Plant-Pathogen Interactions 320-ERS-1PPIL
Field of study: Biology
Level of education: first level of studies
Study profile: general academic Erasmus programme
Form of study: full-time
Type of subject: compulsory subject, major module
English language
Year of study/semester: 2nd year
The field of exact and natural sciences, the discipline of biological sciences
Prerequisites: the student should have knowledge of the basics in plant biology
Number of teaching hours divided into forms of classes: lecture – 10 hours, laboratory – 15 hours.
Didactic methods: lecture, laboratory exercises, discussion, consultations.
ECTS points: 5
Student workload balance: total student workload: 50 hours including: participation in lectures: 10 hours; participation in laboratory classes: 15 hours; preparation for classes, tests, exams: 22 hours; participation in consultations, tests, exam: 3 hours.
Quantitative indicators:
student workload related to classes requiring direct teacher participation 28 hours. student workload related to practical classes: 15 hrs
% of student's own work hours 44
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W cyklu 2024:
Field of study: Biology |
Rodzaj przedmiotu
Tryb prowadzenia przedmiotu
Założenia (opisowo)
Koordynatorzy przedmiotu
Efekty kształcenia
Student describes and explains complexity of plant interactions with biotic environmenta factors taking place in plant cells.
KA6_WG2, KA6_WG3, KA6_WG6
Kryteria oceniania
Forms and conditions of credit:
- Reports form laboratory part
- Attendance
- Essay on chosen topic
Literatura
Literature:
Matthew Dickinson, Molecular Plant Pathology, 2003, BIOS Scientific Publication, Taylor and Francis Group
Kumar Sanjeev, Plant Pathogens and Principles of Plant Pathology, 2015, New India Publishing Agency- NIPA
Jeremy J. Burdon, Anna-Liisa Laine, Evolutionary Dynamics of Plant-Pathogen Interactions, 2019, Cambridge University Press
Original and review papers publish in plant biology journals such as Plant Cell, Plant Physiology,, New Phytologist, Plants etc.
Substantial papers
1.Macioszek VK, Sobczak M, Skoczowski A, Oliwa J, Michlewska S., Gapińska M, Ciereszko I, Kononowicz AK. 2021. The Effect of Photoperiod on Necrosis Development, Photosynthetic Efficiency and 'Green Islands' Formation in Brassica juncea Infected with Alternaria brassicicola. INTERNATIONAL JOURNAL OF MOLECULAR SCIENCES 22(16), 8435; https://doi.org/10.3390/ijms22168435
2. Macioszek VK, Gapińska M, Zmienko A, Sobczak M, Skoczowski A, Oliwa J, Kononowicz AK. 2020. Complexity of Brassica oleracea-Alternaria brassicicola susceptible interaction reveals downregulation of photosynthesis at ultrastructural, transcriptional and physiological levels. CELLS 9, 2329; doi:10.3390/cells9102329
3. Macioszek VK, Wielanek M, Morkunas I, Ciereszko I, Kononowicz AK. 2020. Leaf position-dependent effect of Alternaria brassicicola development on host cell death, photosynthesis and secondary metabolites in Brassica juncea. PHYSIOLOGIA PLANTARUM 168: 601–616., doi:10.1111/ppl.12998
4. Macioszek VK, Lawrence CB, Kononowicz AK. 2018. Infection cycle of Alternaria brassicicola on Brassica oleracea leaves under growth room conditions. PLANT PATHOLOGY 67:1088–1096.
5. Łaźniewska, J, Macioszek VK, Kononowicz AK. 2012. Plant-fungus interface: The role of surface structures in plant resistance and susceptibility to pathogenic fungi. PHYSIOLOGICAL AND MOLECULAR PLANT PATHOLOGY 78:24-302.
6. Głowacki S, Macioszek VK, Kononowicz AK. 2011. R proteins as fundamentals of plant innate immunity. CELLULAR & MOLECULAR BIOLOGY LETTERS 16:1-24.
7. Łaźniewska J, Macioszek VK, Lawrence CB, Kononowicz AK. 2010. Fight to the death: Arabidopsis thaliana defense response to fungal necrotrophic pathogens. ACTA PHYSIOLOGIAE PLANTARUM 32:1-10.
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W cyklu 2024:
Matthew Dickinson, Molecular Plant Pathology, 2003, BIOS Scientific Publication, Taylor and Francis Group |
Więcej informacji
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