Population dynamics of predator-prey relationships

Predation affects the population dynamics of both the predator and prey population. In this simulation you investigate predator-prey relationships over time and compare your findings with laboratory and field study results.

First work individually. Click the Simulation button in the bottom right corner. Familiarize with the simulation and the variables. Work out a trend that can be observed in the population cycles of predator and prey species and interpret the results if you change different variables.

Then pair up with a partner. Take it in turns to outline your results. Work out general model-based equations and principles of predator-prey relationships over time that can be concluded from the simulation. Eventually, evaluate pros and cons of data obtained in the laboratory, in a field study and in a computer based simulation.

 Weblink: Predator-Prey Simulation (you need to use the Google Chrome browser for this simulation).


DNA Microarray Chips

DNA microarray chips are a technology that can be used to analyze gene expression patterns  and monitor the expression of thousands of genes simultaneously. Here are some brilliant resources for independent learning:

DNA Microarray at the DNA Learning Center

DNA Microarray (with an interactive lab exercise) at Learn Genetics, University of Utah

Using a DNA Microarray at Glencoe Biology online (animation and quiz)

Microarrays at Pearson Microbiology (animation and quiz)


p53: Molecule of the Year – Suggestions for independent learning

In 1993 the protein p53 was awarded Molecule of the Year by the magazine Science. It was the time that scientists began to understand that complex cellular regulation mechanisms control the expression of the human genome. The human protein p53 is 393 amino acids long; the abbreviation stands for p for protein and 53 for it’s molecular mass (53 kilodalton). The protein regulates the cell cycle because it is capable of stopping the cell cycle temporarily to allow the repair of DNA damages. If repair mechanisms fail, p53 induces apoptosis (programmed cell death). This mechanism prevents genetic damage to be passed to further generations.

The main focus of the activities this week is put on a) evaluating the quality of website content and b) biological principles of complex human cell cycle regulation processes.


Research on the biological role of p53. In doing so, find and evaluate the quality of several websites first (Tutorials: in English: Evaluate website content, University of Edinburgh || in German: Bewerten von Internetquellen, Universität Hamburg) and choose two sources for your work.

Create a Concept Map to illustrate the biological role of p53 (tutorial here).Only include new content in your concept map and avoid basic knowledge you’ve already learned about p53 in class.

p53: Maintaining Genome Integrity

The Nobel Prize in Chemistry 2015 was awarded „for mechanistic studies of DNA repair“ (click here for further resources, choose popular information). p53 is a protein that acts as a quality control at the cell cycle’s G1 checkpoint; it can be regarded as one component of the ‚cellular toolbox‘ to maintain a cell’s genome integrity.

These resources are helpful supplements to our classroom activities/ studies:

How Tumor Suppressor Genes Block Cell Division

Control of the Cell Cycle

Cell Proliferation Signaling Pathway (Advanced)


Regulation of Gene Expression II (eukaryotes)

In this sequence, you’re going to work in different groups: exam writers and non-writers. Keep in mind that the objective for the end of this week is a) to describe different methods of pro- and eukaryotic protein synthesis control b) compare how prokaryotes and eukaryotes control protein synthesis.

Exam writers:

You obtain an overview of different methods of eukaryotic protein synthesis control based on the animations and their narratives below. On the side, add new information to your existing overview.

Non writers:

You each focus on one method in detail and can outline one method of eukaryotic protein synthesis control in a presentation.

Time available for independent learning: 30 minutes

Overview: Control of Gene Expression in Eukaryotes 

A Closer Look: Regulated Transcription

A Closer Look:mRNA Processing

A Closer Look: mRNA Splicing


Regulation of Gene Expression I (prokaryotes)

In 1961, French scientists François Jacob and Jacques Monod proposed the existence of messenger RNA and a model of gene regulation in E. coli, the operon model. They determined that the levels of lactose in the cell were linked to the regulation of the galactosidase gene (galactosidase is an enzyme involved in lactose breakdown).

After this independent learning session you’ll be able to compare and explain different gene regulation mechanisms found in prokaryotes.

Compete tasks 1,2 and 4 (last page on the handout) based on the print and online materials.

 This activity is scheduled for 90 minutes classroom time (Wednesday and Thursday) and 1 homework activity.

Virtual Cell Animation: The lac-operon

The lac-operon: Combination of switches.

The trp- repressor


Die Bedrohung von heimischen Eschepopulationen durch eine invasive Pilzart

Ein Beitrag des WDR5 Wissenschaftsmagazins vom 1.6.2016 lautete „Auch die Esche stirbt weg – Aber es gibt Hoffnung“. Auf der Grundlage des Beitrags lässt sich die Arbeit zu ökologischen Auswirkungen invasiver Arten auf lokale Populationen zusammenfassen und vertiefen:

WDR5 Leonardo Podcast vom 1.6.2016 [hier klicken]

Aufgabe: Fasst die zentralen Aussagen der Artikel mit Blick auf die Folgen der biologischen Invasion von Arten auf heimische Ökosysteme stichpunktartig zusammen und tauscht euch anschließend mit einem Partner darüber aus; leitet anschließend gemeinsam auf Grundlage bisheriger Unterrichtsinhalte begründet Folgen für das Ökosystem ab (für Schnelle: diskutiert zusätzlich sinnvolle Maßnahmen zur Stabilisierung der Eschepopulationen und begründet diese aus ökologischer Perspektive).

Partner A (eher allgemein gehaltene Artikel): 

WN – Artikel: Bäumen geht es etwas besser 

Spektrum- Artikel: Der Weltenbaum vergeht

Partner B (Fachartikel): 

Waldwissen: Sorgenkind Esche. Stand der wissenschaftlichen Erkenntnis.

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