Nitrogen Absorption and Assimilation in Plants PDF

Summary

This document covers nitrogen absorption and assimilation in plants, including the role of root hairs, transporters, and symbiotic partners. It details the biochemical and developmental responses in plants to acquire nitrogen from various sources. The document also highlights the regulation of nitrate and nitrite reductases and the biosynthesis of amino acids, specifically asparagine.

Full Transcript

22/01/2020

Nitrogen: One of the most abundant
mineral element in a plant
The most abundant element in the
earth’s atmosphere
The 4th most abundant element in a
plant (after C, H and O)
Often the limiting nutrient for plant
growth

N is in amino acids
(proteins), nucleic acids
(DNA, RNA), chlorophyll,
and countless small
molecules
Nitrogen is one of the
three major
macronutrients found
in most fertilizers
Blank, L.M. (2012). The cell and P: From cellular function to biotechnological application. Curr. Opin. Biotech. 23: 846 – 851.From: Buchanan,
B.B., Gruissem, W. and Jones, R.L. (2000) Biochemistry and Molecular Biology of Plants. American Society of Plant Physiologists.

Localisation de l’absorption des ions

huile
Eau
minérale

------> Les poils absorbants sont indispensables à l’absorption des minéraux

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Vascular plants assimilate mineral
nutrients mostly via roots

By increasing surface area for
absorption, root hairs functionally
resemble microvilli of an animal’s
intestinal epithelium

Membrane transporters facilitate nutrient uptake

Barberon, M. and Geldner, N. (2014). Radial transport of nutrients: the plant root as a polarized epithelium. Plant Physiol. 166: 528-537.

Roots have several adaptations to
enhance nutrient capture

Biochemical Developmental
responses responses

Fungal symbiotic Prokaryotic
partners symbiotic
partners

Schmidt, S., Raven, J.A. and Paungfoo-Lonhienne, C. (2013). The mixotrophic nature of photosynthetic plants. Funct. Plant Biol. 40: 425-438 by permission of CSIRO publishing.

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Plants have specific transporters for
NO3-, NH4+ and other N forms

HATS = high affinity
transporters
LATS = low affinity
transporters

Nacry, P., Bouguyon, E. and Gojon, A. (2013). Nitrogen acquisition by roots: physiological and developmental mechanisms ensuring
plant adaptation to a fluctuating resource. Plant Soil. 370: 1-29, With kind permission from Springer Science and Business Media

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NH4+ NH4+
H+ H+

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2132

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Avantage de la nutrition mixte (NH4 + NO3)

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Ammonisation
Ammonium, Ammoniac,
Ammoniaque (NH4+, NH3,
NH4OH)

AMMONISATION

Bacillus subtilis

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NITRIFICATION

MISE EN EVIDENCE DE LA REDUCTION DU NITRATE

NO2 (36h)

NO3 (24h) Asparagine (48h)

NO3

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ORIGINE DES COFACTEURS
NITRATE REDUCTASE NITRITE REDUCTASE
( NR) (NIR)

NADH NADPH

REDUCTION DU NITRATE EN AMMONIUM
NR : nitrate réductase NiR : nitrite réductase

VACUOLE
NO3 PLASTE

NO3 NO3 NiR
NR NO2 NH4+
NO2

NR
NO3- + NADH + 2H+ + 2 e- NO2- + NAD+ + 2H2O

NiR
NO2- + 6 Ferrred + 6H+ + 6 e- NH3 + 6 Ferrox + H2O + OH-

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STRUCTURE DE LA NITRATE REDUCTASE

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RT-PCR Northern Blot

_ N

NR

NiR

qRT-PCR quantitative
NR
Quantité relative 10

NiR
NiR NR
1
_ N

REGULATION DE LA NITRATE REDUCTASE
PAR LE SUBSTRAT

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REGULATION DE LA NITRATE REDUCTASE
PAR LA LUMIERE

REGULATION DE LA NITRATE ET DE LA NITRITE REDUCTASE
PAR DIFFERENTS FACTEURS

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LA GLUTAMINE SYNTHASE (GS) ISOFORMES ET ADRESSAGE

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FACTEURS DE REGULATION DE LA GS

DU NITRATE A LA GLUTAMINE
VACUOLE
NO3
PLASTE
NiR
NO2 NO2 NH4+ + Glu

a-céto- GS-2
glutarate
NR
GDH
NO3 NO3
2 Glu Gln + a-céto-
glutarate
GOGAT
GS-1
Gln NH4+ + Glu

NR : nitrate réductase GS : glutamine synthase GDH : glutamate déshydrogénase
NiR : nitrite réductase GOGAT : glutamine oxoglutarate amido transférase

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BIOSYNTHESE DES ACIDES AMINES
LA TRANS-AMINATION

Acide aspartique et acide glutamique
COOH HCO3- Pi COOH

C OPO32- C O

CH2 CH2

COOH
Phosphoenol –
pyruvate (PEP) Acide oxalo-
acétique (AOA)

COOH COOH COOH

HC NH2 HC NH2 C O
Transamination
AOA + +
(CH2)2 CH2 (CH2)2

COOH COOH COOH
Acide glutamique Acide aspartique Acide a-cetoglutarique

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LUMIÈRE ET RÉGULATION DE LA BIOSYNTHÈSE DE
L’ASPARAGINE

Glutamine + aspartate
Light
Dark Asparagine
40 synthétase
% total amino acid

Asparagine + glutamate
30

20

10

0
WT aat2 WT aat2

ASPARTATE ASPARAGINE

BIOSYNTHÈSE DE L’ASPARAGINE

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VUE D’ENSEMBLE DE LA BIOSYNTHÈSE DES ACIDES AMINÉS

BIOSYNTHÈSE DES ACIDES AMINÉS AROMATIQUES
VOIE DU SHIKIMATE

Shikimate

Pi

Pi PEP Shikimate-3-P

Chorismate

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BIOSYNTHÈSE DE LA PHÉNYLALANINE ET DE LA TYROSINE

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