Research Conference

KAUST Research Conference 2019: New Trends in Biosensors and Bioelectronics

Monday, February 25, 2019, 07:00
- 23:00
King Abdullah University of Science and Technology (KAUST)
Contact Person
Khaled Salama
The “KAUST Research Conference on New Trends in Biosensors and Bioelectronics” aims to give an overview of the most recent efforts in bioelectronics that tackle the “interface” problem and overcome the limits of the current technologies by generating new materials/architectures/device components. With its truly interdisciplinary nature, this conference will bring scientists from different disciplines together.
PhD Dissertation Defense

Semantic Prioritization of Novel Causative Genomic Variants in Mendelian and Oligogenic Diseases

Tuesday, February 05, 2019, 14:00
- 17:00
Building 9, Room 4223
Contact Person
Imane Boudellioua

Abstract

Recent advances in Next Generation

PhD Dissertation Defense

Biomedical Signal Processing using the Squared Eigenfunctions of the Schrödinger Operator and Machine Learning

Thursday, January 24, 2019, 13:00
- 15:00
Building: 1 Level: 4 Room: 4214
Contact Person
Abderrazak Chahid

Abstract

The health of a human body is monit

Seminar

Exploring Protein-Protein Interactions with MEGADOCK: Parallelization, Application, and Open Database

Masahito Ohue Department of Computer Science, School of Computing, Tokyo Institute of Technology, Japan
Tuesday, November 27, 2018, 10:00
- 11:00
Building 3, Level 5, Room 5220
Contact Person
Gianluca Setti

Abstract

Protein-protein interaction (PPI) p

Seminar

AI4GH - Computational Modeling of Malaria Metabolism Reveals Different Stages and Species Nutrient Preferences and Drug Targets

Sunday, November 25, 2018, 12:00
- 13:00
Building 2, Room 5220
Contact Person
Alyaa M Mohamed
Malaria kills nearly one-half million people a year and over 1 billion people are at risk of becoming infected by the parasite. Plasmodial infections are difficult to treat for a myriad of reasons, but the ability of the organism to remain latent in hosts and the complex life cycles greatly contributed to the difficulty in treat malaria.
Seminar

AI4GH - Vector Representation of Biological Entities Based on Ontologies and Their Annotations

Sunday, November 18, 2018, 12:00
- 13:00
Building 2, Room 5220
Contact Person
Fatima Zohra Smaili
Biological knowledge is widely represented in the form of ontology-based annotations: ontologies describe the phenomena assumed to exist within a domain, and the annotations associate a biological entity with a set of phenomena within the domain.
Seminar

AI4GH Seminar Series - Towards Rational Design of Biosynthesis Pathways

Sunday, November 11, 2018, 12:00
- 13:00
Building 2 Room 5220
Contact Person
Meshari Alazmi
Recent advances in genome editing and metabolic engineering enabled a precise construction of de novo biosynthesis pathways for high-value natural products. One important design decision to make for the engineering of heterologous biosynthesis systems is concerned with which foreign metabolic genes to introduce into a given host organism.
Seminar

AI4GH Seminar Series - Genome-scale Regression Analysis Reveals a Linear Relationship for Promoters and Enhancers After Combinatorial Drug Treatment

Wednesday, November 07, 2018, 12:00
- 13:00
Building 2 Room 5220
Contact Person
Robert Hoehndorf
Drug combination therapy for the treatment of cancers and other multifactorial diseases has the potential of increasing the therapeutic effect while reducing the likelihood of drug resistance. In order to reduce the time and cost spent on comprehensive screens, methods are needed which can model additive effects of possible drug combinations.
Master Thesis Defense

Variant Prioritization in Cancer: Understanding and Prediction of Cancer Driver Genes and Mutations

Monday, November 05, 2018, 10:30
- 12:30
Building 3, Room 5209
Contact Person
Sara Althubaiti

Abstract

Sequencing has identified millions

Seminar

Electrocatalytic and Photoelectrochemical Conversion of Energy and Fuels and Storing Solar Energy in Solar Flow Batteries

Professor Song Jin, University of Wisconsin-Madison
Sunday, November 04, 2018, 14:00
- 15:00
Building 2, Level 5, Room 5220
Contact Person
Gianluca Setti

Due to the intermittent nature of most renewable energy sources (such as solar and wind), practical large sc

PhD Dissertation Defense

Contributions to Computational Methods for Association Extraction from Biomedical Data: Applications to Text Mining and In Silico Toxicology

Thursday, November 01, 2018, 11:00
- 13:00
Building 2, Level 5, room 5220
Contact Person
Arwa Bin Raies

Abstract

The task of association extraction

PhD Dissertation Defense

Towards rational design of biosynthesis pathways

Wednesday, October 24, 2018, 17:00
- 18:30
Building3, Room 5209
Contact Person
Meshari Alazmi
Recent advances in genome editing and metabolic engineering enabled a precise construction of de novo biosynthesis pathways for high-value natural products. One important design decision to make for the engineering of heterologous biosynthesis systems is concerned with which foreign metabolic genes to introduce into a given host organism.
Graduate Seminar

Hihooi: Fusing Workload Scalability with Strong Consistency for Transactional Databases

Michael Sirivianos, Assistant Professor of Computer Engineering, Cyprus University of Technology
Monday, October 22, 2018, 11:45
- 13:00
B9 Lecture Hall 1
Contact Person
Marco Canini

With the advent of the Internet and Internet-connected devices, modern business applications can experience

Seminar

EE Seminar: AMMONO-GaN: ultimate substrate solution for energy saving GaN power electronics

Dr. Robert Dwiliński (University of Warsaw, Poland)
Wednesday, October 10, 2018, 15:00
- 16:00
B3 L5 R5220
Contact Person
Kazuhiro Ohkawa
Bulk gallium nitride (GaN) crystals are regarded as the most promising candidates for substrates for optoelectronic, high power and high frequency electronic devices. After dacedes of extensive research on a numer of methods incluging HNPS, HVPE and Flux - ammonothermal (AMMONO) method of bulk GaN growth offers the best combination of crystal quality and size, within foreseen scalability able to meet huge demands of lighting and power electronic markets. Developed as analogy of hydrothermal method commonly used for multi-ton production of synthetic quartz, AMMONO method currently provides 2-inch crystals of excellent structural properties and wide spectrum of electrical parameters.