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Now that everyone's school year is coming to an end a lot of us are going to be faced with those dreaded exams, which we all know take a lot of revision and a pain in the arse amount of thought involved. So I have devised an idea that could possibly, if not probably help you with your revision.
Apparently, by reading alone you remember 10% of your revision and that is short term memory. With writing questions, it is apparently 20-30% of the course remembered. Finally, a whopping great 70% of what you revised can be remembered (and in long term basis) by explaining or teaching people what you are revising.
So it was my idea that people could type up in this thread an explanation of their course. Other people could then give feedback on how easy it was to understand and if someone else knows more on that subject or course and can correct mistakes, they could post replies.
Oh and on a further note, please state the level of education that course is on (plus age groups and ranges). In England examples of this would be GCSE (14-16 years old) and A Levels (16-18 years - Split into AS for 16-17 and A2 for 17-18). This is providing you don't do courses a year early or retake a year. I don't know what it's like for others world wide, maybe you could tell us?
So an example of this would be (from my A2 course 17-18 years) genetic engineering where DNA is transferred into bacteria:
This will cover how the human insulin gene has been inserted into bacteria so that it can be produced. The bacteria is known as a transgenic bacterium after the gene has been inserted into it.
1) The mRNA (messenger RNA or ribonucleic acid - used to copy small sections of DNA so a protein can be made) for the insulin gene has to be found.
2) An enzyme known as reverse transcriptase is added to the mRNA for the human insulin gene. This enzyme makes a complementary code to the mRNA in the form of DNA (deoxyribonucleic acid). The code of the mRNA is converted or translated back into DNA in other words.
The DNA is ready and we shall move on to step 3.
3) An enzyme known as restriction endonuclease (an enzyme that cuts up certain base sequences - sections of DNA) is added to the DNA. The cut up ends produced are known as 'sticky ends' (this because they are reactive and are capable of making bonds).
4) The same enzyme is added to a plasmid (circles of DNA found in bacteria) taken from a bacteria and this cuts up the same base sequences.
We now have the cut up Human Insulin gene and plasmid sections so that the Human Insulin gene can be added to the bacteria's plasmid. Now to step 5:
5) The Human Insulin gene and the plasmid are added together. They are connected at the 'sticky ends' using an enzyme called Ligase. Ligase is an enzyme that helps the joining of large molecules by bonds.
6) The plasmid is added to a culture of bacteria (a group of them in a petri dish for example). Also some calcium based salts are added (this helps speed up the process of bacteria taking up plasmids). Some bacteria may take up the plasmid by transformation (the name of the process).
7) The plasmid is copied or replicated within the bacteria, changing its own genetic make up and many more plasmids are formed.
8) Other bacteria can get the plasmid by multiplication (where the bacteria reproduces asexually - gives birth on its own) and conjugation (where bacteria connect to each other using a tube and take some of the DNA and both bacteria copy it). If the first bacteria with the plasmid died, other bacteria could gain the gene by 'transduction' (eating the dead bacteria to get its DNA).
This way lots of bacteria now have the human insulin gene and can produce perfect human insulin. This is what is used to help diabetics around the world.
Now you can get the picture of what I mean, this kind of stuff may just help you during exams. Enjoy this thread guys!
Eddie
wish my exams are as easy as that >: ~ Marshall
Apparently, by reading alone you remember 10% of your revision and that is short term memory. With writing questions, it is apparently 20-30% of the course remembered. Finally, a whopping great 70% of what you revised can be remembered (and in long term basis) by explaining or teaching people what you are revising.
So it was my idea that people could type up in this thread an explanation of their course. Other people could then give feedback on how easy it was to understand and if someone else knows more on that subject or course and can correct mistakes, they could post replies.
Oh and on a further note, please state the level of education that course is on (plus age groups and ranges). In England examples of this would be GCSE (14-16 years old) and A Levels (16-18 years - Split into AS for 16-17 and A2 for 17-18). This is providing you don't do courses a year early or retake a year. I don't know what it's like for others world wide, maybe you could tell us?
So an example of this would be (from my A2 course 17-18 years) genetic engineering where DNA is transferred into bacteria:
This will cover how the human insulin gene has been inserted into bacteria so that it can be produced. The bacteria is known as a transgenic bacterium after the gene has been inserted into it.
1) The mRNA (messenger RNA or ribonucleic acid - used to copy small sections of DNA so a protein can be made) for the insulin gene has to be found.
2) An enzyme known as reverse transcriptase is added to the mRNA for the human insulin gene. This enzyme makes a complementary code to the mRNA in the form of DNA (deoxyribonucleic acid). The code of the mRNA is converted or translated back into DNA in other words.
The DNA is ready and we shall move on to step 3.
3) An enzyme known as restriction endonuclease (an enzyme that cuts up certain base sequences - sections of DNA) is added to the DNA. The cut up ends produced are known as 'sticky ends' (this because they are reactive and are capable of making bonds).
4) The same enzyme is added to a plasmid (circles of DNA found in bacteria) taken from a bacteria and this cuts up the same base sequences.
We now have the cut up Human Insulin gene and plasmid sections so that the Human Insulin gene can be added to the bacteria's plasmid. Now to step 5:
5) The Human Insulin gene and the plasmid are added together. They are connected at the 'sticky ends' using an enzyme called Ligase. Ligase is an enzyme that helps the joining of large molecules by bonds.
6) The plasmid is added to a culture of bacteria (a group of them in a petri dish for example). Also some calcium based salts are added (this helps speed up the process of bacteria taking up plasmids). Some bacteria may take up the plasmid by transformation (the name of the process).
7) The plasmid is copied or replicated within the bacteria, changing its own genetic make up and many more plasmids are formed.
8) Other bacteria can get the plasmid by multiplication (where the bacteria reproduces asexually - gives birth on its own) and conjugation (where bacteria connect to each other using a tube and take some of the DNA and both bacteria copy it). If the first bacteria with the plasmid died, other bacteria could gain the gene by 'transduction' (eating the dead bacteria to get its DNA).
This way lots of bacteria now have the human insulin gene and can produce perfect human insulin. This is what is used to help diabetics around the world.
Now you can get the picture of what I mean, this kind of stuff may just help you during exams. Enjoy this thread guys!
Eddie
wish my exams are as easy as that >: ~ Marshall
One day, I shall become, TUTORIAL-MAN: Superhero of writing overly long, overly annoying tutorials which most people probably won't read, but will give it a stab at the first 5 lines!
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