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9 Mar 2005 12:52:06 -0000

 

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press-release

 

 

The Institute of Science in Society Science Society Sustainability

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Release 09/03/05

 

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New opportunities for manipulating flowering in plants set the stage

for extensive alteration of crop geography Prof. Joe Cummins A fully

referenced version of this article is posted on ISIS members' website

http://www.i-sis.org.uk/full/VFMHFull.php.

 

Details here http://www.i-sis.org.uk/membership.php

 

MADS-box genes are a large family of genes coding for protein

transcription-factors that recognize short stretches of DNA - the

MADS-box – to which they bind directly to regulate transcription.

MADS-boxes and transcription factors are present in all multi-cellular

eukaryotes from fungi to plants and humans where they regulate

developmental pathways.

 

The MADS-box transcription factors bend DNA at the site of

transcription initiation to juxtapose transcription factors on

adjacent sites (boxes).

 

In plants, the MADS-box gene families are conserved among gymnosperms,

angiosperms, ferns and mosses. They serve a wide range of functions

from floral development to root formation, but the range of effects is

not yet fully explored.

 

The controls of floral development pathways and time of flowering have

a common evolutionary origin. Flowering plants prefer transcription

from chromosomes of maternal rather than paternal origin and even that

epigenetic effect is mediated through MADS-box controls.

 

The discovery of the MADS-box gene families has had an instant impact

on agriculture and forestry. A wide array of inventions to control

flowering, seed production as well as other growth modifications has

not yet reached commercial farms and forests, but many modifications

have been reported and others have been patented.

 

The main commercial transgenic crops now available are modified for

herbicide resistance or insect resistance, the MADS-box constructions

are modified with flowering controls or flowering timing, even

alterations in yield are contemplated. Agronomy, horticulture and

forestry will all be greatly affected by the genetic modifications

involving the MADS-box.

 

Much of the initial work on the plant MADS-box transcription factors

was done using the tiny mustard plant Arabidopsis. Recently a floral

transcription factor was found to control the agronomic traits of seed

yield and seed mass. Of course, such trait in Arabidopsis would mainly

please a few voles, but the trait can easily be manipulated in grain

crops such as maize, rice and wheat.

 

In rice, for example, MADS-box genes have been identified which

control the timing of flowering. As flowering time determines regional

adaptability of rice varieties, manipulating that timing will allow

greater use of regional varieties. Genes determining rice floral

morphology have been identified allowing rice spikelet development to

be manipulated.

 

Vernalization is the long winter cold treatment required for flowering

in grain and some oil crops. Usually, the crops requiring

vernalization have spring planted cultivars that do not require the

cold treatment so they can be planted in spring rather than autumn.

Nevertheless, the winter requiring varieties have desirable traits

that are not present in the spring varieties. In wheat, vernalization

is controlled by the MADS-box gene WAP1.

 

Unlocking vernalization should allow quality wheat to be produced in

warm climates. Bolting is another aspect of cold temperature-induced

flowering. Exposing the germinating seeds or plantlets to a range of

low temperatures accelerates flowering causing cabbage or lettuce to

lose commercial value. An anti-bolting MADS-box gene has been

identified in Chinese cabbage.

 

The stage is set for extensive alterations in crop geography. The

MADS-box genes expressed during tomato seed and fruit development have

been identified. Such findings may lead to commercial applications. An

anther-specific MADS-box was identified in peas and is expressed also

in a number of other plant species. The anther-specific transcription

regulator can be manipulated to produce male-sterile varieties used to

produce high value hybrid seeds.

 

A root nodule-specific MADS-box gene was identified in alfalfa root

nodules. Transferring nitrogen-fixing ability to non-legumes has been

discussed for decades, and this discovery may spur developments in

that area. The MADS-box gene DAL1 was identified as a mediator of

juvenile to adult transition in Norway spruce. Hastening floral

development in forest trees can accelerate breeding programs. The

first of many patents on MADS-box related functions have begun to

appear, all of them broad patents covering reproductive development in

plants in general.

 

United States Patent 6 828 478 provides the surprising finding that

ectopic _expression of certain MADS-box-containing gene products, such

as SEP1, SEP2, SEP3 or AGL24, combined with the ectopic _expression of

AP1, CAL or LFY gene products, result in modulated reproductive

development. Thus, this invention provides plants comprising such

ectopically expressible gene products as well as methods of modulating

the timing of reproductive development in plants.

 

US patent 6 693 228 deals with the flowering locus (FLC) to delay or

advance flowering, and US patent 6 713 663, with FT protein that

modulates flowering in plants and dominant negative mutations of that

protein (dominant negative mutations usually disrupt the function of a

wild type gene by producing peptides that inactivate the wild type

product).

 

A Canadian patent application deals with floral homeotic genes for

manipulation of flowering in poplar, and involves ablation of

reproductive cells using toxins activated by promoters for the flower

specific transcription factors, or by inhibiting the transcription

factors with genetic anti-sense or dominant negative mutants. In the

patents described above, the genes involved all originate from plants,

but selectable markers and synthetic genes are also used to modulate

the plant genes.

 

The discovery of MADS-box transcription regulators has open doors to

modulating a wide array of agronomical properties of which the control

of flowering and seed production is only the first. Other properties

include nitrogen fixation, plant growth and disease resistance.

 

The potential benefits from such manipulation must be evaluated

alongside the safety considerations, including the genetic

modifications themselves, which may involve synthetic genes and

ablation toxins that pose a threat to animals. Indeed, the homology

between plant and animal MADS-box genes should receive special attention.

 

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