SELECTIVE BREEDING & GENETIC ENGINEERING

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Presentation transcript:

SELECTIVE BREEDING & GENETIC ENGINEERING 3.f. Develop a logical argument for or against research conducted in selective breeding and genetic engineering, including (but not limited to) research conducted in MS.

Bellwork 1/5 Write a paragraph (at least 5 sentences) about your Christmas Break

Selective Breeding & Genetic Engineering Selective breeding & genetic engineering are 2 scientific techniques in which humans try to produce offspring with desirable traits

What is selective breeding? Definition: Selective breeding is where humans select (chose) 2 animals with desired traits & breed (mate) them trying to produce offspring with the desired traits of both parents

Selective Breeding Typically, strains which are selectively bred are domesticated Over many generations, the practice leads to the development of strains with the desired characteristics

Examples of selective breeding Intentionally mating 2 dogs in order to achieve or eliminate a specific trait A farmer saves seed from a hearty crop to replant the next year Dogs are bred for competition or for hunting Cows can be bred to increase muscle mass or milk production

Examples of Selective Breeding Dogs are a good example of selective breeding. Gamekeepers who hunted birds for leisure in the 1800s wanted a dog that didn’t actually exist. So, they selectively breed a mastiff and a bulldog to get the qualities that they wanted. Mastiffs were big, strong & good companions, but they lacked in speed and aggression. The bulldog however was aggressive and fast but lacked in strength. The selective breeding process eventually produced a bullmastiff which was large, quick, strong, & aggressive

Bullmastiff Big, strong & good companion (not aggressive or fast) Aggressive & fast (not big & strong) When selective breeding these 2 dogs, we get a Bullmastiff Large, quick, strong & aggressive dog

Example of Selective Breeding in Cattle Brahman cattle: good resistance to heat, but poor meat English shorthorn cattle: good beef, but poor heat resistance When selecting to breed these 2 animals we get a Santa Gertrudis cattle Result = good beef AND resistant to heat

Selective Breeding in Crops

Selective Breeding of Lions & Tigers: LIGER Ligers are the world’s biggest cats Larger than their parents with the strength of a lion and speed of a tiger combined An average male liger stands almost 12ft on its hind legs & weigh up to half a ton (twice the weight of a wild lion or tiger)

How did the liger appear? If the father is a lion & the mother is a tiger, the offspring are known as ligers and the pairing results in gigantism Strong but lacks speed Fast but not as strong Ligers are fast & strong & twice as big as parent

Why do people selectively breed animals & plants? To make animals grow bigger, faster, prettier & stronger To make plants grow bigger, faster, prettier & produce more crops

Pros of Selective Breeding Benefits: Farmers can produce crops with higher yield More fruit or vegetables on a stalk Farmers can produce animals that grow more meat, more milk, more eggs, faster & stronger Can produce friendlier and prettier pets

Cons of Selective Breeding Disadvantages: Loss of genes in a population By not allowing some animals to breed, their genes could be lost forever in a population Take Hitler for example, he tried to kill all Jews, therefore, trying to eliminate the genes and all Jews from the planet Animal discomfort Farmers breed cows to have large utters, so now some cows have difficulty walking & have health problems Some chickens are too heavy to stand, so they have to lay down all the time Can lead to inbreeding In order to create a certain type of animal through selective breeding, sometimes brothers & sisters of a population will mate to pass on favorable traits, and this can lead to bad health problems for children of inbreeding

Bellwork 1/6 Define selective breeding.

Classwork 1/6 With a partner, come up with at least 5 specific examples of selective breeding. IF YOU FINISH BEFORE I CALL TIME, YOU NEED TO COME UP WITH MORE UNTIL I TELL YOU TO STOP.

GENETIC ENGINEERING Genetic engineering is a lot like selective breeding but a much faster process Definition: taking favorable genes from one organism and implanting it into another organism’s DNA This can only be done in a laboratory with special equipment

Examples of Genetic Engineering People have taken the insulin making gene from humans and inserted it into bacteria causing bacteria to make human insulin Why? Bacteria can reproduce quickly causing them to produce insulin at a much faster rate

Examples of Genetic Engineering People have taken bad genes (genes which cause cancer and other diseases) out of a person and inserted healthy genes into a person to cure them of diseases However, they may be cured of that disease but get another worse disease because of being implanted with the other gene

Examples of Genetic Engineering People have taken a weed resistant gene and inserted the gene into certain crop plants Now farmers can spray weed killer on the crops to kill the weeds, but the spray will not affect the crops. The crops will grow better and bigger because weeds do not take away sunlight, nutrients, and water However, this gene has leaked over into the weed population sometimes and caused the weeds to be resistant to herbicides (weed killer spray)

Examples of Genetic Engineering People have inserted genes into crops to make the crops resistant (poisonous) to pests, but are harmless to humans (we think)

Genetically Engineered Fish We have inserted genes into fish to make them grow twice as big and twice as fast

Genetically Engineered Chickens We have inserted genes into chickens to make them grow twice as big and twice as fast. They are so big they can’t walk.

Genetically engineered crops Humans have injected genes into crops to make them grow in colder environments Humans have injected genes into crops to make them grow in dry (drought) environments

Genetically Engineered Pigs Humans inject genes into pigs’ DNA in order for the pig to grow human-like organs, so people can transplant these organs into people who need them

Genetically Engineered Mice Humans inject genes into mice to make the mice grow human ears for cosmetic purposes

Genetically Engineered Vaccines Genetically engineered vaccines may be safer because they do not use live viruses like traditional vaccines do

Genetic Engineering Genetic engineering may work wonders but it is all a process of manipulating the natural

The Pros & Cons of Genetic Engineering

Pros Include: Humans have made crops with better taste, nutrition, and growth rate Humans have made pest resistant crops and crops with longer shelf life Humans have been able to produce new foods Foods which couldn’t be reproduced in nature Humans can help cure certain disease Boosts positive traits and suppress negative ones

Cons Include: By making plants bigger, taste better, and better appearance we have accidentally made some crops allergenic to people By making plants bigger, taste better, and better appearance we have accidentally made some crops have less nutritional value Accidental gene transfer Such as when we inserted genes into crops to make them resistant to pest or herbicides, the genes leaked over into weeds and made them resistant to pest and herbicides too

Cons Include: Genetic engineering in human beings can have certain side effects While treating one defector disease, the genetic engineering may lead to another disease which could be worse What’s next? Will people try to insert genes into babies to have children which are smarter, muscular, prettier, certain color eyes, certain color hair, and talented Playing God…

Quiz Define selective breeding. List 3 examples of selective breeding. List 2 benefits of selective breeding. List 2 disadvantages of selective breeding. Define genetic engineering. List 3 examples of genetic engineering. List 2 benefits of genetic engineering. List 2 disadvantages of genetic engineering.

Bellwork 1/7 List benefits and disadvantages of selective breeding. List benefits and disadvantages of genetic engineering.