode, a working electrode and a counter electrode. Amperometric biosensors function by the production of a current when a potential is applied between two electrodes. They generally have response times, dynamic ranges and sensitivities similar to the potentiometric biosensors. The potentiometric biosensor, (potential produced at zero current) gives a logarithmic response with a high dynamic range. Such biosensors are often made by screen printing the electrode patterns on a plastic substrate, coated with a conducting polymer and then some protein (enzyme or antibody) is attached. They have only two electrodes and are extremely sensitive and robust. A microbial biosensor is an analytical device which integrates microorganism(s) with a physical transducer to generate a measurable signal proportional to the concentration of analytes.
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Next-generation sequencing alludes to non-Sanger-based high-throughput DNA sequencing technologies. Millions or billions of DNA strands can be sequenced in parallel, yielding considerably more throughput and minimizing the requirement for the fragment cloning techniques that are frequently utilized as a part of Sanger sequencing of genomes. DNA sequencing industry is sectioned into instruments and consumables, administrations, and workflow products.
Relevant Conferences:
SynBioBeta SF 2016 South San Francisco Conference Center, San Francisco, CA; International Conference on Animal and Human Cell Culture, Jackson Ville, USA, Sep 25-27, 2017; 9th International Conference on Cancer Genomics, Chicago, USA, May 29-31, 2017; 14th Asia-Pacific Biotech Congress, Beijing, China, April 10-12, 2017.
Computational biology includes hypothetical strategies, mathematical and computational reenactment procedures to investigation of biological and social frameworks. The field is incorporates establishment in computer science, animation, biochemistry, biophysics, molecular biology, genetics, genomics, ecology, evolution, anatomy, neuroscience and visualization computational biology. Here and there alluded to as bioinformatics, is the investigation of utilizing natural information to create calculations and relations among different organic frameworks. Preceding the approach of computational biology, researcher were not able have entry to a lot of data. Systems Biology concentrates on analytical and computational models that are unequivocally bolstered and propelled by genuine biological systems and that incorporate current exact learning.
Relevant Conferences:
2nd World Congress on Human Genetics, Chicago, USA, July 24-26, 2017; 2nd International Conference on Genetic Counselling and Genomic Medicine ,Beijing, China, July 10-12, 2017; International Conference on Clinical and Molecular Genetics, Las Vegas, USA, April 24-26, 2017; 2017 Synthetic Biology: Engineering, Evolution & Design (SEED) June 20-23, 2017 British Columbia, Canada; 15th Biotechnology Congress, Baltimore, USA, June 22-23, 2017.
The pharmaceutical biology is a gathering of interdisciplinary zones of study concerned with the desigin, activity, delivery, and disposition of drugs. Applying the knowledge from chemistry such as inorganic, physical, biochemical and analytical from one end and from another end of Biology is dealing with life structures, physiology, organic chemistry, cell science, and molecular biology, epidemiology, statistics, chemometrics, mathematics, physics, and chemical engineering. As new disclosures progress and amplify the pharmaceutical biology, subspecialties keep on being added to this list. These shared fundamental concepts further to the understanding of their applicability to all aspects of pharmaceutical research and drug therapy.
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Synthetic biology uses the organisms to manufacture the targeted drugs by recombining artificial biosynthetic pathways in the host. Some of the drugs produced by this application are vancomycine, cyclosporine. Synthetic biology is the engineering of biology and the synthesis of complex, biologically based (or inspired) systems which display functions that do not exist in nature. Synthetic biologists use polypeptides for the manufacturing of desired drugs assembling all together into a single complex. This engineering perspective may be applied at all levels of the hierarchy of biological structures from individual molecules to whole cells, tissues and organisms.
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Newry, ME
Bioengineering is the manipulation of the biological compounds varying their physical and chemical forms using engineering principles and techniques. Engineering is done at cellular and subcellular level i.e. molecular level. Bioengineering is the biological or medical application of engineering principles or engineering equipment. Recently, the practice of bioengineering has expanded beyond large-scale efforts like prosthetics and hospital equipment to include engineering at the molecular and cellular level with applications in energy and the environment as well as healthcare.
They have wide range of biological and environmental application like biosensors, food safety, diagnosis, cell free protein production, biofuels etc.
Relevant Conferences
2nd Biotechnology World Convention, London, UK, May 25-27, 2017; International Conference on Animal and Human Cell Culture, Jackson Ville, USA, Sep 25-27, 2017; 9th International Conference on Cancer Genomics, Chicago, USA, May 29-31, 2017; SynBioBeta London April 4-6 2017 Imperial College London UK; 8th World Congress and Expo on Cell & Stem Cell Research, Orlando, USA,March 20-22, 2017.
Cancer systems biology encompasses the application of systems biology approaches to cancer research, in order to study the disease as a complex adaptive system with emerging properties at multiple biological scales.
Cancer systems biology therefore adopts a holistic view of cancer aimed at integrating its many biological scales, including genetics, signaling networks, epigenetics, cellular behavior, histology, (pre)clinical manifestations and epidemiology. The systems biology approach relies heavily on the successes of decades of reductionism, which has clarified the component parts and mechanistic principles of living organisms, as well as their key alterations in cancer, especially at the genetic/genomic scale, to deep detail.
Relevant Conferences:
5th International Conference and Exhibition on Cell and Gene Therapy, Madrid, Spain, 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.
CRISPR-Cas9 Genome Editing
CRISPR-Cas9 is a unique technology that enables geneticists and medical researchers to edit parts of the genome by removing, adding or altering sections of the DNA Sequence.It is currently the simplest, most versatile and precise method of genetic manipulation and is therefore causing a buzz in the science world.
The CRISPR-Cas9 system consists of two key molecules that introduce a change (mutation) into the DNA. These are an enzyme Called Cas9. This acts as a pair of ‘molecular scissors’ that can cut the two strands of DNA and a piece of RNA Called guide RNA (gRNA) which binds to DNA. The Cas9 follows the guide RNA to the same location in the DNA sequence and makes a cut across both strands of the DNA. At this stage the cell recognises that the DNA is damaged and tries to repair it.
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.
Conference Highlights
- Synthetic Genomics
- Synthetic Gene Networks
- Gene synthesis
- Systems Biology
- Computational Systems Biology
- Synthetic Chemistry
- Plant Synthetic Biology
- Mammalian Synthetic Biology
- Applications of Synthetic Biology
- Synthetic Engineering
- Cellular Systems Biology
- Synthetic Technology
- Synthetic Biology Business
- Industrial Systems and Synthetic Biology
- Pharmaceutical Biology
- Integrative Biology
- Protein Engineering
- Metabolomics
- Biophysics
- Next Generation Sequencing
- Bio-Sensors and Bio-Electronics
- Synthetic biology drugs
- Cancer systems biology
- Biology Engineering
- CRISPR-Cas9 Genome Editing
- Systems and Synthetic Biology
- Systems Biology
- Cellular Systems Biology
To share your views and research, please click here to register for the Conference.
To Collaborate Scientific Professionals around the World
Conference Date | July 20-21, 2017 | ||
Sponsors & Exhibitors |
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Speaker Opportunity Closed | Day 1 | Day 2 | |
Poster Opportunity Closed | Click Here to View |
Useful Links
Special Issues
All accepted abstracts will be published in respective Our International Journals.
- Current Synthetic and Systems Biology-Open Access
- Journal of Bioengineering & Biomedical Science
- Advancements in Genetic Engineering Open Access
Abstracts will be provided with Digital Object Identifier by