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The Debate over Genetically Modified Foods
?Rice with built-in Vitamin A that can help pr blindness in 100 million children suffering from Vitamin A deficiency
?A tomato that softens more slowly, allowing it to develop longer on the vine and keep longer on the shelf
?Potatoes that absorb less fat when fried, changing the ever-popular French fries from junk food into a more nutritional food
?Strawberry crops that can survive frost
These are some of the benefits promised by biotechnology.The debate over its benefits and safety, however, continues.Do we really need to fear mutant (突变体) weeds, killer tomatoes, and giant com and will the benefits be delivered?
Conventional Breeding Versus Genetically Modified (GM) Crops
For thousands of years farmers have used a process of selection and cross breeding to continually improve the quality of crops.Even in nature, plants and animals selectively breed, thus ensuring the optimum gene pool for future generations.Traditional breeding methods are slow, requiring intensive labor: While trying to get a desirable trait in a bred species, undesirable traits will appear and breeders must continue the process over and over again until all the undesirables are bred out.
In contrast, organisms acquire one specific gene or a few genes together through genetic modification, without other traits included and within a single generation.However, this technology too is inherently unpredictable and some scientists believe it can produce potentially erous results unless better testing methods are developed.
Traditional breeding is based on ual reproduction between, like organisms.The transferred genes are similar to genes in the cell they join.They are conveyed in complete groups and in a fixed sequence that harmonizes with the sequence of genes in the partner cell.In contrast, bioengineers isolate a gene from one type of organism and splice (接合) it haphazardly into the DNA of a dissimilar species, disrupting its natural sequence.Further, because the transplanted gene is foreign to its new surroundings, -it cannot adequately function without a big artificial boost.
One of the main differences between conventional and genetically modified crops is that the former involves crosses either within species or between very closely related species.GM crops can have genes either from closely related species or from distant species, even bacteria and viruses.
Benefits: One Side of the Debate
?Economical benefits
GM supporters tell farmers that they stand to reap enormous profits from growing GM crops.Initially, the cost is expensive but money is saved on pesticides.To produce the GM crops, modern biotechnology is used which requires highly skilled people and sophisticated and expensive equipment.Large companies need considerable investments in laboratories, equipment and human resources, hence the reason why GM crops are more expensive for farmers than traditional crops.GM crops, farmers are told, are a far better option.It takes a shorter time to produce the desired product.It is precise and there are no unwanted genes.
?Herbicide-Resistant Crops
So what other advantages do GM crops hold for farmers? GM crops can be produced to be herbicide-resistant.This means that farmers could spray these crops with herbicide and kill the weeds, without affecting the crops.In effect, the amount of herbicide used in one season would be reduced, with a subsequent reduction in costs for farmers and consumers.For Ingard cotton, pest-resistance was built into the cotton, hence reducing and even removing the use of pesticides, which are not only expensive but, more importantly, harmful to the environment.
Biotechnology companies are even experimenting with c

The Debate over Genetically Modified Foods
?Rice with built-in Vitamin A that can help pr blindness in 100 million children suffering from Vitamin A deficiency
?A tomato that softens more slowly, allowing it to develop longer on the vine and keep longer on the shelf
?Potatoes that absorb less fat when fried, changing the ever-popular French fries from junk food into a more nutritional food
?Strawberry crops that can survive frost
These are some of the benefits promised by biotechnology. The debate over its benefits and safety, however, continues. Do we really need to fear mutant (突变体) weeds, killer tomatoes, and giant com and will the benefits be delivered?
Conventional Breeding Versus Genetically Modified (GM) Crops
For thousands of years farmers have used a process of selection and cross breeding to continually improve the quality of crops. Even in nature, plants and animals selectively breed, thus ensuring the optimum gene pool for future generations. Traditional breeding methods are slow, requiring intensive labor: While trying to get a desirable trait in a bred species, undesirable traits will appear and breeders must continue the process over and over again until all the undesirables are bred out.
In contrast, organisms acquire one specific gene or a few genes together through genetic modification, without other traits included and within a single generation. However, this technology too is inherently unpredictable and some scientists believe it can produce potentially erous results unless better testing methods are developed.
Traditional breeding is based on ual reproduction between, like organisms. The transferred genes are similar to genes in the cell they join. They are conveyed in complete groups and in a fixed sequence that harmonizes with the sequence of genes in the partner cell. In contrast, bioengineers isolate a gene from one type of organism and splice (接合) it haphazardly into the DNA of a dissimilar species, disrupting its natural sequence. Further, because the transplanted gene is foreign to its new surroundings, -it cannot adequately function without a big artificial boost.
One of the main differences between conventional and genetically modified crops is that the former involves crosses either within species or between very closely related species. GM crops can have genes either from closely related species or from distant species, even bacteria and viruses.
Benefits: One Side of the Debate
?Economical benefits
GM supporters tell farmers that they stand to reap enormous profits from growing GM crops. Initially, the cost is expensive but money is saved on pesticides. To produce the GM crops, modern biotechnology is used which requires highly skilled people and sophisticated and expensive equipment. Large companies need considerable investments in laboratories, equipment and human resources, hence the reason why GM crops are more expensive for farmers than traditional crops. GM crops, farmers are told, are a far better option. It takes a shorter time to produce the desired product. It is precise and there are no unwanted genes.
?Herbicide-Resistant Crops
So what other advantages do GM crops hold for farmers? GM crops can be produced to be herbicide-resistant. This means that farmers could spray these crops with herbicide and kill the weeds, without affecting the crops. In effect, the amount of herbicide used in one season would be reduced, with a subsequent reduction in costs for farmers and consumers. For Ingard cotton, pest-resistance was built into the cotton, hence reducing and even removing the use of pesticides, which are not only expensive but, more importantly, harmful to the environment.
Biotechnology companies are even experimenting with c

A.
Y
B.
N
C.
NG
题目标签:接合突变体
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参考解析:
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刷刷题刷刷变学霸
举一反三

【单选题】细菌间的接合是

A.
通过性菌毛传递遗传物质
B.
通过普通菌毛传递遗传物质
C.
以温和噬菌体为媒介
D.
受菌体直接摄取供菌体的游离DN段
E.
两种细菌原生质体发生融合

【单选题】接合性耐药质粒又称

A.
R质粒
B.
Vi质粒
C.
Col质粒
D.
冈崎片段
E.
r因子

【单选题】以下不是接合特点的是( )

A.
基因转移是单向的
B.
要求细胞与细胞的接触
C.
溶源细胞被诱导后才发生
D.
E.
coli 中,
F.
因子参与该过程

【单选题】与接合有关的细菌结构是

A.
鞭毛
B.
纤毛
C.
绒毛
D.
I型菌毛
E.
Ⅱ型菌毛

【单选题】介导细菌间接合的物质是()

A.
鞭毛
B.
普通菌毛
C.
性菌毛
D.
中介体
E.
核糖体

【单选题】< 介导细菌间接合的物质是

A.
中介体
B.
核糖体
C.
鞭毛
D.
普通菌毛
E.
性菌毛
相关题目:
【单选题】细菌间的接合是
A.
通过性菌毛传递遗传物质
B.
通过普通菌毛传递遗传物质
C.
以温和噬菌体为媒介
D.
受菌体直接摄取供菌体的游离DN段
E.
两种细菌原生质体发生融合
【单选题】双线接合之接合位应让()。
A.
5~7m/m
B.
8~10m/m
C.
11~13m/m
D.
14~15m/m
【单选题】接合性耐药质粒又称
A.
R质粒
B.
Vi质粒
C.
Col质粒
D.
冈崎片段
E.
r因子
【单选题】以下不是接合特点的是( )
A.
基因转移是单向的
B.
要求细胞与细胞的接触
C.
溶源细胞被诱导后才发生
D.
E.
coli 中,
F.
因子参与该过程
【单选题】与接合有关的细菌结构是
A.
鞭毛
B.
纤毛
C.
绒毛
D.
I型菌毛
E.
Ⅱ型菌毛
【单选题】介导细菌间接合的物质是()
A.
鞭毛
B.
普通菌毛
C.
性菌毛
D.
中介体
E.
核糖体
【单选题】< 介导细菌间接合的物质是
A.
中介体
B.
核糖体
C.
鞭毛
D.
普通菌毛
E.
性菌毛