Complete gene mapping of a Pakistani citizen by Human Genome Project in Karachi has put the country on a very short list of nations which have accomplished this scientific feat. To assess the state of genomics and biotechnology in Pakistan, let's take a look at what is happening in the country in this field:
1. Researchers at the Panjwani Center for Molecular Medicine and Drug Research (PCMD) in Karachi collaborated with Beijing Genomics Institute (BGI) to complete gene mapping of Dr. Ata-ur-Rahman, according to SciDev. Dr. Rehman, President of Pakistan Academy of Sciences, volunteered himself for the project.
2. More than two hundred life sciences departments are engaged in genomics and biotechnology research at various Pakistani universities, according to a report in The News.
3. Pakistan has been a Science Watch rising star for several years for research papers in multiple fields, particularly in biological sciences. Publications by Pakistani research teams have increased four-folds in the last decade, and the majority of publications from major universities are in life sciences.
4. Pakistan began producing biotechnology based pharmaceuticals in 2009. The first of these plants was set up by Ferozesons in Lahore to produce interferon for treatment of hepatitis, according to Nature magazine.
5. Pakistan has significant research efforts in seed and livestock development at various agriculture universities, institutes and departments. Pakistani researchers and scientists are currently collaborating in life sciences with their counterparts in the US and China. A number of crops like cotton, rice, wheat, corn, potato, ground nut are being developed locally or with the collaboration of Chinese and US seed companies.
6. Post-doctoral research on biotechnology and related agricultural issues is being funded under a Young Scientists Program, as part of the USDA-funded sustainable endowment to support the Agricultural Linkages Program at the Pakistan Agricultural Research Council (PARC). An MOU for $7.5 million has been signed under the Pakistan-U.S. Science and Technology Program between Pakistans Higher Education Commission (HEC) and the Ministry of Science and Technology and the U.S Agricultural Research Service (ARS) for scientific collaboration and capacity building of scientists.
7. National Biosafety Committee has allowed stacked gene (Cry 1A and Cry 2Ab) in cotton developed by Center of Excellence in Molecular Biology (CEMB), Lahore. Several other stacked gene products are in the pipe line and will be put for approval soon.
8. Pakistan is building the capacity of its young scientists in the legislative, regulatory, and policy areas related to agricultural biotechnology, biosafety and nanotechnology. A small project has been funded in Agricultural Nanobiotechnology related to the use of nanoparticles for plant genetic engineering utilizing a Bio-Rad biolistic gene gun at National Institute for Biotechnology and Genetic Engineering (NIBGE), Faisalabad.
While the universities have stepped up their research programs in life sciences as a result of the higher education reforms undertaken in the last decade, it's still a major challenge to translate the academic work into tangible benefits in terms of improved human health and higher crop and livestock yields in the country.
Part of the challenge stems from the need for regulatory framework for introducing biotech products and technology for humans, plants and animals. To make progress on this front, Pakistan has ratified the Cartagena Protocol of Biosafety (CPB) with a framework for handling GMOs. The proposed regulatory guidelines are built upon on a three-tier system composed of the National Biosafety Committee (NBC); a Technical Advisory Committee (TAC); and Institutional Biosafety Committees (IBC), according to USADA GAIN report on Pakistan.
In the regulatory framework, the Secretary of the Ministry of Environment heads the NBC, and is responsible for oversight of all laboratory work and field trials, as well as authorizing the commercial release of GM products. The three monitoring and implementing bodies administer enforcement of the National Biosafety Guidelines. The IBC may make recommendations to the NBC regarding the awarding of exemptions for laboratory and fieldwork related to products of bioengineering. These recommendations may be accepted, and formal approval granted, if sufficient information and grounds exist to consider the risk as being minimal or non-existent. After permission for deregulation is granted by the NBC, approval can still be withdrawn provided sufficient technical data and other evidence later becomes available that warrants a review. The other important ministry dealing with production and release of GM crop is Ministry of Food and Agriculture (MINFA). The ministry developed several Standard Operating Procedures (SOPs) for handling of cases of import/approval/release of GM crops; however, all these have yet to be promulgated.
Genomics and biotechnology have great potential to fight diseases and help improve human lives and increase productivity. So far, the benefits of these advances have accrued mostly to the rich countries because they are driven by market incentives. The time has now come for Pakistan to take advantage of such technological advances. Take crop yields as an example. Wheat is the staple of Pakistan and planted on the largest acreage. It contributes about three percent to the GDP. The national average yield is about 2.7 tons per hectare, far below the average in European countries such as France, Germany and the United Kingdom where they are above seven tons per hectare, according to recent Op Ed by Dr. Ata-ur-Rehman.
There is significant opposition to the use of GM seeds in South Asia today. In his book The Rational Optimist, author Matt Ridley recalls that there was similar resistance in 1960s to Nobel Laureate Norman Borlaug's Mexican dwarf wheat. Ridley writes about how Borlaug's efforts helped spark the Green Revolution in India and Pakistan. Ridley argues that it was Borlaug's work with his new seeds and chemical fertilizer that disproved Paul Ehrlich's claim in his book The Population Bomb that India would never feed itself.
While extra caution is absolutely warranted before introducing genetically modified organisms in the environment, an irrational fear of the unknown would be unacceptable in a country like Pakistan with its dwindling water resources and a growing young population that needs to be fed, clothed, educated and nurtured. Clearly, the technology can help cure diseases and lead to development of new drought-resistant seed varieties producing high crop yields.
Haq's Musings: Genomics & Biotech Advances in Pakistan
1. Researchers at the Panjwani Center for Molecular Medicine and Drug Research (PCMD) in Karachi collaborated with Beijing Genomics Institute (BGI) to complete gene mapping of Dr. Ata-ur-Rahman, according to SciDev. Dr. Rehman, President of Pakistan Academy of Sciences, volunteered himself for the project.
2. More than two hundred life sciences departments are engaged in genomics and biotechnology research at various Pakistani universities, according to a report in The News.
3. Pakistan has been a Science Watch rising star for several years for research papers in multiple fields, particularly in biological sciences. Publications by Pakistani research teams have increased four-folds in the last decade, and the majority of publications from major universities are in life sciences.
4. Pakistan began producing biotechnology based pharmaceuticals in 2009. The first of these plants was set up by Ferozesons in Lahore to produce interferon for treatment of hepatitis, according to Nature magazine.
5. Pakistan has significant research efforts in seed and livestock development at various agriculture universities, institutes and departments. Pakistani researchers and scientists are currently collaborating in life sciences with their counterparts in the US and China. A number of crops like cotton, rice, wheat, corn, potato, ground nut are being developed locally or with the collaboration of Chinese and US seed companies.
6. Post-doctoral research on biotechnology and related agricultural issues is being funded under a Young Scientists Program, as part of the USDA-funded sustainable endowment to support the Agricultural Linkages Program at the Pakistan Agricultural Research Council (PARC). An MOU for $7.5 million has been signed under the Pakistan-U.S. Science and Technology Program between Pakistans Higher Education Commission (HEC) and the Ministry of Science and Technology and the U.S Agricultural Research Service (ARS) for scientific collaboration and capacity building of scientists.
7. National Biosafety Committee has allowed stacked gene (Cry 1A and Cry 2Ab) in cotton developed by Center of Excellence in Molecular Biology (CEMB), Lahore. Several other stacked gene products are in the pipe line and will be put for approval soon.
8. Pakistan is building the capacity of its young scientists in the legislative, regulatory, and policy areas related to agricultural biotechnology, biosafety and nanotechnology. A small project has been funded in Agricultural Nanobiotechnology related to the use of nanoparticles for plant genetic engineering utilizing a Bio-Rad biolistic gene gun at National Institute for Biotechnology and Genetic Engineering (NIBGE), Faisalabad.
While the universities have stepped up their research programs in life sciences as a result of the higher education reforms undertaken in the last decade, it's still a major challenge to translate the academic work into tangible benefits in terms of improved human health and higher crop and livestock yields in the country.
Part of the challenge stems from the need for regulatory framework for introducing biotech products and technology for humans, plants and animals. To make progress on this front, Pakistan has ratified the Cartagena Protocol of Biosafety (CPB) with a framework for handling GMOs. The proposed regulatory guidelines are built upon on a three-tier system composed of the National Biosafety Committee (NBC); a Technical Advisory Committee (TAC); and Institutional Biosafety Committees (IBC), according to USADA GAIN report on Pakistan.
In the regulatory framework, the Secretary of the Ministry of Environment heads the NBC, and is responsible for oversight of all laboratory work and field trials, as well as authorizing the commercial release of GM products. The three monitoring and implementing bodies administer enforcement of the National Biosafety Guidelines. The IBC may make recommendations to the NBC regarding the awarding of exemptions for laboratory and fieldwork related to products of bioengineering. These recommendations may be accepted, and formal approval granted, if sufficient information and grounds exist to consider the risk as being minimal or non-existent. After permission for deregulation is granted by the NBC, approval can still be withdrawn provided sufficient technical data and other evidence later becomes available that warrants a review. The other important ministry dealing with production and release of GM crop is Ministry of Food and Agriculture (MINFA). The ministry developed several Standard Operating Procedures (SOPs) for handling of cases of import/approval/release of GM crops; however, all these have yet to be promulgated.
Genomics and biotechnology have great potential to fight diseases and help improve human lives and increase productivity. So far, the benefits of these advances have accrued mostly to the rich countries because they are driven by market incentives. The time has now come for Pakistan to take advantage of such technological advances. Take crop yields as an example. Wheat is the staple of Pakistan and planted on the largest acreage. It contributes about three percent to the GDP. The national average yield is about 2.7 tons per hectare, far below the average in European countries such as France, Germany and the United Kingdom where they are above seven tons per hectare, according to recent Op Ed by Dr. Ata-ur-Rehman.
There is significant opposition to the use of GM seeds in South Asia today. In his book The Rational Optimist, author Matt Ridley recalls that there was similar resistance in 1960s to Nobel Laureate Norman Borlaug's Mexican dwarf wheat. Ridley writes about how Borlaug's efforts helped spark the Green Revolution in India and Pakistan. Ridley argues that it was Borlaug's work with his new seeds and chemical fertilizer that disproved Paul Ehrlich's claim in his book The Population Bomb that India would never feed itself.
While extra caution is absolutely warranted before introducing genetically modified organisms in the environment, an irrational fear of the unknown would be unacceptable in a country like Pakistan with its dwindling water resources and a growing young population that needs to be fed, clothed, educated and nurtured. Clearly, the technology can help cure diseases and lead to development of new drought-resistant seed varieties producing high crop yields.
Haq's Musings: Genomics & Biotech Advances in Pakistan
