4th World Congress on Protein & Biomedical Engineering

Starts On: 15/03/2018
Ends At: 17/03/2018
Country: Singapore
City: Singapore
Contact Email: Proteinengineering@conferencesworld.org
Contact Phone: +1-888-843-8169
Conference Website
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About Conference

4th World Congress on Protein & Biomedical Engineering

4th World Congress on Protein & Biomedical Engineering which will be held during March 17-19, 2018, Singapore.We organize 1000+ Global Events every year in Conference series, on Clinical, Medicine, Pharma and Science & Technology every year across USA, Europe, Asia, Middle East, Australia and UK with support from 1000 more scientific societies and publishes 700+ open access journals  which contains over 100000 eminent personalities, reputed scientists as editorial board and organizing committee members.

Protein Engineering Congress 2018 is a multidisciplinary field with research interests covering all aspects of modern molecular and cellular biochemistry. Biochemistry is often considered as a tool to investigate and to study molecular biology. It deals with the structure, function, and interactions amongst biological macromolecules.

The theme of the conference “Protein and Bio-Medical Engineering – A Roadmap for Advanced Research Initiatives“, will focus on the study of the molecular mechanisms by which genetic information present on DNA is able to result in the processes of life. Biochemistry has its applications in various fields. The findings of biochemistry are applied primarily in medicine, nutrition, and agriculture. In medicine, biochemists investigate the cause and cure of the disease. In nutrition, it leads to maintain health and effects of deficiency of nutrients. In agriculture, biochemists investigate soil and fertilizers and try to discover ways to improve crop cultivation, storage, and pest control.

Why attend?

Protein Engineering Congress 2018 is a vast emerging discipline that uses genetic information from an individual as part of their clinical diagnostic care (e.g., for diagnostic or therapeutic decision-making) and the health outcomes and policy implications from that clinical use. Protein Engineering Congress 2018 provides a platform where you can meet top-notch experts in the field and molecular biology to discuss molecular mechanisms by which genetic information encoded in DNA.

Protein Engineering Congress 2018  mainly focusses on the universities, institutes, research centers and major societies along with companies which hold a big market in laboratory technologies. Target audience involves students, faculties, researchers, scientists, dean, directors and CEO’s of the companies.

We welcome all interested participants to join us for our conference on Biochemistry at the exquisite destination of Singapore.

Our Conference will provide a perfect platform to enlighten knowledge through:

· Innovative talks by the experts of the global scientific community

· Sterling workshop and sessions

· Remarkable Awards and Global Recognition to meritorious Researchers

· Global Networking with 50+ Countries across the globe

· Novel Techniques to Benefit Your Research

· Global Business and Networking Opportunities

· Exquisite Platform for showcasing your products and International Sponsorship
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.

Apart from this, Singapore has been set aside for parks and natural reserves. The network of natural reserves, parks, park connectors, natural ways, tree-lined roads and other natural areas have enhanced the sense of green space in the city which will keep you busy for weeks. Singapore has a tropical rainforest climate with no distinctive seasons, uniform temperature, pressure, high humidity and abundant rainfall. Sentosa, Singapore Flyer, Universal Studios Singapore, Night Safari Singapore, Singapore Botanic Gardens, Jurong Bird Park, Singapore Zoo, Sri Mariamman Temple, Pulau Hantu famous for its rich coral reefs and Peranakan Museum are some of the points of interest in Singapore. A splendid location, life expectancy, quality of life, personal safety and housing that is unsurpassed for its livability makes Singapore a city to visit and remember.



Track 1: Protein  Engineering

Protein Engineering is the process of creating helpful or profitable proteins and it research happens into the comprehension of collapsing and acknowledgment for protein plan standards. Analysts will have further point by point learning on In vitro development of proteins, Aspects of Biocatalysis, Advances in designing proteins for biocatalysis, Protein Engineered Biomaterials and many subjects. Computational Protein Engineering, Constructing practical biocatalysts and Growth of manufactured science are likewise normally utilized themes as a part of protein designing. The protein engineering business sector is estimated to develop at a CAGR of 15.7% to reach $1,463.0 million by 2020. There are very nearly 3000 individuals from 60-65 colleges in the USA working for Protein Engineering and there are a few meetings & workshops like biomolecular designing gatherings, sub-atomic cell science workshops, protein engineering meetings, antibody engineering 2015 are conducting throughout the year globally.

Track 2: Protein Purification

Recombinant protein production & purification, Protein expression and purification, CHI protein and Protein electrophoresis are the topics covered in the protein purification. Protein purification is a series of processes planned to isolate one or a few proteins from a complex mixture, usually cells, tissues or whole organisms. It also involves the separation of non-protein parts from all the other products.

Track 3: Protein folding

Protein folding is defined as the physical process of a protein chain.it deals in acquires of native 3-dimensional structure, a confirmation that is usually biologically functional, in an expeditious and reproducible manner. In recent years, Researchers are keeping their effort in ­­­­­­the mystery of different mechanisms, driving forces, and processes occurring in protein folding.

Track 4: Protein Crystallography

Protein crystallography displays protein structures at the atomic level and helps in understanding the protein function with the help of very high-resolution microscopy. Protein Crystallography has been highly used in industrial processes for designing novel drugs that target a particular protein or an enzyme.

Track 5: Protein Engineered Biomaterials

The availability of growth factors and the increasing knowledge base concerning the bone regeneration with modern techniques like recombinant signaling molecules, solid free form fabrication of scaffolds, synthetic cartilage, Electrochemical deposition, spinal fusion & ossification are new generated techniques for tissue-engineering applications. Biomedical Engineering research is the foremost research which includes Nano applications to biomedical sciences and tissue engineering, Nanomedicines, Cell interactions with Nanoparticles, Revolutionary opportunities and future possibility of nanotechnology, Bio-nanotechnology Biomedical Nanotechnology, Tissue Growing Nanostructures, Nano-Mechanisms for Molecular Systems, Nano-Bio-Computing, Biomedical Application of Nanoparticles and Functional Nanomaterials and Devices for Biomedical Engineering.

Track 6: Applications of  Protein Engineering

There are a lot of applications used for protein but mostly we are having good research and number of companies and projects for the following applications Protein modification, targeting and degradation, Protein identification & validation, Protein profiling studies in diabetes, Imaging mass spectrometry and profiling of tissue sections, Designer proteins and Protein Dietary Supplements. As a research Protein Engineering market is $56 billion in 2012 to $168 billion in 2017, a compound annual growth rate (CAGR) of 10.9% from 2012 through 2017.There are almost 3000 people from 60-65 universities in the USA working for Genetic and Protein Engineering.

Track 7: Transcriptome analysis & Gene Expression

Transcriptome analysis and Gene Expression is the first and the important topics to be discussed. While going in depth of the subject, it is necessary to understand Transcriptome as Key Players in Gene Expression. For that, we must know the basics knowledge of how the central dogma works. This can be achieved by gaining proper knowledge about the functioning of mRNA, tRNA, and rRNA. Gene expression analysis experimentations can focus on a subset of relevant target genes. The location of gene and relative distances between genes on a chromosome can be determined through Sequence mapping. Even in the lack of the reference genome, transcriptome can be created using de novo transcriptome assembly method. Globally around more number of Universities and institutes are carrying research on gene expression and transcriptome analysis.

Track 8: Recombinant Protein Expression

Protein Expression contains the stages after DNA has been transcribed to messenger RNA (mRNA) from the process of Optimizing protein expression, Prokaryotic and Eukaryotic systems, Fusion protein therapeutics, Cell line & cell culture development& Protein microarray studies. Recombinant production of proteins is one of the most powerful techniques used in the Life Sciences. There are nearly 3000 people from 60-65 universities in the USA working for Protein Expression.The Oxford Protein Production Facility-UK (OPPF-UK) is a UK core facility for protein production located in the Research Complex at Harwell. The project has recently received additional funding from £2.3M from MRC to provide a huge range of highly specialized technologies incorporating robotic systems, for the high throughput expression, purification & crystallization of recombinant proteins.

Track 9: Cancer Genome Biology

Cancer Genomics is the study of genetic changes in charge of disease, utilizing genome sequencing and bioinformatics. Cancer genomics is to enhance tumor treatment and results lie in figuring out which sets of qualities and quality communications effect diverse subsets of growths. Global Cancer Genome Consortium (ICGC) is a deliberate exploratory association that gives a discussion to combined effort among the world’s driving growth and genomic specialists. The subjects like malignancy hereditary qualities, protein markers, Cancer Functional Genomics and Epigenomics, Bioinformatics & Systems Biology of Cancer and Big Data and Genome Medicine are secured in this taking track.

Track 10: Medical Devices and Medical Imaging

Medical devices are the Instruments or other articles, whether used alone or in combination used specifically for diagnostic or for therapeutic purposes and necessary for its proper application, intended for the purpose of diagnosis, prevention, monitoring, and treatment of various diseases.

Medical imaging envelops different imaging modalities and processes to image the human body for diagnostic and for treatment, therefore it plays an important role to improve public health for all population groups. Also, medical imaging is frequently justified in the foul-up of a disease already diagnosed or treated.

Track 11: Clinical and Biomedical Engineering

Biomedical Engineering is the science of application of engineering principles to the fields of biology and health care of the human. Bioengineers work with professionals like doctors, therapists and researchers to implement systems, equipment, and devices in order to solve clinical problems which focus on the advances that improve human health and health care at all levels.

Clinical engineering is a specialized field in which Biomedical engineering roles and responsibilities are primary for applying and implementing medical technology to optimise healthcare delivery.

Track 12: Biomaterials and Biomechanics

Biomechanics is the study of systems and structures of biological organisms from the smallest plants to the largest animals react to external stimuli. In animals, biomechanics often refers to the study of how the skeletal and musculature systems work under different cases. In biomechanics, it is repeated that the scientists often try to apply physics and other mathematical based forms of analysis to discover the limits and capabilities of biological systems.

Biomaterials are substances that are used in medical devices or in contact with biological systems. Biomaterials use impression from medicine, biology, chemistry, materials science and engineering.

Track 13: Cell and Tissue Engineering

Cell engineering exploits the principles and methods of engineering to the complication of the cell and molecular biology of both a basic and applied nature.

Tissue engineering is a technique which generates living tissue ex vivo for replacement or therapeutic applications through materials development, biochemical controls, cell culture, and genetic engineering. Tissue engineering uses biomaterials and cells to produce new tissues. Stem cells have infused great excitement in the field as a potentially powerful cell source to rebuild tissues.

Track 14: Bio Imaging and Signal Processing

Bioimaging reveals the complex chain of acquiring, processing and visualizing structural or functional images of living objects or systems, including extirpation and processing of image-related information.Image processing methods, such as denoising, segmentation, deconvolution and registration methods, feature detection and classification represent an indispensable part of bioimaging, as well as related data analysis and statistical tools are involved in this process.

Track 15: Neural and Rehabilitation Engineering

Rehabilitation engineering is the study that links both clinical and biomechanical application of engineering to handle services, research, and development to determine people with disabilities. Rehabilitation engineering includes the systematic application of technologies, engineering methodologies, or scientific principles to meet the needs of, and address the barriers confronted by, individuals with disabilities in areas that include education, rehabilitation, employment, transportation, independent living, and recreation.

Neural engineering is the application of biomedical engineering principles to the nervous system.

Track 16: Bio instrumentation

Bioinstrumentation deals with the use of bioelectronics instruments for the recording or transmission of physiological information. Biomedical devices are the linking of biology, sensors, interface electronics, microcontrollers, and computer programming, including biology, optics, mechanics, and electronics, chemistry, and computer science. Bioinstrumentation engineers will design, frame, test, and manufacture the advanced medical instruments and implantable devices into a single, more productive unit.


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