SCI 101 - STS Module 5 PDF

Summary

This module explores genetically modified organisms (GMOs), covering genetic engineering, its steps, and differences between genetically and non-genetically engineered crops. It also provides information about the use of GMOs in various contexts. The module includes materials for the topic, such as lecture notes, presentations, suggested web readings, and online videos on genetic modification, etc.

Full Transcript

GEC 107 l Science, Technology and Society l IASTE

Module 5
Genetically Modified Organisms

CONTENT
A. Genetic Engineering
B. Genetically Modified Organisms

OBJECTIVES
In this module, you will:

1. Define genetic engineering.
2. List and briefly explain the five basic steps in genetic engineering. Describe why each is necessary.
3. Identify the fundamental differences between genetically engineered crops and non-genetically
engineered crops.
4. Explain the limitations to traditional breeding that are overcome by genetic engineering.
5. Identify the approximate length of time required to obtain a marketable transgenic crop line
(complete the entire crop genetic engineering)

MATERIALS FOR THIS TOPIC

Lecture Notes: PDF/Word format lectures that can be read for approximately 30-60 minutes.

PowerPoint Presentation: 30-60 minutes approximately for each subtopic

Suggested Web Readings:
What is genetic engineering? (2017). @yourgenome · Science Website.
https://www.yourgenome.org/facts/what-is-genetic-engineering/

Smith, M. (2022). Genetic Engineering. Genome.Gov. https://www.genome.gov/genetics-
glossary/Genetic-
Engineering#:%7E:text=Genetic%20engineering%20is%20the%20process,selecting%20offspri
ng%20with%20desired%20traits.

Suggested Online Videos:
“What is genetic modification?”
https://www.youtube.com/watch?v=rx953M-tpp4
“What is genetically modified food?”
https://www.youtube.com/watch?v=_FZewFiw7IE
“Genetically modified food: The Future”
https://www.youtube.com/watch?v=BalxcRtP-m4
“Genetic engineering in Health and Medicine”
https://www.youtube.com/watch?v=xRK03f6fX4Y
“Ethics of Genetic engineering in Food: Are GMOs good or bad?”
https://www.youtube.com/watch?v=7TmcXYp8xu4
GEC 107 l Science, Technology and Society l IASTE

Introduction
Given the sensitive nature of Genetic
Engineering, it is simple to see why it has raised
so many serious issues in regards to plants,
animals, and humans. What, then, is
nanotechnology? The dictionary cites that
nanotechnology refers to “a field of applied
science and technology whose theme is the
control of matter on the atomic and molecular
scale, and the fabrication of devices or materials
that lies within that size range”
(“Nanotechnology”). Like Genetic Engineering,
the concept of nanotechnology also raises many
ethical issues, as well as other concerns. The
Google images
adverse effects and concerns of Genetic
Engineering, in regards to plant, animal, and 1. How will you describe genetic
human life will be discussed, as well as the engineered products/crops?
2. What genetically altered products
concerns regarding nanotechnology. have you already consumed or come into
contact with?

Genetically modified organism

A genetically modified organism is
one whose genetic material has
been altered using genetic
engineering.
Genetically modified organisms or
GMOs, are commonly used in
foods and medicines. This has led
to concern about the dangers they
might cause to the environment
and to human health.
GEC 107 l Science, Technology and Society l IASTE

How it was modified?

⚫ Eliminating, modifying or adding copies
of specific genes often from other
organisms through modern molecular
biology techniques.
⚫ Other names:
◼ Recombinant DNA (rDNA)
◼ Genetic engineering
◼ Gene splicing

Genetic engineering is
accomplished in three basic
steps. These are
(1) The isolation of DNA fragments
from a donor organism;
(2) The insertion of an isolated donor
DNA fragment into a vector genome
and
(3) The growth of a recombinant
vector in an appropriate host.

https://www.tandfonline.com/doi/abs/10.1080/0020723800873741
9?journalCode=genv20#:~:text=Genetic%20engineering%20is%2 An illustration showing how genetic modification is used to
0accomplished%20in,vector%20in%20an%20appropriate%20host produce insulin in bacteria.. Image credit: Genome Research Limited
Google images

3.Where it used?

Food - Canola, Soya bean, Golden rice
and corn Etc.
Medicine - Insulin, hormones and
vaccine Etc.
Genetically modified medicines can be
produced cheaper and easier.
GEC 107 l Science, Technology and Society l IASTE

History

1972 – 1st rDNA molecule produced
1977 – Genetech use rDNA to make insulin
1982 – Monsanto bovine growth hormones
use in cow increase milk
production
1987 – 1st outdoor field test of GMO
“Frostban” bacteria
1987 – national academy of science
concluded transferring genes
between species no serious environment
hazard
1992 – USDA approves “flavrsavr”
tomatoes - calgene
1996 – Monsanto introduce roundup ready
soybeans 56
Google images

GM crops

1. Rice
2. Wheat
3. Corn
4. sunflower
5. Canola
6. Soy
7. Sugar beet
8. Papaya
9. Squash
10.Potato
11.Tomato
12.Brinjal
13.Alfa alfaTypes of GM Foods

Types of GM Foods
1. First-generation crops
Traits such as herbicide tolerance, better insect resistance and better tolerance to environmental
stress. The ensuing crops are not significantly different from the traditionally grown crops in terms
of appearance, taste and nutrition. Examples of such crops are herbicide resistant soybean, insect
resistant maize, and herbicide and insect-resistant potato.

2. Second-generation crops
Increased levels of protein, modified or healthier fats, modified carbohydrates, increased flavor or
increased micronutrients. Examples rice with a higher level of beta-carotene, tomatoes with higher
levels of carotenoids, maize with increased vitamin C, soybean with improved amino acid composition,
and potatoes with higher calcium content.

3. Third Generation
Increased ability to resist abiotic stress Create “pharma plants” to help produce active pharmaceutical
products. In Feb 2009, the U.S. Food and Drug Administration (FDA) approved recombinant anti-
thrombin prevention of blood clots, hereditary anti-thrombin deficiency. This is 1st human biologic
 GEC 107 l Science, Technology and Society l IASTE

drug derived from the milk of goats that have been genetically engineered to produce human anti-
thrombin in their milk.

Global Status of Commercialized Biotech/GM Crops: 2014.
ISAAA brief No. 49 Agribiotech Applications (ISAAA): Ithaca,
NY.Institutional framework
1) Ministry of Agriculture;
2) Ministry of Environment and Forests
3) Department of Biotechnology, Ministry of Science and
Technology

The legislative framework on agro biotechnology rests mainly
with the Ministry of Environment and Forests, Government of
India.

The Environment (Protection) Act, 1986, the Ministry of
Environment and Forests has notified the Rules for the
Manufacture, Use, Import, Export and Storage of Hazardous
Micro Organisms/ Genetically Engineered Organisms or Cells,
1989, or in short, the Rules, in 1989.

⚫ Recombinant DNA Safety Guidelines, 1990 by Department of Biotechnology covering research in
biotechnology, field trials and commercial applications;
⚫ Revised Guidelines for Research in Transgenic Plants, 1998 by Department of Biotechnology;
⚫ Protocols for Food and Feed Safety Assessment of GE Crops, 2008 by Department of Biotechnology;
⚫ Guidelines for the Safety Assessment of Foods Derived from Genetically Engineered Plants, 2008 by
Indian Council of Medical Research (ICMR);
⚫ Guidelines and Standard Operating Procedures (SOPs) for Confined Field Trials of Regulated,
Genetically Engineered (GE) Plants, 2008 by Department of Biotechnology and Ministry of
Environment and Forests.
⚫ Bt Cotton is the only GM crop grown in IndiaCultivation of Bt Cotton was allowed in 2002.
GEC 107 l Science, Technology and Society l IASTE

⚫ India has become a net exporter of Cotton in the last one decade.
⚫ 90% of total cotton cultivation area is covered by Bt Cotton.
⚫ Yield is more than 80% compared to non-Bt Cotton.
⚫ More than 600 hybrid seeds are in circulation now

Pros of genetically modified foods

✓ Improved yield
✓ More resistant to disease
✓ Less likely to be damaged by insect
✓ Tolerance to herbicides
✓ Better nutritional value
✓ Increased shelf life
✓ Improvement in health and
✓ environment
✓ Better climatic survival by increasing
✓ tolerance to draught, flood or frosty
✓ conditions to allow the use of
✓ previously inhospitable land
✓ Higher crop yields
✓ Reduced farm costs
✓ Increased farm profit
✓ More food - Cheaper food
✓ Reduced risk
✓ Tolerent / resistance crops Increased nutrition (Pests, Diseases, Drought, Frost, Flood)
✓ Edible vaccines
✓ Reducing world hunger and
✓ Improving world health
GEC 107 l Science, Technology and Society l IASTE

Criticisim of GM Foods

Environmental hazards

Unintended harm to other organism
Difficult to design toxin kills crop-
damaging pests, not other insects
Reduced effectiveness of pesticides
Develops resistance DDT
Gene transfer to non-target species
Cross-breeding
Transfer of herbicide resistance from
crops to weeds
The “superweeds” will then have
herbicide tolerance as well
Solution
Create buffer zone

Human health risks

Allergenicity: We already have allergies to
peanuts and other foods. Introducing
gene may create more allergies.
Unknown effects on human health
However, proposal to introduce a gene
from Brazil nuts into Soyabeans was
abandoned. On the whole, with the
exception of possible allergenicity,
scientists believe that GM foods do not
present a risk to human health.
GEC 107 l Science, Technology and Society l IASTE

Economic concerns

Lengthy and costly process
May be patented
Monsanto, Novartis, Dow, DuPont
hold patents for GM crops
Make substantial profit by exporting
it to Ems’.
Farmers from developing
countries/EM cannot afford.
More gap between rich and poor

Other invention discouraged/stopped
Suicide gene technology
Only one growing per season
Next time would produce sterile
seeds that do not germinate.

REFERENCES

Website

https://www.britannica.com/science/genetically-modified-organism
https://www.livescience.com/40895-gmo-
facts.html#:~:text=A%20genetically%20modified%20organism%2C%20or,to%20as%20%22trans
genic%22%20organisms.
https://www.nongmoproject.org/gmo-facts/what-is-gmo/

WORK OUTPUT #5
⚫ To submit this work output, upload it in PDF format on designated folder in MS Teams or
send it via personal message on Messenger if connection is unstable. You may also write
your answers on a sheet of paper, take a picture (convert it in PDF format) of it and submit
(on designated folder in MS Teams) or send (via Messenger).
⚫ Indicate your SURNAME, FIRSTNAME – PROGRAM YEAR SECTION when submitting. Eg.
YAMAUCHI, FRIENCHIE ANN B– BSBIOLOGY
⚫ Note: Instruction for this requirement will be discussed via MS Teams.

TASK #1

A. Read the following articles and make a reflection paper on the issues related to them as well as
a proposed solution for these specific issues:
⚫ Genetically Modified Pig Heart
https://edition.cnn.com/2022/03/09/health/pig-heart-transplant-death/index.html
⚫ PH Golden rice
https://www.world-grain.com/articles/15607-philippines-approves-golden-rice-for-
commercial-use