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Forestan, Cristian (2009) ZmPIN Genes And Polar Auxin Transport In Maize: Roles on Kernel Development & Plant Architecture Determination. [Tesi di dottorato]

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Abstract (inglese)

Due to the unquestionable importance of the polar auxin transport in controlling a
multitude of developmental processes in plants, several research projects are ongoing
towards a better understanding of the genetic regulation and physiology of auxin
mediated?morphogenesis. Several components of the auxin transport machinery, and
their regulatory networks, have been identified in the model specie Arabidopsis thaliana,
shedding light on the molecular and cytological mechanism underlying this unique
phenomenon for transmitting spatial and temporal signals in plant development.
Evolutionary analysis revealed sequences and functions conservation of the auxin
transport components in the entire plant kingdom. Neverthless, very few information are
available on the role of auxin polar transport on plant patterning outside the Arabidopsis
world. Auxin transport inhibition and analysis of mutants putatively impaired in PAT are
associated with several developmental defects in tomato, rice, maize and Arabidopsis as
well, suggesting that this phytohormone plays a fundamental role in plant development
both in di? and mono?cotyledon.
The general purpose of my research was to investigate the role of auxin, and in
particular of its PIN?mediated polar transport, during Zea mays development.
I investigated the behaviour of PIN genes and proteins during maize embryonic, vegetative
and reproductive development by several different approaches. The final gol of this
analysis was the confirmation of the primary importance of PAT in this monocotyledonous
species, as highlighted in Arabidopsis thaliana.
Initially I focused the attention to the identification of PIN orthologous genes in maize
and to the analysis of their expression patterns during embryonic and post?embryonic
development. Subsequently, the orthologs of Arabidopsis PIN1, PIN2, PIN3, PIN4 and PIN5
were identified in maize, and their transcripts were showed to have differential expression
pattern during maize development.
Furthermore, the availability of an anti?AtPIN1 monoclonal antibody already tested in
maize, led us to analyze ZmPIN1 proteins localization in different maize tissues, revealing
maize auxin efflux carriers polarization during tissues and organ differentiation. Based on ZmPIN1 protein polarization, auxin fluxes were inferred and these were then compared
with auxin gradients visualized in embryos, endosperm, meristems and inflorescences,
utilizing an anti?IAA antibody. The parallel analysis of transcript expression domains,
protein localization and polarization and IAA accumulation allowed the prediction of a
model for the role of PAT in maize meristem functioning and primordia differentiation. A
second model was formulated for the ZmPIN1?mediated transport of auxin and for the
related auxin fluxes during maize embryogenesis and endosperm development. These two
models were implemented also with data obtained from mutant analysis and from PAT
inhibition studies.
A further aim of my research was the study of the mechanisms underlying plasmamembrane
insertion of ZmPIN1 proteins in maize. Different ZmPIN1 protein localization
patterns in different tissues were observed during our immunolocalization assays. To
assess if these different patterns are the results of tissue?specific signals controlling
proteins localization or if the three ZmPIN1 proteins have sequence?specific localizations,
we analyzed the cell membrane targeting ZmPIN1::GFP fusion constructs in homologous
and heterologous systems.

Abstract (italiano)

Il mais (Zea mays) è, a livello mondiale, una delle specie vegetali più importanti dal punto di vista industriale ed alimentare; per questo conoscere i meccanismi genetici che regolano lo sviluppo della pianta, dall’apparato radicale fino alle sue infiorescenze, passando attraverso le varie fasi dello sviluppo della cariosside e dell’embrione, permetterebbe di intervenire con la selezione per migliorarne i caratteri produttivi desiderati. In questo contesto, lo studio dell’espressione dei geni che regolano lo sviluppo, ha permesso di chiarire solo parzialmente i meccanismi alla base del differenziamento delle radici, delle foglie, delle infiorescenze, dei fiori e quindi delle cariossidi. Numerosi geni responsabili dell’identità meristematica, ad esempio KN1 e geni responsabili del differenziamento delle strutture riproduttive, quali bif1, bif2, ba1, ramosa1, ramosa2 e ramosa3, interagiscono con modalità che non sono ancora completamente note. Inoltre, non è stato ancora spiegato esaustivamente il ruolo che sostanze ormonali quali l’auxina e le citochinine svolgono nella regolazione della fillotassi e nella formazione delle strutture riproduttive dei vegetali superiori.
L'obiettivo generale di questo progetto è chiarire il ruolo svolto dall'auxina e in particolare dal suo trasporto polare durante lo sviluppo della pianta di mais. A questo scopo si stanno analizzando i pattern di espressione dei geni e delle proteine coinvolte nel trasporto auxinico a partire dall’embriogenesi e la formazione delle cariossidi, fino alla differenziazione dei primordi nel SAM e dei meristemi secondari nelle infiorescenze.

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Tipo di EPrint:Tesi di dottorato
Relatore:Varotto, Serena
Dottorato (corsi e scuole):Ciclo 21 > Scuole per il 21simo ciclo > SCIENZE DELLE PRODUZIONI VEGETALI > AGROBIOTECNOLOGIE
Data di deposito della tesi:26 Gennaio 2009
Anno di Pubblicazione:02 Febbraio 2009
Parole chiave (italiano / inglese):Zea mays, auxin, polar auxin transport, ZmPIN, NPA
Settori scientifico-disciplinari MIUR:Area 07 - Scienze agrarie e veterinarie > AGR/07 Genetica agraria
Struttura di riferimento:Dipartimenti > pre 2012 - Dipartimento di Agronomia Ambientale e Produzioni Vegetali
Codice ID:1426
Depositato il:26 Gen 2009
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