| A | B |
|---|
| Chlorophyll | The famous or infamous enzyme that drives the photosynthesis factory |
| Grana | The fist stage of photosynthesis takes place in this structurre which is a stack of thylakoids. |
| Water | Produced as a waste product during the third stage of respiration and will be used at the thylakoids during photosynthesis. |
| Light reaction | The first stage of of the process that "reverses" entropy. |
| Hydrogen | The dumb atom that is lighter than air, is explosive and cannot find its way arond the cell without having an "escort" to show them the way. |
| NADH2 | For every one of these the cell can make 3 ATP's. |
| Carbon Dioxide | Produced during the first and second stages of respiration and needed for photosynthesis. |
| Electron Transport System(ETS) | The stage of respiration that produces "mega" energy packets known as ATP. |
| ATP | The "energy currency" of the cell. |
| Aerobic | The term/classification applied to anything that requires oxygen. |
| Dark Reaction | Teh second stage of the process that reverses entropy . |
| Replication | The process where the cell has to copy the "whole recipe book". |
| Glucose | Produced during the dark reaction and needed for "glucolysis". |
| Nucleotides | DNA and RNA are made up from these repeating units. |
| Stroma | Carbon dioxide fixation occurs here during the dark reaction. |
| Nucleic Acids | Adenine, thymine, cytosine guanine, uracil. |
| Respiration | The process that supplies all of the cells energy demands. |
| Deoxyribose | This 5 carbon sugar bonds to the nucleic acid thymine. |
| Glucolysis | This stage that increases entropy takes place in the cytoplasm |
| Two | The amount of energy packets invested during the first stage of respiration |
| Phorphoric acid | The component (part) of a chain of nucleotides that bonds to the sugars together. |
| Lactic Acid | An accumulation of this results when you cannot supply your cells with enough oxygen which causes you to become fatiqued. |
| Thymine | Uracil takes its place in an RNA molecule. |
| Ethyl | Yeast will produce this waste if oxygen is not present. |
| Amino Acid | The monomers that are brought to the ribosomdes during translationh by the "stock boys" (T-RNA) during protein synthesis. |
| Mitochondrion | The cell organelle that is responsible for energy transformations. |
| Oxygen | Combines with the "freed" hydrogen atoms during electron transport. |
| Krebs/Citric acid cycle | A hydrogen carrier molecule that when "converted" into ATP will result in the formation of 2 ATP molecules for each one of these. |
| Diffusion | The "means' by which the ingredients needed for replicatioon, trnaslation, transcription, respiration, and photosynthesis enter the cells. |
| Diet | The "source" for the raw materilas that are brought to the ribosome during translation. |
| pyruvic acid | Produced during the first stage of respiration and needed for the second stage. |
| Active | The process of cellular transport that requires an "expenditure" of energy. |
| FADH2 | A hydrogen carrier molecule that when "converted" into ATP will result in the formation of 2 ATP molecules. |
| Ribosomes | Where the "recipe or bluepring" for a protein will be brought in oreder to be translated. |
| Chromosomes | Contains all of the information for a cell's activiities. |
| M-RNA | Carries the the "recipe or blueprint" for a protein from the nucleus out to the "kitchen" (ribosome) |
| T-RNA | The carrier jolecule that bings the ingredients (amino acids) to the ribosome during protien synthesis. |
| Amino Acid | Will be subjected to the process of dehydration synthesis at the ribosomes during translation. |
| Nucleus | Where the "recipes or blueprints" are located. |
| Translation | The process where the "recipe or blueprint" is interpreted in order to make a protein. |
| Cell Division | The "reason or purpose" for DNA replication. |
| Photosynthesis | The "process" responsible for supplying the organic nutrient necessary for the the production of the only type of energy (ATP) that the cell use. |
| 504 | The number of the biology room next door. |
| Entropy | The measure of disorder or another way of lookiing at it, order (In relationto energy) |
| Photosynthesis | The process that reverses entropy. |
| Protein synthesis | The process responsible for building enzymes, cellorganelles, etc... needed by the cell. |
| Hydrolysis | The process that has to occur before starches, lipids, and proteins cna enter the cell. |
| Dehydration synthesis | The porcess that monomers will be subjected to in order to make a polymer. |
| TTT | Would transcribe into AAA |
| Anti-Codon | What aligns up against a sequence of 3 nucleotides on M-RNA. |
| Replication | The process responsible for supplying an extra set (complete) of genetic information (blueprints or recipes.) |
| Respiration | The process that supplies usuable energy for all of the cells activities. |
| Diffusion | The process that monomers will use in ordertoenter or leave the cell. |
| CAT | The antii-codon would be CAU |
| T-RNA | Reads (decodes)the message on M-RNA. |
| monomer | In order to fit into the cell, large molecules have to be changed into this simplier form. |
