plant physiology
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Plant Physiology. Roots, Cell differentiation and Senescence. Root Development. Four developmental zones Root Cap: protects apical meristem from mechanical injury, secrete Mucopolysaccharides that helps the root penetrate the soil - PowerPoint PPT PresentationTRANSCRIPT
Plant Physiology
Roots, Cell differentiation and Senescence
Root Development
Four developmental zones Root Cap: protects apical meristem from mechanical injury, secrete Mucopolysaccharides that helps the root penetrate the soilMeristematic Zone: lies under the root cap, produces only primary rootsElongation Zone: site of rapid and extensive cell elongationMaturation Zone: cell elongation stops and cells become mature.
Stages of root development
Anticlinal and Periclinal cell division?
Different types of stem cells are found in root apical meristem
4 Center Cells
Cortical, Endodermal
layer
Root Cap
Anticlinal-Epidermis
Periclinal-Lateral
Root Cap
Pericycle+Vascular tissues
Cell differentiation
Differentiation: both ways
Totipotency: the ability of a single cell to divide and produce all the differentiated cells in an organism
Tracheary Elements: Vessel elements+Tracheids•facilitate water and solute movement•Construct secondary wall composed of cellulose and lignin
Cells of adult plants remain totipotent: cloning a carrot
1 mm3 fragments (“explants”) from adult root…
Culture explants in liquid culture medium…Cells “dedifferentiate” and begin to divide, forming “callus” tissue…
Induce with hormones to initiate shoot and root formation e.g. Auxin, Cytokinin, Ethylene
Culture “embroid” in liquid culture, then agar…
Move to soil…
Regenerated adult plant…
Developmental Pathways
•1500 in ArabidopsisMADS box TFs•30 in Arabidopsis•Developmental events in roots, leaves, flower, ovule and fruitHomeobox TFs•Contain Homeodomain•KNOTTED1 (KN1) involved in shoot apical meristem maintenance
Transcription Factors
Cell Signaling
Different proteins, hormones interact to control plant development
Protein Kinases
Mitogen Activated Protein Kinases•Protein Phosphorylation•Arabidopsis MPK4
Arabidopsis
60 MKKKs
10 MKKs
20 MAPKsReceptor Kinases•Contain receptor domain CLAVATA-mutations increased size of vegetative shoot apical and floral meristems•Receptor Ligand•Small proteins or peptides that activates the receptor kinases
Leaves in fall tell a story about life and death
Plant Senescence and Organ Abscission
Concept• Senescence: A program in which the function of
organ or whole plant naturally declines to death. This is a genetically programmed essential phase of the growth and development in plant.
• Abscission: Specific cells in petiole form an abscission layer, thus facilitating the senescent organ to separate from the plant
Types of plant senescence • (1) Overall Senescence • Senescence occurs in
whole plant body, such as annuals which senesces to death after flower and setting.
• (2)Top Senescence • The part aboveground dies with the end
of growth season but the part underground is alive for several years.
• Perennial weeds , corm and bulb——lily.
In summer In winter
• (3) Deciduous senescence • The leaf falls in specious
season, in summer or winter.
• Deciduous• trees
• (4)Progressive senescence• Senescence only occurs in older organ or
tissue.New organ or tissue develops while old ones are senescing.
• Green trees。
Senescence in Arabidopsis thaliana.
(A) Development of Arabidopsis thaliana plants is shown at various times after germination. Photographs show plants at 14, 21, 37, and 53 days after germination ( left to right). Note the yellowing of shoots of the 53-day-old plant. (B) Age-related changes in rosette leaves of Arabidopsis 7, 9, and 11 days after leaf expansion had ceased. Note the progressive yellowing of leaves, beginning farthest from the main veins
Arabidopsis mutants affected in senescence
Arabidopsis leaf senescence
Rice leaf senescence
Abscission zone at base of leaf at the where it jointsthe stem
leaf
stem
Auxin prevents abscission
SDGSenescence down regulated genes
include chlorophyll a/b-binding protein gene (CAB), Rubisco small subunit gene (SSU).
SAG (up-regulated during leaf senescence)Class I SAG
Senescence associated genesexpressed only during senescence (senescence-specific).
Class II SAGSenescence associated geneshave basal level of expression
during early leaf development, butexpression increases during senescence
Basal expression (SAG II)
Onset (SAG I)
Leaf develops to full expansion Senescence progression
Senescence Regulation
Leaf Senescence in ArabidopsisClass I – genes that control developmental agingClass II – genes that control both senescence and other growth processesClass III- genes that control senescence in response to environmental factorsClass IV- regulatory genes that up-regulate senescence activity AND down regulate cellular maintenance activitiesClass V- genes that control degradation of senescence regulatory factors
Programmed cell death is a specialized type of senescenceSenescence can occur at the level of:whole plant (monocarpic senescence)Organ (leaf senescence)Cell (tracheary element differentiation)Process whereby individual cells activate an intrinsic senescence program = Programmed Cell Death (PCD)In animals, PCD may be initiated by specific signals (errors in DNA replication during division)- involves expression of a characteristic set of genes, resulting in cell death- accompanied by morphological and biochemical changes(apoptosis, Greek: “falling off”)- during apoptosis, cell nucleus condenses and DNA fragments in a specific pattern
Programmed cell death is a specialized type of senescencePCD in plants, less well characterized- but similar histological changes as in animals observed- PCD occurs during differentiation of xylem tracheary elements, during which nuclei and chromatin degrade and cytoplasm disappears → activation of genes encoding nucleases and proteases- protection against pathogenic organisms- infection by pathogen causes plant cells to quickly accumulate high concentrations of toxic phenolic compounds and die (it’s not quite as simple) → dead cells form small circular island of cell death (necrotic lesion)- necrotic lesions isolate and prevent infection from spreading to surrounding healthy tissues by surrounding the pathogen with a toxic and nutritionally depleted environment (hypersensitive response)