Dynamischer Default-Fachbereich geändert auf MAT

Module MAT-BIO-M2-M-2

Structures and Functions of Plants (for Mathematics Students) (M, 6.0 LP)

Module Identification

Module Number	Module Name	CP (Effort)
MAT-BIO-M2-M-2	Structures and Functions of Plants (for Mathematics Students)	6.0 CP (180 h)

Basedata

CP, Effort	6.0 CP = 180 h
Position of the semester	1 Sem. in WiSe
Level	[2] Bachelor (Fundamentals)
Language	[DE] German
Module Manager	Lossen, Christoph, Dr. habil. (WMA \| DEPT: MAT)
Lecturers	Briegel-Williams, Laura, Dr. (WMA \| DEPT: BIO) Herrmann, Johannes, Prof. Dr. (PROF \| DEPT: BIO) Kunz, Natalie, Dipl.-Biol. (WMA \| DEPT: BIO) Wirth, Rainer, Dr. (WMA \| DEPT: BIO)
Area of study	[MAT-NF] Special Offers for Subsidiary Topics in Math Programmes
Reference course of study	[MAT-82.105-SG] B.Sc. Mathematics
Livecycle-State	[NORM] Active

Notice

This module is part of the module [BIO-M2-M-2] Modul 2: Strukturen und Funktionen der Pflanzen.

Courses

Type/SWS	Course Number	Title	Choice in Module-Part	Presence-Time / Self-Study		SL	SL is required for exa.	PL	CP	Sem.
2V	BIO-ZBI-07-K-2	Cell Biology 1	P	28 h	62 h	-	-	PL1	3.0	WiSe
2V	BIO-POS-01-K-2	Botany	P	28 h	62 h	-	-	PL2	3.0	WiSe

About [BIO-ZBI-07-K-2]: Title: "Cell Biology 1"; Presence-Time: 28 h; Self-Study: 62 h
About [BIO-POS-01-K-2]: Title: "Botany"; Presence-Time: 28 h; Self-Study: 62 h

Examination achievement PL1

Form of examination: written exam (Klausur) (60-90 Min.)
Examination Frequency: each winter semester

Examination achievement PL2

Form of examination: written exam (Klausur) (60-90 Min.)
Examination Frequency: each winter semester

Evaluation of grades

All partial module examinations have to be passed. The module grade is the arithmetic mean of all partial examination grades.

From [BIO-ZBI-07-K-2] Cell Biology 1:

Einführung, Pro-/Eukaryonten, Evolution der Zelle, Chemische Grundbausteine des Lebens: Kohlenhydrate, Proteine, Lipide und Nukleinsäure;
Membranstruktur – Proteine und Lipide;
Prinzip der zellulären Kompartimentierung, Zytosol, Zellkern, Ribosomen, Proteinsynthese;
Kompartimente des secretory pathway: ER, Golgi, Lysosomen, Endosomen. Sekretion, Endo- und Exozytose;
Formen zellulärer Energie, Energiemetabolismus, Funktion von Enzymen;
Mitochondrien und Chloroplasten;
Proteinfaltung, Proteinmodifikationen, Proteinabbau;
Elemente des Zytoskeletts, Motilität, axonaler Transport;
Zellzyklus, Mitose, Onkogenese, Apoptose;
Methoden der Zellbiologie;
Modellsysteme der Zellbiologie;

From [BIO-POS-01-K-2] Botany:

Evolution der Pflanzenzelle, Endosymbiontentheorie (primäre, sekundäre), Evolution der Landpflanzen, Differenzierung der generativen Entwicklung, Diversität pflanzlicher Organismen, Organisationsstufen der Pflanzen, Struktur und Funktion pflanzlicher Gewebe, Bau und Funktion des Pflanzenkörpers

Competencies / intended learning achievements

This module focuses on the following competences, resp. the following competences can be formulated after successful completion of the module: The students ...

have a secure and structured knowledge of the contents mentioned, they know the relevant technical terms and can apply them correctly;
have the ability to independently analyse plant structures micro- and macroscopically and to classify them in systematic and functional contexts.

Literature

From [BIO-ZBI-07-K-2] Cell Biology 1:

Alberts: Lehrbuch der allgemeinen Zellbiologie

From [BIO-POS-01-K-2] Botany:

Raven et al., Biologie der Pflanzen - de Gruyter
Wanner, Mikroskopisch-Botanisches Praktikum - Georg-Thieme-Verlag
Smith & Smith, Ökologie - Pearson Studium

Materials

Reader und kursbegleitende Kurs-Skripte zum Downloaden auf der Homepage der Abteilung „Pflanzenökologie und Systematik“

Requirements for attendance (informal)

None

Requirements for attendance (formal)