4-Patents: Old version of Golden Rice fully licensed to India
- To: GENET-news <GENETfirstname.lastname@example.org>
- Subject: 4-Patents: Old version of Golden Rice fully licensed to India
- From: GENET <email@example.com>
- Date: Tue, 2 Aug 2005 08:43:53 +0200
- Content-Transfer-Encoding: quoted-printable
- Content-Type: text/plain; charset=ISO-8859-1
- List-Help: <mailto:firstname.lastname@example.org?subject=help>
- List-Post: <mailto:email@example.com>
- List-Subscribe: <mailto:firstname.lastname@example.org?subject=subscribe>
- List-Unsubscribe: <mailto:email@example.com?subject=unsubscribe>
- Old-Return-Path: <firstname.lastname@example.org>
- Organization: GENET
- Resent-From: email@example.com
-------------------------------- GENET-news -------------------------------
TITLE: Golden Rice fully licensed to India
SOURCE: Food Technology, France, by Hyridyesh Pandey
DATE: 8 Jul 2005
------------------- archive: http://www.genet-info.org/ -------------------
Golden Rice fully licensed to India
08/07/2005 - India will receive the full production transfer of GM Golden
Rice from Switzerland, five years after the strain was engineered to help
combat blindness and disease in Asia, writes Hyridyesh Pandey.
Golden rice has attracted much attention because it has been developed to
contain building blocks for vitamin A. The prospect of offering daily
doses of key nutrients to millions of Asians in their staple food has
excited both researchers and governments world-wide.
Golden Rice is a transgenic variety of rice, which has genes for the
synthesis of b-carotene. These genes are taken from the garden favourite
Narcissus pseudonarcissus (daffodil) and inserted into the genome of a
temperate strain of rice.
The grain got its name because it glows with the golden colour of beta-
carotene, the yellow-orange compound that gives carrots their colour and
the world's most common source of vitamin A.
The Genetically Modified (GM) Golden Rice is being offered free to India
where vitamin A deficiency causes blindness in up to 500,000 children
each year, according to World Health Organisation figures.
British scientists have also developed a new genetically modified strain
of sunflower-yellow, vitamin-enriched rice for free transfer to countries
like India in the hope it will prevent millions of children in the
developing world from going blind. The new variety of so-called "golden
rice" produces 20 times more beta-carotene than previous varieties of the
grain, which was first created five years ago in a Swiss laboratory as a
triumph of humanist-science.
The news however raises the complex issue of genetic modification of
plants for the benefit of poor countries. Such developments offer cheaper
or more plentiful supply of key nutrients than current sources, however
they also face safety concerns and consumer resistance to genetic engineering.
The original golden rice has not yet been grown in field trials in Asia,
although the firm says that public rice research institutions in the
Philippines, Vietnam, India, Bangladesh, China and Indonesia are in
various stages of developing locally adapted varieties.
Greenpeace has criticised the lack of information given on the
bioavailability of beta-carotene from the rice in the body, noting that
the original variety was also designed to increase intake of this
nutrient but children could not get their daily requirement from eating
normal quantities of rice.
It adds that several other approaches to solve vitamin A deficiency have
been shown to work efficiently and the Golden Rice project is likely to
distract the necessary public awareness of solutions like vitamin A
supplementation and political efforts against malnutrition.
However scientists are ready to try out an improved version of the
genetically modified rice aimed at curbing blindness among children.
The International Rice Research Institute (IRRI) and the Indian council
of Agricultural Research (ICAR) signed a work plan to collaborate in rice
research, focusing on genetic enhancement in terms of yield and quantity.
At present, the ICAR is concentrating on two varieties of rice fortified
with iron and Vitamin A. The emphasis of the research is on enriching
rice grain with iron and zinc through fertilizer use to improve
nutrition. They are also working on the development of rice-resistant
varieties for drought-prone environments.
In Asia, the average person eats rice two or three times a day and it
also has become a staple food in many African countries. Milled white
rice contains essentially no beta-carotene and unmilled brown rice
contains a very small amount.
European NGO Network on Genetic Engineering
Hartmut MEYER (Mr)
In den Steinäckern 13
D - 38116 Braunschweig
GENET-news mailing list