Abiotic Stress

Environmental (abiotic) stress is the most important limiting factor in crop productivity. This master course aims to broaden the student’s horizon in abiotic-stress biology and to gain the latest insights into the molecular mechanisms by which plants perceive such stress signals, how they are transduced, and how stress signals are eventually converted into intracellular responses

Bioinformatics, Data Analysis

De ontwikkeling van steeds nieuwe en betere high-throughput assay technologieën transformeert de moleculaire biologie in een razendsnel tempo. Sequencing van volledige genomen en de mogelijkheid om RNA, eiwitten, metabolieten en hun interacties op grote schaal (genoom-breed) te meten brengen een revolutie teweeg in biologisch onderzoek. Voor het eerst komen verschillende soorten data kwantitatief beschikbaar, en

Advanced Omics: from Single-Cell to Meta-Omics Approaches

Omics technologies have revolutionized our ways of looking at the relationship between genotype and phenotype of living organisms. Those technologies are nowadays widely applied to many organisms (bacteria, plants, animals, human). Yet for many years researchers have been looking only at average effects by analysing bulk samples. Recently, single-cell analyses have become available for many

Data Science Ethics Colloquium Series

Ethical and legal considerations are essential to many applications of data science. This colloquium series is intended to make the students aware of such considerations and to give them the vocabulary to discuss those matters with experts of legal and ethical aspects. Furthermore, the colloquium will enable students to develop an understanding of professional integrity

Introduction Plant Sciences

This course is intended for first year students of the bachelor Plant Sciences. It is an introduction into the broad field of plant sciences. The students will become acquainted with agronomy, horticulture, biointeractions, plant breeding, botany and plant taxonomy. The course is divided in modules that each introduce a plant sciences discipline. For each module

Applied Plant Biology 

This course consists of 4 modules. Information/insights obtained within previous modules will be implemented in later ones. Module 1: Masterclasses by guest-lecturers from the green sector; academia, industry, finance and (semi)governmental organizations. Teaching/learning format: Lectures + discussion, writing assignment Module 2: Identifying current challenges in applied molecular Plant biology. Teaching/learning format: Project presentation + discussion

Plant-Environment Interactions

General lectures on plant-environment interactions will set the stage for an advanced-level course on how plants adjust to their environmental factors. The case studies discussed in this interactive course include drought, temperature, salinity, flooding, and nutrient stresses. Students will independently study the latest developments in plant responses and plasticity towards variations in their environment. The

Introduction to Machine Learning 2

In this course we continue with discussing machine learning models and algorithms. While the focus in Introduction to Machine Learning 1 was on programming basic models yourself, in this course we will make more use of libraries for the elementary parts and the focus will mainly be on how to combine these parts into more

Plants and Micro Organisms

De cursus bestaat uit twee delen: planten en micro-organismen. In het plantendeel worden drie thema’s behandeld. Je bestudeert fotosynthesemechanismen (C3, C4, CAM), de invloed van interne en externe milieufactoren, en de rol van fotosynthese, ademhaling en morfologie in de koolstofbalans. Daarna verdiep je je in water- en nutriëntentransport (xyleem, floëem, transpiratie, wortelstructuur, rhizosfeer, exudaten, biotische

Bioinformatics, Data Analysis

De ontwikkeling van steeds nieuwe en betere high-throughput assay technologieën transformeert de moleculaire biologie in een razendsnel tempo. Sequencing van volledige genomen en de mogelijkheid om RNA, eiwitten, metabolieten en hun interacties op grote schaal (genoom-breed) te meten brengen een revolutie teweeg in biologisch onderzoek. Voor het eerst komen verschillende soorten data kwantitatief beschikbaar, en