Cycle of education: 2022/2023
The name of the faculty organization unit: The faculty Chemistry
The name of the field of study: Biotechnology
The area of study: technical sciences
The profile of studing:
The level of study: first degree study
Type of study: past time
discipline specialities : Applied biochemistry, Purification and analysis of biotechnological products
The degree after graduating from university: Bachelor of Science (BSc)
The name of the module department : Department of Biochemistry and Bioinformatics
The code of the module: 10984
The module status: mandatory for the speciality Applied biochemistry
The position in the studies teaching programme: sem: 5 / W9 L9 / 2 ECTS / Z
The language of the lecture: Polish
The name of the coordinator 1: Ewa Ciszkowicz, PhD
The name of the coordinator 2: Prof. Mirosław Tyrka, DSc, PhD, Eng.
The main aim of study: Familiarize students with the biochemical processes in plants important for the industry
The general information about the module: Students become familiar with biological transformations of selected chemical compounds and become acquainted with selected biochemical processes in plants
Teaching materials: aktualne prace przeglądowe
1 | Heldt H-W, Piechulla B | Plant Biochemistry | Elsvevier Academic Press. | 2011 |
Formal requirements: Valid registration
Basic requirements in category knowledge: Basic knowledge of cell biology, biochemistry and microbiology
Basic requirements in category skills: Self-education skills. Ability to work in a laboratory under teacher supervision.
Basic requirements in category social competences: Self-education skills. Ability to work in a laboratory under teacher supervision.
MEK | The student who completed the module | Types of classes / teaching methods leading to achieving a given outcome of teaching | Methods of verifying every mentioned outcome of teaching | Relationships with KEK | Relationships with PRK |
---|---|---|---|---|---|
01 | Metabolism of the cell of the leaf. Photosynthesis. CO2 assimilation. Photorespiration. Biosynthesis and transport of carbohydrates. Assimilation and binding nitrogen compounds and sulfur. Transport of assimilation products. Ecological functions of secondary metabolites and isoprenoid. Regulation of growth and organ development. The interaction of plant genomes. Biosynthesis of proteins in plants. | Lecture | Written exam |
K_W05+++ K_W06+ K_W14+ |
P6S_WG |
02 | Study of variation in genes determining biochemical changes in plants. | Classes | test, observation of performance, written report |
K_W06++ K_U09++ K_U18+ K_K03++ |
P6S_KR P6S_UO P6S_UW P6S_WG |
Attention: Depending on the epidemic situation, verification of the achieved learning outcomes specified in the study program, in particular credits and examinations at the end of specific classes, can be implemented remotely (real-time meetings).
Sem. | TK | The content | realized in | MEK |
---|---|---|---|---|
5 | TK01 | Wykłady1-15 | MEK01 | |
5 | TK02 | Laboratoria | MEK02 |
The type of classes | The work before classes | The participation in classes | The work after classes |
---|---|---|---|
Lecture (sem. 5) | contact hours:
9.00 hours/sem. |
Others:
8.00 hours/sem. |
|
Laboratory (sem. 5) | The preparation for a Laboratory:
3.00 hours/sem. The preparation for a test: 5.00 hours/sem. |
contact hours:
9.00 hours/sem. |
|
Advice (sem. 5) | |||
Credit (sem. 5) | The preparation for a Credit:
15.00 hours/sem. |
The written credit:
1.00 hours/sem. |
The type of classes | The way of giving the final grade |
---|---|
Lecture | The grade is issued on the basis of written exam results. |
Laboratory | The grade is issued on the basis of average grade of raport (50%) and final test (50%). |
The final grade | Laboratory grade (35%) and evaluation of the lectures (65%) |
Required during the exam/when receiving the credit
(-)
Realized during classes/laboratories/projects
(-)
Others
(-)
Can a student use any teaching aids during the exam/when receiving the credit : no
1 | E. Ciszkowicz; M. Dżugan; K. Lecka-Szlachta; M. Miłek; M. Tomczyk | Coniferous Honeydew Honey: Antibacterial Activity and Anti-Migration Properties against Breast Cancer Cell Line (MCF-7) | 2024 |
2 | K. Awsiuk; J. Bała; P. Chmielarz; E. Ciszkowicz; J. Raczkowska; M. Sroka; K. Wolski; I. Zaborniak | Grafting of Multifunctional Polymer Brushes from a Glass Surface: Surface-Initiated Atom Transfer Radical Polymerization as a Versatile Tool for Biomedical Materials Engineering | 2024 |
3 | Ł. Byczyński; E. Ciszkowicz; D. Czachor-Jadacka; M. Kisiel; B. Mossety-Leszczak; B. Pilch-Pitera; M. Walczak; J. Wojturska | Wodna dyspersja kationomerów uretanowo-akrylowych, sposób wytwarzania wodnej dyspersji kationomerów uretanowo-akrylowych oraz sposób wytwarzania fotoutwardzalnej powłoki z wykorzystaniem tej wodnej dyspersji | 2024 |
4 | B. Bakera; M. Rakoczy-Trojanowska; M. Szeliga; M. Święcicka; M. Tyrka | Identification of candidate genes responsible for chasmogamy in wheat | 2023 |
5 | E. Ciszkowicz; M. Dżugan; J. Hęclik; K. Lecka-Szlachta; M. Miłek; E. Sidor | The Antioxidant, Antibacterial and Anti-Biofilm Properties of Rapeseed Creamed Honey Enriched with Selected Plant Superfoods | 2023 |
6 | P. Bednarek; A. Dorczyk; T. Drzazga; D. Jasińska; P. Krajewski; B. Ługowska; R. Martofel; P. Matysik; M. Niewińska; D. Ratajczak; K. Rączka; T. Sikora; D. Tyrka; M. Tyrka; E. Witkowski; U. Woźna-Pawlak | Genome-wide association mapping in elite winter wheat breeding for yield improvement | 2023 |
7 | E. Ciszkowicz; B. Creaven; H. Jenkins; D. Kamiński; D. Karcz; K. Lecka-Szlachta; A. Matwijczuk; A. Miłoś; K. Starzak; L. Ślusarczyk | Design, Spectroscopy, and Assessment of Cholinesterase Inhibition and Antimicrobial Activities of Novel Coumarin–Thiadiazole Hybrids | 2022 |
8 | E. Ciszkowicz; M. Dżugan; K. Lecka-Szlachta; M. Miłek; A. Miłoś; A. Pasternakiewicz ; G. Zaguła | Mineral Composition, Antioxidant, Anti-Urease, and Antibiofilm Potential of Juglans Regia Leaves and Unripe Fruits | 2022 |
9 | E. Ciszkowicz; M. Dżugan; K. Lecka-Szlachta; M. Miłek; A. Pasternakiewicz ; E. Sidor ; M. Tomczyk; G. Zaguła | The Study of Chemical Profile and Antioxidant Properties of Poplar-Type Polish Propolis Considering Local Flora Diversity in Relation to Antibacterial and Anticancer Activities in Human Breast Cancer Cells | 2022 |
10 | E. Ciszkowicz; M. Kosińska-Pezda; K. Lecka-Szlachta; A. Miłoś; E. Woźnicka; L. Zapała | Analiza właściwości antybakteryjnych oraz cytotoksyczności kompleksów jonów Co(II), Mn(II) oraz Zn(II) z chryzyną oraz 3-hydroksyflawonem | 2022 |
11 | M. Dyda; G. Gołębiowska; M. Rapacz; M. Szechyńska-Hebda; M. Tyrka; I. Wąsek; M. Wędzony | Quantitative trait loci and candidate genes associated with freezing tolerance of winter triticale (× Triticosecale Wittmack) | 2022 |
12 | M. Dyda; G. Gołębiowska; M. Rapacz; M. Tyrka; M. Wędzony | Genetic mapping of adult-plant resistance genes to powdery mildew in triticale | 2022 |
13 | M. Dyda; G. Gołębiowska; M. Rapacz; M. Tyrka; M. Wędzony | Mapping of QTL and candidate genes associated with powdery mildew resistance in triticale (× Triticosecale Wittm.) | 2022 |
14 | P. Chmielarz; E. Ciszkowicz; K. Lecka-Szlachta; A. Macior; J. Smenda; K. Wolski; I. Zaborniak | A New Protocol for Ash Wood Modification: Synthesis of Hydrophobic and Antibacterial Brushes from the Wood Surface | 2022 |
15 | P. Krajewski; R. Marcinkowski; R. Martofel; P. Matysik; M. Mokrzycka; M. Rakoczy-Trojanowska; M. Rokicki; S. Stojałowski; M. Tyrka; U. Woźna-Pawlak; B. Żmijewska | Genome-Wide Association Analysis for Hybrid Breeding in Wheat | 2022 |
16 | A. Pietrusińska; M. Tyrka | Linkage of Lr55 wheat leaf rust resistance gene with microsatellite and DArT-based markers | 2021 |
17 | B. Bakera; P. Krajewski; M. Mokrzycka; M. Rakoczy-Trojanowska; M. Szeliga; M. Święcicka; M. Tyrka | Identification of Rf Genes in Hexaploid Wheat (Triticumaestivum L.) by RNA-Seq and Paralog Analyses | 2021 |
18 | B. Bakera; P. Krajewski; P. Matysik; M. Mokrzycka; M. Rakoczy-Trojanowska; M. Rokicki; S. Stojałowski; M. Szeliga; D. Tyrka; M. Tyrka | Evaluation of genetic structure in European wheat cultivars and advanced breeding lines using high-density genotyping-by-sequencing approach | 2021 |
19 | E. Ciszkowicz; B. Creaven; H. Jenkins; D. Kamiński; D. Karcz; K. Lecka-Szlachta; A. Matwijczuk; A. Miłoś; P. Radomski; K. Starzak; L. Ślusarczyk | Novel Coumarin-Thiadiazole Hybrids and Their Cu(II) and Zn(II) Complexes as Potential Antimicrobial Agents and Acetylcholinesterase Inhibitors | 2021 |
20 | E. Ciszkowicz; K. Lecka-Szlachta; J. Pusz; E. Woźnicka | Antybakteryjna aktywność sulfonowych pochodnych chryzyny | 2021 |
21 | E. Ciszkowicz; M. Kosińska-Pezda; A. Kuźniar; K. Lecka-Szlachta; E. Pieniążek; E. Woźnicka; L. Zapała | Synteza, charakterystyka i właściwości biologiczne kompleksów jonów antanowców lekkich z 3-hydroksyflawonem | 2021 |
22 | J. Buczkowicz; T. Drzazga; B. Ługowska; P. Matysik; K. Rubrycki; M. Semik; D. Tyrka; M. Tyrka; E. Witkowski | Identyfikacja efektywnych genów odporności na wybrane choroby wirusowe i grzybowe pszenicy zwyczajnej | 2021 |
23 | J. Buczkowicz; T. Drzazga; G. Fic; M. Jaromin; P. Krajewski; P. Matysik; R. Mazur; P. Milczarski; T. Sikora; M. Szeliga; D. Tyrka; M. Tyrka; E. Witkowski | Selekcja genomowa pszenicy ozimej | 2021 |
24 | Ł. Byczyński; E. Ciszkowicz; M. Kosińska-Pezda; K. Lecka-Szlachta; U. Maciołek; E. Woźnicka; L. Zapała; W. Zapała | Green synthesis of niflumic acid complexes with some transition metal ions (Mn(II), Fe(III), Co(II), Ni(II), Cu(II) and Zn(II)). Spectroscopic, thermoanalytical and antibacterial studies | 2021 |
25 | A. Bocian; J. Buczkowicz; E. Ciszkowicz; K. Hus; K. Lecka-Szlachta; J. Legath; L. Legath; V. Petrilla; M. Petrillova; M. Pietrowska | Antimicrobial Activity of Protein Fraction from Naja ashei Venom Against Staphylococcus epidermidis | 2020 |
26 | E. Ciszkowicz; B. Creaven; D. Kamiński; D. Karcz; K. Lecka-Szlachta; A. Matwijczuk; K. Starzak | Structural Features of 1,3,4-Thiadiazole-Derived Ligands and Their Zn(II) and Cu(II) Complexes Which Demonstrate Synergistic Antibacterial Effects with Kanamycin | 2020 |
27 | E. Ciszkowicz; E. Kaznowska; P. Porzycki; M. Semik; M. Tyrka | MiR-93/miR-375: Diagnostic Potential, Aggressiveness Correlation and Common Target Genes in Prostate Cancer | 2020 |
28 | E. Ciszkowicz; P. Porzycki | Modern biomarkers in prostate cancer diagnosis | 2020 |
29 | G. Czajowski; M. Karbarz; M. Pojmaj; A. Strzembicka; D. Tyrka; M. Tyrka; A. Wardyńska; M. Wędzony | Quantitative trait loci mapping of adult-plant resistance to powdery mildew in triticale | 2020 |
30 | J. Ciura; M. Szeliga; M. Tyrka | Representational Difference Analysis of Transcripts Involved in Jervine Biosynthesis | 2020 |
31 | E. Ciszkowicz; P. Porzycki | Detection of individual prostate cancer via multiparametric magnetic resonance imaging in own material - initial experience | 2019 |
32 | J. Ciura; M. Grzesik; M. Szeliga; M. Tyrka | Identification of candidate genes involved in steroidal alkaloids biosynthesis in organ-specific transcriptomes of Veratrum nigrum L. | 2019 |
33 | M. Dyda; M. Szechyńska-Hebda; M. Tyrka; I. Wąsek; M. Wędzony | Local and systemic regulation of PSII efficiency in triticale infected by the hemibiotrophic pathogen Microdochium nivale | 2019 |
34 | M. Dziurka; K. Hura; T. Hura; A. Ostrowska; M. Tyrka | Participation of Wheat and Rye Genome in Drought Induced Senescence in Winter Triticale (X Triticosecale Wittm.) | 2019 |
35 | Z. Banaszak; A. Fiust; Z. Nita; W. Orłowska-Job; M. Pojmaj; M. Rapacz; M. Tyrka; M. Wójcik-Jagła | Sposób selekcji mrozoodpornych genotypów jęczmienia ozimego | 2019 |
36 | Ł. Byczyński; M. Chutkowski; E. Ciszkowicz; M. Kosińska; K. Lecka-Szlachta; E. Woźnicka; L. Zapała; W. Zapała | Comparison of spectral and thermal properties and antibacterial activity of new binary and ternary complexes of Sm(III), Eu(III) and Gd (III) ions with N-phenylanthranilic acid and 1,10-phenanthroline | 2019 |