Theme: Transcriptomics: Exploring pathways toward novel research

Transcriptomics 2017

Transcriptomics 2017

After the splendid success of the “2nd International Conference on Transcriptomics” held at Philadelphia, USA during September 12-14, 2016 we proudly announce the “3rd International Conference on Transcriptomics” which will be held during October 30-November 01, 2017 at Bangkok, Thailand.

Transcriptomics is a cross-disciplinary area mainly concerned with transcriptome analysis and RNA-Seq. It emphasizes on how the next generation sequencing is replacing microarrays as the choice method for expression profiling and quantify overall gene expression level. Transcriptomics-2016 revolves around the theme "Transcriptomics: Exploring pathways toward novel research" which is all about simplifying the complex phenomenon behind transcription & protein expression, the ability to get an overall picture of disease transcriptomes & how it provides a clear understanding of the underlying genome which is converted into the functional proteins, patient classification, diagnosis, and individualized treatment.

Why to attend?

Transcriptomics research provides a profitable business opportunity to several pharmaceutical and biotech companies as these technologies have wide application areas such as drug discovery and research followed by clinical diagnosis of various disorders. With the arrival of advanced technological platforms, it creates a need for effective bioinformatics tools and services in order to manage and analyse huge amount of data released from these technologies. With this view, the scientific sessions for the conference have been designed which paves a way to gather visionaries through the research talks and presentations and put forward many thought provoking information and therapeutic techniques related to Transcriptomics. Thus, it’s a great opportunity to concrete your ideas and meet the experts from across the world. 

Transcriptomics-2017 mainly focusses on the universities, institutes, research centres and major societies along with companies which hold a big market in transcriptome technologies. Target audience invloves students, faculties, researchers, scientists, dean, directors and CEO's of the companies.

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

Our Conference will provide a perfect platform addressing:

·         Laudable talks by the top-notch of the global scientific community

·         Sterling workshop sessions

·         Remarkable Awards and Global Recognition to meritorious Researchers

·         Global Networking with 50+ Countries

·         Novel Techniques to Benefit Your Research

·         Global Business and Networking Opportunities

·         Exquisite Platform for showcasing your products and International Sponsorship

See more at: conference

About Bangkok:

Bangkok is the capital of Thailand most popularly known as City of Angels. . It is an international hub for transport and healthcare and has come into view as a regional centre for the arts, fashion and entertainment.

Bangkok is also home to a handful of biotechnology, pharmaceutical and medical device companies. Agrobiomate, Asia Medical and Agricultural Laboratory and Research Center, Better Pharma, Research and Development Center Betagro Group, Biomed Diagnostics (Thailand), BioNet-Asia, CDIP (Thailand), COX Laboratories (Thailand), Greater Pharma are the name of the few Companies which are located in the city of Bangkok. The city is also leading in higher education as majority of country’s private and public Universities are located in Bangkok. Chulalongkorn and Mahidol are the only Thai universities to appear in the top 500 of the QS World University Rankings. Over the past two decades, the biotechnology industry has been a strong pillar in Thailand’s national development plan, transforming Thailand into a knowledge-based and high value-added economy. Earning the reputation as the medical hub of Asia, a global leader in agriculture and one of the top five food exporters in the world, the Kingdom demonstrates strong competency in taking biotechnology further ahead, as well as raising the competitiveness and self-reliance of the country in the coming years.

The capital is rich in historical and cultural attractions which cannot be found in other parts of the World and attracting several tourists from all around the globe every year. It is a gateway for relaxing, sightseeing and shopping for most travellers.

See more at:


3rd International Conference on Transcriptomics

(Theme: Transcriptomics: Exploring pathways toward novel research)

About the Conference:

After the splendid success of the “2nd International Conference on Transcriptomics” held at Philadelphia, USA during September 12-14, 2016 we welcome all the eminent researchers, students, scientists, CEO’s, directors, presenters and exhibitors from all over the world to Bangkok, Thailand. We are delighted to invite you all to attend and register for the “3rd  International Conference on Transcriptomics”, which is going to be held during October 30- November 01, 2017 at Bangkok, Thailand.

The organizing committee is gearing up for an exciting and informative conference program including plenary lectures, symposia, workshops on a variety of topics, poster presentations and various programs for participants from all over the world.

We invite you to join us at Transcriptomics-2017, where you will be sure to have a meaningful experience with scholars from around the world. All members of the Transcriptomics-2017 organizing committee look forward to meeting you in Thailand.

For more details please visit-

Importance & Scope:

Transcriptomics studies involve the collection and analysis of Transcriptome of different types of cells or tissues of organism. It encourages researchers to understand transcriptional activity in disease caused. Transcriptomics research provides a profitable business opportunity to several pharmaceutical and biotech companies as these technologies have wide application areas such as drug discovery and research followed by clinical diagnosis of various disorders. With the arrival of advanced technological platforms, it creates a need for effective bioinformatics tools and services in order to manage and analyse huge amount of data released from these technologies.

Transcriptomics mainly focusses on the Universities, Institutes and Major Societies but even it also covers the big market in Transcriptome technology. So we can say that Transcriptomics is the topic to be focused equally on both: Academia as well as Business. It would be beneficial for all the researchers/students who really want their ideas to be implemented practically. Even those scientists who are willing to get some business for their research, this conference are a major platform. According to the theme, conference mainly focusses on Transcriptome analysis, Next Generation Sequencing and treatment of major sequence related disorders like Cancer & other Neurological Disorders. It also covers the same for microorganisms like Bacteria, Algae, Fungi and Plants.

Why Bangkok?

Thailand government is keeping full effort towards advancement in Biotechnology Research. Over the next decade, it is being expected that there will be significant  increase biotechnology’s research and development and their budget is from the current 0.25 % to 2 % of GDP through Thailand Research Organizations Network (TRON) including: the Health Systems Research Institute(HSRI), the Agricultural  Research Development Agency (Public Organization)(ARDA), the National Science and  Technology Development Agency (NSTDA), the Thailand Research Fund (TRF), the National Science Technology and Innovation Policy Office (STI), the National Research Council of Thailand (NRCT) and the Higher Education Commission Office (MUA).The National Science Technology and Innovation Policy Office estimates that by end of 2016 Thailand must groom at least 4,000 new PhDs for science and technology research professions, 800 specializing in biotechnology’s four strategic sectors: 270 for food and agriculture, 200 for medicine and health, 150 for bioenergy and 180 for bio-based industry. Thailand has already benefited from the successful use of animal biotechnology to breed disease resistant prawns estimated to have saved the economy over $1 billion. By 2021, there will be 20% increase in Community Income, 50% of chemical-based industry will be converted to bio-based production and 50: 50 public-private biotechnology investment partnership.          

Conference Highlights:

·        Transcriptome analysis and Gene Expression

·        RNA Editing and RNA Interference: Interplay

·        Next Generation Sequencing (NGS) Technologies

·        Transcriptomics and Proteomics of Microorganisms

·        Transcriptomics and Proteomics of Plants

·        Single Cell Transcriptomics

·        Relation with OMICS Sciences: Genomics, Proteomics and Metabolomics

·        Expression Profiling

·        Cancer Transcriptomics: Integrative And Computational Approaches

·        Epigenetics

·        Transcriptional Regulation and Attenuation

Why to attend???

Meet your target audience with members from around the world focused on learning about Transcriptome analysis and research; this is your single best opportunity to reach the largest assemblage of participants from the scientific community. Conduct demonstrations, distribute information, meet with current and potential customers, and make a splash with a new product line, and receive name recognition at this 3-day event. World-renowned speakers, the most recent techniques, tactics, and the newest updates in Transcriptomics growing market are hallmarks of this conference.

Be Part of it!

• This conference focusing on all the major aspects in the fields of Transcriptomics.

• It would be beneficial for all the students who ever willing to enter into research to the respective fields.

• As bringing the major research to the market and making it to utility are major focus for all the companies, this conference would be opportunity for the people in the respective fields.

Societies associated with Transcriptomics Research:

Genetics Society of Thailand
The Asia Pacific Society of Human Genetics
Thai Society for Biotechnology
Asia Reproductive Biotechnology Society

Federation of Asian Biotech Association

The Science Society of Thailand

Horticulture Science Society of Thailand

Protein Society of Thailand

Companies associated with Transcriptomics Research

Agrobiomate Co., Ltd.

Asia Medical and Agricultural Laboratory and Research Center Co., Ltd.

Better Pharma Co., Ltd.

Research and Development Center Betagro Group

Biomed Diagnostics (Thailand) Co., Ltd.

BioNet-Asia Co., Ltd.

CDIP (Thailand) Co., Ltd.

COX Laboratories (Thailand) Co., Ltd

Greater Pharma Co., Ltd

JSP Pharmaceutical Manufactory (Thailand) Co., Ltd.

KEEEN Co., Ltd

Siam Bioscience Co., Ltd.

Target Audience:

·        Professors

·        Scientists

·        Students

·        CEO, Directors of the companies.

·        Exhibitors

Target Audience:

Academia      50%

Industry        40%

Others          10%


Top Universities in Bangkok

Kasetsart University

Mahidol University

Chulalongkorn University
Chiang Mai University
Khon Kaen University
Assumption University
Thammasat University
Prince of Songkla University
Naresuan University
King Mongkut's University of Technology
Suranaree University of Technology
Ramkhamhaeng University
Rangsit University
Burapha University





Conference Series LLC invites all the participants from all over the world to attend the “3rd  International Conference on Transcriptomics” during October 30- November 012016 at Bangkok, Thailand which includes prompt keynote presentations, Oral talks, Poster presentations and Exhibitions.

Transcriptomics-2017 mainly emphasizes on the topics like RNA-Seq, Oncogenomics, Cancer Transcriptomics, RNA editing, RNA interferance, Non-coding RNA, DNA Methylation, DNA Sequence, Molecular Cell, Molecular Cell Biology, Transcriptomics related with Replication and Reproduction, Plant transcriptomics, Bacterial transcriptomics, Viral Transcriptomics, Fungal Transcriptome, Riboswitch, trp operon, Neurological Disorders, and Transcriptional Attenuation.

Track Description:

Track 1: Transcriptome Analysis & Gene Expression

For an International conference on Transcriptomics, an overview on Transcriptome analysis and Gene Expression is the first and the essential most 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 should know the basics knowledge of how the central dogma works. This can be achieved by gaining proper knowledge about functioning of mRNA, tRNA and rRNA. Gene expression analysis experiments 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 absence of the reference genome, transcriptome can be created using  de novo Transcriptome assembly method. Globally around thousands of Universities and institutes are carrying research on gene expression and transcriptome analysis. Being specific are the University of Leeds, Case Western Reserve University, Arizona State University, Tempe. Institutes like The Genome Institute – St. Louis, Missouri and NIH - National Human Genome Research Institute are working tremendously towards the same where researchers are having a database of over 40,000 gene sequences that they can use for this purpose.

Track 2:  RNA Editing & Interference: Interplay

RNA editing is a molecular process through which some cells can make discrete changes to specific nucleotide sequences within a RNA molecule after it has been generated by RNA polymerase. RNA editing has been observed in the RNA sequence and analysis of viruses, archaea and prokaryotes. RNA editing occurs in the cell nucleus and cytosol, as well as within mitochondria and plastids. In vertebrates, editing is rare and usually consists of a small number of changes to the sequence of affected molecules. Two types of small ribonucleic acid (RNA) molecules – microRNA (miRNA) and small interfering RNA (siRNA) – are central to RNA interference. The study of RNA interference incudes its cellular mechanisms, variation among organisms, biological functions like immunity, down regulation of genes, up regulation of genes and its applications in Gene knockdown, Structural and Functional genomics, medicine and biotechnology. The University of Albany situated at New York is rigorously involved towards all the novel research on RNA. The RNA Institute maintained by Paul Agris (University at Albany) is the best known platform for carrying out RNA analysis. Added to that, The RNA Society formed in 1993 facilitates sharing and dissemination of experimental results and emerging concepts in ribonucleic acid research.

Track 3: Next Generation Sequencing(NGS) Technologies

Next Generation Sequencing (NGS) Technologies enable a wide variety of methods, allowing researchers to ask virtually any question related to genome, Transcriptome,  or epigenome of any organism. Sequencing methods differ primarily by how the DNA or RNA samples are obtained and by the data analysis used. The numbers of methods is constantly growing. The most common are small RNA-Seq: Whole Transcriptome Shotgun Sequencing, Exome Sequencing, De Novo Full-Length Transcriptome data Analysis and Hybrid Sequencing Approach. Various NGS platforms in the market such as Illumina, SOLiD, and Roche, offer unprecedented ability to apply massively parallel sequencing of transcriptomics (RNA) and genomic (DNA) samples to understand disease and health. The enormous Differential Splicing and RNA Sequencing and analysis Data pose a fundamental problem of management and analysis. Various data analysis solutions eliminate the next-generation sequencing data management. ABRF Next-Generation Sequencing (ABRF-NGS) is the most effective technique for accurate sequencing data. For Ribonucleic acid, Single-cell RNA sequencing (scRNA-seq) is carried out which examines the RNA sequence information from individual cells with optimized next generation sequencing (NGS) technologies, providing a higher resolution of cellular differences and a better understanding of the function of an individual cell in the context of its microenvironment.

Track 4: Transcriptomics & Proteomics in Microorganisms

Transcriptomics and Proteomics of Microorganisms describe the roles of transcriptome and proteome in all the microorganisms like bacteria, fungi and viruses. To understand the phenomenon behind a viral infection, the proteins involved and their expression should be known which can be discovered by Transcriptomic and Proteomic Profiling of Viruses. The second section involves fungi and their metabolic changes. A wide variety of fungi have demonstrated the ability to colonize surfaces and form biofilms. This is a major concern requiring knowledge of the biofilm mechanisms which can be fulfilled by the transcriptomic and proteomic analysis of bacterial and fungal biofilms. To analyse complex bacterial flora, Large scale Analysis of Complex Bacterial Communities is performed. This large-scale cloning and sequencing of 16Srna involved in protein expression.

The National Science Foundation Offers awards and funding opportunities in the research and thus so named where discoveries begin.

Track 5: Transcriptomics & Proteomics in Plants

Data emanating from RNA Sequencing and analysis studies have greatly improved the coverage of Transcriptomics and Proteomics of Plants. This technology further compounded transcriptome analysis by making it possible to identify differentially spliced transcripts etc. In the research, either microarray or RNAseq based datasets is used for Transcriptome Analysis of Agricultural Plants. These datasets are stored as Transcriptome sequence Databases. To clarify the phylogeny of green plants, sequences from the plastid genome are used which is termed as Plant Phylogenomics

Proteomics of Plant Study has been a major boon for many companies, to name a few being Accelrys, ActivX Biosciences, Beyond Genomics, Biomax Informatics AG and Biovation. The research as gained a lot of applications in industry have gained up as a major study in too in top schools as of International Plant Proteomics Organization, Murdoch University, University of Nottingham, University of Salford Manchester and University Of Nebraska–Lincoln.

Track 6: Single Cell Transcriptomics

Single-cell protein (SCP) typically refers to sources of mixed protein extracted from pure or mixed cultures of algae, yeasts, fungi  or bacteria (grown on agricultural wastes) used as a substitute for protein-rich foods, in human and animal feeds. The study of this single cell on molecular basis is done by Single-cell Genomics which involves different tools and techniques. Single cell sequencing involves Transcription of Cells, after which it examines the sequence information from individual cells with optimized next generation sequencing (NGS) technologies like Single-cell RNA Sequencing(scRNA-seq), providing a higher resolution of cellular differences and a better understanding of the function of an individual cell in the context of its microenvironment.

Track 7: Relation with OMICS Sciences

Genomics, Proteomics and Bioinformatics are all from the field of OMICS sciences, which revolve around Transcriptomics. Disruptions or changes at any step of gene expression are responsible for many genetic diseases. Through the use of Genome Analysis and Microarrays scientists can determine – in a single experiment – the expression levels of hundreds or thousands of genes within a cell. All these genome sequence data can be recalled Big Data Mining. Other field of genomics related to sequence analysis is Functional Genomics, Computational Genetics, Comparative Genomics, Translational Genomics, and Evolutionary Genomics.

Molecular evidence from a sequence-based application is a main agenda in Plant Genomics and Microbial Genomics. For a higher resolution of cellular differences and a better understanding of the function of an individual cell in the context of its microenvironment, Single Cell Genome sequencing is done which examines the sequence information from individual cells with optimized next generation sequencing (NGS) technologies. For more information about the products (proteins) of these cells, it is mandatory to understand the mechanism involved in their transcription and translation. In that case Proteomics of Transcription Machinery, proving itself helpful in explaining the expression of proteins by through ribosome in a Single cell. Coming to the Bioinformatics, the major breakthrough involves Drug designing and Drug Discovery, making the entire process more fast at quite low cost.

Genomic labs have the fastest growing market with nearly 250 universities concentrating on its research majorly to be named Whitetail Genetic Research Institute, Stanford University, National Human Genome Research Institute. Major companies concentrating on the research are Affymetrix, Applied Biosystems, Foster City, and Genentech etc.  Drug Discovery research has the major growing market with applications in pharmaceuticals and medicine and thus major companies like Bristol-Myers Squibb Company, Isis Pharmaceuticals, Inc. , Merck & Co. Inc. and Johnson & Johnson focusing on the growing industry.

 Track 8: Expression Profiling

Gene expression profiling simultaneously compares the expression levels of many genes between two or more sample types. This analysis can help scientists identify the molecular basis for phenotypic differences and select gene expression targets for in-depth study using other technologies. Gene expression profiling provides valuable insight into the role of differential gene expression in normal biological and disease processes. There are many techniques used for gene expression profiling. One of the major techniques for expression profiling includes Measuring Relative Activity by SAGE and Super SAGE, where SAGE stands for serial analysis of gene expression technology for the analysis of expressed genes.  The other technique includes Genome annotationwhich provides functional and other information, for example the location of each gene within a particular chromosome. Some functional annotations are more reliable than others; some are absent. Gene annotation databases change regularly, and various databases refer to the same protein by different names, reflecting a changing understanding of protein function. Having identified some set of regulated genes, the next step in expression profiling involves looking for patterns within the regulated set for categorizing regulated genes. This can be done by finding similarities between the functioning of the proteins produced from different cell. Further categorization is done on the basis of relationship between two genes and their products by finding patterns among regulated genes. This is analysed by the fact that what these regulated genes actually are and what they do. Compared to Proteomics, the human genome contains on the order of 25,000 genes which work in concert to produce on the order of 1,000,000 distinct proteins. Knowledge of the precise proteins a cell makes, is more relevant than knowing how much messenger RNA is made from each gene, gene expression profiling provides the most global picture possible in a single experiment.

Gene Expression profiling has a growing research being utilized by major companies like Wafergen Biosystems, Afymetrix, SBI, Luminex, Asper Biotech, Genentech San Francisco to name a few. The research has been supported as a course by more than 470 universities and gains international funding too.

Track 9: Cancer Transcriptomics: Integrative & Computational Approaches

Oncogenomics is a relatively new sub-field of genomics that applies high throughput technologies to characterize genes associated with cancer. The study involves the research in to the Bioinformatics and functional analysis of oncogenes, which refers to the gene that has the potential to cause cancer. In tumor cells, they are often mutated or expressed at high levels.

Cancer genome sequencing requires the development of new techniques utilizing Genomics and bioinformatics tools for target assessment, including both experimental protocols and data analysis algorithms, to enable a deeper understanding of complex biological systems. Databases for Cancer Research have been developed which primarily study the Mutations in Mitochondrial DNA and Cancer to come up with effective and informative databases.   It involves the development of Tools for integrative meta-analysis, 3c-based data integration and application of Networks and OMICS data, mathematical modeling and computational simulation techniques to the study of Integrative eqtl-based analyses, High performance genomics data visualization and Laboratory information management system to come up with Potential Diagnostic Applications. 

Computational Genomics research has grown after the increased research in Genomics with major universities like Iowa State University, University Of California, and The George Washington University Concentrating on the growing topic. The Bisti Consortium has even launched the NIH and Government Programs and Initiatives in Biomedical Informatics and Computational Biology (BICB) with a list of programs concentrating on Computational Biology Research.

Track 10: Epigenetics

Epigenetic modulation of gene expression is responsible for tissue specific and temporal changes across growth and development. The most widely studied of these epigenetic modifications is DNA methylation of 5-methylcytosine at CpG dinucleotides and histone modification. This DNA methylation can be caused by small factors like smoking tobaccos. Aberrations of DNA methylation are associated with a range of diseases, including imprinting disorders and cancer. Recent advances in technologies have made it possible to study the epigenetic changes associated with these diseases using robust genome-wide technologies including the Infinium HumanMethylation450 BeadChip (henceforward denoted the 450 k array; These intensities are then used to calculate DNA methylation levels, with advantageous throughput, cost, coverage and technical consistency. Gene silencing is also used for epigenetic regulation of gene expression. To study the modification on the genetic material of the cell called epigenome, Epigenomics comes into action. For all aspects of epigenetic principles and mechanisms in relation to human disease like diabetes and cancer, diagnosis and therapy Clinical Epigenetics is taken into consideration. It focuses on Clinical trials and research in disease model organisms. Currently, Pfizer is a major company carrying its research and development on Epigenetics.

Ulrich Mahlknecht is currently a Professor of medicine at the University of Heidelberg, and Head of the Department of Hematology/Oncology at St. Lukas Clinic in Solingen, Germany. His research focuses on novel targeted immunological and epigenetic concepts in the treatment of solid tumors and hematological malignancies.

Track 11: Transcriptional Regulation & Attenuation

Transcriptional Regulation and Transcriptional Attenuation deals with Regulation of Transcription by which a cell regulates the conversion of DNA to RNA and attenuation which is a regulatory feature causing premature termination of transcription. There are various classes of attenuators according to the type of molecule which induces the change in RNA structure. It can be a Small-Molecule-Mediated Attenuation: Introduction to Riboswitches, in which Riboswitch sequences (in the mRNA leader transcript) bind micro and macro molecules, which cause a conformational change in the mRNA. The other type of attenuation includes Protein-Mediated Attenuation and Ribosome-Mediated Attenuation. This phenomenon of transcriptional attenuation is most prominent in the trp Operon found throughout Archaea and Bacteria.

Major Universities as of University of Southampton, University of Utah, MBL, University Of Colorado Boulder, University of Manitoba and University of Michigan have bought up courses dealing exclusively with Transcriptome Regulation and Attenuation encouraging and attracting specific research worldwide. The topic attracts major research funding too from INRA, NIH, Laboratory of Genome Regulation and Universitat Pompeu Fabra to name a few.


Transcriptomics 2016

2nd International Conference on Transcriptomics was held during September 12-14, 2016 at Double Tree by Hilton Philadelphia Airport, Pennsylvania, USA. The conference was marked with the attendance of Editorial Board Members of supported Journal of Transcriptomics, Scientists, young and brilliant researchers, business delegates and talented student communities representing more than 25 countries, who made this conference fruitful and productive.

This conference was based on the theme “Cutting Edge Transcriptome Analysis through Uber Sequencing Techniques” which included the following scientific tracks:  

·         Transcriptome analysis and Gene Expression

·         RNA Editing and RNA Interference: Interplay

·         NGS Technologies

·         Disease Applications of RNA-Seq

·         Human Transcriptomics

·         Transcriptomics & Proteomics in Microorganisms

·         Transcriptomics & Proteomics in Plants

·         Single Cell Transcriptomics

·         Relation with OMICS Sciences

·         Cancer Transcriptomics: Integrative & Computational Approaches     

·         Epigenetics

·         Transcriptional Regulation & Attenuation

·         Clinical Applications & Related Disorders

·         Transcriptome Technologies Market

.         Transcriptomics Case Reports

.         Transcriptomics and Mass Spectrometry

.         Ocular Transcriptomics

Transcriptomics-2016 was moderated by Dr. Andrew Grimson ( Cornell University, USA) on Day-1, Dr. Julie Secombe (Einstein College of Medicine, USA) on Day-2 .

We are thankful to our below Honourable guests for their generous support and suggestions.

Dr. Henry M Sobell –  University of Rochester, USA

Dr. Jun Zhu – Zhejiang University, China

Dr. Lyudmila Gulyaeva – Russia Novosibirsk State University, Russia

The conference proceedings were carried out through various Scientific-sessions and plenary lectures, of which the following topics were highlighted as Keynote-presentations:

The centers of premeltons signal the beginning and ends of genes Henry M Sobell , University of Rochester, USA

Microbiome functions identified by the metatranscriptome David L Perkins, University of Illinois at Chicago, USA

Mixed linear model approaches of association mapping for complex traits based on omics variants Jun Zhu, Zhejiang University, China

MicroRNA expression profile in breast cancerLyudmila Gulyaeva, Russian Novosibirsk State University, Russia

Various sessions were chaired and co-chaired by:

Henry M Sobell, University of Rochester, USA
Lyudmila Gulyaeva, Russian Novosibirsk State University, Russia
Andrew Grimson, Cornell University, USA
Michael Abend , Bundeswehr Institute of Radiobology, Germany

Conference Series LLC has taken the privilege of felicitating Transcriptomics-2016 Organizing Committee, Editorial Board Members and Keynote Speakers who supported for the success of this event.The esteemed guests, Keynote speakers, well-known researchers and delegates shared their innovative research and vast experience through their fabulous presentations at the podium of grand Transcriptomics-2016. We are glad to inform that all accepted abstracts for the conference have been published in Journal of Transcriptomics: Open Access, as a special issue.

We are also obliged to various delegate experts, company representatives and other eminent personalities who supported the conference by facilitating active discussion forums. We sincerely thank the Organizing Committee Members for their gracious presence, support, and assistance. With the unique feedback from the conference, Conference Series LLC would like to announce the commencement of the "3rd International Conference on Transcriptomics" to be held during October 30-November 02, 2017 at Bangkok, Thailand.





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