DNA/RNA/Proteins
This is an overly simplified view of replication, omitting (that means 'leaving out') stuff you don't need to know, yet. (If you REALLY want to know they are: the use of primers, polymerase I and II, and primers to form Okazaki fragments on the lagging strand.)
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Remember, any question I ask on an exam/quiz can be from the material above and anything we covered in class.
I also reserve the right to take things from the book and you should read the book as part of the learning process, taking notes from it as well as from me in class.
Make sure you read:
pg. 48-67 Ch. 3 Cells & Organelles
pg. 188-221 Ch. 9 & 10 DNA/RNA/Protein
I also reserve the right to take things from the book and you should read the book as part of the learning process, taking notes from it as well as from me in class.
Make sure you read:
pg. 48-67 Ch. 3 Cells & Organelles
pg. 188-221 Ch. 9 & 10 DNA/RNA/Protein
Mitosis (Cell Division)
Make sure you read:
pg. 116-133 Ch.6 Mitosis & Cell Division
pg. 116-133 Ch.6 Mitosis & Cell Division
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passive_transport.pptx | |
File Size: | 670 kb |
File Type: | pptx |
This Sodium-Potassium Pump is a perfect example of active transport.
This is a good GENERIC view of active transport. Just remember, with active you need energy because you are going from low concentration TO high concentration.
Make sure you read:
pg. 92-110 Ch.5 Photosynthesis & Cellular Respiration
pg. 92-110 Ch.5 Photosynthesis & Cellular Respiration