Which preformed defense mechanism exist in plant cells?
surface topography: cuticle (biopolymer of esterified alcohols, aldehydes, ketones, fatty acids)/ wax crystal layer
cell wall: moncots and dicots have diffrent cell wall aritecture
secondary metabolits (Phytoanticipins)
Why can powdery mildew penetrate the upper epidermis but not the lower epidermis? How was that proven?
The upper cuticle has a crystaline wax structure, which is recognised be the powdery mildew
On the lower epidermis, the powdery mildew can not enter the amorphous sheets of waxes,
—>In an experiment where the epicuticular wax was removed with chloroform, the powdery mildew was able to penetrate and build appressoria.
Which cell wall structures do monocots and dicots have in common and which are different?
In common: Cellulose microfibril, Pectins,
Dicots: Xyloglucans, Extensins with Arabinosides,
Monocots: Glucoronoarabinoxylan, ß Glycans, phenolic network
Which requirements do pathogens need to have to infect monocots or dicots in regards to their different cell wall components?
Pathogens targeting only Monocots or only dicots bring different sets of Enzymes to hydrolyse the different cell wall compartments. Pathogen effectors interfere with vesicle transport of the plant cells
What are phytoanticipins and phytoalexins and what are the differences?
Phytoanticipins and phytoalexins are chemical defenses.
Phyroanticipins anticipate pathogen attack and are always in cell.
Phytoalexins are chemicals where the production is induces as a Defense response.
Examples
What is the classical “mustard oil bomb” and how is the mechanism peformed?
The effect is based on the compartimentalisation of myrosinase and glucosinolate.
The inactive glucosinolate is contained in the S-cell the myrosinase is contained in the idioblast. After physical mechanism : an insect that is chewing the plant. The enzyme and the glycosionolate are free and the myrosine hydroses the S-glycoslyic bond.
-> leads to toxic molecules
Is there any species that avoids the mustard bomb?
“Large White” caterpillars
They have a nitrile specifier proteins (NSP) in the digestive tract. ——>deactivates the isothiocyanates to nitrils
Name three reactive Oxygen Species (ROS)?
hydrogen peroxide (H2O2)
superoxide anion (O2.-)
hydroxyl radical (OH.)
What are the functions of Reactive Oxygen Species (ROS)
signaling function (secondary messenger) & cross-linking of cell wall carbohydrates, proteins and phenolics and/or direct toxic effect
Which protein is essential in ROS production in Arabidopsis thaliana?
The Arabidopsis NADPH oxidase AtRBOHD
Respepiratory Burst Oxidase Homolge
—> most essential is atrbohD
What is the structure of AtRBOHD?
In Plasmamembrane, Transfers electrons from NADPH to O2
6 TM domains
What physical response in regard to the cytoskeletal arrangement does the plant cell give upon fungal penetration?
Cell wall thickening. Local accumulation of different cell wall material: callose, cell wall carbohydrates, proteins
Upon fungal penetration, the cell monomerizes the actin filaments and microtubuli and repolymerizes them oriented towards the attempted entry site. These are used as a transport highway to move certain organells (nucleus, vesicles etc) to the entry site and react faster (eg faster transcription of response genes like PR genes)
Which enzymatic activity do many PR proteins have, and what does that affect in the pathogen?
many PR-proteins harbor hydrolytic activity suggesting that they are directed against microbial surface structures
How do plants perceive presence of microbial intruders ?
- Mechanosensing
- Danger-associated Molecular Patterns (DAMPs)
- Pathogen/Microbe-associated Molecular Patterns (P/MAMPs)
What is the difference between PAMPs and DAMPs?
PAMPs: Pathogen Associated Molecular Pattern. Plant senses non-self molecules (eG chitin or flagellin) and reacts with Defense mechanism
DAMPs: Danger Associated Molecular Pattern. Plant senses own degraded molecules (self-perception) that are freed upon pathogen infection, this induces Defense mechanism
Which Defense mechanisms are induced by mechanical stimulation alone?
Cytoplasmic reenrangements (moving of nucleus), ROS accumulation, some PR genes are induced (not all)
But No: cell wall reinforcement, hypersensitive cell death
What are Pattern Recognition Receptors (PRRs)? What types do you know ?
Pattern Recognition Receptors (PRRs) mediate perception of pathogen/microbe associated molecular patterns. (PAMPS/Mamps)
There are two types:
Receptor like Kinase RLK
Receptor-Like Proteins (PLP)
What parts do Pattern Recognition Receptors (PRR) consist of and what are their general functions?
Ectodomain: Ligand binding
Transmembrane domain: anchor (GPI-Anchor)
Only in Receptor like kinases (RLP): Ser/Thr protein Kinase domain: downstream signaling in cell
Which AA in the ectodomain of Receptor-like-Kinases recognise which type of Biomacromolecules? Give example
Lysin - Carbohydrates
Cerk1 recognise chitin
Leucin - Peptide
Flagellin is recognised by fls2
Why does the Pattern recognition receptor FLS2 recognise Flaggelin (flg22) in many bacteria? What are the exceptions?
flg22 is a peptide (22 AA) that binds to the Leucin rich repeats (LRR) of FLS2 and is thereby recognised. flg22 is encoded in the conserved region of flagellin in almost all flagellated bacteria.
The exception: Rhizobium meliloti (symbiont) and agrobacterium tumorfaciens (pathogen) bacteria, closely related species, have changed the flagellum sequence to avoid immune detection
Which co-receptors do FLS2 and CERK1 require?
FLS2: BAK1
CERK1: LYK4+LYK5 —> no active kinase domians (phosphorylation inactive)
in addition to the co-receptors: receptors-like cytoplasmic kinases (RLCKs)
Describe the signaling cascade initiated by receptor complexes
Receptors and co-receptors bind the ligand together (molecular glue model) —> close contact of the compontents is mediated
this enables phosphrylation of kinase domains —> cytosolic kinases dissociate and activates downstream signaling
downstream signaling of MAPK kinases phosphorylates and activates transcription factors (TF) —> expression of defence genes
(additional receptor triggered early responses: Ca2+ influx, apoplast alkalinisation, local production of ROS)
What is the enzymatic cascade for producing ROS?
PAMP (e.g. flg22) perception by PRR (FLS2 + BAK1)
complex is activated by kinase domain —> phosphorylation
recruitment + activation (by phosphorylation) BIK1
BIK1 + CPK (calcium dependent protein) phosphorylate + activate RBOHD (=NADPH oxidase) —> additional Ca2+ regulation
ROS production by RBOHD —> defense against pathogen
What do MAP kinases control?
controls transcritptional activation of defence genes (through phosphorylation)
e.g. TF WRKY and/or bZIP TF
applies for both CERK1 and FLS2
later, not so rapid response
Give 2 examples for PAMPs.
flg22
chitin
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